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EP3046793A1 - Hybrid module for motor vehicle transmission assembly - Google Patents

Hybrid module for motor vehicle transmission assembly

Info

Publication number
EP3046793A1
EP3046793A1 EP13786522.6A EP13786522A EP3046793A1 EP 3046793 A1 EP3046793 A1 EP 3046793A1 EP 13786522 A EP13786522 A EP 13786522A EP 3046793 A1 EP3046793 A1 EP 3046793A1
Authority
EP
European Patent Office
Prior art keywords
module according
stator
clutch
rotor
electric machine
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP13786522.6A
Other languages
German (de)
French (fr)
Inventor
Gilles Lebas
Vincent CORNET
Fabien LEBEAU
Christophe Mollier
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Valeo Electrification
Original Assignee
Valeo Equipements Electriques Moteur SAS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Valeo Equipements Electriques Moteur SAS filed Critical Valeo Equipements Electriques Moteur SAS
Publication of EP3046793A1 publication Critical patent/EP3046793A1/en
Pending legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K6/00Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00
    • B60K6/20Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs
    • B60K6/42Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by the architecture of the hybrid electric vehicle
    • B60K6/48Parallel type
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K6/00Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00
    • B60K6/20Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs
    • B60K6/22Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by apparatus, components or means specially adapted for HEVs
    • B60K6/26Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by apparatus, components or means specially adapted for HEVs characterised by the motors or the generators
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K6/00Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00
    • B60K6/20Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs
    • B60K6/22Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by apparatus, components or means specially adapted for HEVs
    • B60K6/38Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by apparatus, components or means specially adapted for HEVs characterised by the driveline clutches
    • B60K6/387Actuated clutches, i.e. clutches engaged or disengaged by electric, hydraulic or mechanical actuating means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K6/00Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00
    • B60K6/20Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs
    • B60K6/22Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by apparatus, components or means specially adapted for HEVs
    • B60K6/40Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by apparatus, components or means specially adapted for HEVs characterised by the assembly or relative disposition of components
    • B60K6/405Housings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16DCOUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
    • F16D25/00Fluid-actuated clutches
    • F16D25/08Fluid-actuated clutches with fluid-actuated member not rotating with a clutching member
    • F16D25/082Fluid-actuated clutches with fluid-actuated member not rotating with a clutching member the line of action of the fluid-actuated members co-inciding with the axis of rotation
    • F16D25/087Fluid-actuated clutches with fluid-actuated member not rotating with a clutching member the line of action of the fluid-actuated members co-inciding with the axis of rotation the clutch being actuated by the fluid-actuated member via a diaphragm spring or an equivalent array of levers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60KARRANGEMENT OR MOUNTING OF PROPULSION UNITS OR OF TRANSMISSIONS IN VEHICLES; ARRANGEMENT OR MOUNTING OF PLURAL DIVERSE PRIME-MOVERS IN VEHICLES; AUXILIARY DRIVES FOR VEHICLES; INSTRUMENTATION OR DASHBOARDS FOR VEHICLES; ARRANGEMENTS IN CONNECTION WITH COOLING, AIR INTAKE, GAS EXHAUST OR FUEL SUPPLY OF PROPULSION UNITS IN VEHICLES
    • B60K6/00Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00
    • B60K6/20Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs
    • B60K6/42Arrangement or mounting of plural diverse prime-movers for mutual or common propulsion, e.g. hybrid propulsion systems comprising electric motors and internal combustion engines ; Control systems therefor, i.e. systems controlling two or more prime movers, or controlling one of these prime movers and any of the transmission, drive or drive units Informative references: mechanical gearings with secondary electric drive F16H3/72; arrangements for handling mechanical energy structurally associated with the dynamo-electric machine H02K7/00; machines comprising structurally interrelated motor and generator parts H02K51/00; dynamo-electric machines not otherwise provided for in H02K see H02K99/00 the prime-movers consisting of electric motors and internal combustion engines, e.g. HEVs characterised by the architecture of the hybrid electric vehicle
    • B60K6/48Parallel type
    • B60K2006/4825Electric machine connected or connectable to gearbox input shaft
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60YINDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
    • B60Y2400/00Special features of vehicle units
    • B60Y2400/42Clutches or brakes
    • B60Y2400/424Friction clutches
    • B60Y2400/4242Friction clutches of dry type
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60YINDEXING SCHEME RELATING TO ASPECTS CROSS-CUTTING VEHICLE TECHNOLOGY
    • B60Y2400/00Special features of vehicle units
    • B60Y2400/48Vibration dampers, e.g. dual mass flywheels
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16DCOUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
    • F16D2300/00Special features for couplings or clutches
    • F16D2300/22Vibration damping
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/62Hybrid vehicles

Definitions

  • the invention relates to a hybrid module for a transmission assembly for a motor vehicle interposed between the heat engine and the vehicle gearbox.
  • Transmission transmission assemblies for a motor vehicle with a gearbox comprising a clutch, a device for disengaging the clutch, a reversible rotary electric machine with a rotor having a central opening, an intermediate shaft between the clutch and the rotor of the electric machine, said shaft carrying at the front the disengaging device and penetrating into the central opening of the rotor.
  • the object of the present invention is to facilitate the manipulation of the hybrid module.
  • a hybrid module for transmission assembly for a motor vehicle with gearbox comprising a clutch, a device for disengaging the clutch, a reversible rotary electric machine provided with a rotor, an intermediate shaft between the clutch and the rotor of the electric machine, characterized in that it comprises a support provided with an internal separation web between the electric machine and the clutch, in that the web has at its inner end a penetrating axial sleeve inside the rotor of the machine and crossed by the intermediate shaft and in that the disengaging device comprises a body held in place by a retaining ring of the disengaging device penetrating into the sleeve and provided with at least one web fastening tab.
  • the disengaging device becomes captive before assembly of the hybrid module on the casing of the engine of the motor vehicle.
  • the disengaging device is in an embodiment of the concentric hydraulic type.
  • the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of between 0.5 and 2 per phase and per pole.
  • 6 x 12 x 2 144 notches.
  • the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a certain number of poles and phases, said notches being formed in the stator at a ratio of one half per phase and per pole.
  • a stator which comprises notches configured to collect a stator winding, said stator winding comprising a certain number of poles and phases, said notches being formed in the stator at a ratio of one half per phase and per pole.
  • the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of two per phase and per pole.
  • a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of two per phase and per pole.
  • the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a report of one per phase and per pole.
  • a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a report of one per phase and per pole.
  • the rotor is provided with a central opening.
  • said shaft carries the disengagement device and enters the central opening of the rotor,
  • the end of the ring which enters the sleeve has a bearing flange on the body of the disengagement device [015]
  • the sleeve has a bottom hole with a central hole. for the passage of the tree and the support of the body.
  • the flange is inclined axially to exert a preload on the body of the release device and urge it in contact with the bottom of the sleeve.
  • the retaining ring has a notch or an appendix for cooperation with respectively an appendage or notch belonging to the body of the disengaging device for rotational locking of said body.
  • the holding ring has a passage for a supply pipe of the hydraulically controlled stop.
  • the web of the support comprises a retaining recess of said supply pipe.
  • the disengaging device is hydraulically controlled and comprises a body resting on the bottom of the sleeve and a stop for action on the friction clutch.
  • the concentric disengagement device of the hydraulic type comprises two parts in piston cylinder relationship, namely a fixed portion, defining a blind annular cavity axial orientation, and a piston mounted axially movable relative to the fixed portion and carrying a release stop.
  • the fixed part of the hydraulic disengagement device comprises two coaxial parts, namely, an outer body surrounding a metal guide tube longer axially than the outer body and in that the bottom of the cavity is delimited by a transverse flange belonging to the guide tube assembled to the outer body.
  • the guide tube has in section a U-shaped assembled by snapping to the body, having for this purpose at its free end a plurality of elastically deformable tabs in the form of hooks penetrating into recesses of the guide tube .
  • the recesses are made in the outer branch of the U-shaped section guide tube, said outer branch being shorter than the inner branch of the U.
  • the sleeve has a first axial portion and a second axial portion of reduced diameter relative to the first portion for mounting a bearing, such as a ball bearing, of rotation of the shaft.
  • the first axial portion and the second axial portion extend on either side of the bottom.
  • the retaining ring has three fixing lugs and is stamped sheet.
  • Figure 1 is a half axial sectional view of the transmission assembly for a motor vehicle according to the invention using a rotor support hub having an inner flange for attachment to the intermediate shaft and to one of the guide washers of the torsion damper.
  • Figure 2 is a partial view in axial section showing the rotating and reversible electrical machine, as well as the torsion damper and the intermediate shaft of the transmission assembly for a second embodiment using a hub rotor support provided with a protective dust shield of the electric machine attached to one of the guide washers of the torsion damper.
  • Figure 3 is a view similar to Figure 2 showing a variant of Figure 2 with magnetic cap to collect metal particles from the particular torsion damper.
  • Figure 4 is a perspective view showing an embodiment of the stator of the reversible rotating electrical machine in the form of an alternator-starter.
  • Figure 5 is a perspective view showing an embodiment of the stator cooling channel of the pipe-shaped electrical machine.
  • Figures 6 and 7 are partial views of one of the sheets of the rotor plate package equipped with permanent magnets for two embodiments.
  • Figure 8 is a partial front view of the stator and rotor of the rotating electrical machine for yet another embodiment.
  • Figure 9 is a perspective view of one of the coils of Figure 4 with its coil insulator in the deployed position before mounting on the relevant tooth of the stator.
  • Figure 10 is a partial view on a larger scale of Figure 2.
  • Figure 1 1 is a perspective view of the dust flange of Figures 2 and 3.
  • Figure 12 is a perspective view of the support of the hybrid module of the transmission assembly according to the invention showing the rear face of the transmission assembly and the end of the supply pipe of the stop of hydraulically controlled clutch and the magnetic plug of Figure 3.
  • Figure 13 is a view similar to Figure 12 for another alternative embodiment of the support of the hybrid module.
  • Figure 14 is a view similar to Figure 13 showing the front face of the transmission assembly according to the invention.
  • Figure 15 is a perspective view of the magnetic plug of Figure 3.
  • Figure 16 is a perspective view of the retaining ring of the hydraulically controlled release clutch of Figure 1.
  • Figure 1 shows a transmission assembly 1 for a motor vehicle interposed between the gearbox 53 and the heat engine 52 of the motor vehicle.
  • This assembly 1 comprises a clutch 9, a disengagement device 3 of the clutch 9, a reversible rotary electric machine 4 provided with a rotor 5 provided with a central opening, an intermediate shaft 6 between the clutch 9 and the rotor 5 of the electric machine 4, said shaft carrying the disengaging device 3 and penetrating into the central opening of the rotor 5.
  • the assembly 1 is a motion transmission assembly between the crankshaft of the heat engine 52 and the body of the movement input 54 of the gearbox 53.
  • the axis XX of the shaft 6 constitutes the axis of rotation of the assembly 1.
  • the radial, axial and transverse terms are to be considered with respect to the X-X axis.
  • the faces of the parts turned toward the heat engine 52 will be said front face, while the faces of the parts turned towards the gearbox 53 will be said back side.
  • the front end of a workpiece is thus turned towards the motor 52, while the rear end of a workpiece is turned towards the gearbox 53.
  • the intermediate shaft 6 carries the release device at the front. 3 and the rear, according to one feature, a torsion damper 8.
  • the gearbox 53 is in one embodiment an automatic gearbox.
  • the automatic gearbox 53 comprises, in a conventional manner, comprises cascade epicyclic gear trains. By securing, by means of clutches or brakes, certain parts of these trains, different transmission ratios are obtained. The selection of a report then depends only on a combination of order of the control pistons. As a result, there is no dog clutch to drive.
  • a high-pressure hydraulic pump, integrated in the box and driven directly by the engine, is responsible for providing energy for the hydraulic actuators needed for clutches and brakes.
  • the automatic transmission comprises at the input in one embodiment a torque converter.
  • the input member 54 of the gearbox is in one embodiment the input shaft of the gearbox. Alternatively it consists of a driver connected in known manner by elastically deformable tongues to the casing of the torque converter carrying the impeller of the latter. Alternatively the input member 54 consists of a driver connected by a splined connection to the casing of the torque converter.
  • the automatic gearbox is a continuously variable transmission (CVT), such as a transmission having two variable pulleys and a lap belt intervening between the two pulleys.
  • CVT continuously variable transmission
  • the automatic gearbox is a controlled and robotic gearbox, such as a double clutch gearbox as described for example in US 201 1/0259698 which will be referred to.
  • the motion transmission assembly 1 comprises a dry friction clutch 9 having a reaction plate 91.
  • the clutch 9 is a friction clutch, which runs dry and the transmission assembly 1 comprises, at the front, a double damping flywheel 7 and, at the rear, a torsion damper 8.
  • the rotor 5 of the electric machine 4 is fixed to the torsion damper 8.
  • the double damping flywheel 7 is configured to be fixed at the front on the crankshaft of the engine of the vehicle and to form the reaction plate 91 of the dry friction clutch 9.
  • the torsion damper 8 is configured to be rotatably connected to the input member 54 of the gearbox 53.
  • the member 54 is the input shaft of the automatic gearbox.
  • the damper 8 comprises, in a conventional manner, at least two coaxial parts mounted movable relative to each other against circumferential action elastic means, such as coil springs 87 better visible in FIGS. 12 and 13.
  • One of the coaxial parts comprises a web 81 and the other part two guide washers 82, 83 arranged on either side of the web 81.
  • the washers 82, 83 and the web 81 are metallic so that particles metal may become detached and pollute the electric machine 4.
  • Friction means may be provided between the two coaxial parts as can be seen for example in Figure 1 of DE 101 03 795. Non-metallic particles may be detached and also pollute the machine 4.
  • a characteristic of the anti-dust means such as the flange 63 of Figures 2 and 3, are provided as described below.
  • the web 81 is fixed rigidly in the figures, an inner hub 84 grooved engaging with complementary splines that has the input member 54 of the gearbox.
  • the front guide ring 83 the closest to the rotor 5, is configured, as described below, to be connected in rotation to the rotor 5.
  • the web 81 and the washers 81, 82 have housings for elastic members.
  • the web 81 has windows for housing the resilient members 87
  • the guide washer 83 closest to the rotor 5 said first guide ring, has punctures for housing the members 87 and the other washer of guide 82
  • said second guide ring has housing of the housing windows 87.
  • the second guide washer also has punctures.
  • the first washer 83 has windows. It will be appreciated that the punctures prevent the dust from polluting the rotor 5.
  • the second guide ring 82 has axially oriented peripheral tabs extending outside the web 81 for assembly with the first washer 83.
  • the legs can be fixed by crimping with the first washer ( Figure 1).
  • Figures 2 and 3 the tabs have at their free end a radial flange for fixing by riveting with the washer 83.
  • the rivets allow the assembly of the washers with the flange 63.
  • the solution is economical because it uses a double torsion damping flywheel 7, a dry friction clutch 9 and a torsion damper 8, which may be large series components.
  • the radial size of the rotating electrical machine 4 can be reduced because it is located axially between the damper 8 and the double torsion damping flywheel assembly 7-friction clutch 9, which may be a conventional clutch diaphragm.
  • a diaphragm clutch comprises a pressure plate, a reaction plate, a friction disk having at its outer periphery friction linings intended to be clamped between the pressure and reaction plates under the action of a diaphragm bearing on a lid secured to the pressure plate.
  • the pressure plate is connected to the lid by tangential tongues allowing axial movement of the pressure plate relative to the lid.
  • the lid-pressure plate-diaphragm assembly is called a clutch mechanism.
  • the friction disc may belong to a torsion damper comprising in the aforementioned manner at least at least two coaxial parts movably mounted relative to one another against elastic means with circumferential action.
  • One of the coaxial parts may comprise a web and the other part two guide rings disposed on either side of the web.
  • the friction disc may be integral for example with one of the guide washers.
  • the web may be integral with an internally splined hub to be rotatably connected to the intermediate shaft 6 having for this purpose complementary splines.
  • the friction disc 93 may be rigid, that is to say do not present a torsion damper.
  • This disc 93 may have at its outer periphery friction linings (not referenced) disposed on either side of the disc 93.
  • This disc 93 may be configured to present at its outer periphery elastically deformable portions for progressively clamping the friction liners between the reaction plate 92 and the pressure plate belonging to the clutch mechanism 91.
  • the disk 93 may be fixed at its inner periphery, for example by riveting, to a hub 94 in the form of an internally corrugated L to be rotatably connected to the intermediate shaft 6 having for this purpose complementary splines.
  • the clutch mechanism 91 may be of the type described in FR 2 473 140 to which reference will be made.
  • the diaphragm has a peripheral portion in the form of a Belleville washer extended inwards by a plurality of fingers.
  • Assembly means pivotally securing said diaphragm to said cover. These means, such as columns or lugs through the diaphragm at the inner periphery of the Belleville washer. These means bear a secondary support facing a primary support such as a stamped lid or a ring.
  • These means may include a wear compensating device as described in DE 101 03 795. Elastically deformable tongues connect the lid to the pressure plate.
  • the friction clutch 9 is a diaphragm clutch comprising a reaction plate belonging to the double damping flywheel and a clutch mechanism 91 comprising a first generally annular part, called a cover, a second generally annular part, so-called diaphragm, which has a peripheral portion Belleville washer and a central portion fragmented radial fingers, assembly means pivotally securing said diaphragm to said cover, and a third annular piece, said pressure plate, which is integral in rotation with cover while being movable axially relative thereto, and on which the diaphragm carries by its peripheral portion forming Belleville washer.
  • a clutch mechanism is adapted to be attached to the reaction plate of the double damping flywheel 7 with insertion, between the reaction plate and the pressure plate, a friction disc, solidaire in a rigid or elastic rotation of the intermediate shaft 6.
  • a clutch device 3 is able to act on the radial fingers of the diaphragm, for release control of the clutch, which is normally engaged, the pressure plate clamping the friction disk against the reaction plate under the solicitation the Belleville washer peripheral portion of the diaphragm.
  • To disengage the clutch must act in this embodiment, by pushing axially on the fingers of the diaphragm using the device 3 to tilt the diaphragm.
  • the device 3 is in the embodiments shown devoid of declutching fork for reducing the axial size of the assembly.
  • the device 3 is of the concentric type being traversed by the intermediate shaft 6.11 has a release stop 35.
  • the release stop 35 may belong to a concentric disengagement device with cable control, this stop being then mounted on a driven part movable in translation and fixed in rotation, said part being in screw relation nut with a driving part fixed in translation and mobile in rotation.
  • the driving part carries a pulley on which the control cable is wound.
  • the clutch release 35 belongs to a concentric disengagement device with electrical control.
  • the clutch release 35 belongs to a concentric disengagement device with hydraulic control.
  • the concentric disengaging device of the hydraulic type comprises two parts in piston cylinder relation, namely a fixed part delimiting an axially oriented blind annular cavity, and a piston mounted axially movable with respect to the fixed part.
  • This piston carries the release stop 35 and enters the cavity to define therewith a working chamber of variable volume, the cavity communicating through a channel with a pipe connected to a master cylinder actuated by a clutch pedal or an electric motor actuator controlled according to predetermined programs by a computer.
  • the working chamber is therefore allowed to be pressurized or depressurized, the control fluid filling said chamber usually being oil.
  • the channel may be hollowed in a web 27 belonging to a support 10 described below.
  • the channel may belong to a pipe 45 carried by the web 27, which may have a hollow for this purpose.
  • the pipe 45 may also be carried by the retaining ring 37 described below.
  • the fixed part of the hydraulic disengagement device 3 may be in one piece moldable material.
  • the fixed part of the hydraulic disengagement device 3 may include, for reducing the radial size, two coaxial parts, namely, an outer body 40 (Figure 1) surrounding a metal guide tube axially longer than the outer body .
  • the bottom of the cavity will be delimited by a transverse flange belonging to the guide tube assembled to the outer body 40 by means of an intermediate connecting piece.
  • a bellows static seal ( Figures 1 to 3) is provided between the body outside and the guide tube carrying at its free end a stop to limit the movement of the piston when the release device 3 is not mounted on the web 27.
  • the guide tube has in section a U-shape snap-fitted to the body 40, having for this purpose at its free end a plurality of elastically deformable tabs in the form of hooks penetrating into recesses of the guide tube (FIG. ). These recesses are made in the outer branch of the U-shaped section guide tube, said outer branch being shorter than the inner branch of the U as shown in FIG.
  • the body 40 may be assembled by riveting with a bottom 29 of a sleeve 28, described below, that has the web 27.
  • the body 40 may be assembled by bayonet fitting with a bottom 29 of a sleeve 28, described below, that has the web 27.
  • the body 40 may be assembled by bayonet mounting on the bottom of the web 27 with shouldered rivets.
  • the body of the disengagement device is held in abutment on the bottom by means of a retaining ring 37 described below.
  • a preload spring acts between the outer body of moldable material and the clutch release 35 to maintain it in support constant on the disengaging means, here the inner end of the fingers of the diaphragm of the clutch 9.
  • the release stop 35 is here of the self-centering type and comprises a ball bearing with a profiled rotating ring for point contact with the inner ends of the fingers of the diaphragm and a non-rotating ring coupled axially to the piston 32, which carries self-centering the abutment 35.
  • a ball bearing with a profiled rotating ring for point contact with the inner ends of the fingers of the diaphragm and a non-rotating ring coupled axially to the piston 32, which carries self-centering the abutment 35.
  • the disengaging device is of the pulled type, the stop acting by pulling on the fingers of the diaphragm, which bears on the primary support of the diaphragm carried by the cover. In this case, there is no provision for secondary support.
  • the double damping flywheel 7 comprises primary and secondary flywheel members, substantially coaxial, rotatable relative to the favor of bearing means, such as a ball bearing visible in Figure 1 or a sliding bearing as shown in Figure 1 of DE 10 201 1 107 144.
  • the primary member is, in known manner, intended to be fixed on the crankshaft of the heat engine 52 with screws visible for example in the DE 101 03 795, DE 201 201 1071 and WO 2010/079273.
  • FIG. 14 we can see a ring pierced centrally and provided with holes for the passage of the fixing screws, the double damping flywheel 7 being of the type described in document WO 2010/079273, to which reference will be made for more details. .
  • This ring belongs to the primary member which comprises a flexible primary flywheel here comprising a flexible sheet metal disc carrying at its outer periphery an inertia disk carrying a toothed gear ring gear, as described hereinafter, with a starter .
  • the secondary member comprises the reaction plate 92 cast iron friction clutch 9. This reaction plate has at its inner periphery a hub for mounting here on the outer ring of the ball bearing interposed between the primary and secondary organ.
  • the elastic means such as coil springs, intervene between the two members in association with a torque limiter.
  • the first damping means comprise at least one curved elastic member extending circumferentially between two first support seats carried by the connecting web.
  • the second damping means comprise at least two groups of elastic members, each comprising at least two straight elastic members arranged in series via an intermediate support member, each group of straight elastic members. extending circumferentially between two second support seats carried by the connecting web, at least one annular phasing member of the straight elastic members, distinct from the connecting web, carrying the intermediate support element of each group. It is also provided a torque limiter and sealing means for the springs. For more precision, reference is made to WO 2010/079273.
  • the machine 4 is a synchronous machine whose rotor 5 is provided with permanent magnets. More precisely, in known manner, for reducing the eddy currents, the rotor 5 comprises a body in the form of a bundle of sheets, one of which is referenced at 61 1, 71 1 and 81 1 respectively in FIGS. 7 and 8.
  • the permanent magnets 602 to 610 are implanted in V in the sheets of the sheet package.
  • the permanent magnets 702 to 705 are surface-mounted at the outer periphery of the plates 71 1 of the plate package.
  • the permanent magnets 803 are implanted radially in the laminations 81 1 of the plate bundle, the rotor being at flux concentration.
  • the permanent magnets are located in associated openings of the sheet package. These openings are extended by orifices not referenced in FIGS. 6 and 7 to reduce the leakage of the magnetic flux.
  • Permanent magnets are in one embodiment of rare earth permanent magnets, for example neodymium boron or Samarium These magnets may contain a greater or lesser proportion of Dysprosium. In another embodiment, the permanent magnets are less expensive ferrite magnets. Several permanent magnets can be mounted in the same opening of the sheet package.
  • the stator 1 1 in this embodiment belongs to a polyphase rotating electrical machine comprising a stator winding having a plurality of concentric coils 19, here preformed, and a neutral point, said neutral of the machine, visible for example in Figure 1 of EP 0 831 580. This stator is compact and powerful from the point of view of the power of the electric machine.
  • This stator is described in the application FR 12/55770 filed on 20/06/2012 to which reference will be made for more details.
  • the coils 19 are interconnected with each other by means of a compact interconnector 22 comprising a plurality of frames, one of which, called a neutral frame, is connected to the neutral of the rotating electrical machine.
  • This stator January 1 comprises an annular body of axis coincident axis coincident with the axis X-X. This body has teeth 14 regularly distributed on the inner periphery and notches 15 open towards the inside, two consecutive notches 15 being separated by a tooth 14.
  • teeth 14 are parallel edges in pairs, a strip of material , corresponding to the yoke 17 existing between the bottom of the notches 15 and the outer periphery of the body 12.
  • the body is formed by a stack of sheets made of ferromagnetic material extending in a radial plane perpendicular to the axis XX.
  • the package of sheets is held by means of rivets (not shown) passing axially through the stack of sheets. This stack reduces eddy currents.
  • FIG. 9 As shown in Figure 9, is mounted on the teeth 14 of the stator preformed coils 19 forming the winding of the stator January 1. These coils 19 are made from a wire wound on several turns.
  • the son consist of an electrically conductive wire, for example a copper wire and / or aluminum, coated with an electrical insulator, such as enamel.
  • the son may be of circular, rectangular or flat-shaped section.
  • two coils 1 9 are implanted in the same notch 1 5, each coil 19 being wound around one of the teeth 14 delimiting the notch via a coil insulator
  • This insulator 20 is an electrical insulator made in this embodiment of electrically insulating and moldable material.
  • each coil 1 9 axially exceed the winding on the same side of the stator January 1 corresponding to the upper side of the stator January 1.
  • the ends 1 91, 192 of the coils 19 are located substantially in the same circumference on the side of the free end of the teeth 14, that is to say on the far side of the yoke 17 and the nearest side the air gap between the inner periphery of the stator and the outer periphery of the rotor that comprises the electric machine.
  • Each coil 19 has a first end 191 called “input” intended to be connected with the other inputs alternately to belong to one of the phases, each having a respective terminal U, V, W, of the machine and a second end 192 called “output” intended to be connected to the neutral of the electric machine.
  • the coils 19 are interconnected to form the different phases using the X-axis compact interconnector 22 coincides with the X-X axis when the interconnector 22 is installed on the stator 1 1 .
  • This interconnector 22 comprises in this embodiment four annular-shaped frames extending in a radial plane.
  • the frames are electrically conductive by being for example copper or advantageously another weldable metal material.
  • These frames have substantially identical internal and external diameters.
  • the external diameter of the frames, substantially corresponding to the external diameter of the interconnector 22, is smaller than the external diameter of the stator 1 1, constituted by the external diameter of the yoke 17, to facilitate an impregnation operation of the coils 1 9 and reduction the diametral bulk.
  • These frames are stacked axially on each other and electrically isolated from each other.
  • Each frame carries on its inner periphery tabs (Not referenced in Figure 4) apparent extending radially inwardly projecting frame for welding ends 191, 1 92 of the coils of stator.
  • the frames are embedded in a body made of electrically insulating material, such as plastics material. A layer of electrically insulating material is present between each frame.
  • One of the frames is intended to be connected to the neutral winding of the electric machine comprising the coils 19 arranged here in a star configuration with a neutral point formed in favor of the neutral frame.
  • This neutral frame is located at one end of the stack of frames, here at the farthest end of the yoke 17. Since each coil 19 has an outlet end 192 connected to the neutral, the neutral frame comprises a number of legs equal to the number of coils 1 9, in this case equal to 15.
  • phase frames are intended to be each connected to the inputs 191 of the coils 19 of the phase concerned the electric machine, here of three-phase type.
  • the number of phase frames can be increased as a function of the number of phases of the machine 4.
  • the number of phase frames is equal to five or six, the machine 4 then being of the pentaphase or hexaphase type.
  • the input ends 91 of the coils 19 are thus alternately connected circumferentially to the phase outputs of the winding of the electrical machine via one of the phase frames of the interconnector 22.
  • each phase frame comprises on its outer periphery a connection terminal for interconnection with a power connector (not shown) itself connected to an inverter described for example in the document EP 0 831 580.
  • the inverter is controlled by signals as in document FR 2 745 444.
  • the rotating electrical machine is a reversible alternator called alternator-starter, which can operate in alternator mode or starter mode.
  • alternator-starter which can operate in alternator mode or starter mode.
  • This machine thus makes it possible to start the combustion engine and to operate in alternator mode, in particular to recharge the vehicle battery and / or to supply energy consumers when the engine is running, the clutch 9 then being engaged.
  • This electric machine is configured to stop the engine, for example at a red light or in traffic jams, and then restart it (Stop and Go function). It makes it possible to prevent the engine from stalling by providing a surplus of power (boost function in English), the clutch 9 being then engaged. It drives the vehicle at least a short distance, the clutch 9 is then disengaged and the engine stopped. It is configured to recover energy when braking the vehicle.
  • the double flywheel has at the front and at its outer periphery a ring gear (not referenced) for meshing with the pinion of a starter.
  • This starter may be complementary to start the motor vehicle in cold weather as described in document FR 2 797 472 to which reference will be made.
  • the connection terminals of the phases U, V, W phases of the machine 4 are configured to be connected to a control and control unit by a connection to cable. It can therefore be provided sensors, such as Hall effect sensors, associated with a magnetic target, such as a magnetic ring, to detect the angular position of the rotor 5.
  • the magnetic ring can be carried by the front face of the rotor 5, while Hall effect sensors can be grouped for example by three being integrated in a sensor holder, which can be worn by sail 27, described below, vis-a-vis the target.
  • the control and control unit may be remote or alternatively carried by a support 1 0 described below. In any case, clutch 9 engaged or disengaged good vibration filtration is obtained through the steering wheel 7 and the damper 8.
  • connection terminals U, W, V placed side by side have a U-shaped end and are the outputs of the coil winding phases 19 of the machine. It will be appreciated that the terminals are simplified because they are part of the frames. These terminals U, V, W are rigid and compact. They can be oriented at will.
  • the legs of the various frames are angularly offset relative to each other.
  • an assembly formed by a leg of one of the phase frames and a tab of the neutral frame intended to be welded on the ends 191, 192 of the same coil 19 is configured to be positioned between the sides of said coil 19 extending between the axial ends of the coil 19.
  • the interconnector 22 comprises in this embodiment two pins 58, only one of which is visible in FIG. allow, during assembly, the indexing of the interconnector 22 relative to the coils 19 to reduce the risk of poor connections between the coils.
  • These indexing pins 58 of axial extension are carried by an outer periphery of the interconnector 22.
  • these pins comprise a base coming from the outer periphery of the interconnector 22 carrying a substantially cylindrical rod. having a beveled free end.
  • These indexing pegs are intended to cooperate with guide systems carried by the coil insulators.
  • These guiding systems are formed by protuberances 56 defining a passage for an indexing pin 58.
  • the interconnector 22 also has support feet 61 intended to rest on a rim of the yoke 1 7 of the stator January 1.
  • These bearing feet 61 have an L shape with one end fixed to the outer periphery of the body in which the frames are embedded and one end terminated by a support 62 resting on the rim of the yoke 17.
  • the support legs 61 are here four in number distributed regularly around the body of the interconnector 22.
  • the support feet 61 allow to maintain the body of the connector 22 above the coils 19 without the body is in contact with the coils 19.
  • the circumferential size of the feet 19 is sufficiently small to prevent the interconnector 22 completely covers the outer periphery of the coils 19, which facilitates the cooling of the stator 1 1 of the the large zone of clearance between two successive support feet 61 and the space between the body of the interconnector 22 and the coils 1 9.
  • the coil insulator 20 is an electrical insulator made here of electrically insulating and moldable material.
  • the insulator 20 has a body having a frame of generally rectangular shape intended to be positioned around a tooth 14 to electrically isolate the coil 19 relative to the tooth 14 metal.
  • This frame (see Figure 9) is formed by a top wall and a bottom wall 242 substantially perpendicular to the X-X axis and two side walls connecting the upper and lower walls therebetween. The side walls are parallel to the axis X of the stator January 1.
  • the body of the insulator 20 comprises ( Figure 9) further a front flange 261 and a rear flange 262 defining with the walls of the frame a mounting groove of the coil 19.
  • the rear flange 262 is intended to be positioned in the vicinity of the yoke 17 while the front flange 261 is located on the free end side of a tooth 14, that is to say on the side of the outer periphery of the rotor (not shown).
  • the body is made here of rigid electrically insulating material for example plastic such as PA 6.6, which may be reinforced by fibers, such as glass fibers.
  • Each flange 261, 262 has two longitudinal edges referenced 281 for the front flange 261. These longitudinal edges form with the side walls the part of the groove receiving the sides of a coil.
  • Each flange 261, 262 also has two edges interconnecting the longitudinal edges of each flange 261, 262. These transverse edges form with the upper and lower walls the portion of the groove receiving the ends of the coils protruding axially from the side and another of a tooth 14 called buns.
  • One of the longitudinal edges of the rear flange 262 is extended by a heel 31; while the other longitudinal edge of the rear flange 262 is extended by a fin 32 via a connecting zone 34 between the fin 32 and the rear flange 262.
  • This connection zone 34 has a thickness less than the thickness of the rear flange 262 of to form a folding zone.
  • the fin 32 is thus foldable in the direction of the body 23 of the coil insulation following the zone 34 of folding which extends longitudinally perpendicular to the upper walls 241 and lower 242. Once folded, the fin 32 constitutes an electrically wall insulation between two successive coils 19.
  • the heels 31 make it possible to reduce the voltage losses between the yoke 17 and the coils 19.
  • the fin 32 is intended to be folded and left free. In this case, when the coil insulators are mounted on the teeth 14, the fin 32 of a given insulator 20 bears against a leading edge 261 of an adjacent coil insulator 20.
  • the fin 32 is fixed by means of a latching system with the longitudinal edge 281 of the front edge 261 located on the side of the fin 32.
  • the latching system may be formed by tabs 361 carried by the longitudinal edge 281 of the front flange 261. These tabs 361 are intended to cooperate by snapping with windows 362 formed in the wall of the fin 32.
  • blind grooves 43 are formed in the faces of the upper walls of the frame facing each other facing inward of the insulator 20, that is to say, respectively turned towards the upper and lower outer faces of the tooth 14.
  • These grooves 43 extend substantially perpendicularly to the front flanges 261 and rear 262.
  • These grooves 43 are closed, that is to say non-emergent, on the side of the front flange 261 to prevent the impregnation varnish sinks in the part internal of the machine at the gap between the rotor and the stator thereof when the varnish is injected from the open end of the grooves 43 located on the side of the cylinder head 17.
  • the inner faces of the upper walls and lower thus have an alternation of grooves 43 and ribs 44 located between two grooves 43 successive.
  • a fastening system ensures a fixing of the coil insulation 20 on the tooth 14.
  • This attachment system is formed by hooking lugs 46 and shallow grooves called “tapping" made in the tooth 14 for snapping lugs 46.
  • the interconnector 22 is fixed on the stator January 1 by welding the legs of the neutral frame and phase frames with the ends 191, 192 of the coils. It is taken from the interconnector 22 in the manner described below.
  • stator winding can be realized from conventional way using corrugated or looped winding.
  • stator winding may use conductors in the form of bars, such as pins, as described in document EP 1 107 433.
  • the teeth 14 of the body of the stator 1 1 may be reported in the yoke 17, for example by a dovetail assembly, to achieve in advance the mounting of the coils 1 9 on the teeth 1.
  • the stator body may be segmented as described for example in US 2010/023 77 26.
  • the body of the rotor 5 is mounted on a support hub 48 described hereinafter.
  • the inner periphery 60 ( Figures 6 and 7) of the body of the rotor 5 is mounted on the outer periphery of the hub 48. This assembly can be achieved by press fitting. Alternatively it can be achieved by hooping.
  • the outer periphery of the hub is knurled and the bundle of rotor plates is force-fitted onto the knurling of the hub 48.
  • This hub 48 may be made of steel.
  • the rotor body is axially and rotationally fixed to the hub 48.
  • the stator 1 1 of the machine surrounds the rotor 5 with the presence of an air gap between the inner periphery of the stator January 1 and the outer periphery of the rotor 5.
  • the assembly 1 comprises a hybrid module 2 comprising the disengaging device 3, the electric machine 4, and the torsion damper 8.
  • This module 2 is manipulable and is fixed on the housing of the heat engine 52 It may be transportable and comprises for this purpose means for holding the disengagement device 3. These means may consist of a retaining ring 37 described below.
  • this module 2 comprises a support 1 0 which covers the friction clutch 9 and a part of the double damping flywheel 7.
  • the support 10 may be metallic. It may be moldable material being for example aluminum or an aluminum-based alloy. It is preferably in non-magnetic material.
  • This support 10 has the aforementioned manner an internal web 27 forming a partition wall between the rotor 5 and the clutch 9 as visible in Figure 1. This web 27 is thus axially offset with respect to the front support face 10.
  • the outer periphery of the body of the stator 1 1 in the form of a sheet package is clamped in the support 10 having in this embodiment an internal periphery of cylindrical shape to cooperate with the outer periphery of the body of the stator 1 1 .
  • the mounting of the body of the stator January 1 in the support 10 can be achieved by hooping.
  • the front end of the intermediate shaft 6 is mounted in the crankshaft of the heat engine 53, in a known manner, via a pilot bearing mounted in a cavity of the crankshaft.
  • the intermediate shaft 6 extends cantilevered at the front of the module 2, which simplifies the assembly of the hybrid module 2 of the assembly 1 on the heat engine equipped with the double damping flywheel and clutch 9.
  • the support 10 of the hybrid module 2 comprises first fixing means 13 which are configured to be fixed on the casing of the gearbox 53 and second fixing means which are configured to be fixed on the casing of the heat engine 52.
  • the first 13 and second 16 fixing means may consist as shown in Figures 13 and 14 in the outer edges perforated projections.
  • the first 13 and / or second 16 fixing means may consist of holes made in a bottom of the support 10. This variant is illustrated in Figure 12 according to which the fastening means 13 consist of holes made in a bottom 10. These holes from the bottom or outer rim allow the passage of fasteners such as rivets.
  • the support carries internally between the first and second fixing means the stator 1 1 of the electric machine. For this, the yoke of the stator January 1 is for example fixed by hooping inside the support 10.
  • the stator comprises an interconnector 22 shown in particular in Figures 1 to 3 with connection terminals U, V and W shown in Figure 4 for interconnection with a power connector.
  • the support 10 may comprise a passage 23 illustrated in FIGS. 1 3 and 14. This passage allows the output of the connection terminals outside the support 10.
  • the support 10 has a cooling circuit for cooling the stator.
  • an annular shape 55 illustrated in section in FIGS. 1 to 3 and 10, is produced by sand molding, all around the support around the stator January 1.
  • This annular shape associated with inlet ports 24 and 25 shown in Figures 13 and 14 forms a cooling circuit for example the circulation of a coolant.
  • this cooling circuit can be obtained by overmolding the support on a tube 26 illustrated in Figure 5.
  • This tube 26 comprises an opening 65 and a closure 66.
  • This tube 26 allows the circulation for example of a cooling liquid.
  • the two attachment means 13 and 16 are present on either side of the support 10 which has a certain length between the gearbox 53 and the housing of the motor 52.
  • the support 10 comprises an internal sail 27 illustrated in FIGS. 1 to 3 and 10. This internal sail allows the separation between the electric machine 4 and the friction clutch 9.
  • the veil internal 27 avoids the arrival of dust clutch in the electric machine 4, which can disrupt the operation of the electric machine.
  • This internal web has at its inner end a sleeve 28 of axial shape which penetrates inside the rotor 5 as shown in Figures 1, 3 and 10.
  • This sleeve 28 is traversed by the intermediate shaft 6
  • the sleeve 28 has two portions 285 and 286 illustrated in particular in Figures 1 -3 which do not have the same diameter.
  • the portion 286 which extends further inside the rotor 5 has a diameter smaller than that of the portion 285.
  • a ball bearing 30 on between the second portion 286 and the intermediate shaft 6.
  • two portions 285 and 286 extend axially on either side of a bottom 29 of the sleeve. This bottom is pierced so that it can be crossed by the shaft 6.
  • the concentric clutch 3 of the friction clutch 9, traversed by the shaft 6, is mounted partially inside the first portion 285 of the sleeve 28.
  • This device 3 is radially compact .
  • the release device 3 of Figures 1 to 3 is, as mentioned above, a hydraulic control stop 35 bearing on the bottom 29.
  • This device comprises a protective bellows.
  • this ring 37 comprises three tabs 38 for fixing it to the generally transverse inner end of the sail 27 in one piece with the support 1 0.
  • This sail 27 is here come from molding with the support 10.
  • the clutch device 3 has, as mentioned above, a body 40 (see Figures 1 to 3).
  • the end of the ring 37 which enters the sleeve 28 has a bearing flange 39 on the body of the release device 3.
  • This ring 37 is here pressed sheet.
  • the support flange of the ring 37 is advantageously inclined axially, thus it exerts a preload on the body 40 of the release device 35.
  • the holding ring 37 has a notch or an appendage 42 for cooperation with respectively an appendage or notch belonging to the body 40 of the release device 3 for locking in rotation of said body 40.
  • the retaining ring 37 may have a passage 41 for a supply pipe 45 of the hydraulically controlled abutment. 21.
  • the pipe 45 can be guided by the web 27.
  • the web 27 of the support 10 comprises a retaining recess of said feed pipe 45.
  • the hybrid module 2 comprises a hub for supporting the rotor 48 (see FIGS. 1 to 3) attached to the rear end of the intermediate shaft 6 to the torsion damper 8.
  • the support hub 48 of the rotor 5 has a reduced thickness at the front.
  • the hub may include an inner rim 49 of generally transverse orientation.
  • the hub 48 is fixed.
  • the intermediate shaft 6 has at its rear end a seat 50 and an axial stop 51 for the inner flange 49.
  • This bearing 50 and this stop 51 allow the positioning of the inner flange 49 and therefore the rotor 5.
  • the axial abutment 51 and the inner flange 49 are perforated for the passage of fixing member, for example rivets, of the inner flange 49 with the intermediate shaft 6.
  • the torsion damper 8 visible in FIGS. 1 to 3, 10, 12, and 13 comprises at the front a first guide washer 83 visible in FIGS. 1 to 3 and 1 0, and at the rear a second guide ring 82 visible in FIGS. 1 to 3 and 10.
  • the torsion damper also comprises an outlet hub 84 integral in rotation with the input member 54 of the gear box 53 (see FIG. 3 and 1 0).
  • the outlet hub 84 is connected to a generally radially directional hub web 81.
  • the two washers 83 and 82 are arranged on either side of the hub web 81.
  • the first guide washer 83 is integral in rotation with the shaft 6 by fixing the inner periphery of said first guide washer to the inner flange 49 of the hub 48 of the rotor 5.
  • the inner periphery of the first guide ring 83 is axially offset forwards to create an axial clearance between the first guide ring 83 and the rear end of the rotor 5.
  • the first guide ring 83 may comprise punctures 86 visible in FIGS. 1 to 3. These punctures allow the assembly of elastic members 87, such as coil springs, which act circumferentially between the web of the hub 81 and the first and second guide rings respectively 82 and 83.
  • the first guide ring 83 has, at its outer periphery, a curved rim directed towards the rotor 5 so as to create a deflector 85 to prevent the penetration of the particles originating in particular from the damper 8 in the electric machine 4.
  • the deflector 85 is positioned inside the interconnector 22.
  • the first washer 83 is not curved but the hybrid module 2 further comprises first and second guide rings of the damper 8, a dust flange 63 visible in Figures 2, 3, 1 0 and 1 1.
  • the flange 63 makes it possible to prevent the particles especially from the shock absorber 8 from entering the electrical machine 4.
  • the flange 63 is derived from an extension at the rear of the hub 48 of the rotor 5. It is integral with the first 83 and / or the second guide ring 82.
  • the inner periphery 631 of the flange 63 is offset axially rearward with respect to the internal flange 49.
  • the outer periphery 632 of the flange 63 is offset axially rearward with respect to the inner periphery of the flange 63.
  • the outer periphery of the flange 63 has an end 633 inclined in opposite direction to the rotor 5 (see Figures 2, 3, 10 and 1 1).
  • the inclined end 633 is positioned inside the interconnector 22 as can be seen in FIGS. 2, 3 and 10.
  • the flange 63 is formed between its inner peripheries 631 and outer 632 to follow the profile of the dead 86.
  • the support 10 can carry to the rear of the interconnector 22 a magnetic plug 59 to collect the metal particles from the torsion damper.
  • the body 40 of the clutch device 3 may be of moldable material. It may be aluminum or alternatively plastic material advantageously reinforced by fibers. This body has at its outer periphery a ring having a rear face bearing on the bottom 29 of the sleeve 28 and a front face for support of the front face of the retaining ring37.
  • the ring of the body 40 has at its outer periphery an appendage or notch to cooperate with the notch or the complementary appendage of the integral holding ring of the web 27 by means of its fixing lugs fixed for example by riveting on the web 27.
  • the body 40 is thus fixed in rotation. Legs elastically deformable hooks are derived from the inner periphery of the ring of the body 40 and extend in axial projection relative to the front face of the ring of the body 40.
  • the magnetic plug 59 has a magnetic portion at its inner end vis-à-vis the outer periphery of the damper 8. It has a portion 57 head eg hexagon to screw into the support 10 between the interconnector 22 and the rear end of the support 1 0.
  • Figure 3 is schematized the path 67 followed by the metal particles from the damper 8 and attracted by the metal parts 57 of the magnetic plug.
  • the dust shield 63 has an inner periphery 631 for connection to the hub 48 offset axially rearwardly relative to the inner flange 49 and the rear face of the rotor 5 to prevent magnetic leakage.
  • This flange 63 also has openings at its outer periphery 632 for the passage of flange assembly rivets with the outer periphery of the metal guide washers 82, 83 and therefore the damper 8.
  • the first guide washer 83 has at its inner periphery openings for its assembly by means of screws at the inner periphery of the flange 49 of the metal rotor hub and at the axial abutment 51 of the intermediate shaft 6 having openings for this purpose. in correspondence with those of the stop 51.
  • This stop is of annular shape and may consist of a collar of small diameter.
  • the centering surface 50 of the shaft 6 is in intimate contact with the inner periphery of the flange 49 of the hub to ensure an air gap between the rotor 5 and the stator January 1. It is the same in Figures 2 and 3.
  • the rim 49 has openings facing apertures in the abutment for assembly of the flange at the stop 51 for example by means of rivets.
  • the damper 8 is in any case captive because it is fixed to the hub 48 of the rotor 5 at the rear of the shaft 6, the front end passes through the concentric disengagement device 3 to engage with the hub of the clutch 9 for example by a splined connection.
  • Ring 37 makes captive the device 3 before mounting the hybrid module 2 on the crankcase of the engine of the vehicle.
  • the web 27 has an axial offset forwards at its outer periphery for housing the stator coils 1 1.

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Abstract

The hybrid module (2) for a transmission assembly (1) for a motor vehicle with a gearbox (53) which comprises a clutch (9), a clutch-disengagement device (3), a reversible rotary electric machine (4) provided with a rotor (5) provided with a central opening, an intermediate shaft (6) between the clutch and the rotor (5) of the electric machine (4), said shaft (6) bearing the clutch-disengagement device (3) at the front and penetrating the central opening of the rotor (5), is characterized in that it comprises a support (10) provided with an internal web (27) separating the electric machine (4) from the clutch (9), and in that the web (27) at the internal end thereof has an axial sleeve (28) entering the rotor (5) of the machine (4) and through which the intermediate shaft (6) passes, and in that the clutch-disengagement device comprises a body held in place by a retaining ring (37) of the clutch-disengagement device (3) entering the sleeve (28) and provided with at least one lug for fixing to the web (27).

Description

« Module hybride pour ensemble de transmission de véhicule automobile »  "Hybrid module for motor vehicle transmission assembly"
Domaine de l'invention [01] L'invention porte sur un module hybride pour ensemble de transmission pour véhicule automobile intercalé entre le moteur thermique et la boîte de vitesse du véhicule. Field of the Invention [01] The invention relates to a hybrid module for a transmission assembly for a motor vehicle interposed between the heat engine and the vehicle gearbox.
Etat de la technique [02] On connaît des ensembles de transmission de mouvement pour véhicule automobile à boîte de vitesse comprenant un embrayage, un dispositif de débrayage de l'embrayage, une machine électrique tournante réversible dotée d'un rotor présentant une ouverture centrale, un arbre intermédiaire entre l'embrayage et le rotor de la machine électrique, ledit arbre portant à l'avant le dispositif de débrayage et pénétrant dans l'ouverture centrale du rotor. State of the art [02] Transmission transmission assemblies for a motor vehicle with a gearbox comprising a clutch, a device for disengaging the clutch, a reversible rotary electric machine with a rotor having a central opening, an intermediate shaft between the clutch and the rotor of the electric machine, said shaft carrying at the front the disengaging device and penetrating into the central opening of the rotor.
[03] On peut songer à créer un module hybride comprenant la machine électrique tournante et le dispositif de débrayage. [03] One can think of creating a hybrid module comprising the rotating electrical machine and the disengaging device.
Objet de l'invention Object of the invention
[04] La présente invention a pour objet de faciliter la manipulation du module hybride. [04] The object of the present invention is to facilitate the manipulation of the hybrid module.
[05] Suivant l'invention un module hybride pour ensemble de transmission pour véhicule automobile à boîte de vitesse comprenant un embrayage, un dispositif de débrayage de l'embrayage, une machine électrique tournante réversible dotée d'un rotor, un arbre intermédiaire entre l'embrayage et le rotor de la machine électrique, caractérisé en ce qu'il comporte un support doté d'un voile interne de séparation entre la machine électrique et l'embrayage , en ce que le voile présente à son extrémité interne un manchon axial pénétrant à l'intérieur du rotor de la machine et traversé par l'arbre intermédiaire et en ce que le dispositif de débrayage comporte un corps maintenu en place par un anneau de maintien du dispositif de débrayage pénétrant dans le manchon et doté d'au moins une patte de fixation sur voile . [05] According to the invention a hybrid module for transmission assembly for a motor vehicle with gearbox comprising a clutch, a device for disengaging the clutch, a reversible rotary electric machine provided with a rotor, an intermediate shaft between the clutch and the rotor of the electric machine, characterized in that it comprises a support provided with an internal separation web between the electric machine and the clutch, in that the web has at its inner end a penetrating axial sleeve inside the rotor of the machine and crossed by the intermediate shaft and in that the disengaging device comprises a body held in place by a retaining ring of the disengaging device penetrating into the sleeve and provided with at least one web fastening tab.
[06] Grâce à l'anneau de maintien le dispositif de débrayage devient imperdable avant montage du module hybride sur le carter du moteur thermique du véhicule automobile. [06] Thanks to the retaining ring, the disengaging device becomes captive before assembly of the hybrid module on the casing of the engine of the motor vehicle.
[07] Le dispositif de débrayage est dans un mode de réalisation du type hydraulique concentrique. [07] The disengaging device is in an embodiment of the concentric hydraulic type.
[08] Selon un mode de réalisation, la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport compris entre 0,5 et 2 par phase et par pôle. Ainsi, dans le cas d'un rapport de 0,5 pour un bobinage double triphasé, avec 12 pôles, on obtient 6 x 12 x 0.5 = 36 encoches. Dans le cas d'un rapport de 2 pour un bobinage double triphasé, avec 12 pôles, on obtient 6 x 12 x 2 = 144 encoches. [08] According to one embodiment, the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of between 0.5 and 2 per phase and per pole. Thus, in the case of a ratio of 0.5 for a three-phase double coil, with 12 poles, 6 × 12 × 0.5 = 36 notches are obtained. In the case of a ratio of 2 for a three-phase double coil, with 12 poles, we obtain 6 x 12 x 2 = 144 notches.
[09] Selon un mode de réalisation, la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport de un demi par phase et par pôle. Ainsi, par exemple, dans le cas d'un bobinage double triphasé, avec 12 pôles, on obtient 6 x 12 x 0.5 = 36 encoches. [09] According to one embodiment, the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a certain number of poles and phases, said notches being formed in the stator at a ratio of one half per phase and per pole. Thus, for example, in the case of a three-phase double coil, with 12 poles, 6 × 12 × 0.5 = 36 notches are obtained.
[010] Selon un mode de réalisation, la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport de deux par phase et par pôle. Ainsi, par exemple, dans le cas d'un bobinage double triphasé, avec 12 pôles, on obtient 6 x 12 x 2 = 144 encoches. [010] According to one embodiment, the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of two per phase and per pole. Thus, for example, in the case of a three-phase double coil, with 12 poles, 6 × 12 × 2 = 144 notches are obtained.
[011 ] Selon un mode de réalisation, la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport de un par phase et par pôle. Ainsi, par exemple, dans le cas d'un bobinage double triphasé, avec 12 pôles, on obtient 6 x 12 x 1 = 72 encoches. [011] According to one embodiment, the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a report of one per phase and per pole. Thus, for example, in the case of a three-phase double coil, with 12 poles, 6 × 12 × 1 = 72 notches are obtained.
[012] Selon un mode de réalisation, le rotor est doté d'une ouverture centrale. [013] Selon un mode de réalisation, le dit arbre porte à l'avant le dispositif de débrayage et pénètre dans l'ouverture centrale du rotor, [012] According to one embodiment, the rotor is provided with a central opening. [013] According to one embodiment, said shaft carries the disengagement device and enters the central opening of the rotor,
[014] Selon un mode de réalisation, l'extrémité de l'anneau qui pénètre dans le manchon présente une collerette d'appui sur le corps du dispositif de débrayage [015] Selon un mode de réalisation, le manchon présente un fond troué centralement pour le passage de l'arbre et l'appui du corps. [014] According to one embodiment, the end of the ring which enters the sleeve has a bearing flange on the body of the disengagement device [015] According to one embodiment, the sleeve has a bottom hole with a central hole. for the passage of the tree and the support of the body.
[016] Selon un mode de réalisation, la collerette est inclinée axialement pour exercer une précharge sur le corps du dispositif de débrayage et solliciter celui-ci en contact avec le fond du manchon. [017] Selon un mode de réalisation, l'anneau de maintien comporte une échancrure ou un appendice pour coopération avec respectivement avec un appendice ou une échancrure appartenant au corps du dispositif de débrayage pour blocage en rotation dudit corps. [016] According to one embodiment, the flange is inclined axially to exert a preload on the body of the release device and urge it in contact with the bottom of the sleeve. [017] According to one embodiment, the retaining ring has a notch or an appendix for cooperation with respectively an appendage or notch belonging to the body of the disengaging device for rotational locking of said body.
[018] Selon un mode de réalisation, l'anneau de maintien présente un passage pour un tuyau d'alimentation de la butée à commande hydraulique. [018] According to one embodiment, the holding ring has a passage for a supply pipe of the hydraulically controlled stop.
[019] Selon un mode de réalisation, le voile du support comporte une creusure de maintien dudit tuyau d'alimentation. [019] According to one embodiment, the web of the support comprises a retaining recess of said supply pipe.
[020] Selon un mode de réalisation, le dispositif de débrayage est à commande hydraulique et comprend un corps en appui sur le fond du manchon et une butée pour action sur l'embrayage à friction. [020] According to one embodiment, the disengaging device is hydraulically controlled and comprises a body resting on the bottom of the sleeve and a stop for action on the friction clutch.
[021] Selon un mode de réalisation, le dispositif de débrayage concentrique du type hydraulique comporte deux parties en relation de cylindre piston, à savoir une partie fixe, délimitant une cavité annulaire borgne d'orientation axiale, et un piston monté mobile axialement par rapport à la partie fixe et portant une butée de débrayage. [021] According to one embodiment, the concentric disengagement device of the hydraulic type comprises two parts in piston cylinder relationship, namely a fixed portion, defining a blind annular cavity axial orientation, and a piston mounted axially movable relative to the fixed portion and carrying a release stop.
[022] Selon un mode de réalisation, la partie fixe du dispositif hydraulique de débrayage comporte deux pièces coaxiales, à savoir, un corps extérieur entourant un tube guide métallique plus long axialement que le corps extérieur et en ce que le fond de la cavité est délimité par un rebord transversal appartenant au tube-guide assemblé au corps extérieur. [022] According to one embodiment, the fixed part of the hydraulic disengagement device comprises two coaxial parts, namely, an outer body surrounding a metal guide tube longer axially than the outer body and in that the bottom of the cavity is delimited by a transverse flange belonging to the guide tube assembled to the outer body.
[023] Selon un mode de réalisation, le tube guide présente en section une forme de U assemblé par encliquetage au corps, présentant pour ce faire à son extrémité libre une pluralité de pattes élastiquement déformables en forme de crochets pénétrant dans des creusures du tube guide. [023] According to one embodiment, the guide tube has in section a U-shaped assembled by snapping to the body, having for this purpose at its free end a plurality of elastically deformable tabs in the form of hooks penetrating into recesses of the guide tube .
[024] Selon un mode de réalisation, les creusures sont réalisées dans la branche externe du tube guide à section en forme de U, ladite branche externe étant plus courte que la branche interne du U. [025] Selon un mode de réalisation, le manchon présente une première portion axiale et une deuxième portion axiale de diamètre réduit par rapport à la première portion pour le montage d'un palier, tel qu'un roulement à billes, de rotation de l'arbre. [024] According to one embodiment, the recesses are made in the outer branch of the U-shaped section guide tube, said outer branch being shorter than the inner branch of the U. [025] According to one embodiment, the sleeve has a first axial portion and a second axial portion of reduced diameter relative to the first portion for mounting a bearing, such as a ball bearing, of rotation of the shaft.
[026] Selon un mode de réalisation, la première portion axiale et la deuxième portion axiale s'étendent de part et d'autre du fond. [026] According to one embodiment, the first axial portion and the second axial portion extend on either side of the bottom.
[027] Selon un mode de réalisation, l'anneau de maintien comporte trois pattes de fixation et est en tôle emboutie. [027] According to one embodiment, the retaining ring has three fixing lugs and is stamped sheet.
Brève description des dessins. Brief description of the drawings.
[028] L'invention sera mieux comprise à la lecture de la description qui va suivre et à l'examen des figures qui l'accompagnent. Cette description et ces figures ne sont données qu'a titre illustratif mais nullement limitatif de l'invention. [029] La figure 1 est une demi vue en coupe axiale de l'ensemble de transmission pour véhicule automobile selon l'invention faisant appel à un moyeu de support du rotor doté d'un rebord interne de fixation à l'arbre intermédiaire et à l'une des rondelles de guidage de l'amortisseur de torsion. [030] La figure 2 est une vue partielle en coupe axiale montrant la machine électrique tournante et réversible, ainsi que l'amortisseur de torsion et l'arbre intermédiaire de l'ensemble de transmission pour un second exemple de réalisation faisant appel à un moyeu de support du rotor muni d'un flasque anti poussière de protection de la machine électrique fixé à l'une des rondelles de guidage de l'amortisseur de torsion. [028] The invention will be better understood on reading the description which follows and the examination of the figures that accompany it. This description and these figures are given for illustrative purposes but not limited to the invention. [029] Figure 1 is a half axial sectional view of the transmission assembly for a motor vehicle according to the invention using a rotor support hub having an inner flange for attachment to the intermediate shaft and to one of the guide washers of the torsion damper. [030] Figure 2 is a partial view in axial section showing the rotating and reversible electrical machine, as well as the torsion damper and the intermediate shaft of the transmission assembly for a second embodiment using a hub rotor support provided with a protective dust shield of the electric machine attached to one of the guide washers of the torsion damper.
[031 ] La figure 3 est une vue analogue à la figure 2 montrant une variante de la figure 2 à bouchon magnétique pour recueillir des particules métalliques provenant notamment de l'amortisseur de torsion. [031] Figure 3 is a view similar to Figure 2 showing a variant of Figure 2 with magnetic cap to collect metal particles from the particular torsion damper.
[032] La figure 4 est une vue en perspective montrant un mode de réalisation du stator de la machine électrique tournante réversible sous la forme d'un alterno-démarreur. [032] Figure 4 is a perspective view showing an embodiment of the stator of the reversible rotating electrical machine in the form of an alternator-starter.
[033] La figure 5 est une vue en perspective montrant une réalisation du canal de refroidissement du stator de la machine électrique en forme de tuyau. [033] Figure 5 is a perspective view showing an embodiment of the stator cooling channel of the pipe-shaped electrical machine.
[034] Les figures 6 et 7 sont des vues partielles de l'une des tôles du paquet de tôles du rotor équipées d'aimants permanents pour deux modes de réalisation. [034] Figures 6 and 7 are partial views of one of the sheets of the rotor plate package equipped with permanent magnets for two embodiments.
[035] La figure 8 est une vue partielle de face du stator et du rotor de la machine électrique tournante pour encore un autre mode de réalisation. [035] Figure 8 is a partial front view of the stator and rotor of the rotating electrical machine for yet another embodiment.
[036] La figure 9 est une vue en perspective de l'une des bobines de la figure 4 avec son isolant de bobine en position déployée avant montage sur la dent concernée du stator. [036] Figure 9 is a perspective view of one of the coils of Figure 4 with its coil insulator in the deployed position before mounting on the relevant tooth of the stator.
[037] La figure 10 est une vue partielle à plus grand échelle de la figure 2. [037] Figure 10 is a partial view on a larger scale of Figure 2.
[038] La figure 1 1 est une vue en perspective du flasque anti poussière des figures 2 et 3. [039] La figure 12 est une vue en perspective du support du module hybride de l'ensemble de transmission selon l'invention montrant la face arrière de l'ensemble de transmission ainsi que l'extrémité du tuyau d'alimentation de la butée de débrayage à commande hydraulique et le bouchon magnétique de la figure 3. [038] Figure 1 1 is a perspective view of the dust flange of Figures 2 and 3. [039] Figure 12 is a perspective view of the support of the hybrid module of the transmission assembly according to the invention showing the rear face of the transmission assembly and the end of the supply pipe of the stop of hydraulically controlled clutch and the magnetic plug of Figure 3.
[040] La figure 13 est une vue analogue à la figure 12 pour une autre variante de réalisation du support du module hybride. [040] Figure 13 is a view similar to Figure 12 for another alternative embodiment of the support of the hybrid module.
[041 ] La figure 14 est une vue analogue à la figure 13 montrant la face avant de l'ensemble de transmission selon l'invention. [042] La figure 15 est une vue en perspective du bouchon magnétique de la figure 3. [041] Figure 14 is a view similar to Figure 13 showing the front face of the transmission assembly according to the invention. [042] Figure 15 is a perspective view of the magnetic plug of Figure 3.
[043] La figure 16 est une vue en perspective de l'anneau de maintien de la butée de débrayage à commande hydraulique de la figure 1 . [043] Figure 16 is a perspective view of the retaining ring of the hydraulically controlled release clutch of Figure 1.
Description d'exemples de réalisation de l'invention. Description of exemplary embodiments of the invention
[044] La figure 1 montre un ensemble de transmission 1 pour véhicule automobile intercalé entre la boîte de vitesse 53 et le moteur thermique 52 du véhicule automobile. Cet ensemble 1 comprend un embrayage 9, un dispositif de débrayage 3 de l'embrayage 9, une machine électrique tournante réversible 4 dotée d'un rotor 5 muni d'une ouverture centrale, un arbre intermédiaire 6 entre l'embrayage 9 et le rotor 5 de la machine électrique 4, ledit arbre portant le dispositif de débrayage 3 et pénétrant dans l'ouverture centrale du rotor 5. L'ensemble 1 est un ensemble de transmission de mouvement entre le vilebrequin du moteur thermique 52 et l'organe d'entrée de mouvement 54 de la boîte de vitesse 53. [044] Figure 1 shows a transmission assembly 1 for a motor vehicle interposed between the gearbox 53 and the heat engine 52 of the motor vehicle. This assembly 1 comprises a clutch 9, a disengagement device 3 of the clutch 9, a reversible rotary electric machine 4 provided with a rotor 5 provided with a central opening, an intermediate shaft 6 between the clutch 9 and the rotor 5 of the electric machine 4, said shaft carrying the disengaging device 3 and penetrating into the central opening of the rotor 5. The assembly 1 is a motion transmission assembly between the crankshaft of the heat engine 52 and the body of the movement input 54 of the gearbox 53.
[045] L'axe X-X de l'arbre 6 constitue l'axe de rotation de l'ensemble 1 . Les termes radial, axial et transversal sont à considérer par rapport à l'axe X- X. Les faces des pièces tournées en direction du moteur thermique 52 seront dites face avant, tandis que les faces des pièces tournées en direction de la boîte de vitesse 53 seront dites face arrière. L'extrémité avant d'une pièce est donc tournée vers le moteur 52, tandis que l'extrémité arrière d'une pièce est tournée vers la boîte de vitesse 53. Ainsi l'arbre intermédiaire 6 porte à l'avant le dispositif de débrayage 3 et à l'arrière, suivant une caractéristique, un amortisseur de torsion 8. La boîte de vitesse 53 est dans un mode de réalisation une boîte de vitesse automatique. [045] The axis XX of the shaft 6 constitutes the axis of rotation of the assembly 1. The radial, axial and transverse terms are to be considered with respect to the X-X axis. The faces of the parts turned toward the heat engine 52 will be said front face, while the faces of the parts turned towards the gearbox 53 will be said back side. The front end of a workpiece is thus turned towards the motor 52, while the rear end of a workpiece is turned towards the gearbox 53. Thus, the intermediate shaft 6 carries the release device at the front. 3 and the rear, according to one feature, a torsion damper 8. The gearbox 53 is in one embodiment an automatic gearbox.
[046] Dans un mode de réalisation la boîte automatique 53 comporte, de manière conventionnelle, comporte des trains épicycloïdaux en cascade. En solidarisant par le biais d'embrayages ou de freins, certaines parties de ces trains, on obtient des rapports de transmission différents. La sélection d'un rapport dépendant alors uniquement d'une combinaison d'ordre des pistons de commande. De ce fait, il n'y a aucun crabotage à piloter. Une pompe hydraulique haute pression, intégrée dans la boîte et entraînée directement par le moteur thermique, se charge de fournir l'énergie pour les actionneurs hydrauliques nécessaire aux embrayages et aux freins. [046] In one embodiment the automatic gearbox 53 comprises, in a conventional manner, comprises cascade epicyclic gear trains. By securing, by means of clutches or brakes, certain parts of these trains, different transmission ratios are obtained. The selection of a report then depends only on a combination of order of the control pistons. As a result, there is no dog clutch to drive. A high-pressure hydraulic pump, integrated in the box and driven directly by the engine, is responsible for providing energy for the hydraulic actuators needed for clutches and brakes.
[047] Les positions du sélecteur de vitesse sont repérées, de manière connue, par les initiales des termes anglais correspondants : P(ark) pour véhicule en stationnement, R(everse) pour marche arrière, N(eutral) pour point mort, D(rive) pour marche avant normal. [047] The positions of the speed selector are marked, in known manner, by the initials of the corresponding English terms: P (ark) for a parked vehicle, R (everse) for reverse, N (eutral) for neutral, D (bank) for normal forward travel.
[048] La boîte automatique comporte à l'entrée dans un mode de réalisation un convertisseur de couple. [048] The automatic transmission comprises at the input in one embodiment a torque converter.
[049] L'organe d'entrée 54 de la boîte de vitesse est donc dans un mode de réalisation l'arbre d'entrée de la boîte de vitesse. En variante il consiste en un entraîneur relié, de manière connue, par des languettes élastiquement déformables au carter du convertisseur de couple portant la roue impulseur de celui-ci. En variante l'organe d'entrée 54 consiste en un entraîneur relié par une liaison à cannelures au carter du convertisseur de couple. [050] En variante la boîte de vitesse automatique est une transmission à variation continue (CVT), telle qu'une transmission comportant deux poulies variables et une courroie à plots intervenant entre les deux poulies. [049] The input member 54 of the gearbox is in one embodiment the input shaft of the gearbox. Alternatively it consists of a driver connected in known manner by elastically deformable tongues to the casing of the torque converter carrying the impeller of the latter. Alternatively the input member 54 consists of a driver connected by a splined connection to the casing of the torque converter. [050] Alternatively the automatic gearbox is a continuously variable transmission (CVT), such as a transmission having two variable pulleys and a lap belt intervening between the two pulleys.
[051 ] En variante la boîte de vitesse automatique est une boîte de vitesse pilotée et robotisée, telle qu'une boîte à double embrayage comme décrit par exemple dans le brevet US 201 1/0259698 auquel on se reportera. [051] Alternatively the automatic gearbox is a controlled and robotic gearbox, such as a double clutch gearbox as described for example in US 201 1/0259698 which will be referred to.
[052] Selon une caractéristique l'ensemble 1 de transmission de mouvement comprend un embrayage à friction à sec 9 doté d'un plateau de réaction 91 . [052] According to one feature the motion transmission assembly 1 comprises a dry friction clutch 9 having a reaction plate 91.
[053] Dans les réalisations l'embrayage 9 est un embrayage à friction, qui fonctionne à sec et l'ensemble de transmission 1 comporte, à l'avant, un double volant amortisseur 7 et, à l'arrière, un amortisseur de torsion 8. Le rotor 5 de la machine électrique 4 est fixé à l'amortisseur de torsion 8. [053] In the embodiments the clutch 9 is a friction clutch, which runs dry and the transmission assembly 1 comprises, at the front, a double damping flywheel 7 and, at the rear, a torsion damper 8. The rotor 5 of the electric machine 4 is fixed to the torsion damper 8.
[054] Plus précisément le double volant amortisseur 7 est configuré pour être fixé à l'avant sur le vilebrequin du moteur thermique du véhicule et pour former le plateau de réaction 91 de l'embrayage à friction à sec 9. L'amortisseur de torsion 8 est configuré pour être lié en rotation à l'organe d'entrée 54 de la boîte de vitesse 53. Dans la figure 1 l'organe 54 est l'arbre d'entrée de la boîte de vitesse automatique. [054] Specifically the double damping flywheel 7 is configured to be fixed at the front on the crankshaft of the engine of the vehicle and to form the reaction plate 91 of the dry friction clutch 9. The torsion damper 8 is configured to be rotatably connected to the input member 54 of the gearbox 53. In Figure 1 the member 54 is the input shaft of the automatic gearbox.
[055] Dans les figures l'amortisseur 8 comporte, de manière conventionnelle, au moins deux parties coaxiales montée mobiles l'une par rapport à l'autre à rencontre de moyens élastiques à action circonférentielle, tels que des ressorts à boudins 87 mieux visibles dans les figures 12 et 13. L'une des parties coaxiales comporte un voile 81 et l'autre partie deux rondelles de guidage 82, 83 disposées de part et d'autre du voile 81 . Les rondelles 82, 83 et le voile 81 sont métalliques de sorte que des particules métalliques peuvent se détacher et polluer la machine électrique 4. Des moyens de frottement pourront être prévus entre les deux parties coaxiales comme visible par exemple à la figure 1 du document DE 101 03 795. Des particules non métalliques pourront se détacher et polluer également la machine 4. Suivant une caractéristique des moyens anti poussière, tels que le flasque 63 des figures 2 et 3, sont prévus de manière décrite ci-après. [055] In the figures the damper 8 comprises, in a conventional manner, at least two coaxial parts mounted movable relative to each other against circumferential action elastic means, such as coil springs 87 better visible in FIGS. 12 and 13. One of the coaxial parts comprises a web 81 and the other part two guide washers 82, 83 arranged on either side of the web 81. The washers 82, 83 and the web 81 are metallic so that particles metal may become detached and pollute the electric machine 4. Friction means may be provided between the two coaxial parts as can be seen for example in Figure 1 of DE 101 03 795. Non-metallic particles may be detached and also pollute the machine 4. According to a characteristic of the anti-dust means, such as the flange 63 of Figures 2 and 3, are provided as described below.
[056] Le voile 81 est solidaire, de manière rigide dans les figures, d'un moyeu 84 cannelé intérieurement venant en prise avec des cannelures complémentaires que présente l'organe d'entrée 54 de la boîte de vitesse. [056] The web 81 is fixed rigidly in the figures, an inner hub 84 grooved engaging with complementary splines that has the input member 54 of the gearbox.
[057] Suivant une caractéristique la rondelle de guidage avant 83, la plus proche du rotor 5, est configurée, de manière décrite ci-après, pour être liée en rotation au rotor 5. Le voile 81 et les rondelles 81 , 82 présentent des logements pour les organes élastiques. Dans les figures le voile 81 présente des fenêtres pour le logement des organes élastiques 87, la rondelle de guidage 83 la plus proche du rotor 5, dite première rondelle de guidage, présente des crevés pour le logement des organes 87 et l'autre rondelle de guidage 82, dite deuxième rondelle de guidage présente des fenêtres de logement des organes 87. En variante la deuxième rondelle de guidage présente des également des crevés. En variante la première rondelle 83 présente des fenêtres. On appréciera que les crevés empêchent les poussières de venir polluer le rotor 5. Dans les figures la deuxième rondelle de guidage 82 présente des pattes périphériques d'orientation axiale s'étendant à l'extérieur du voile 81 pour assemblage avec la première rondelle 83. Les pattes pourront être fixées par sertissage avec la première rondelle (Figure 1 ). En variante (Figures 2 et 3) les pattes présentent à leur extrémité libre un rebord radial pour fixation par rivetage avec la rondelle 83. Suivant une caractéristique les rivets permettent l'assemblage des rondelles avec le flasque 63. [058] La solution est économique car elle fait appel à un double volant amortisseur de torsion 7, à un embrayage à friction à sec 9 et à un amortisseur de torsion 8, qui pourront être des composants de grande série. En outre la taille radiale de la machine électrique tournante 4 pourra être réduite car elle est implantée axialement entre l'amortisseur 8 et l'ensemble double volant amortisseur de torsion 7- embrayage à friction 9, qui pourra être un embrayage conventionnel à diaphragme. [057] According to a characteristic, the front guide ring 83, the closest to the rotor 5, is configured, as described below, to be connected in rotation to the rotor 5. The web 81 and the washers 81, 82 have housings for elastic members. In the figures the web 81 has windows for housing the resilient members 87, the guide washer 83 closest to the rotor 5, said first guide ring, has punctures for housing the members 87 and the other washer of guide 82, said second guide ring has housing of the housing windows 87. In a variant, the second guide washer also has punctures. In a variant, the first washer 83 has windows. It will be appreciated that the punctures prevent the dust from polluting the rotor 5. In the figures the second guide ring 82 has axially oriented peripheral tabs extending outside the web 81 for assembly with the first washer 83. The legs can be fixed by crimping with the first washer (Figure 1). Alternatively (Figures 2 and 3) the tabs have at their free end a radial flange for fixing by riveting with the washer 83. According to one feature the rivets allow the assembly of the washers with the flange 63. [058] The solution is economical because it uses a double torsion damping flywheel 7, a dry friction clutch 9 and a torsion damper 8, which may be large series components. In addition, the radial size of the rotating electrical machine 4 can be reduced because it is located axially between the damper 8 and the double torsion damping flywheel assembly 7-friction clutch 9, which may be a conventional clutch diaphragm.
[059] Pour mémoire un embrayage à diaphragme comporte un plateau de pression, un plateau de réaction, un disque de friction présentant à sa périphérie externe des garnitures de friction destinées à être serrées entre les plateaux de pression et de réaction sous l'action d'un diaphragme prenant appui sur un couvercle solidaire du plateau de pression. Le plateau de pression est lié au couvercle par des languettes tangentielles autorisant un mouvement axial du plateau de pression par rapport au couvercle. L'ensemble couvercle- plateau de pression- diaphragme est appelé mécanisme d'embrayage. [059] For the record, a diaphragm clutch comprises a pressure plate, a reaction plate, a friction disk having at its outer periphery friction linings intended to be clamped between the pressure and reaction plates under the action of a diaphragm bearing on a lid secured to the pressure plate. The pressure plate is connected to the lid by tangential tongues allowing axial movement of the pressure plate relative to the lid. The lid-pressure plate-diaphragm assembly is called a clutch mechanism.
[060] Le disque de friction, pourra appartenir à un amortisseur de torsion comprenant de manière précitée au moins, au moins deux partie coaxiales montées mobiles l'une par rapport à l'autre à rencontre de moyens élastiques à action circonférentielle. L'une des parties coaxiales pourra comporter un voile et l'autre partie deux rondelles de guidage disposées de part et d'autre du voile. Le disque de friction pourra être solidaire par exemple de l'une des rondelles de guidage. Le voile pourra être solidaire d'un moyeu cannelé intérieurement pour être lié en rotation à l'arbre intermédiaire 6 présentant pour ce faire des cannelures complémentaires. Un tel amortisseur à moyens de frottement est visible est visible à la figure 1 du document DE 101 03 795 The friction disc may belong to a torsion damper comprising in the aforementioned manner at least at least two coaxial parts movably mounted relative to one another against elastic means with circumferential action. One of the coaxial parts may comprise a web and the other part two guide rings disposed on either side of the web. The friction disc may be integral for example with one of the guide washers. The web may be integral with an internally splined hub to be rotatably connected to the intermediate shaft 6 having for this purpose complementary splines. Such a damper with friction means is visible is visible in Figure 1 of DE 101 03 795
[061 ] Dans le mode de réalisation de la figure 1 le disque de friction 93 pourra être rigide, c'est-à-dire ne pas présenter d'amortisseur de torsion. Ce disque 93 pourra présenter à sa périphérie externe des garnitures de friction (non référencées) disposées de part et d'autre du disque 93. Ce disque 93 pourra être configuré pour présenter à sa périphérie externe des portions élastiquement déformables pour serrage de manière progressive des garnitures de friction entre le plateau de réaction 92 et le plateau de pression appartenant au mécanisme d'embrayage 91 . Le disque 93 pourra être fixé à sa périphérie interne, par exemple par rivetage, à un moyeu 94 en forme de L cannelé intérieurement pour être lié en rotation à l'arbre intermédiaire 6 présentant pour ce faire des cannelures complémentaires. [061] In the embodiment of Figure 1 the friction disc 93 may be rigid, that is to say do not present a torsion damper. This disc 93 may have at its outer periphery friction linings (not referenced) disposed on either side of the disc 93. This disc 93 may be configured to present at its outer periphery elastically deformable portions for progressively clamping the friction liners between the reaction plate 92 and the pressure plate belonging to the clutch mechanism 91. The disk 93 may be fixed at its inner periphery, for example by riveting, to a hub 94 in the form of an internally corrugated L to be rotatably connected to the intermediate shaft 6 having for this purpose complementary splines.
[062] Le mécanisme d'embrayage 91 pourra être du type de celui décrit dans le document FR 2 473 140 auquel on se reportera. Ainsi le diaphragme présente une partie périphérique en forme de rondelle Belleville prolongée vers l'intérieur par une pluralité de doigts. Des moyens d'assemblage assujettissant de manière pivotante ledit diaphragme audit couvercle. Ces moyens, tels que des colonnettes ou des pattes traversent le diaphragme au niveau de la périphérie interne de la rondelle Belleville. Ces moyens portent un appui secondaire en regard d'un appui primaire tel qu'un embouti du couvercle ou un jonc. Ces moyens pourront comporter un dispositif de rattrapage d'usure comme décrit dans le document DE 101 03 795. Des languettes élastiquement déformables relient le couvercle au plateau de pression. [062] The clutch mechanism 91 may be of the type described in FR 2 473 140 to which reference will be made. Thus, the diaphragm has a peripheral portion in the form of a Belleville washer extended inwards by a plurality of fingers. Assembly means pivotally securing said diaphragm to said cover. These means, such as columns or lugs through the diaphragm at the inner periphery of the Belleville washer. These means bear a secondary support facing a primary support such as a stamped lid or a ring. These means may include a wear compensating device as described in DE 101 03 795. Elastically deformable tongues connect the lid to the pressure plate.
[063] En résumé l'embrayage à friction 9 est un embrayage à diaphragme comprenant un plateau de réaction appartenant au double volant amortisseur et un mécanisme d'embrayage 91 comportant une première pièce globalement annulaire, dite couvercle, une deuxième pièce globalement annulaire, dite diaphragme, qui présente une partie périphérique formant rondelle Belleville et une partie centrale fragmentée en doigts radiaux, des moyens d'assemblage assujettissant de manière pivotante ledit diaphragme audit couvercle, et une troisième pièce annulaire, dite plateau de pression, qui est solidaire en rotation du couvercle tout en étant mobile axialement par rapport à celui-ci, et sur lequel porte le diaphragme par sa partie périphérique formant rondelle Belleville. [064] Par son couvercle, un tel mécanisme d'embrayage est adapté à être rapporté sur le plateau de réaction du double volant amortisseur 7 avec insertion, entre ce plateau de réaction et le plateau de pression, d'un disque de friction, solidaire en rotation de manière rigide ou élastique de l'arbre intermédiaire 6. [063] In summary, the friction clutch 9 is a diaphragm clutch comprising a reaction plate belonging to the double damping flywheel and a clutch mechanism 91 comprising a first generally annular part, called a cover, a second generally annular part, so-called diaphragm, which has a peripheral portion Belleville washer and a central portion fragmented radial fingers, assembly means pivotally securing said diaphragm to said cover, and a third annular piece, said pressure plate, which is integral in rotation with cover while being movable axially relative thereto, and on which the diaphragm carries by its peripheral portion forming Belleville washer. [064] By its cover, such a clutch mechanism is adapted to be attached to the reaction plate of the double damping flywheel 7 with insertion, between the reaction plate and the pressure plate, a friction disc, solidaire in a rigid or elastic rotation of the intermediate shaft 6.
[065] Un dispositif de débrayage 3 est apte à agir sur les doigts radiaux du diaphragme, pour commande en dégagement de l'embrayage, qui est normalement engagé, le plateau de pression serrant le disque de friction contre le plateau de réaction sous la sollicitation de la partie périphérique formant rondelle Belleville du diaphragme. Pour désengager l'embrayage il faut agir, dans ce mode de réalisation, en poussant axialement sur les doigts du diaphragme à l'aide du dispositif 3 pour faire basculer le diaphragme. [065] A clutch device 3 is able to act on the radial fingers of the diaphragm, for release control of the clutch, which is normally engaged, the pressure plate clamping the friction disk against the reaction plate under the solicitation the Belleville washer peripheral portion of the diaphragm. To disengage the clutch must act in this embodiment, by pushing axially on the fingers of the diaphragm using the device 3 to tilt the diaphragm.
[066] Le dispositif 3 est dans les modes de réalisation représentés dépourvu de fourchette de débrayage pour réduction de l'encombrement axial de l'ensemble. Le dispositif 3 est du type concentrique en étant traversé par l'arbre intermédiaire 6.11 comporte une butée de débrayage 35. [066] The device 3 is in the embodiments shown devoid of declutching fork for reducing the axial size of the assembly. The device 3 is of the concentric type being traversed by the intermediate shaft 6.11 has a release stop 35.
[067] Dans un mode de réalisation la butée de débrayage 35 peut appartenir à un dispositif de débrayage concentrique à commande par câble, cette butée étant alors montée sur une pièce menée mobile en translation et fixe en rotation, ladite pièce étant en relation de vis écrou avec une pièce menante fixe en translation et mobile en rotation. La pièce menante porte une poulie sur laquelle s'enroule le câble de commande. Pour plus de précisions, on se reportera au document US-A-5 141 091 . [067] In one embodiment the release stop 35 may belong to a concentric disengagement device with cable control, this stop being then mounted on a driven part movable in translation and fixed in rotation, said part being in screw relation nut with a driving part fixed in translation and mobile in rotation. The driving part carries a pulley on which the control cable is wound. For more details, reference is made to US-A-5 141 091.
[068] En variante la butée de débrayage 35 appartient à un dispositif de débrayage concentrique à commande électrique. [069] En variante la butée de débrayage 35 appartient à un dispositif de débrayage concentrique à commande hydraulique. Le dispositif de débrayage concentrique du type hydraulique comporte deux parties en relation de cylindre piston, à savoir une partie fixe, délimitant une cavité annulaire borgne d'orientation axiale, et un piston monté mobile axialement par rapport à la partie fixe. [068] Alternatively the clutch release 35 belongs to a concentric disengagement device with electrical control. [069] Alternatively the clutch release 35 belongs to a concentric disengagement device with hydraulic control. The concentric disengaging device of the hydraulic type comprises two parts in piston cylinder relation, namely a fixed part delimiting an axially oriented blind annular cavity, and a piston mounted axially movable with respect to the fixed part.
[070] Ce piston porte la butée de débrayage 35 et pénètre dans la cavité pour définir avec celle-ci une chambre de travail de volume variable, la cavité communiquant par un canal avec une conduite reliée à un maître cylindre actionnée par une pédale de débrayage ou un actionneur à moteur électrique commandé selon des programmes prédéterminés par un calculateur. La chambre de travail est donc admise à être pressurisée ou dépressurisée, le fluide de commande remplissant ladite chambre étant usuellement de l'huile. [070] This piston carries the release stop 35 and enters the cavity to define therewith a working chamber of variable volume, the cavity communicating through a channel with a pipe connected to a master cylinder actuated by a clutch pedal or an electric motor actuator controlled according to predetermined programs by a computer. The working chamber is therefore allowed to be pressurized or depressurized, the control fluid filling said chamber usually being oil.
[071 ] Le canal pourra être creusé dans un voile 27 appartenant à un support 10 décrit ci-après. En variante le canal pourra appartenir à un tuyau 45 porté par le voile 27, qui pourra présenter à cet effet une creusure. Le tuyau 45 pourra également être porté par l'anneau de maintien 37 décrit ci- après. [071] The channel may be hollowed in a web 27 belonging to a support 10 described below. Alternatively the channel may belong to a pipe 45 carried by the web 27, which may have a hollow for this purpose. The pipe 45 may also be carried by the retaining ring 37 described below.
[072] La partie fixe du dispositif hydraulique de débrayage 3 pourra être en une seule pièce en matière moulable. [072] The fixed part of the hydraulic disengagement device 3 may be in one piece moldable material.
[073] La partie fixe du dispositif hydraulique de débrayage 3 pourra comporter, pour réduction de l'encombrement radial, deux pièces coaxiales, à savoir, un corps extérieur 40 (Figure 1 ) entourant un tube guide métallique plus long axialement que le corps extérieur. Le fond de la cavité sera délimité par un rebord transversal appartenant au tube-guide assemblé au corps extérieur 40 à l'aide d'une pièce intermédiaire d'assemblage. Un joint d'étanchéité statique à soufflet (Figures 1 à 3) est prévu entre le corps extérieur et le tube-guide portant à son extrémité libre une butée pour limiter le déplacement du piston lorsque le dispositif de débrayage 3 n'est pas monté sur le voile 27. [073] The fixed part of the hydraulic disengagement device 3 may include, for reducing the radial size, two coaxial parts, namely, an outer body 40 (Figure 1) surrounding a metal guide tube axially longer than the outer body . The bottom of the cavity will be delimited by a transverse flange belonging to the guide tube assembled to the outer body 40 by means of an intermediate connecting piece. A bellows static seal (Figures 1 to 3) is provided between the body outside and the guide tube carrying at its free end a stop to limit the movement of the piston when the release device 3 is not mounted on the web 27.
[074] En variante le tube guide présente en section une forme de U assemblé par encliquetage au corps 40, présentant pour ce faire à son extrémité libre une pluralité de pattes élastiquement déformables en forme de crochets pénétrant dans des creusures du tube guide (Figure 1 ). Ces creusures sont réalisées dans la branche externe du tube guide à section en forme de U, ladite branche externe étant plus courte que la branche interne du U comme visible à la figure 1 . [074] In a variant, the guide tube has in section a U-shape snap-fitted to the body 40, having for this purpose at its free end a plurality of elastically deformable tabs in the form of hooks penetrating into recesses of the guide tube (FIG. ). These recesses are made in the outer branch of the U-shaped section guide tube, said outer branch being shorter than the inner branch of the U as shown in FIG.
[075] Le corps 40 pourra être assemblé par rivetage avec un fond 29 d'un manchon 28, décrit ci-après, que présente le voile 27. [075] The body 40 may be assembled by riveting with a bottom 29 of a sleeve 28, described below, that has the web 27.
[076] En variante, le corps 40 pourra être assemblé par montage baïonnette avec un fond 29 d'un manchon 28, décrit ci-après, que présente le voile 27. [076] Alternatively, the body 40 may be assembled by bayonet fitting with a bottom 29 of a sleeve 28, described below, that has the web 27.
[077] En variante, le corps 40 pourra être assemblé par montage baïonnette sur le fond du voile 27 à l'aide de rivets épaulés. [077] Alternatively, the body 40 may be assembled by bayonet mounting on the bottom of the web 27 with shouldered rivets.
[078] En variante, le corps du dispositif de débrayage est maintenu en appui sur le fond à l'aide d'un anneau de maintien 37 décrit ci après. [078] Alternatively, the body of the disengagement device is held in abutment on the bottom by means of a retaining ring 37 described below.
[079] Un ressort de précharge agit entre le corps extérieur en matière moulable et la butée de débrayage 35 pour maintenir celle-ci en appui constant sur les moyens débrayeurs, ici l'extrémité interne des doigts du diaphragme de l'embrayage 9. [079] A preload spring acts between the outer body of moldable material and the clutch release 35 to maintain it in support constant on the disengaging means, here the inner end of the fingers of the diaphragm of the clutch 9.
[080] La butée de débrayage 35 est ici du type autocentreuse et comporte un roulement à billes avec une bague tournante profilée pour contact ponctuel avec les extrémités internes des doigts du diaphragme et une bague non tournante attelée axialement au piston 32, qui porte à autocentrage la butée 35. Pour plus de précisions sur l'autocentrage de la butée on se reportera par exemple au document FR 2 619 880, la bague extérieure ou intérieure du roulement étant tournante et profilée sur l'extrémité interne des doigts du diaphragme. [080] The release stop 35 is here of the self-centering type and comprises a ball bearing with a profiled rotating ring for point contact with the inner ends of the fingers of the diaphragm and a non-rotating ring coupled axially to the piston 32, which carries self-centering the abutment 35. For more details on the self-centering of the abutment, reference will be made, for example, to document FR 2 619 880, the outer or inner ring of the bearing being rotating and profiled on the inner end of the fingers of the diaphragm.
[081 ] En variante le dispositif de débrayage est du type tiré, la butée agissant en tirant sur les doigts du diaphragme, qui prend appui sur l'appui primaire du diaphragme porté par le couvercle. Dans ce cas il n'est pas prévu d'appui secondaire. [081] Alternatively the disengaging device is of the pulled type, the stop acting by pulling on the fingers of the diaphragm, which bears on the primary support of the diaphragm carried by the cover. In this case, there is no provision for secondary support.
[082] Le double volant amortisseur 7 comporte des organes primaire et secondaire de volant moteur, sensiblement coaxiaux, mobiles en rotation l'un par rapport à la faveur de moyens de palier, tel qu'un roulement à billes visible à la figure 1 ou un palier lisse comme visible à la figure 1 du document DE 10 201 1 107 144. L'organe primaire est, de manière connue, destiné à être fixé sur le vilebrequin du moteur thermique 52 à l'aide de vis visibles par exemple dans les documents DE 101 03 795, DE 10 201 1 107 144 et WO 2010/079273. Ainsi on voit à la figure 14 un anneau troué centralement et muni de trous pour le passage des vis de fixation, le double volant amortisseur 7 étant du type de celui décrit dans le document WO 2010/079273, auquel on se reportera pour plus de précisions. Cet anneau appartient à l'organe primaire qui comprend un volant primaire flexible comprenant ici un disque de tôle flexible portant à sa périphérie externe un disque d'inertie portant une couronne dentée de démarrage pour engrenage, de manière décrite ci-après, avec un démarreur. [083] L'organe secondaire comporte le plateau de réaction 92 en fonte de l'embrayage à friction 9. Ce plateau de réaction présente à sa périphérie interne un moyeu pour son montage ici sur la bague externe du roulement à billes intercalé entre l'organe primaire et secondaire. [082] The double damping flywheel 7 comprises primary and secondary flywheel members, substantially coaxial, rotatable relative to the favor of bearing means, such as a ball bearing visible in Figure 1 or a sliding bearing as shown in Figure 1 of DE 10 201 1 107 144. The primary member is, in known manner, intended to be fixed on the crankshaft of the heat engine 52 with screws visible for example in the DE 101 03 795, DE 201 201 1071 and WO 2010/079273. Thus, in FIG. 14, we can see a ring pierced centrally and provided with holes for the passage of the fixing screws, the double damping flywheel 7 being of the type described in document WO 2010/079273, to which reference will be made for more details. . This ring belongs to the primary member which comprises a flexible primary flywheel here comprising a flexible sheet metal disc carrying at its outer periphery an inertia disk carrying a toothed gear ring gear, as described hereinafter, with a starter . [083] The secondary member comprises the reaction plate 92 cast iron friction clutch 9. This reaction plate has at its inner periphery a hub for mounting here on the outer ring of the ball bearing interposed between the primary and secondary organ.
[084] Dans un mode de réalisation des moyens élastiques, tels que des ressorts à boudins, interviennent entre les deux organes en association avec un limiteur de couple. [084] In one embodiment of the elastic means, such as coil springs, intervene between the two members in association with a torque limiter.
[085] Dans un autre mode de réalisation décrit dans les documents DE 101 03 795, DE 10 201 1 107 144 et WO 2010/079273 au moins un jeu de ressorts courbes à boudins de plus grande longueur circonférentielle intervient entre les deux organes primaires et secondaire. [085] In another embodiment described in the documents DE 101 03 795, DE 10 201 1 107 144 and WO 2010/079273 at least one set of curved coil springs of greater circumferential length intervenes between the two primary organs and secondary.
[086] Dans un autre mode de réalisation, décrit également dans ces documents DE 101 03 795, DE 10 201 1 107 144 et WO 2010/079273, il est prévu deux étages de ressorts à boudins. [086] In another embodiment, also described in these documents DE 101 03 795, DE 201 201 1 107 144 and WO 2010/079273, there are provided two stages of coil springs.
[087] Dans le mode de réalisation de la figure 1 les deux organes des organes primaire et secondaire de volant moteur, sensiblement coaxiaux, mobiles en rotation l'un par rapport à l'autre et couplés grâce à des premiers et seconds moyens d'amortissement agencés en série par l'intermédiaire d'un voile de liaison. [087] In the embodiment of Figure 1 the two bodies of primary and secondary flywheel bodies, substantially coaxial, rotatable relative to each other and coupled through first and second means of damping arranged in series via a connecting web.
[088] Les premiers moyens d'amortissement comportent au moins un organe élastique courbe s'étendant circonférentiellement entre deux premiers sièges d'appui portés par le voile de liaison. [089] Les seconds moyens d'amortissement comportent au moins deux groupes d'organes élastiques, comportant chacun au moins deux organes élastiques droits agencés en série par l'intermédiaire d'un élément intermédiaire d'appui, chaque groupe d'organes élastiques droits s'étendant circonférentiellement entre deux seconds sièges d'appui portés par le voile de liaison, au moins un organe annulaire de phasage des organes élastiques droits, distinct du voile de liaison , portant l'élément intermédiaire d'appui de chaque groupe. Il est prévu également un limiteur de couple et des moyens d'étanchéité pour les ressorts. Pour plus de précision on se reportera au document WO 2010/079273. [088] The first damping means comprise at least one curved elastic member extending circumferentially between two first support seats carried by the connecting web. [089] The second damping means comprise at least two groups of elastic members, each comprising at least two straight elastic members arranged in series via an intermediate support member, each group of straight elastic members. extending circumferentially between two second support seats carried by the connecting web, at least one annular phasing member of the straight elastic members, distinct from the connecting web, carrying the intermediate support element of each group. It is also provided a torque limiter and sealing means for the springs. For more precision, reference is made to WO 2010/079273.
[090] Dans ce mode de réalisation la machine 4 est une machine synchrone dont le rotor 5 est doté d'aimants permanents . Plus précisément de manière connue, pour diminution des courants de Foucault, le rotor 5 comporte un corps sous la forme d'un paquet de tôles dont l'une est référencée en 61 1 , 71 1 et en 81 1 respectivement dans les figures 6, 7 et 8. Dans la figure 6 les aimants permanents 602 à 610 sont implanté en V dans les tôles du paquet de tôles. Dans la figure 7 les aimants permanents 702 à 705 sont implantés de manière surfacique à la périphérie externe des tôles 71 1 du paquet de tôles. Dans la figure 8 les aimants permanents 803 sont implantés radialement dans les tôles 81 1 du paquet de tôles, le rotor étant à concentration de flux. Les aimants permanents sont implantés dans des ouvertures associées du paquet de tôles. Ces ouvertures sont prolongées par des orifices- non référencés dans les figures 6 et 7- pour diminuer les fuites du flux magnétique. [090] In this embodiment the machine 4 is a synchronous machine whose rotor 5 is provided with permanent magnets. More precisely, in known manner, for reducing the eddy currents, the rotor 5 comprises a body in the form of a bundle of sheets, one of which is referenced at 61 1, 71 1 and 81 1 respectively in FIGS. 7 and 8. In Figure 6 the permanent magnets 602 to 610 are implanted in V in the sheets of the sheet package. In FIG. 7, the permanent magnets 702 to 705 are surface-mounted at the outer periphery of the plates 71 1 of the plate package. In FIG. 8, the permanent magnets 803 are implanted radially in the laminations 81 1 of the plate bundle, the rotor being at flux concentration. The permanent magnets are located in associated openings of the sheet package. These openings are extended by orifices not referenced in FIGS. 6 and 7 to reduce the leakage of the magnetic flux.
[091 ] Les aimants permanents sont dans un mode de réalisation des aimants permanents en terre rare par exemple en Néodyme- fer- bore ou à base de Samarium Ces aimants pourront contenir une proportion plus ou moins importante de Dysprosium. Dans un autre mode de réalisation les aimants permanents sont des aimants en ferrite moins coûteux. Plusieurs aimants permanents peuvent être montés dans une même ouverture du paquet de tôles. [092] Comme mieux visible dans les figures 4 et 9 le stator 1 1 dans ce mode de réalisation appartient à une machine électrique tournante polyphasée comportant un bobinage de stator doté de plusieurs bobines 19 concentriques, ici préformées, et d'un point neutre, dit neutre de la machine, visible par exemple à la figure 1 du document EP 0 831 580. Ce stator est compact et performant du point de vue de la puissance de la machine électrique. [091] Permanent magnets are in one embodiment of rare earth permanent magnets, for example neodymium boron or Samarium These magnets may contain a greater or lesser proportion of Dysprosium. In another embodiment, the permanent magnets are less expensive ferrite magnets. Several permanent magnets can be mounted in the same opening of the sheet package. [092] As best seen in Figures 4 and 9 the stator 1 1 in this embodiment belongs to a polyphase rotating electrical machine comprising a stator winding having a plurality of concentric coils 19, here preformed, and a neutral point, said neutral of the machine, visible for example in Figure 1 of EP 0 831 580. This stator is compact and powerful from the point of view of the power of the electric machine.
[093] Ce stator est décrit dans la demande FR 12/55770 déposée le 20/06/2012 à laquelle on se reportera pour plus de précisions. Les bobines 19 sont interconnectées entre elles à l'aide d'un interconnecteur 22 compact comportant plusieurs cadres dont l'un, dit cadre de neutre est relié au neutre de la machine électrique tournante. Ce stator 1 1 comporte un corps de forme annulaire d'axe confondu d'axe confondu avec l'axe X-X. Ce corps présente des dents 14 réparties régulièrement sur la périphérie interne ainsi que des encoches 1 5 ouvertes vers l'intérieur, deux encoches 15 consécutives étant séparées par une dent 14. Ces dents 14 sont à bords parallèles deux à deux, une bande de matière, correspondant à la culasse 17 existant entre le fond des encoches 15 et la périphérie externe du corps 12. Le corps est formé par un empilement de tôles réalisées en matière ferromagnétique s'étendant dans un plan radial perpendiculaire à l'axe X-X. Le paquet de tôles est maintenu au moyen de rivets (non représentés) traversant axialement de part en part l'empilement des tôles. Cet empilement permet de réduire les courants de Foucault. [093] This stator is described in the application FR 12/55770 filed on 20/06/2012 to which reference will be made for more details. The coils 19 are interconnected with each other by means of a compact interconnector 22 comprising a plurality of frames, one of which, called a neutral frame, is connected to the neutral of the rotating electrical machine. This stator January 1 comprises an annular body of axis coincident axis coincident with the axis X-X. This body has teeth 14 regularly distributed on the inner periphery and notches 15 open towards the inside, two consecutive notches 15 being separated by a tooth 14. These teeth 14 are parallel edges in pairs, a strip of material , corresponding to the yoke 17 existing between the bottom of the notches 15 and the outer periphery of the body 12. The body is formed by a stack of sheets made of ferromagnetic material extending in a radial plane perpendicular to the axis XX. The package of sheets is held by means of rivets (not shown) passing axially through the stack of sheets. This stack reduces eddy currents.
[094] Comme cela est visible sur la figure 9, on monte sur les dents 14 du stator les bobines 19 préformées formant le bobinage du stator 1 1 . Ces bobines 19 sont réalisées à partir d'un fil enroulé sur plusieurs tours. Les fils consistent en un fil électriquement conducteur, par exemple en un fil de cuivre et/ou d'aluminium, revêtu d'un isolant électrique, tel que de l'émail. Les fils peuvent être de section circulaire, rectangulaire ou en forme de méplat. [095] Dans une forme de réalisation, deux bobines 1 9 sont implantées dans une même encoche 1 5, chaque bobine 19 étant enroulée autour de l'une des dents 14 métallique délimitant l'encoche par l'intermédiaire d'un isolant de bobine 20 Cet isolant 20 est un isolant électrique réalisé dans ce mode de réalisation en matière électriquement isolante et moulable. Les extrémités 191 , 192 de chaque bobine 1 9 dépassent axialement du bobinage d'un même côté du stator 1 1 correspondant au côté supérieur du stator 1 1 . De préférence, les extrémités 1 91 , 192 des bobines 19 sont situées sensiblement suivant une même circonférence du côté de l'extrémité libre des dents 14, c'est-à-dire du côté éloigné de la culasse 17 et du côté le plus proche de l'entrefer entre la périphérie interne du stator et la périphérie externe du rotor que comporte la machin électrique. Chaque bobine 19 comporte une première extrémité 191 appelée "entrée" destinée à être connectée avec les autres entrées de manière alternée pour appartenir à une des phases, présentant chacune un terminal respectivement U, V, W, de la machine et une deuxième extrémité 192 appelée "sortie" destinée à être reliée au neutre de la machine électrique. A cet effet, les bobines 19 sont interconnectées entre elles pour former les différentes phases à l'aide de l'interconnecteur 22 compact d'axe X confondu avec l'axe X -X lorsque l'interconnecteur 22 est installé sur le stator 1 1 . [094] As shown in Figure 9, is mounted on the teeth 14 of the stator preformed coils 19 forming the winding of the stator January 1. These coils 19 are made from a wire wound on several turns. The son consist of an electrically conductive wire, for example a copper wire and / or aluminum, coated with an electrical insulator, such as enamel. The son may be of circular, rectangular or flat-shaped section. [095] In one embodiment, two coils 1 9 are implanted in the same notch 1 5, each coil 19 being wound around one of the teeth 14 delimiting the notch via a coil insulator This insulator 20 is an electrical insulator made in this embodiment of electrically insulating and moldable material. The ends 191, 192 of each coil 1 9 axially exceed the winding on the same side of the stator January 1 corresponding to the upper side of the stator January 1. Preferably, the ends 1 91, 192 of the coils 19 are located substantially in the same circumference on the side of the free end of the teeth 14, that is to say on the far side of the yoke 17 and the nearest side the air gap between the inner periphery of the stator and the outer periphery of the rotor that comprises the electric machine. Each coil 19 has a first end 191 called "input" intended to be connected with the other inputs alternately to belong to one of the phases, each having a respective terminal U, V, W, of the machine and a second end 192 called "output" intended to be connected to the neutral of the electric machine. For this purpose, the coils 19 are interconnected to form the different phases using the X-axis compact interconnector 22 coincides with the X-X axis when the interconnector 22 is installed on the stator 1 1 .
[096] Cet interconnecteur 22 comporte dans ce mode de réalisation quatre cadres de forme annulaire s'étendant suivant un plan radial. Les cadres sont électriquement conducteurs en étant par exemple en cuivre ou avantageusement en un autre matériau métallique soudable. Ces cadres ont des diamètres internes et externes sensiblement identiques. Le diamètre externe des cadres, correspondant sensiblement au diamètre externe de l'interconnecteur 22, est inférieur au diamètre externe du stator 1 1 , constitué par le diamètre externe de la culasse 17, pour faciliter une opération d'imprégnation des bobines 1 9 et réduction de l'encombrement diamétral. Ces cadres sont empilés axialement les uns sur les autres et isolés électriquement entre eux. Chaque cadre porte sur sa périphérie interne des pattes (Non référencées à la figure 4) apparentes s'étendant en saillie radiale vers l'intérieur du cadre pour le soudage des extrémités 191 , 1 92 des bobines du stator. De préférence, les cadres sont noyés dans un corps réalisé en matériau électriquement isolant, tel que de la matière plastique. Une couche de matière électriquement isolante est présente entre chaque cadre. [096] This interconnector 22 comprises in this embodiment four annular-shaped frames extending in a radial plane. The frames are electrically conductive by being for example copper or advantageously another weldable metal material. These frames have substantially identical internal and external diameters. The external diameter of the frames, substantially corresponding to the external diameter of the interconnector 22, is smaller than the external diameter of the stator 1 1, constituted by the external diameter of the yoke 17, to facilitate an impregnation operation of the coils 1 9 and reduction the diametral bulk. These frames are stacked axially on each other and electrically isolated from each other. Each frame carries on its inner periphery tabs (Not referenced in Figure 4) apparent extending radially inwardly projecting frame for welding ends 191, 1 92 of the coils of stator. Preferably, the frames are embedded in a body made of electrically insulating material, such as plastics material. A layer of electrically insulating material is present between each frame.
[097] Un des cadres, dit cadre neutre, est destiné à être relié au neutre du bobinage de la machine électrique comprenant les bobines 19 agencés ici selon un montage en étoile avec un point neutre constitué à la faveur du cadre neutre. Ce cadre de neutre est situé à une extrémité de l'empilement des cadres, ici à l'extrémité la plus éloignée de la culasse 17. Etant donné que chaque bobine 19 a une extrémité de sortie 192 reliée au neutre, le cadre de neutre comporte un nombre de pattes égal au nombre de bobines 1 9, en l'occurrence égal à 15. [097] One of the frames, said neutral frame, is intended to be connected to the neutral winding of the electric machine comprising the coils 19 arranged here in a star configuration with a neutral point formed in favor of the neutral frame. This neutral frame is located at one end of the stack of frames, here at the farthest end of the yoke 17. Since each coil 19 has an outlet end 192 connected to the neutral, the neutral frame comprises a number of legs equal to the number of coils 1 9, in this case equal to 15.
[098] Les trois autre cadres, dit cadres de phase, sont destinés à être reliés chacun aux entrées 191 des bobines 19 de la phase concernée la machine électrique, ici de type triphasée. [098] The other three frames, said phase frames, are intended to be each connected to the inputs 191 of the coils 19 of the phase concerned the electric machine, here of three-phase type.
[099] Bien entendu, dans un autre mode de réalisation on peut augmenter le nombre de cadres de phase en fonction du nombre de phases de la machine 4. Ainsi dans un mode de réalisation les nombre de cadres de phase est égal à cinq ou à six, la machine 4 étant alors du type pentaphasé ou hexaphasé. Of course, in another embodiment, the number of phase frames can be increased as a function of the number of phases of the machine 4. Thus, in one embodiment, the number of phase frames is equal to five or six, the machine 4 then being of the pentaphase or hexaphase type.
[0100] Les extrémités d'entrée 1 91 des bobines 19 sont ainsi alternativement reliées circonférentiellement aux sorties de phase du bobinage de la machine électrique par l'intermédiaire d'un des cadres de phase de l'interconnecteur 22. Les cadres de phase comportent chacun un nombre de pattes égal au nombre de bobines divisé par le nombre de phases de la machine, soit ici 15/3=5 (cf. figure 4). Plus précisément chaque phase comporte cinq bobines 19 reliées électriquement entre elles par l'un des cadres de phase, dont le nombre de pattes 36 est égal à cinq. The input ends 91 of the coils 19 are thus alternately connected circumferentially to the phase outputs of the winding of the electrical machine via one of the phase frames of the interconnector 22. The phase frames comprise each a number of legs equal to the number of coils divided by the number of phases of the machine, here 15/3 = 5 (see Figure 4). More precisely each phase comprises five coils 19 electrically interconnected by one of the phase frames, the number of legs 36 is equal to five.
[0101 ] A cet effet, chaque cadre de phase comporte sur sa périphérie externe un terminal de connexion pour l'interconnexion avec un connecteur de puissance (non représenté) lui-même relié à un onduleur décrit par exemple dans le document EP 0 831 580. En variante l'onduleur est commandé par des signaux comme dans le document FR 2 745 444. For this purpose, each phase frame comprises on its outer periphery a connection terminal for interconnection with a power connector (not shown) itself connected to an inverter described for example in the document EP 0 831 580. In a variant, the inverter is controlled by signals as in document FR 2 745 444.
[0102] Dans les réalisations la machine électrique tournante est un alternateur réversible appelé alterno-démarreur, qui peut fonctionner en mode alternateur ou en mode démarreur. Cette machine permet donc de démarrer le moteur thermique et de fonctionner en mode alternateur notamment pour recharger la batterie du véhicule et/ou alimenter les consommateurs d'énergie lorsque le moteur thermique tourne, l'embrayage 9 étant alors engagé. Cette machine électrique est configurée pour arrêter le moteur thermique, par exemple au feu rouge ou dans les bouchons, et de le redémarrer ensuite (Fonction Stop and Go en Anglais). Elle permet d'éviter que le moteur thermique cale en fournissant un surplus de puissance (fonction boost en Anglais) l'embrayage 9 étant alors engagé. Elle permet d'entraîner le véhicule au moins sur une courte distance, l'embrayage 9 étant alors désengagé et le moteur thermique arrêté. Elle est configurée pour récupérer de l'énergie lors du freinage du véhicule. In the embodiments the rotating electrical machine is a reversible alternator called alternator-starter, which can operate in alternator mode or starter mode. This machine thus makes it possible to start the combustion engine and to operate in alternator mode, in particular to recharge the vehicle battery and / or to supply energy consumers when the engine is running, the clutch 9 then being engaged. This electric machine is configured to stop the engine, for example at a red light or in traffic jams, and then restart it (Stop and Go function). It makes it possible to prevent the engine from stalling by providing a surplus of power (boost function in English), the clutch 9 being then engaged. It drives the vehicle at least a short distance, the clutch 9 is then disengaged and the engine stopped. It is configured to recover energy when braking the vehicle.
[0103] A la lumière des figures on voit que le double volant présente à l'avant et à sa périphérie externe une couronne dentée (non référencée) pour engrènement avec le pignon d'un démarreur. Ce démarreur pourra être complémentaire pour démarrer le véhicule automobile par grand froid comme décrit dans le document FR 2 797 472 auquel on se reportera. [0104] A la lumière des documents précités on voit que dans ce mode de réalisation les terminaux de connexion des phases U, V, W phases de la machine 4 sont configurés pour être reliées à une unité de commande et de contrôle par une liaison à câble. Il pourra donc être prévu des capteurs, tels que des capteurs à effet Hall, associés à une cible magnétique, tel qu'un anneau magnétique, pour détecter la position angulaire du rotor 5. L'anneau magnétique pourra être porté par la face avant du rotor 5, tandis que les capteurs à effet Hall pourront être regroupés par exemple par trois en étant intégrés dans un porte- capteurs, qui pourra être porté par voile 27, décrit ci- après, en vis de la cible. L'unité de commande et de contrôle pourra être déportée ou en variante portée par un support 1 0 décrit ci-après. Dans tous les cas, embrayage 9 engagé ou désengagé on obtient une bonne filtration des vibrations grâce au volant 7 et à l'amortisseur 8. In light of the figures we see that the double flywheel has at the front and at its outer periphery a ring gear (not referenced) for meshing with the pinion of a starter. This starter may be complementary to start the motor vehicle in cold weather as described in document FR 2 797 472 to which reference will be made. In the light of the aforementioned documents, it can be seen that in this embodiment the connection terminals of the phases U, V, W phases of the machine 4 are configured to be connected to a control and control unit by a connection to cable. It can therefore be provided sensors, such as Hall effect sensors, associated with a magnetic target, such as a magnetic ring, to detect the angular position of the rotor 5. The magnetic ring can be carried by the front face of the rotor 5, while Hall effect sensors can be grouped for example by three being integrated in a sensor holder, which can be worn by sail 27, described below, vis-a-vis the target. The control and control unit may be remote or alternatively carried by a support 1 0 described below. In any case, clutch 9 engaged or disengaged good vibration filtration is obtained through the steering wheel 7 and the damper 8.
[0105] Dans le mode de réalisation des figures 4 et 9 les terminaux de connexion U, W, V placés côte à côte présentent une extrémité en forme de U et constituent les sorties des phases du bobinage à bobines 19 de la machine. On appréciera que les terminaux sont simplifiés du fait qu'ils font partie des cadres. Ces terminaux U, V, W sont rigides et d'un encombrement réduit. Ils peuvent être orientés à volonté. In the embodiment of Figures 4 and 9 the connection terminals U, W, V placed side by side have a U-shaped end and are the outputs of the coil winding phases 19 of the machine. It will be appreciated that the terminals are simplified because they are part of the frames. These terminals U, V, W are rigid and compact. They can be oriented at will.
[0106] Les pattes des différents cadres sont décalées angulairement les unes par rapport aux autres. En outre, pour avoir suffisamment de place pour pincer une patte et une extrémité 191 , 192 d'une bobine 19 à l'aide d'une électrode de soudage, un ensemble formé par une patte d'un des cadres de phase et une patte du cadre de neutre destinées à être soudées sur les extrémités 191 , 192 d'une même bobine 19, est configuré de manière à être positionné entre les côtés de ladite bobine 19 s'étendant entre les extrémités axiales de la bobine 19. The legs of the various frames are angularly offset relative to each other. In addition, to have enough room to pinch a tab and an end 191, 192 of a coil 19 with a welding electrode, an assembly formed by a leg of one of the phase frames and a tab of the neutral frame intended to be welded on the ends 191, 192 of the same coil 19, is configured to be positioned between the sides of said coil 19 extending between the axial ends of the coil 19.
[0107] Par ailleurs, l'interconnecteur 22 comporte dans ce mode de réalisation deux pions 58 dont un seul est visible à la figure 4. Ces pions 58 permettent, lors du montage, l'indexage de l'interconnecteur 22 par rapport aux bobines 19 afin de réduire les risques de mauvaises connexions entre les bobines. Ces pions d'indexage 58 d'extension axiale sont portés par une périphérie externe de l'interconnecteur 22. Suivant une réalisation, ces pions comportent une base venant de matière avec la périphérie externe de l'interconnecteur 22 portant une tige de forme sensiblement cylindre ayant une extrémité libre biseautée. Ces pions d'indexage sont destinés à coopérer avec des systèmes de guidage portés par les isolants de bobine 20 Ces systèmes de guidage sont formés par des protubérances 56 définissant un passage pour un pion d'indexage 58. Moreover, the interconnector 22 comprises in this embodiment two pins 58, only one of which is visible in FIG. allow, during assembly, the indexing of the interconnector 22 relative to the coils 19 to reduce the risk of poor connections between the coils. These indexing pins 58 of axial extension are carried by an outer periphery of the interconnector 22. In one embodiment, these pins comprise a base coming from the outer periphery of the interconnector 22 carrying a substantially cylindrical rod. having a beveled free end. These indexing pegs are intended to cooperate with guide systems carried by the coil insulators. These guiding systems are formed by protuberances 56 defining a passage for an indexing pin 58.
[0108] L'interconnecteur 22 comporte également des pieds d'appui 61 destinés à reposer sur un rebord de la culasse 1 7 du stator 1 1 . Ces pieds d'appui 61 présentent une forme en L avec une extrémité fixée à la périphérie externe du corps dans lequel sont noyés les cadres et une extrémité terminée par un support 62 en appui sur le rebord de la culasse 17. The interconnector 22 also has support feet 61 intended to rest on a rim of the yoke 1 7 of the stator January 1. These bearing feet 61 have an L shape with one end fixed to the outer periphery of the body in which the frames are embedded and one end terminated by a support 62 resting on the rim of the yoke 17.
[0109] Les pieds d'appui 61 sont ici au nombre de quatre répartis de manière régulière autour du corps de l'interconnecteur 22. Les pieds d'appui 61 permettent de maintenir le corps du connecteur 22 au-dessus des bobines 19 sans que le corps soit en contact avec les bobines 19. En outre, l'encombrement circonférentiel des pieds 19 est suffisamment faible pour éviter que l'interconnecteur 22 recouvre entièrement la périphérie externe des bobines 19, ce qui facilite le refroidissement du stator 1 1 du fait de la grande zone de dégagement entre deux pieds d'appui 61 successifs et de l'espace entre le corps de l'interconnecteur 22 et les bobines 1 9. The support legs 61 are here four in number distributed regularly around the body of the interconnector 22. The support feet 61 allow to maintain the body of the connector 22 above the coils 19 without the body is in contact with the coils 19. In addition, the circumferential size of the feet 19 is sufficiently small to prevent the interconnector 22 completely covers the outer periphery of the coils 19, which facilitates the cooling of the stator 1 1 of the the large zone of clearance between two successive support feet 61 and the space between the body of the interconnector 22 and the coils 1 9.
[0110] L'isolant de bobine 20 est un isolant électrique réalisé ici en matière électriquement isolante et moulable. L'isolant 20 a un corps comportant un cadre de forme globalement rectangulaire destiné à être positionné autour d'une dent 14 afin d'isoler électriquement la bobine 19 par rapport à la dent 14 métallique. Ce cadre (cf. Figure 9) est formé par une paroi supérieure et une paroi inférieure 242 sensiblement perpendiculaire à l'axe X -X et deux parois latérales reliant les parois supérieure et inférieure entre elles. Les parois latérales sont parallèles à l'axe X du stator 1 1 . The coil insulator 20 is an electrical insulator made here of electrically insulating and moldable material. The insulator 20 has a body having a frame of generally rectangular shape intended to be positioned around a tooth 14 to electrically isolate the coil 19 relative to the tooth 14 metal. This frame (see Figure 9) is formed by a top wall and a bottom wall 242 substantially perpendicular to the X-X axis and two side walls connecting the upper and lower walls therebetween. The side walls are parallel to the axis X of the stator January 1.
[0111 ] Le corps de l'isolant 20 comporte (Figure 9) en outre un rebord avant 261 et un rebord arrière 262 définissant avec les parois du cadre une gorge de montage de la bobine 19. Le rebord arrière 262 est destiné à être positionné à proximité de la culasse 17 tandis que le rebord avant 261 est situé du côté de l'extrémité libre d'une dent 14, c'est-à-dire du côté de la périphérie externe du rotor (non représenté). Le corps est réalisé ici en matière électriquement isolante rigide par exemple en matière plastique telle que du PA 6.6, qui pourra être renforcé par des fibres, telles que des fibres de verre. The body of the insulator 20 comprises (Figure 9) further a front flange 261 and a rear flange 262 defining with the walls of the frame a mounting groove of the coil 19. The rear flange 262 is intended to be positioned in the vicinity of the yoke 17 while the front flange 261 is located on the free end side of a tooth 14, that is to say on the side of the outer periphery of the rotor (not shown). The body is made here of rigid electrically insulating material for example plastic such as PA 6.6, which may be reinforced by fibers, such as glass fibers.
[0112] Chaque rebord 261 , 262 comporte deux bordures longitudinales référencées 281 pour le rebord avant 261 . Ces bordures longitudinales forment avec les parois latérales la partie de la gorge recevant les côtés d'un bobinage. Each flange 261, 262 has two longitudinal edges referenced 281 for the front flange 261. These longitudinal edges form with the side walls the part of the groove receiving the sides of a coil.
[0113] Chaque rebord 261 , 262 comporte également deux bordures reliant entre elles les bordures longitudinales de chaque rebord 261 , 262. Ces bordures transversales forment avec les parois supérieure et inférieure la partie de la gorge recevant les extrémités des bobinages dépassant axialement de part et d'autre d'une dent 14 appelées chignons. Each flange 261, 262 also has two edges interconnecting the longitudinal edges of each flange 261, 262. These transverse edges form with the upper and lower walls the portion of the groove receiving the ends of the coils protruding axially from the side and another of a tooth 14 called buns.
[0114] Une des bordures longitudinales du rebord arrière 262 est prolongée par un talon 31 ; tandis que l'autre bordure longitudinale du rebord arrière 262 est prolongée par une ailette 32 via une zone 34 de raccordement entre l'ailette 32 et le rebord arrière 262. Cette zone 34 de raccordement présente une épaisseur inférieure à l'épaisseur du rebord arrière 262 de manière à constituer une zone de pliage. L'ailette 32 est ainsi pliable en direction du corps 23 de l'isolant de bobine suivant la zone 34 de pliage qui s'étend longitudinalement perpendiculairement aux parois supérieure 241 et inférieure 242. Une fois pliée, l'ailette 32 constitue un mur électriquement isolant entre deux bobines 19 successives. Les talons 31 permettent de réduire les pertes de tension entre la culasse 17 et les bobines 19. One of the longitudinal edges of the rear flange 262 is extended by a heel 31; while the other longitudinal edge of the rear flange 262 is extended by a fin 32 via a connecting zone 34 between the fin 32 and the rear flange 262. This connection zone 34 has a thickness less than the thickness of the rear flange 262 of to form a folding zone. The fin 32 is thus foldable in the direction of the body 23 of the coil insulation following the zone 34 of folding which extends longitudinally perpendicular to the upper walls 241 and lower 242. Once folded, the fin 32 constitutes an electrically wall insulation between two successive coils 19. The heels 31 make it possible to reduce the voltage losses between the yoke 17 and the coils 19.
[0115] Dans un mode de réalisation l'ailette 32 est destinée à être pliée et laissée libre. Dans ce cas, lorsque les isolants 20 de bobine sont montés sur les dents 14, l'ailette 32 d'un isolant 20 donné prend appui contre un rebord avant 261 d'un isolant de bobine 20 adjacent. In one embodiment the fin 32 is intended to be folded and left free. In this case, when the coil insulators are mounted on the teeth 14, the fin 32 of a given insulator 20 bears against a leading edge 261 of an adjacent coil insulator 20.
[0116] Dans un autre mode de réalisation, l'ailette 32 est fixée au moyen d'un système d'encliquetage avec la bordure longitudinale 281 du rebord avant 261 située du côté de l'ailette 32. Comme montré sur les figures 9, le système d'encliquetage pourra être formé par des pattes 361 portées par la bordure longitudinale 281 du rebord avant 261 . Ces pattes 361 sont destinées à coopérer par encliquetage avec des fenêtres 362 ménagées dans la paroi de l'ailette 32. In another embodiment, the fin 32 is fixed by means of a latching system with the longitudinal edge 281 of the front edge 261 located on the side of the fin 32. As shown in FIGS. the latching system may be formed by tabs 361 carried by the longitudinal edge 281 of the front flange 261. These tabs 361 are intended to cooperate by snapping with windows 362 formed in the wall of the fin 32.
[0117] Par ailleurs (Figure 9) afin de permettre le passage d'un vernis d'imprégnation entre l'isolant 20 et la dent 14 pour la fixation de ces deux éléments 14 et 20 entre eux, des rainures borgnes 43 sont ménagées dans les faces des parois supérieures du cadre en regard l'une de l'autre tournées vers l'intérieur de l'isolant 20, c'est-à-dire tournées respectivement vers les faces externes supérieure et inférieure de la dent 14. Ces rainures 43 s'étendent sensiblement perpendiculairement aux rebords avant 261 et arrière 262. Ces rainures 43 sont fermées, c'est-à-dire non débouchantes, du côté du rebord avant 261 afin d'éviter que le vernis d'imprégnation coule dans la partie intérieure de la machine au niveau de l'entrefer entre le rotor et le stator de celle-ci lorsque le verni est injecté depuis l'extrémité ouverte des rainures 43 située du côté de la culasse 17. Les faces internes des parois supérieure et inférieure présentent ainsi une alternance de rainures 43 et de nervures 44 situées entre deux rainures 43 successives. Furthermore (Figure 9) to allow the passage of an impregnating varnish between the insulator 20 and the tooth 14 for fixing these two elements 14 and 20 between them, blind grooves 43 are formed in the faces of the upper walls of the frame facing each other facing inward of the insulator 20, that is to say, respectively turned towards the upper and lower outer faces of the tooth 14. These grooves 43 extend substantially perpendicularly to the front flanges 261 and rear 262. These grooves 43 are closed, that is to say non-emergent, on the side of the front flange 261 to prevent the impregnation varnish sinks in the part internal of the machine at the gap between the rotor and the stator thereof when the varnish is injected from the open end of the grooves 43 located on the side of the cylinder head 17. The inner faces of the upper walls and lower and thus have an alternation of grooves 43 and ribs 44 located between two grooves 43 successive.
[0118] Pour garantir un maintien efficace de la bobine 19 sur la dent 14 lors de l'injection du vernis d'imprégnation à l'intérieur des rainures 43, un système d'accrochage assure une fixation de l'isolant 20 de bobine sur la dent 14. Ce système d'accrochage est formé par des ergots 46 d'accrochage et des rainures de faible profondeur appelées "piquage" ménagées dans la dent 14 pour l'encliquetage des ergots 46. To ensure effective retention of the coil 19 on the tooth 14 during the injection of the impregnating varnish inside the grooves 43, a fastening system ensures a fixing of the coil insulation 20 on the tooth 14. This attachment system is formed by hooking lugs 46 and shallow grooves called "tapping" made in the tooth 14 for snapping lugs 46.
[0119] L'interconnecteur 22 est fixé sur le stator 1 1 par soudage des pattes du cadre de neutre et des cadres de phase avec les extrémités 191 , 192 des bobines. Il est tiré partie de l'interconnecteur 22 de manière décrite ci-après. The interconnector 22 is fixed on the stator January 1 by welding the legs of the neutral frame and phase frames with the ends 191, 192 of the coils. It is taken from the interconnector 22 in the manner described below.
[0120] Bien entendu en variante on pourra prévoir des isolants d'encoche entre deux dents 14 consécutives pour monter les bobines 19, les dents 14 présentant alors un pied comme visible à la figure 8. Bien entendu le bobinage du stator pourra être réalisé de manière conventionnelle à l'aide d'enroulement ondulé ou en boucle. En variante le bobinage du stator pourra faire appel à des conducteurs en forme de barres, telles que des épingles, comme décrit dans le document EP 1 107 433. [0120] Naturally, in a variant, it is possible to provide notch insulators between two consecutive teeth 14 to mount the coils 19, the teeth 14 then having a foot as can be seen in FIG. 8. Of course the winding of the stator can be realized from conventional way using corrugated or looped winding. As a variant, the stator winding may use conductors in the form of bars, such as pins, as described in document EP 1 107 433.
[0121 ] En variante les dents 14 du corps du stator 1 1 pourront être rapportées dans la culasse 17, par exemple par un montage à queue d'aronde, pour réaliser par avance le montage des bobines 1 9 sur les dents 1 . En variante le corps du stator pourra être segmenté tel que décrit par exemple dans le document US 2010/023 77 26. [0122] Le corps du rotor 5 est monté sur un moyeu de support 48 décrit ci- après. La périphérie interne 60 (figures 6 et 7) du corps du rotor 5 est montée sur la périphérie externe du moyeu 48. Ce montage pourra être réalisé par emmanchement à force. En variante il pourra être réalisé par frettage. En variante la périphérie externe du moyeu est moletée et le paquet de tôles du rotor est emmanché à force sur le moletage du moyeu 48. Ce moyeu 48 pourra être en acier. Dans tous les cas le corps du rotor est solidaire axialement et en rotation du moyeu 48. Alternatively the teeth 14 of the body of the stator 1 1 may be reported in the yoke 17, for example by a dovetail assembly, to achieve in advance the mounting of the coils 1 9 on the teeth 1. Alternatively the stator body may be segmented as described for example in US 2010/023 77 26. The body of the rotor 5 is mounted on a support hub 48 described hereinafter. The inner periphery 60 (Figures 6 and 7) of the body of the rotor 5 is mounted on the outer periphery of the hub 48. This assembly can be achieved by press fitting. Alternatively it can be achieved by hooping. In a variant, the outer periphery of the hub is knurled and the bundle of rotor plates is force-fitted onto the knurling of the hub 48. This hub 48 may be made of steel. In all cases the rotor body is axially and rotationally fixed to the hub 48.
[0123] Le stator 1 1 de la machine entoure le rotor 5 avec présence d'un entrefer entre la périphérie interne du stator 1 1 et la périphérie externe du rotor 5. The stator 1 1 of the machine surrounds the rotor 5 with the presence of an air gap between the inner periphery of the stator January 1 and the outer periphery of the rotor 5.
[0124] Suivant une caractéristique l'ensemble 1 comporte un module hybride 2 comprenant le dispositif de débrayage 3, la machine électrique 4, et l'amortisseur de torsion 8. Ce module 2 est manipulable et se fixe sur le carter du moteur thermique 52. Il pourra être transportable et comporte à cet effet des moyens de maintien du dispositif de débrayage 3. Ces moyens pourront consister en un anneau de maintien 37 décrit ci-après. Comme visible par exemple à la figure 1 ce module 2 comporte un support 1 0 qui coiffe l'embrayage à friction 9 et une partie du double volant amortisseur 7. According to a feature, the assembly 1 comprises a hybrid module 2 comprising the disengaging device 3, the electric machine 4, and the torsion damper 8. This module 2 is manipulable and is fixed on the housing of the heat engine 52 It may be transportable and comprises for this purpose means for holding the disengagement device 3. These means may consist of a retaining ring 37 described below. As can be seen for example in FIG. 1, this module 2 comprises a support 1 0 which covers the friction clutch 9 and a part of the double damping flywheel 7.
[0125] Le support 10 pourra être métallique. Il pourra être en matière moulable en étant par exemple en Aluminium ou en un alliage à base d'aluminium. Il est de préférence en matière amagnétique. Ce support 10 présente de manière précitée un voile 27 interne formant une paroi de séparation entre le rotor 5 et l'embrayage 9 comme visible à la figure 1 . Ce voile 27 est ainsi décalé axialement par rapport à la face avant support 10. [0126] La périphérie externe du corps du stator 1 1 en forme de paquet de tôle est montée à serrage dans le support 10 présentant dans ce mode de réalisation une périphérie interne de forme cylindrique pour coopérer avec la périphérie externe du corps du stator 1 1 . Le montage du corps du stator 1 1 dans le support 10 pourra être réalisé par frettage. The support 10 may be metallic. It may be moldable material being for example aluminum or an aluminum-based alloy. It is preferably in non-magnetic material. This support 10 has the aforementioned manner an internal web 27 forming a partition wall between the rotor 5 and the clutch 9 as visible in Figure 1. This web 27 is thus axially offset with respect to the front support face 10. The outer periphery of the body of the stator 1 1 in the form of a sheet package is clamped in the support 10 having in this embodiment an internal periphery of cylindrical shape to cooperate with the outer periphery of the body of the stator 1 1 . The mounting of the body of the stator January 1 in the support 10 can be achieved by hooping.
[0127] Dans un mode de réalisation l'extrémité avant de l'arbre intermédiaire 6 se monte dans le vilebrequin du moteur thermique 53, de manière connue, via un roulement pilote monté dans une cavité du vilebrequin. In one embodiment, the front end of the intermediate shaft 6 is mounted in the crankshaft of the heat engine 53, in a known manner, via a pilot bearing mounted in a cavity of the crankshaft.
[0128] Dans un mode de réalisation avantageux l'arbre intermédiaire 6 s'étend en porte à faux à l'avant du module 2, ce qui simplifie le montage du module hybride 2 de l'ensemble 1 sur le moteur thermique équipé du double volant amortisseur et de l'embrayage 9. In an advantageous embodiment, the intermediate shaft 6 extends cantilevered at the front of the module 2, which simplifies the assembly of the hybrid module 2 of the assembly 1 on the heat engine equipped with the double damping flywheel and clutch 9.
[0129] Dans un mode de réalisation le support 10 du module hybride 2 comprend des premiers moyens de fixation 13 qui sont configurés pour être fixés sur le carter de la boîte de vitesse 53 et des seconds moyens de fixation qui sont configurés pour être fixés sur le carter du moteur thermique 52. Les premiers 13 et seconds 16 moyens de fixation peuvent consister comme cela est illustré sur les figures 13 et 14 en des rebords externes saillants troués. En variante, les premiers 13 et/ou deuxièmes 16 moyens de fixation peuvent consister en des trous réalisés dans un fond du support 10. Cette variante est illustrée dans la figure 12 selon laquelle les moyens de fixation 13 consistent en des trous réalisés dans un fond du support 10. Ces trous issus de fond ou de rebord externe permettent le passage d'organes de fixation tels que des rivets. [0130] Le support porte intérieurement entre les premiers et seconds moyens de fixation le stator 1 1 de la machine électrique. Pour cela, la culasse du stator 1 1 est par exemple, fixée par frettage à l'intérieur du support 10. In one embodiment the support 10 of the hybrid module 2 comprises first fixing means 13 which are configured to be fixed on the casing of the gearbox 53 and second fixing means which are configured to be fixed on the casing of the heat engine 52. The first 13 and second 16 fixing means may consist as shown in Figures 13 and 14 in the outer edges perforated projections. Alternatively, the first 13 and / or second 16 fixing means may consist of holes made in a bottom of the support 10. This variant is illustrated in Figure 12 according to which the fastening means 13 consist of holes made in a bottom 10. These holes from the bottom or outer rim allow the passage of fasteners such as rivets. The support carries internally between the first and second fixing means the stator 1 1 of the electric machine. For this, the yoke of the stator January 1 is for example fixed by hooping inside the support 10.
[0131 ] Selon un mode de réalisation, le stator comporte un interconnecteur 22 représenté notamment sur les figures 1 à 3 avec des terminaux de connexion U, V et W représentés sur la figure 4 pour l'interconnexion avec un connecteur de puissance. Le support 10 peut comporter un passage 23 illustré sur les figures 1 3 et 14. Ce passage permet la sortie des terminaux de connexion à l'extérieur du support 10. According to one embodiment, the stator comprises an interconnector 22 shown in particular in Figures 1 to 3 with connection terminals U, V and W shown in Figure 4 for interconnection with a power connector. The support 10 may comprise a passage 23 illustrated in FIGS. 1 3 and 14. This passage allows the output of the connection terminals outside the support 10.
[0132] Selon un mode de réalisation le support 10 présente un circuit de refroidissement pour refroidir le stator. Pour cela, on réalise par moulage en sable une forme annulaire 55, illustrée en coupe sur les figures 1 à 3 et 10, sur tout le tour du support autour du stator 1 1 . Cette forme annulaire associée à des orifices d'entrée 24 et 25 représentés sur les figures 13 et 14 forme un circuit de refroidissement permettant par exemple la circulation d'un liquide de refroidissement. According to one embodiment, the support 10 has a cooling circuit for cooling the stator. For this, an annular shape 55, illustrated in section in FIGS. 1 to 3 and 10, is produced by sand molding, all around the support around the stator January 1. This annular shape associated with inlet ports 24 and 25 shown in Figures 13 and 14 forms a cooling circuit for example the circulation of a coolant.
[0133] En variante, ce circuit de refroidissement peut être obtenu par surmoulage du support sur un tube 26 illustré sur la figure 5. Ce tube 26 comprend une ouverture 65 et une fermeture 66. Ce tube 26 permet la circulation par exemple d'un liquide de refroidissement. Alternatively, this cooling circuit can be obtained by overmolding the support on a tube 26 illustrated in Figure 5. This tube 26 comprises an opening 65 and a closure 66. This tube 26 allows the circulation for example of a cooling liquid.
[0134] Avantageusement, les deux moyens de fixations 13 et 16 sont présents de part et d'autre du support 10 qui présente une certaine longueur entre la boite de vitesse 53 et le carter du moteur 52. On évite ainsi un cheminement du circuit de refroidissement entre les différents trous de fixation tel que cela est décrit dans les figures 13 et 14 de la demande de brevet PCT/FR99/01863. [0135] Selon un mode de réalisation, le support 10 comporte un voile interne 27 illustré sur les figures 1 à 3 et 10. Ce voile interne permet la séparation entre la machine électrique 4 et l'embrayage à friction 9. Ainsi, le voile interne 27 permet d'éviter l'arrivée des poussières de l'embrayage dans la machine électrique 4, qui peuvent perturber le fonctionnement de la machine électrique. Advantageously, the two attachment means 13 and 16 are present on either side of the support 10 which has a certain length between the gearbox 53 and the housing of the motor 52. This avoids a path of the cooling between the various fixing holes as described in Figures 13 and 14 of the patent application PCT / FR99 / 01863. According to one embodiment, the support 10 comprises an internal sail 27 illustrated in FIGS. 1 to 3 and 10. This internal sail allows the separation between the electric machine 4 and the friction clutch 9. Thus, the veil internal 27 avoids the arrival of dust clutch in the electric machine 4, which can disrupt the operation of the electric machine.
[0136] Ce voile interne présente à son extrémité interne un manchon 28 de forme axial qui pénètre à l'intérieure du rotor 5 comme cela est illustré dans les figures 1 , 3 et 10. Ce manchon 28 est traversé par l'arbre intermédiaire 6. Le manchon 28 présente deux portions 285 et 286 illustrées notamment sur les figures 1 -3 qui n'ont pas le même diamètre. La portion 286 qui s'étend plus à l'intérieur du rotor 5 a un diamètre inférieur à celui de la portion 285. Ainsi, on peut monter un roulement à bille 30 sur entre la deuxième portion 286 et l'arbre intermédiaire 6. Les deux portions 285 et 286 s'étendent axialement de part et d'autre d'un fond 29 du manchon. Ce fond est troué de manière à pouvoir être traversé par l'arbre 6. This internal web has at its inner end a sleeve 28 of axial shape which penetrates inside the rotor 5 as shown in Figures 1, 3 and 10. This sleeve 28 is traversed by the intermediate shaft 6 The sleeve 28 has two portions 285 and 286 illustrated in particular in Figures 1 -3 which do not have the same diameter. The portion 286 which extends further inside the rotor 5 has a diameter smaller than that of the portion 285. Thus, it is possible to mount a ball bearing 30 on between the second portion 286 and the intermediate shaft 6. two portions 285 and 286 extend axially on either side of a bottom 29 of the sleeve. This bottom is pierced so that it can be crossed by the shaft 6.
[0137] Suivant une caractéristique le dispositif de débrayage 3 concentrique de l'embrayage à friction 9, traversé par l'arbre 6, est monté en partie à l'intérieur de la première portion 285 du manchon 28. Ce dispositif 3 est radialement compact. According to one feature the concentric clutch 3 of the friction clutch 9, traversed by the shaft 6, is mounted partially inside the first portion 285 of the sleeve 28. This device 3 is radially compact .
[0138] Le dispositif de débrayage 3 des figures 1 à 3 est, de manière précitée, une butée à commande hydraulique 35 en appui sur le fond 29. Ce dispositif comporte un soufflet de protection. The release device 3 of Figures 1 to 3 is, as mentioned above, a hydraulic control stop 35 bearing on the bottom 29. This device comprises a protective bellows.
[0139] Il est prévu un anneau de maintien 37 (cf. figures 1 à 3 et 16) du dispositif de débrayage 3 pénétrant dans le manchon 28 et doté d'au moins une patte 38 de fixation sur voile 27. Comme visible à la figurel 6 cet anneau comporte trois pattes 38 pour sa fixation à l'extrémité interne globalement transversale du voile 27 d'un seul tenant avec le support 1 0. Ce voile 27 est ici venu de moulage avec le support 10. There is provided a retaining ring 37 (see FIGS. 1 to 3 and 16) of the clutch device 3 penetrating into the sleeve 28 and provided with at least a flap 38 for fastening to the sail 27. As can be seen in FIG. 6, this ring comprises three tabs 38 for fixing it to the generally transverse inner end of the sail 27 in one piece with the support 1 0. This sail 27 is here come from molding with the support 10.
[0140] Le dispositif de débrayage 3 présente, de manière précitée, un corps 40 (cf. figures 1 à 3). L'extrémité de l'anneau 37 qui pénètre dans le manchon 28 présente une collerette d'appui 39 sur le corps du dispositif de débrayage 3. Cet anneau 37 est ici en tôle emboutie. The clutch device 3 has, as mentioned above, a body 40 (see Figures 1 to 3). The end of the ring 37 which enters the sleeve 28 has a bearing flange 39 on the body of the release device 3. This ring 37 is here pressed sheet.
[0141 ] La collerette d'appui de l'anneau 37 est avantageusement inclinée axialement, ainsi elle exerce une précharge sur le corps 40 du dispositif de débrayage 35. The support flange of the ring 37 is advantageously inclined axially, thus it exerts a preload on the body 40 of the release device 35.
[0142] Selon un mode de réalisation, l'anneau de maintien 37 comporte une échancrure ou un appendice 42 pour coopération avec respectivement avec un appendice ou une échancrure appartenant au corps 40 du dispositif de débrayage 3 pour blocage en rotation dudit corps 40. According to one embodiment, the holding ring 37 has a notch or an appendage 42 for cooperation with respectively an appendage or notch belonging to the body 40 of the release device 3 for locking in rotation of said body 40.
[0143] L'anneau de maintien 37 (cf. figures 1 à 3 et 16) peut présenter un passage 41 pour un tuyau d'alimentation 45 de la butée à commande hydraulique. 21 . Le tuyau 45 peut être guidé par le voile 27. Pour cela, ce voile 27 du support 10 comporte une creusure de maintien dudit tuyau d'alimentation 45. The retaining ring 37 (see Figures 1 to 3 and 16) may have a passage 41 for a supply pipe 45 of the hydraulically controlled abutment. 21. The pipe 45 can be guided by the web 27. For this, the web 27 of the support 10 comprises a retaining recess of said feed pipe 45.
[0144] Selon un mode de réalisation, le module hybride 2 comprend un moyeu de support du rotor 48 (cf. figures 1 à 3) fixé à l'extrémité arrière de l'arbre intermédiaire 6 à l'amortisseur de torsion 8. Avantageusement, le moyeu de support 48 du rotor 5 présente à l'avant une épaisseur réduite. Ainsi, la pénétration à jeu radial du manchon 28 à l'intérieur du moyeu 48 est possible. Pour sa fixation, le moyeu peut comporter un rebord interne 49 d'orientation globalement transversale. Ainsi, en fixant le rebord interne 49 à l'extrémité arrière de l'arbre intermédiaire 6, on fixe le moyeu 48. Pour sa fixation au rebord interne 49 et au moyeu 48, l'arbre intermédiaire 6 présente à son extrémité arrière une portée de centrage 50 et une butée axiale 51 pour le rebord interne 49. Cette portée 50 et cette butée 51 permettent le positionnement du rebord interne 49 et donc du rotor 5. La butée axiale 51 et le rebord interne 49 sont troués pour le passage d'organe de fixation, par exemple des rivets, du rebord interne 49 avec l'arbre intermédiaire 6. According to one embodiment, the hybrid module 2 comprises a hub for supporting the rotor 48 (see FIGS. 1 to 3) attached to the rear end of the intermediate shaft 6 to the torsion damper 8. Advantageously , the support hub 48 of the rotor 5 has a reduced thickness at the front. Thus, the radial clearance penetration of the sleeve 28 inside the hub 48 is possible. For attachment, the hub may include an inner rim 49 of generally transverse orientation. Thus, by fixing the inner rim 49 to the rear end of the intermediate shaft 6, the hub 48 is fixed. For attachment to the inner rim 49 and the hub 48, the intermediate shaft 6 has at its rear end a seat 50 and an axial stop 51 for the inner flange 49. This bearing 50 and this stop 51 allow the positioning of the inner flange 49 and therefore the rotor 5. The axial abutment 51 and the inner flange 49 are perforated for the passage of fixing member, for example rivets, of the inner flange 49 with the intermediate shaft 6.
[0145] L'amortisseur de torsion 8 visibles sur les figures 1 à 3, 10, 12, et 13 comporte à l'avant une première rondelle de guidage 83 visible sur les figures 1 à 3 et 1 0 et à l'arrière une deuxième rondelle de guidage 82 visible sur les figures 1 à 3 et 10. L'amortisseur de torsion comprend également un moyeu de sortie 84 solidaire en rotation de l'organe d'entrée 54 de la boîte de vitesse 53 (cf. figures 2, 3 et 1 0). Le moyeu de sortie 84 est relié à un voile de moyeu 81 de direction globalement radiale 84. Les deux rondelles 83 et 82 sont disposées de part et d'autre du voile de moyeu 81 . Par ailleurs, la première rondelle de guidage 83 est solidaire en rotation de l'arbre 6 par la fixation de la périphérie interne de ladite première rondelle de guidage au rebord interne 49 du moyeu 48 du rotor 5. The torsion damper 8 visible in FIGS. 1 to 3, 10, 12, and 13 comprises at the front a first guide washer 83 visible in FIGS. 1 to 3 and 1 0, and at the rear a second guide ring 82 visible in FIGS. 1 to 3 and 10. The torsion damper also comprises an outlet hub 84 integral in rotation with the input member 54 of the gear box 53 (see FIG. 3 and 1 0). The outlet hub 84 is connected to a generally radially directional hub web 81. The two washers 83 and 82 are arranged on either side of the hub web 81. Moreover, the first guide washer 83 is integral in rotation with the shaft 6 by fixing the inner periphery of said first guide washer to the inner flange 49 of the hub 48 of the rotor 5.
[0146] Selon un mode de réalisation, la périphérie interne de la première rondelle de guidage 83 est décalée axialement vers l'avant pour créer un jeu axial entre la première rondelle de guidage 83 et l'extrémité arrière du rotor 5. According to one embodiment, the inner periphery of the first guide ring 83 is axially offset forwards to create an axial clearance between the first guide ring 83 and the rear end of the rotor 5.
[0147] Par ailleurs, les organes de fixation précités passant au travers de la butée axiale 51 et du rebord interne 49 troués pour fixation du rebord interne 49, traversent également la première rondelle de guidage 83. Ainsi, ils permettent la fixation de la première rondelle de guidage et du moyeu 48 du rotor 5 sur la butée axiale 51 de l'arbre intermédiaire 6. [0148] La première rondelle de guidage 83 peut comporter des crevés 86 visibles sur les figures 1 à 3. Ces crevés permettent le montage d'organes élastiques 87, tels que des ressorts à boudins, qui agisse circonférentiellement entre le voile du moyeu 81 et les première et deuxième rondelles de guidage respectivement 82 et 83. Furthermore, the aforementioned fasteners passing through the axial abutment 51 and the internal flange 49 holes for fixing the inner rim 49, also pass through the first guide ring 83. Thus, they allow the fixing of the first guide ring and the hub 48 of the rotor 5 on the axial stop 51 of the intermediate shaft 6. The first guide ring 83 may comprise punctures 86 visible in FIGS. 1 to 3. These punctures allow the assembly of elastic members 87, such as coil springs, which act circumferentially between the web of the hub 81 and the first and second guide rings respectively 82 and 83.
[0149] Selon un premier mode de réalisation représenté sur la figure 1 , la première rondelle de guidage 83 présente à sa périphérie externe un rebord courbé dirigé vers le rotor 5 de manière à créer un déflecteur 85 pour éviter la pénétration des particules issues notamment de l'amortisseur 8 dans la machine électrique 4. Par exemple comme cela est illustré sur la figure 1 , le déflecteur 85 est positionné à l'intérieur de l'interconnecteur 22. According to a first embodiment shown in FIG. 1, the first guide ring 83 has, at its outer periphery, a curved rim directed towards the rotor 5 so as to create a deflector 85 to prevent the penetration of the particles originating in particular from the damper 8 in the electric machine 4. For example, as shown in FIG. 1, the deflector 85 is positioned inside the interconnector 22.
[0150] Selon un deuxième mode de réalisation représenté sur les figures 2, 3, 10 et 1 1 , la première rondelle 83 n'est pas courbée mais le module hybride 2 comprend en plus des première et deuxième rondelles de guidage de l'amortisseur 8, un flasque anti poussière 63 visible sur les figures 2, 3, 1 0 et 1 1 . Le flasque 63 permet d'éviter la pénétration des particules issues notamment de l'amortisseur 8 dans la machine électrique 4. Le flasque 63 est issu d'un prolongement à l'arrière du moyeu 48 du rotor 5. Il est solidaire de la première 83 et /ou la deuxième rondelle de guidage 82. According to a second embodiment shown in Figures 2, 3, 10 and 1 1, the first washer 83 is not curved but the hybrid module 2 further comprises first and second guide rings of the damper 8, a dust flange 63 visible in Figures 2, 3, 1 0 and 1 1. The flange 63 makes it possible to prevent the particles especially from the shock absorber 8 from entering the electrical machine 4. The flange 63 is derived from an extension at the rear of the hub 48 of the rotor 5. It is integral with the first 83 and / or the second guide ring 82.
[0151 ] Selon une caractéristique de ce deuxième mode de réalisation, la périphérie interne 631 du flasque 63 est décalée axialement vers l'arrière par rapport au rebord interne 49. According to a characteristic of this second embodiment, the inner periphery 631 of the flange 63 is offset axially rearward with respect to the internal flange 49.
[0152] Selon une autre caractéristique de ce deuxième mode de réalisation, la périphérie externe 632 du flasque 63 est décalée axialement vers l'arrière par rapport à la périphérie interne du flasque 63. Selon une autre caractéristique, la périphérie externe du flasque 63 présente une extrémité 633 inclinée en direction opposée au rotor 5 (cf. figures 2, 3, 10 et 1 1 ). [0153] Selon une caractéristique de ce deuxième mode de réalisation l'extrémité inclinée 633 est positionnée à l'intérieur de l'interconnecteur 22 comme cela est visible sur les figures 2, 3 et 10. According to another characteristic of this second embodiment, the outer periphery 632 of the flange 63 is offset axially rearward with respect to the inner periphery of the flange 63. According to another characteristic, the outer periphery of the flange 63 has an end 633 inclined in opposite direction to the rotor 5 (see Figures 2, 3, 10 and 1 1). According to a characteristic of this second embodiment, the inclined end 633 is positioned inside the interconnector 22 as can be seen in FIGS. 2, 3 and 10.
[0154] Selon une autre caractéristique de ce deuxième mode de réalisation, dans le cas où la première rondelle de guidage 83 comporte des crevés 86 pour le montage d'organes élastiques 87, tels que des ressorts à boudins, le flasque 63 est conformé entre ses périphéries interne 631 et externe 632 pour suivre le profil des crevés 86. According to another feature of this second embodiment, in the case where the first guide ring 83 comprises punctures 86 for mounting resilient members 87, such as coil springs, the flange 63 is formed between its inner peripheries 631 and outer 632 to follow the profile of the dead 86.
[0155] Par ailleurs, comme illustré sur la figure 3 le support 10 peut porter à l'arrière de l'interconnecteur 22 un bouchon magnétique 59 pour recueillir les particules métalliques provenant de l'amortisseur de torsion. Furthermore, as shown in Figure 3 the support 10 can carry to the rear of the interconnector 22 a magnetic plug 59 to collect the metal particles from the torsion damper.
[0156] Ainsi qu'il ressort à l'évidence de la description et des dessins, on fixe d'abord le double volant amortisseur 7 et l'embrayage 9 sur le vilebrequin du moteur 52 puis on fixe le module hybride 2 sur le carter moteur et enfin le carter de la boite de vitesse 53 sur le module hybride. As is evident from the description and drawings, first fixed the double damping flywheel 7 and the clutch 9 on the crankshaft of the engine 52 and then fixed the hybrid module 2 on the crankcase engine and finally the casing of the gearbox 53 on the hybrid module.
[0157] Le corps 40 du dispositif de débrayage 3 pourra être en matière moulable. Il pourra être en Aluminium ou en variante en matière plastique avantageusement renforcée par des fibres. Ce corps présente à sa périphérie externe un anneau présentant une face arrière en appui sur le fond 29 du manchon 28 et une face avant pour appui de la face avant de l'anneau de maintien37. L'anneau du corps 40 présente à sa périphérie externe un appendice ou une échancrure pour coopérer avec l'échancrure ou l'appendice complémentaire de l'anneau de maintien solidaire du voile 27 par l'intermédiaire de ses pattes de fixation fixées par exemple par rivetage sur le voile 27. Le corps 40 est ainsi fixe en rotation. Les pattes élastiquement déformables à crochets sont issues de la périphérie interne de l'anneau du corps 40 et s'étendent en saillie axiale par rapport à la face avant de l'anneau du corps 40. The body 40 of the clutch device 3 may be of moldable material. It may be aluminum or alternatively plastic material advantageously reinforced by fibers. This body has at its outer periphery a ring having a rear face bearing on the bottom 29 of the sleeve 28 and a front face for support of the front face of the retaining ring37. The ring of the body 40 has at its outer periphery an appendage or notch to cooperate with the notch or the complementary appendage of the integral holding ring of the web 27 by means of its fixing lugs fixed for example by riveting on the web 27. The body 40 is thus fixed in rotation. Legs elastically deformable hooks are derived from the inner periphery of the ring of the body 40 and extend in axial projection relative to the front face of the ring of the body 40.
[0158] Le bouchon magnétique 59 présente une partie magnétique à son extrémité interne en vis-à-vis de la périphérie externe de l'amortisseur 8. Il présente une partie 57 à tête par exemple à six pans pour se visser dans le support 10 métallique entre l'interconnecteur 22 et l'extrémité arrière du support 1 0. A la figure 3 on a schématisé le chemin 67 suivi par les particules métalliques provenant de l'amortisseur 8 et attirées par les parties métalliques 57 du bouchon magnétique. The magnetic plug 59 has a magnetic portion at its inner end vis-à-vis the outer periphery of the damper 8. It has a portion 57 head eg hexagon to screw into the support 10 between the interconnector 22 and the rear end of the support 1 0. In Figure 3 is schematized the path 67 followed by the metal particles from the damper 8 and attracted by the metal parts 57 of the magnetic plug.
[0159] Le flasque antipoussière 63 présente une périphérie interne 631 de raccordement au moyeu 48 décalée axialement vers l'arrière par rapport au rebord interne 49 et à la face arrière du rotor 5 pour éviter les fuites magnétiques. Ce flasque 63 présente également des ouvertures à sa périphérie externe 632 pour le passage de rivets d'assemblage du flasque avec la périphérie externe des rondelles de guidage métalliques 82, 83 et donc à l'amortisseur 8. De même à la figure 2 la première rondelle de guidage 83 présente à sa périphérie interne des ouvertures pour son assemblage à l'aide de vis à la périphérie interne du rebord 49 du moyeu de rotor métallique et à la butée axiale 51 de l'arbre intermédiaire 6 présentant pour ce faire des ouvertures en correspondances avec celles de la butée 51 . Cette butée est de forme annulaire et pourra consister en une collerette de faible diamètre. La portée de centrage 50 de l'arbre 6 est en contact intime avec la périphérie interne du rebord 49 du moyeu afin de garantir un entrefer entre le rotor 5 et le stator 1 1 . Il en est de même dans les figures 2 et 3. Dans ces figures le rebord 49 présente des ouvertures en regard d'ouvertures présentent dans la butée pour assemblage du rebord à la butée 51 par exemple à l'aide de rivets. L'amortisseur 8 est dans tous les cas imperdable car il est fixé au moyeu 48 du rotor 5 à l'arrière de l'arbre 6, dont l'extrémité avant traverse le dispositif de débrayage concentrique 3 pour venir en prise avec le moyeu de l'embrayage 9 par exemple par une liaison à cannelures. L'anneau 37 rend imperdable le dispositif 3 avant montage du module hybride 2 sur le carter du moteur thermique du véhicule. The dust shield 63 has an inner periphery 631 for connection to the hub 48 offset axially rearwardly relative to the inner flange 49 and the rear face of the rotor 5 to prevent magnetic leakage. This flange 63 also has openings at its outer periphery 632 for the passage of flange assembly rivets with the outer periphery of the metal guide washers 82, 83 and therefore the damper 8. Similarly in Figure 2 the first guide washer 83 has at its inner periphery openings for its assembly by means of screws at the inner periphery of the flange 49 of the metal rotor hub and at the axial abutment 51 of the intermediate shaft 6 having openings for this purpose. in correspondence with those of the stop 51. This stop is of annular shape and may consist of a collar of small diameter. The centering surface 50 of the shaft 6 is in intimate contact with the inner periphery of the flange 49 of the hub to ensure an air gap between the rotor 5 and the stator January 1. It is the same in Figures 2 and 3. In these figures the rim 49 has openings facing apertures in the abutment for assembly of the flange at the stop 51 for example by means of rivets. The damper 8 is in any case captive because it is fixed to the hub 48 of the rotor 5 at the rear of the shaft 6, the front end passes through the concentric disengagement device 3 to engage with the hub of the clutch 9 for example by a splined connection. Ring 37 makes captive the device 3 before mounting the hybrid module 2 on the crankcase of the engine of the vehicle.
[0160] D'une manière générale on peut utiliser, des vis, des rivets ou des boulons ou autre pour fixer le flasque 63 aux rondelles 82, 83 et pour fixer le rebord 49 et/ou la périphérie interne de la rondelle 83 à la butée 51 . In general, it is possible to use screws, rivets or bolts or the like to fix the flange 63 to the washers 82, 83 and to fix the flange 49 and / or the inner periphery of the washer 83 to the stop 51.
[0161] Le décalage vers l'arrière du flasque 63 métallique (Figures 2 et 3) et de la périphérie interne de la rondelle de guidage métallique 83 par rapport à l'extrémité arrière du rotor permet de diminuer les fuites magnétiques. The backward shifting of the metal flange 63 (Figures 2 and 3) and the inner periphery of the metal guide washer 83 relative to the rear end of the rotor reduces magnetic leakage.
[0162] Comme visible dans les figures 1 à 3 le voile 27 présente un décalage axial vers l'avant à sa périphérie externe pour logement des bobines du stator 1 1 . As can be seen in FIGS. 1 to 3, the web 27 has an axial offset forwards at its outer periphery for housing the stator coils 1 1.

Claims

Revendications 1. Module hybride (2) pour ensemble de transmission (1 ) pour véhicule automobile à boîte de vitesse (53) comprenant un embrayage (9), un dispositif de débrayage (3) de l'embrayage, une machine électrique tournante (4) réversible dotée d'un rotor (5) un arbre intermédiaire (6) entre l'embrayage et le rotor (5) de la machine électrique (4), caractérisé en ce qu'il comporte un support (10) doté d'un voile interne (27) de séparation entre la machine électrique (4) et l'embrayage (9), en ce que le voile (27) présente à son extrémité interne un manchon axial (28) pénétrant à l'intérieur du rotor (5) de la machine (4) et traversé par l'arbre intermédiaire (6), et en ce que le dispositif de débrayage comporte un corps (40) maintenu en place par un anneau de maintien (37) du dispositif de débrayage (3) pénétrant dans le manchon (28) et doté d'au moins une patte1. Hybrid module (2) for a transmission assembly (1) for a motor vehicle with a gearbox (53) comprising a clutch (9), a disengaging device (3) for the clutch, a rotating electrical machine (4). ) reversible with a rotor (5) an intermediate shaft (6) between the clutch and the rotor (5) of the electric machine (4), characterized in that it comprises a support (10) provided with a internal sail (27) separating the electric machine (4) from the clutch (9), in that the web (27) has at its inner end an axial sleeve (28) penetrating inside the rotor (5). ) of the machine (4) and traversed by the intermediate shaft (6), and in that the disengaging device comprises a body (40) held in place by a retaining ring (37) of the disengaging device (3) penetrating the sleeve (28) and having at least one leg
(38) de fixation sur voile (27). (38) fastening to the sail (27).
2. Module selon la revendication 1 , caractérisé en ce que l'extrémité de l'anneau (37) qui pénètre dans le manchon présente une collerette d'appui2. Module according to claim 1, characterized in that the end of the ring (37) which enters the sleeve has a bearing flange.
(39) sur le corps (40) du dispositif de débrayage (3) et en ce que le manchon (28) présente un fond (29). (39) on the body (40) of the disengaging device (3) and in that the sleeve (28) has a bottom (29).
3. Module selon la revendication 2, caractérisé en ce que la collerette (39) est inclinée axialement pour exercer une précharge sur le corps (40) du dispositif de débrayage (35) et solliciter celui-ci en contact avec le fond (40) du manchon (28). 3. Module according to claim 2, characterized in that the flange (39) is inclined axially to exert a preload on the body (40) of the release device (35) and urge it in contact with the bottom (40) the sleeve (28).
4. Module selon l'une des revendications 1 à 3, caractérisé en ce que la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport compris entre 0,5 et 2 par phase et par pôle. 4. Module according to one of claims 1 to 3, characterized in that the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of between 0.5 and 2 per phase and per pole.
5. Module selon l'une des revendications 1 à 3, caractérisé en ce que la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport de 0,5 par phase et par pôle. 5. Module according to one of claims 1 to 3, characterized in that the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of 0.5 per phase and per pole.
6. Module selon l'une des revendications 1 à 3, caractérisé en ce que la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport de 2 par phase et par pôle. 6. Module according to one of claims 1 to 3, characterized in that the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of 2 per phase and per pole.
7. Module selon l'une des revendications 1 à 3, caractérisé en ce que la machine électrique est munie d'un stator qui comprend des encoches configurées pour recueillir un bobinage statorique, ledit bobinage statorique comprenant un certain nombre de pôles et de phases, lesdites encoches étant formées dans le stator à un rapport de 1 par phase et par pôle. 7. Module according to one of claims 1 to 3, characterized in that the electric machine is provided with a stator which comprises notches configured to collect a stator winding, said stator winding comprising a number of poles and phases, said notches being formed in the stator at a ratio of 1 per phase and per pole.
8. Module selon l'une des revendications 4 à 7, caractérisé en ce que le rotor est doté d'une ouverture centrale. 8. Module according to one of claims 4 to 7, characterized in that the rotor is provided with a central opening.
9. Module selon la revendication 8, caractérisé en ce que le dit arbre (6) porte à l'avant le dispositif de débrayage (3) et pénètre dans l'ouverture centrale du rotor (5), 9. Module according to claim 8, characterized in that said shaft (6) carries at the front the disengaging device (3) and enters the central opening of the rotor (5),
10. Module selon l'une des revendications 2 ou 3 à 9 prise en dépendance de la revendication 2, caractérisé en ce que le fond (29) est troué centralement pour le passage de l'arbre (6) et l'appui du corps (40). 10. Module according to one of claims 2 or 3 to 9 taken in accordance with claim 2, characterized in that the bottom (29) is centrally perforated for the passage of the shaft (6) and the support of the body (40).
1 1 . Module selon l'une quelconque des revendications 4 à 10, caractérisé en ce que l'anneau de maintien (37) comporte une échancrure ou un appendice (42) pour coopération avec respectivement avec un appendice ou une échancrure appartenant au corps (40) du dispositif de débrayage pour blocage en rotation dudit corps (40). 1 1. Module according to any one of claims 4 to 10, characterized in that the retaining ring (37) has a notch or an appendix (42) for cooperation with respectively an appendage or an indentation belonging to the body (40) of the disengaging device for locking in rotation of said body (40).
12. Module selon l'une quelconque des revendications 4 à 1 1 , caractérisé en ce que l'anneau de maintien (37) présente un passage (41 ) pour un tuyau d'alimentation (45) de la butée à commande hydraulique. 12. Module according to any one of claims 4 to 1 1, characterized in that the retaining ring (37) has a passage (41) for a supply pipe (45) of the hydraulically controlled abutment.
13. Module selon la revendication 12, caractérisé en ce que le voile (27) du support (1 0) comporte une creusure de maintien dudit tuyau d'alimentation (45). 13. Module according to claim 12, characterized in that the web (27) of the support (1 0) comprises a recess for maintaining said feed pipe (45).
14. Module selon la revendication 2 ou l'une quelconque des revendications 3 à 13 prises en combinaison avec la revendication 2, caractérisé en ce que le dispositif de débrayage (3) est à commande hydraulique et comprend un corps (40) en appui sur le fond (29) du manchon (28) et une butée (35) pour action sur l'embrayage à friction (9). 14. Module according to claim 2 or any one of claims 3 to 13 taken in combination with claim 2, characterized in that the disengaging device (3) is hydraulically controlled and comprises a body (40) bearing on the bottom (29) of the sleeve (28) and an abutment (35) for action on the friction clutch (9).
15. Module selon la revendication 14, caractérisé en ce que le dispositif de débrayage concentrique (3) du type hydraulique comporte deux parties en relation de cylindre piston, à savoir une partie fixe, délimitant une cavité annulaire borgne d'orientation axiale, et un piston monté mobile axialement par rapport à la partie fixe et portant une butée de débrayage (35). 15. Module according to claim 14, characterized in that the concentric disengaging device (3) of the hydraulic type comprises two parts in piston cylinder relationship, namely a fixed portion, defining a blind annular cavity of axial orientation, and a piston mounted axially movable relative to the fixed portion and carrying a release stop (35).
16. Module selon la revendication 15, caractérisé en ce que la partie fixe du dispositif hydraulique de débrayage (3) comporte deux pièces coaxiales, à savoir, un corps extérieur (40) entourant un tube guide métallique plus long axialement que le corps extérieur et en ce que le fond de la cavité est délimité par un rebord transversal appartenant au tube-guide assemblé au corps extérieur (40). 16. Module according to claim 15, characterized in that the fixed part of the hydraulic disengagement device (3) comprises two coaxial parts, namely, an outer body (40) surrounding a metal guide tube axially longer than the outer body and in that the bottom of the cavity is delimited by a transverse flange belonging to the guide tube assembled to the outer body (40).
17. Module selon la revendication 16, caractérisé en ce que le tube guide présente en section une forme de U assemblé par encliquetage au corps (40), présentant pour ce faire à son extrémité libre une pluralité de pattes élastiquement déformables en forme de crochets pénétrant dans des creusures du tube guide. 17. Module according to claim 16, characterized in that the guide tube has in section a U-shaped assembled by snapping to the body (40), having for this purpose at its free end a plurality of elastically deformable tabs in the form of penetrating hooks. in recesses of the guide tube.
18. Module selon la revendication 1 7, caractérisé en ce que les creusures sont réalisées dans la branche externe du tube guide à section en forme de U, ladite branche externe étant plus courte que la branche interne du U. 18. Module according to claim 1 7, characterized in that the recesses are made in the outer branch of the U-shaped section guide tube, said outer branch being shorter than the inner branch of the U.
19. Module selon l'une quelconque des revendications précédentes caractérisé en ce que le manchon (28) présente une première portion axiale (285) et une deuxième portion axiale (286) de diamètre réduit par rapport à la première portion (285) pour le montage d'un palier, tel qu'un roulement à billes (30), de rotation de l'arbre (6). 19. Module according to any one of the preceding claims characterized in that the sleeve (28) has a first axial portion (285) and a second axial portion (286) of reduced diameter relative to the first portion (285) for the mounting a bearing, such as a ball bearing (30), rotating the shaft (6).
20. Module selon la revendication 19, caractérisé en ce que la première portion axiale (285) et la deuxième portion axiale(286) s'étendent de part et d'autre du fond (29). 20. Module according to claim 19, characterized in that the first axial portion (285) and the second axial portion (286) extend on either side of the bottom (29).
21 . Module selon l'une quelconque des revendications précédentes, caractérisé en ce que l'anneau de maintien (37) comporte trois pattes de fixation (38) et est en tôle emboutie. 21. Module according to any one of the preceding claims, characterized in that the retaining ring (37) has three fixing lugs (38) and is made of pressed sheet metal.
EP13786522.6A 2013-09-20 2013-09-20 Hybrid module for motor vehicle transmission assembly Pending EP3046793A1 (en)

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US8299690B2 (en) 2009-03-23 2012-10-30 Nisca Corporation Stator structure and rotating electrical machine using the same
DE102011107144A1 (en) 2010-07-29 2012-02-02 Schaeffler Technologies Gmbh & Co. Kg Torsional vibration damper i.e. two-mass flywheel, has spring devices loaded on loading devices of intermediate flange that comprises supporting surface arranged radially outside of radial inner bow spring device

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FR2745616A1 (en) * 1996-02-29 1997-09-05 Valeo Clutch release for motor vehicle diaphragm clutch

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