WO2006129011A2 - Orientable aileron controlled by setting a rotatable paddle - Google Patents
Orientable aileron controlled by setting a rotatable paddle Download PDFInfo
- Publication number
- WO2006129011A2 WO2006129011A2 PCT/FR2006/001229 FR2006001229W WO2006129011A2 WO 2006129011 A2 WO2006129011 A2 WO 2006129011A2 FR 2006001229 W FR2006001229 W FR 2006001229W WO 2006129011 A2 WO2006129011 A2 WO 2006129011A2
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- WO
- WIPO (PCT)
- Prior art keywords
- rotor
- axis
- fin
- rotation
- flap
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H25/00—Steering; Slowing-down otherwise than by use of propulsive elements; Dynamic anchoring, i.e. positioning vessels by means of main or auxiliary propulsive elements
- B63H25/06—Steering by rudders
- B63H25/38—Rudders
- B63H25/381—Rudders with flaps
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63B—SHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
- B63B1/00—Hydrodynamic or hydrostatic features of hulls or of hydrofoils
- B63B1/16—Hydrodynamic or hydrostatic features of hulls or of hydrofoils deriving additional lift from hydrodynamic forces
- B63B1/24—Hydrodynamic or hydrostatic features of hulls or of hydrofoils deriving additional lift from hydrodynamic forces of hydrofoil type
- B63B1/28—Hydrodynamic or hydrostatic features of hulls or of hydrofoils deriving additional lift from hydrodynamic forces of hydrofoil type with movable hydrofoils
- B63B1/285—Hydrodynamic or hydrostatic features of hulls or of hydrofoils deriving additional lift from hydrodynamic forces of hydrofoil type with movable hydrofoils changing the angle of attack or the lift of the foil
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63B—SHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING
- B63B39/00—Equipment to decrease pitch, roll, or like unwanted vessel movements; Apparatus for indicating vessel attitude
- B63B39/06—Equipment to decrease pitch, roll, or like unwanted vessel movements; Apparatus for indicating vessel attitude to decrease vessel movements by using foils acting on ambient water
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B63—SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
- B63H—MARINE PROPULSION OR STEERING
- B63H25/00—Steering; Slowing-down otherwise than by use of propulsive elements; Dynamic anchoring, i.e. positioning vessels by means of main or auxiliary propulsive elements
- B63H25/06—Steering by rudders
- B63H25/38—Rudders
- B63H25/382—Rudders movable otherwise than for steering purposes; Changing geometry
Definitions
- the technical sector of the present invention is that of devices for steering and / or stabilizing boats.
- the object of the invention is to overcome the disadvantages of the devices known hitherto, by proposing a submerged fin steering device with low energy consumption and short response time with respect to the waves.
- the invention therefore relates to a device for steering and / or stabilizing a boat comprising at least one profiled fin, immersed and freely pivoting about a pivot axis integral with the boat, the fin having a profiled flap articulated around a pivot axis substantially parallel to the pivot axis, characterized in that at least one fin, or its flap, supports a rotor whose axis of rotation is substantially orthogonal to the pivot axis of the flap, the rotation of the rotor for rotating and orienting the flap relative to the fin via a secondary mechanism for transmitting motion.
- the rotor comprises at least one rotating hub about a radial axis perpendicular to the axis of rotation of the rotor, the hub supporting a profiled blade and orientable relative to the rotor by a primary transmission mechanism of movement.
- the secondary mechanism is achieved by the rotor, driving a screw / nut system cooperating with a crank-crank mechanism; the rotation of the rotor about the axis causing the translation of the movable element of the screw / nut system parallel to the axis in order to cause the rotation of the flap by means of the crank-crank mechanism.
- the rotor integral in rotation with a drum on which is wound without sliding a flexible link, whose movements of the two strands are transmitted by reference angles to two anchor points to sides of either the flap or the flap.
- the primary mechanism of motion transmission is rotated by a motor means and is made by a lever whose one end is integral with the hub and a second end is spherical and slides without play in a radial light of a rotating finger of the same axis of rotation as the rotor and rotated by the motor means.
- the end of the lever is driven by a plane guide plane perpendicular to the axis of rotation of the rotor and secured to a part guided in translation parallel to the axis of rotation of the rotor and driven by a motor means.
- the hub comprises a safety hinge provided with an elastic means maintaining the blade in the erected position bearing against an angular stop and allowing the folding of the blade towards the downstream by pivoting around 1 axis of the hinge in case of obstacle collision by this dawn.
- the primary mechanism is provided with a force limiter or torque cooperating with means for restoring its initial geometry.
- the secondary mechanism is provided with a force limiter or torque cooperating with a means for restoring its initial geometry.
- the device comprises a removable support relative to the fin ensuring the connection between the fin and the pivot axis of the flap and the connection of the removable support to the fin is provided by a fast fastening device and désolidarisâtion comprising a means of positioning and pressure securing means.
- a first part of the removable support comprises elements of the fast fastening and detaching device and constitutes a subassembly attached to the second part of the support, to which it is secured by an assembly means. , the first part thus forming an adapter to a particular model of the fin.
- a first advantage of the device according to the invention is the energy saving necessary to orient the fin, thanks to the multi-stage amplification with hydrodynamic effect.
- Another advantage lies in short response times: after a change of orientation, 90% of the stabilized values of the lift of the flap, flap, blade (s) or small flap (s) are reached after a course in the water of the order of six times their respective string lengths.
- Another advantage lies in the setpoint signal which can directly represent the desired lift force.
- Another advantage lies in the ease of control of the device by a navigation unit when said motor means comprises an electronically controlled actuator (s).
- Another advantage lies in the possibility of equipping the rudders - as well as some anti-roll stabilizers - of existing boats with the removable device, benefiting both from an economical manufacturing (allowed by a limited range of standardized devices) and a brief - or no - immobilization of the vessel for the installation of the device on board.
- Another advantage of the short installation of the removable device on the rudder of an existing boat and the lack of significant transformation of this boat is the ease of loan, useful for rental or pre-sale test.
- Another advantage of the removable device placed on a rudder lies in the ease of removing this device every return to port to protect it from shocks or theft and to put it back in place at each departure from the port.
- Another advantage of the removable device on some rudders is the possibility of immediate use of the original rudder in case of failure of said device.
- FIG. 1 shows two examples of particular embodiments 301 and 302 of devices according to invention
- FIGS. 2 to 6 show different examples of embodiment of orientable flaps with trailing edge flap of the device according to the invention
- FIGS. 7 and 8 show two embodiments of the device according to the invention showing the main rotations as well as two modes of implantation of actuator (s), detailing the example 302 of Figure 1, - Figures 9 (together) and 10 (detail) show a particular embodiment of the device according to the invention, detailing the Examples 302 of Figures 1 and 8,
- FIGS. 11 to 13 show in 3 views an example of a particular embodiment of the device according to the invention, showing the central bulge of the fin,
- FIGS. 14 to 16 show other embodiments of the device according to the invention showing possibilities of reducing or eliminating this bulge
- FIG. 17 represents an exemplary embodiment 303 of the device according to the invention with two-part flap
- FIG. 18 shows a submerged wind vane 55 in a particular embodiment of the device according to the invention
- FIG. 19 shows an embodiment 304 of the device according to the invention with pre-existing rudder
- FIG. 20 details the small vane free blade of a particular embodiment of the device according to the invention.
- the aileron pivot axis, orthogonal to the longitudinal axis of the boat makes it possible to obtain, depending on the angle of incidence of the fin with respect to the flow of the water, a hydrodynamic lift substantially perpendicular to the running direction of the boat for steering and / or stabilize it.
- the surface of the flap is 25% to 30% of that of the flap.
- a motor means regulates by the primary mechanism the orientation of the blade / blades with respect to the rotor which carries them.
- the hydrodynamic torque on the blade (s) drives the rotor (s), which adjusts (s) by a secondary mechanism the angle between flap and fin until equilibrium couples. This modifies the overall lift of the device - that of the fin is preponderant -, blade (s) and shutter thus forming a two-stage hydrodynamic torque amplifier.
- FIG. 1 shows two examples of particular embodiments 301 and 302 of devices according to the invention
- Each device 301, 302 comprises an aileron 1 freely rotatable and guided by a pivot 2 fixed axis relative to the boat, a component '3 orientable articulated at the trailing edge of said fin about an axis substantially parallel to said pivot, a rotor 4 of axis of rotation 5 fixed relative to the fin and orthogonal to the pivot axis 2.
- the rotor carries a radial blade 6 and steerable pendulum movement 7, this rotor being extended by a streamlined shaped fairing bulb 8.
- the axis 5 is preferably located fin end (case 301), the board 1 has a recess 9 attack passing the support 52 of its pivot, except when the holder is at the end of the pivot (case 302), in which case the axis 5 is located towards the middle of the fin.
- Diagrams 2 and 3 show two variants of flap arrangement 1 and flap 3 of Examples 301 and 302 above, with and without intermediate space, which are detailed in section in diagrams 4 and 5.
- the pivot 10 of flap 3 is supported by side flanges 11 integral with the fin 1 - not shown in the other figures to simplify them - and if necessary by intermediate flanges (not drawn) to limit the bending of the flap, including the leading edge then has indentations for their passage.
- Figure 6 shows a V-leading flap variant.
- the preferred embodiment combines flush-to-nose flange ( Figures
- FIG. 7 shows, for the vertical pivot example 302 of FIG. 1, the guide members 12 of the fin on the pivot, as well as a motor means produced by an actuator arrangement 13 requiring a bulge in FIG. bulb shape 8 profile of the flap 1, extended to the level of the flap 3 to reduce the wake.
- the bulb 8 must be of limited torque torque to limit the flow disturbance around the fin.
- the bulb 8 supports a rotor 4. The rotor
- the device comprises at least one hub 14 rotatable about a radial axis 16 perpendicular to the axis of rotation 5 of the rotor, the hub 14 supporting a profiled blade 6.
- the blade 6, integral with the hub 14, is adjustable at an angle 15 about the radial axis 16 fixed relative to the rotor.
- the device comprises a computer (not drawn), an actuator (s) 13 and an electronic position measuring sensor (non-drawn) - of type operating in the air or the surrounding fluid -, in particular measurement the angle between the fin and the flap, which cooperate to orient the flap.
- FIG. 8 shows an alternative embodiment of the preceding example, which comprises several actuators 13 coupled and distributed parallel to the pivot 2 in order to limit the master torque of the bulb 8.
- the transmission to the shaft rotary primer for example uses a bevel gears return, and in case of linear actuators for example a connecting rod-crank mechanism or rack-pinion.
- the arrows 201, 202, 203, 204 respectively designate the upstream, downstream, port and starboard directions.
- the actuator 13 controlled by the computer connected to the position measuring sensor 20 is a means for restoring the initial geometry of the device, such a means can also be achieved by other devices, for example comprising springs and stops.
- Such means / primary mechanism 101 and / or secondary mechanism 102 may be provided with such means.
- the primary mechanism 101 for transmitting motion is realized by a lever 23 whose one end is integral with the hub 14 and a second end 22 is spherical and slides without play in a radial slot of a rotating finger 21 of the same axis of rotation 5 as the rotor 4.
- a set of actuators 13 rotary coupled, electric, hydraulic or pneumatic, drives by a bevel gear 17 and a torque limiter 18 - both of known types - the primary shaft 19, axis 5, guided in rotation relative to the fin 1, provided with an angular measuring sensor 20 and secured to a radial finger 21 whose end fork drives the spherical knob 22 sliding without play between its flat walls parallel to the ar 19.
- This knob is fixed to the end of the lever 23 integral with the hub 14 which is integral in rotation with the blade 6.
- This hub, axis 16 radial with respect to the rotor 4 is guided in rotation relative to this rotor by bearings 25.
- the lever 23 passes through the wall of the rotor 4 by a substantially conical light 26, allowing deflections of about 160 ° of the rotor 4 about the axis 5 and about 40 ° of the hub 14 such an embodiment allows the spherical knob 22 located at the end of the lever 23 to be driven by a plane guide plane perpendicular to the axis 5 of rotation of the rotor 4 and integral with a part guided in translation parallel to the axis 5 of rotation of the rotor 4.
- the vane ⁇ is connected to the end cap 28 of the hub 14 by an axis safety joint 27 perpendicular to the axis 16 of the hub, with automatic return of the axis of the blade in erected position 29 by spring 30 and angular stop 31 after s Temporary downward tilting in position 32 when passing an obstacle.
- the rotor 4 is secured to a secondary shaft 33, of axis of rotation 5. This shaft is guided in rotation relative to the fin 1 by a needle bearing 34 and bearings 35 and 36 forming stops and it comprises a net of screw 37 whose sidewalls drive without play, by a rolling roller 38, a carriage (not drawn) guiding in translation parallel to the axis 5.
- the cells 40 to 42 are filled with pressurized fluids, confined by seals 43 to 46, some with antiparticle seals 47 to 49 rubbing on bearings of the hubs 14, rotor 4 and rings 50, 51: for the cell 40 a fluid adapted to contained organs, for others a lubricating fluid.
- the overpressure, strong in navigation and moderate at port or at anchor, is maintained by pump (s) - or tank (s) of compressed compressed gas with pressure reducer (s) - and ducted to pipes and channels.
- the fin 1 and the bulb 8, made of composite material, comprise dismountable parts assembled with seals (not drawn) to mount the internal organs.
- the bulb 8 may be in two parts separated by the rotor 4, each divided into two symmetrical elements screwed fasteners with joint plane perpendicular to the pivot 2 and containing the axis 5; the part or parts of the remainder of the fin 1 can be assembled in the bulb 8 with joint planes perpendicular to the pivot 2, and positioned by interlocking shapes or centering feet, held by threaded rods and nuts, with an intermediate guide on the pivot 2 added in the vicinity of each joint plane, between the guides 12 visible in Figure 8.
- the fin 1 may be integral with the pivot 2, then connected to the boat by rotating guides.
- the patterns 11 to 13 and 16 show that the bulb 8 can be reduced by flats in matching the shape of the bodies as in Figure 14, and even be deleted, as on the Figure 15, reducing the size of the contained organs.
- the blade 6 with a means of brief folding around its axis safety hinge 27 to eliminate the algae, such as a pulling means - manual or with a remote-controlled actuator -, pulling upstream.
- Seaweed immunity can be further coupled to these two rotors by a motion transmission mechanism of a known type ensuring them. exactly opposite rotations.
- each of said halves will be driven by a split half of the final part of the kinematic chain of said secondary mechanism, the beginning part of which will be unique.
- the tubular secondary shaft may be provided and traversed by the primary shaft to accommodate a portion of said primary mechanism in the downstream tip of said rotor and its actuator (s) and said secondary mechanism upstream of the rotor.
- the axis 5 of the rotor 4 is fixed relative to the flap 3, the bulge in the form of a bulb 8 housing all or part of the actuator (s) and / or mechanism (s) being then located at level 3.
- the invention may also be realized with said secondary mechanism comprising a bevel gear (not drawn) forming a 90 ° angle of rotation transforming the rotation of the secondary shaft in rotation of the flap 3 with respect to the fin 1.
- said secondary mechanism may also be realized with a transmission (not drawn) with flexible link, stretched and inextensible, anchored and wound on a drum secured to the rotor 4, whose translational movements of the two strands coming out of the winding are converted into translations of directions substantially parallel to the axis 5 of rotation of the rotor 4 by pulley angle references whose axes of rotation are supported on the hydrodynamic lift element which is fixed with respect to the axis 5 rotation of the rotor 4 (as the case the wing 1 or the flap 3); beyond these pulleys, the resulting translations are transmitted by said strands at two anchor points to the sides of the other hydrodynamic lift member to be oriented relative to the preceding (as appropriate, respectively, and in this order: the shutter 3 or the fin 1).
- Said link may be maintained stretched by winding on variable-radius tracks provided on said drum and / or by fixing it to the element to be orientated on tracks with variable winding radius forming sector of pulleys around which
- said corner returns horns in place of pulleys and ensure the end of the transmission by connecting rods articulated between these horns and said anchor points.
- these rods may be telescopic with a locking means to their average length with tared stress limitation, such as a snap ball and spring with elastic return to their average length, for example by springs and stops.
- the or the actuators 13 may be for example rotary, arranged as in Figure 8, and their output shaft provided with a crank driving the primary shaft 19 sliding via a connecting rod, or in another variant, 1
- the actuator or the coupled actuators may be of linear type, of axis 5 (as in FIG. 7) and directly drive the shaft 19, or they may be arranged with their axis parallel to the pivot 2 (as in FIG. 8). then driving the sliding shaft 19 by two links articulated to an intermediate horn forming angle gear.
- the linear actuators may for example be stepped electric cylinders or hydraulic or pneumatic servocontrols, preferably with limited effort limitation.
- the conversion of the translation of the shaft 19 into the rotation of the hub or hubs 14 about their axis 16 will be performed by a known type of motion transformation mechanism, chosen to allow further rotation of the rotor 4 around 1 ' axis 5: for example a ring rigidly connected to the sliding shaft 19, provided with a peripheral groove in which slides without play the crank pins, provided with rollers, integral cranks of the hubs 14, or else - another example - a solidarity ring in translation of the sliding shaft 19, but free to rotate around it by means of bearings forming a double stop, provided on the periphery with crank pins on which are articulated cranks integral with the hubs 14 or else - third example - a ring still linked in translation to the sliding shaft 19 and free in rotation, but here provided with racks parallel to the axis 5 and meshing with integral toothed gears hubs 14.
- the invention may also be achieved with the actuator or actuators 13 disposed outside the flap 1 or fin 3, for example in an emerging area of the boat, said primary mechanism then comprising for example a hydraulic transmission with cylinders leading and driven connected by piping, supplemented if necessary with an anti-drift resetting means in case of imperfect sealing of the cylinders (for example a solenoid bypass controlled by the computer); other means of remote transmission of the movement of the actuator (s) may be envisaged, such as linkage devices, gears or flexible and inextensible links.
- the invention can also be achieved by replacing the actuator or actuators by a manual drive movement transmission mechanism, such as: bar, wheel, handle or pedal. It will also be advantageous to realize the invention, especially when it comes to equipping an existing boat, retaining the original flap 1 of this boat (for example its rudder) and making easily removable a large part of the boat.
- device according to the invention as illustrated in example 304 in Figure 19, which comprises a removable support 58 for quick installation and removal on the fin d. ' origin 1 comprising a positioning means such as a form of said support fitting on a shape of the fin 1 and a pressure securing means, such as half collars 59 with pressure hooking means 60, such as locks.
- said pressure securing means comprises portions remaining integral with said flap 1 (such notches or anchoring rings for the other part said securing means to pressure, for example bolts or hooks) which will be fixed by means of parts permanently fixed on said fin, such strings perpendicular to the aileron pivot.
- a hoisting cable 61 may be secured to the support 58 by means of a monobloc arm 53, or in two sections, the downstream portion of which is articulated to that upstream by a safety hinge axis 62 orthogonal to the pivot 2 and which comprises a locking force limitation maintaining the two sections aligned by an elastic return means 63 - such as a spring - and an angular stop (not drawn).
- an elastic return means 63 - such as a spring - and an angular stop (not drawn).
- the rotor 4 is downstream of the flap 3, ends with a hydrodynamic tip, is integral with said rotary secondary shaft, with a fixed axis 5 relative to the flap 3, and carries five blades 6. provided with safety hinges (see Figure 10) oriented relative to the rotor by said primary mechanism.
- the latter (non-drawn details) comprises a primary shaft of axis 5, for example sliding and maneuvered, via a horn and two connecting rods forming an angle, thanks to a vertical sliding shaft leading to the free air and whose upper end is coupled to the actuator (s) controlled (s) by a computer or manually, or coupled to a manual control.
- the device according to the invention can indeed be realized without actuator neither computer nor sensor. But to benefit from a fast response time, it will preferably comprise one or more actuators controlled by a clean computer, or a navigation unit of an appropriate type, cooperating with a sensor of the boat measuring its rapid changes of orientation, such as a gyrometer.
- the necessary control energy can be further reduced by, for example, realizing the invention, as illustrated by FIG. 20 (where the blade 6 and its accessories are drawn in an exaggerated manner around the axis 16 for readability), with blade 6 free in rotation about said radial pivot axis 16, fixed relative to the rotor 4 (not drawn), for example guided by bearings 25 prisoners of the rotor, and provided with a small flap 64 that is pivotable relative thereto, articulated to trailing edge of the blade along an axis 65 parallel to its pivot, and about three to four times less than its own surface, said primary mechanism then directly adjusting the orientation of said small flap relative to the blade.
- This adjustment modifies the balance of the lift of the blade and the small shutter and modifies the orientation of the blade 6 with respect to the rotor 4.
- said primary mechanism transforms the angular difference between the rotary primary shaft. 19 and the rotor 4 at the dihedral angle between the mean planes of the small flap 64 and the blade by a mechanism such as the following: this angular difference is transformed by a cam sector 66
- the operation of the device according to the invention is as follows: When it is desired to orient the fin 1, the or the vanes 6 are oriented with respect to the rotor 4 by means of the primary mechanism 101 for transmitting motion, the modification of orientation of the blade or blades causes a modification of the hydrodynamic resistance of the blade or blades, which causes the rotation of the rotor 4 which drives the screw / nut 37,38 system cooperating with the crank-crank mechanism, resulting in the translation of the blade; movable member 38 of the screw / nut system parallel to the axis 5 and then allowing the drive in rotation and the orientation of the flap 3 relative to the fin 1 through the secondary mechanism 102 of motion transmission.
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Abstract
The invention relates to a device for steering or stabilising a boat comprising at least one shaped aileron (1) which is submerged and freely pivotable around a pivot axis (2) fixed to the boat and comprises a shaped flap (3) rotatable about a pivot axis substantially parallel to the pivot axis (2), wherein said device is characterised in that at least one aileron (1) or the flap (3) thereof supports a rotor (4) whose axis of rotation (5) is substantially orthogonal to the pivot axis (2) of the aileron (1) and the rotation of the rotor (4) enables the flap (3) to be rotatably driven and oriented with respect to the aileron (1) by means of an auxiliary motion-transmitting mechanism.
Description
AILERON ORIENTABLE PILOTE PAR CALAGE D'AUBE TOURNANTE PILOTED ROLLER AILERON BY ROTATING DAWN
Le secteur technique de la présente invention est celui des dispositifs pour gouverner et/ou stabiliser les bateaux.The technical sector of the present invention is that of devices for steering and / or stabilizing boats.
Dans le domaine nautique, on cherche à diminuer la consommation d'énergie de manœuvre des ailerons immergés orientables servant à gouverner ou à stabiliser les bateaux, et à réduire le temps de réponse de leur force de portance.In the nautical field, it is sought to reduce the power consumption of maneuvering the adjustable submerged fins for steering or stabilizing boats, and reduce the response time of their lift force.
Les dispositifs connus d'orientation de gouvernails ou de stabilisateurs hydrodynamiques à ailerons orientables situés contre la coque ou à - sous - l'extrémité de bras fixés à la coque (comme dans PCT/FR2004/002933) utilisent l'énergie humaine et/ou un actionneur alimenté par une source d'énergie embarquée et/ou un (des) amplificateur (s) hydrodynamique (s) , dont en général au plus un seul est très proche de l'aileron. Ces dispositifs présentent cependant l'inconvénient de ne pas offrir simultanément une faible consommation d'énergie et un temps de réponse court par rapport au rythme des vagues.Known steering devices for hydrodynamic rudders or stabilizers with orientable fins located against the hull or at the under-end of arms attached to the hull (as in PCT / FR2004 / 002933) use human energy and / or an actuator powered by an onboard energy source and / or hydrodynamic amplifier (s), of which generally at most only one is very close to the fin. However, these devices have the disadvantage of not simultaneously offering low energy consumption and a short response time with respect to the rhythm of the waves.
L'invention a pour but de remédier aux inconvénients des dispositifs connus jusqu'ici, en proposant un dispositif d'orientation d'aileron immergé à faible consommation d'énergie et à temps de réponse court par rapport aux vagues.The object of the invention is to overcome the disadvantages of the devices known hitherto, by proposing a submerged fin steering device with low energy consumption and short response time with respect to the waves.
L'invention a donc pour objet un dispositif pour gouverner et/ou stabiliser un bateau comportant au moins un aileron profilé, immergé et pivotant librement autour d'un axe pivot solidaire du bateau, l'aileron comportant un volet profilé articulé autour d'un axe pivot sensiblement parallèle à l'axe pivot, dispositif caractérisé en ce qu'au moins un aileron, ou son volet, supporte un rotor dont l'axe de rotation est sensiblement orthogonal à l'axe pivot de l'aileron, la rotation du rotor permettant l' entrainement en rotation et l'orientation du volet par rapport à l'aileron, par l'intermédiaire d'un mécanisme secondaire de transmission de mouvement .The invention therefore relates to a device for steering and / or stabilizing a boat comprising at least one profiled fin, immersed and freely pivoting about a pivot axis integral with the boat, the fin having a profiled flap articulated around a pivot axis substantially parallel to the pivot axis, characterized in that at least one fin, or its flap, supports a rotor whose axis of rotation is substantially orthogonal to the pivot axis of the flap, the rotation of the rotor for rotating and orienting the flap relative to the fin via a secondary mechanism for transmitting motion.
Selon une caractéristique de l'invention, le rotor comporte au moins un moyeu rotatif autour d'un axe radial perpendiculaire à l'axe de rotation du rotor, le moyeu supportant une aube profilée et orientable par rapport au rotor par un mécanisme primaire de transmission de mouvement.According to one characteristic of the invention, the rotor comprises at least one rotating hub about a radial axis perpendicular to the axis of rotation of the rotor, the hub supporting a profiled blade and orientable relative to the rotor by a primary transmission mechanism of movement.
Selon une autre caractéristique de l'invention, le
mécanisme secondaire est réalisé par le rotor, entraînant un système vis/écrou coopérant avec un mécanisme bielle- manivelle ; la rotation du rotor autour de l'axe entraînant la translation de l'élément mobile du système vis/écrou parallèlement à l'axe afin de provoquer la rotation du volet par l'intermédiaire du mécanisme bielle-manivelle.According to another characteristic of the invention, the secondary mechanism is achieved by the rotor, driving a screw / nut system cooperating with a crank-crank mechanism; the rotation of the rotor about the axis causing the translation of the movable element of the screw / nut system parallel to the axis in order to cause the rotation of the flap by means of the crank-crank mechanism.
Selon une encore autre caractéristique de l'invention, le rotor, solidaire en rotation d'un tambour sur lequel est enroulé sans glissement un lien flexible, dont les mouvements des deux brins sont transmis par renvois d'angles à deux points d'ancrage aux côtés soit du volet soit de l'aileron.According to another characteristic of the invention, the rotor, integral in rotation with a drum on which is wound without sliding a flexible link, whose movements of the two strands are transmitted by reference angles to two anchor points to sides of either the flap or the flap.
Selon une autre caractéristique de l'invention, le mécanisme primaire de transmission de mouvement est entraîné en rotation par un moyen moteur et est réalisé par un levier dont une première extrémité est solidaire du moyeu et une seconde extrémité est sphérique et glisse sans jeu dans une lumière radiale d'un doigt rotatif de même axe de rotation que le rotor et entraîné en rotation par le moyen moteur.According to another characteristic of the invention, the primary mechanism of motion transmission is rotated by a motor means and is made by a lever whose one end is integral with the hub and a second end is spherical and slides without play in a radial light of a rotating finger of the same axis of rotation as the rotor and rotated by the motor means.
Selon une autre caractéristique de l'invention, l'extrémité du levier est entraînée par un guidage plan, plan perpendiculaire à l'axe de rotation du rotor et solidaire d'une pièce guidée en translation parallèlement à l'axe de rotation du rotor et entraînée par un moyen moteur.According to another characteristic of the invention, the end of the lever is driven by a plane guide plane perpendicular to the axis of rotation of the rotor and secured to a part guided in translation parallel to the axis of rotation of the rotor and driven by a motor means.
Selon une autre caractéristique de l'invention, le moyeu comporte une charnière de sécurité munie d'un moyen élastique maintenant l'aube en position érigée en appui contre une butée angulaire et permettant le repliement de l'aube vers 1 ' aval par pivotement autour de 1 ' axe de la charnière en cas de heurt d'obstacle par cette aube. Selon une autre caractéristique de l'invention, le mécanisme primaire est muni d'un limiteur de force ou de couple coopérant avec un moyen pour rétablir sa géométrie initiale.According to another characteristic of the invention, the hub comprises a safety hinge provided with an elastic means maintaining the blade in the erected position bearing against an angular stop and allowing the folding of the blade towards the downstream by pivoting around 1 axis of the hinge in case of obstacle collision by this dawn. According to another characteristic of the invention, the primary mechanism is provided with a force limiter or torque cooperating with means for restoring its initial geometry.
Selon une autre caractéristique de l'invention, le mécanisme secondaire est muni d'un limiteur de force ou de couple coopérant avec un moyen pour rétablir sa géométrie initiale .According to another characteristic of the invention, the secondary mechanism is provided with a force limiter or torque cooperating with a means for restoring its initial geometry.
Selon une autre caractéristique de l'invention, le
dispositif comporte un support amovible par rapport à l'aileron assurant la liaison entre l'aileron et l'axe pivot du volet et la liaison du support amovible à l'aileron est assurée par un dispositif de solidarisation et de désolidarisâtion rapides comportant un moyen de positionnement et un moyen d'arrimage à pression.According to another characteristic of the invention, the device comprises a removable support relative to the fin ensuring the connection between the fin and the pivot axis of the flap and the connection of the removable support to the fin is provided by a fast fastening device and désolidarisâtion comprising a means of positioning and pressure securing means.
Selon une autre caractéristique de l'invention, une première partie du support amovible comporte des éléments du dispositif de solidarisation et désolidarisation rapides et constitue un sous-ensemble rapporté sur la seconde partie du support, à laquelle elle est solidarisée par un moyen d'assemblage, la première partie formant ainsi adaptateur à un modèle particulier de l'aileron.According to another characteristic of the invention, a first part of the removable support comprises elements of the fast fastening and detaching device and constitutes a subassembly attached to the second part of the support, to which it is secured by an assembly means. , the first part thus forming an adapter to a particular model of the fin.
Un tout premier avantage du dispositif selon l'invention est l'économie d'énergie nécessaire pour orienter l'aileron, grâce à l'amplification multi-étages à effet hydrodynamique.A first advantage of the device according to the invention is the energy saving necessary to orient the fin, thanks to the multi-stage amplification with hydrodynamic effect.
Un autre avantage réside dans des temps de réponse courts : après changement d'orientation, 90% des valeurs stabilisées des portances des aileron, volet, aube (s) ou petit (s) volet (s) sont atteints après un parcours dans l'eau de l'ordre de six fois leurs longueurs de cordes respectives. Un autre avantage réside dans le signal de consigne pouvant représenter directement la force de portance désirée. Un autre avantage réside dans la facilité de commande du dispositif par une centrale de navigation lorsque ledit moyen moteur comporte un/des actionneurs à commande électronique.Another advantage lies in short response times: after a change of orientation, 90% of the stabilized values of the lift of the flap, flap, blade (s) or small flap (s) are reached after a course in the water of the order of six times their respective string lengths. Another advantage lies in the setpoint signal which can directly represent the desired lift force. Another advantage lies in the ease of control of the device by a navigation unit when said motor means comprises an electronically controlled actuator (s).
Un autre avantage réside dans la possibilité d'équiper les gouvernails - ainsi que certains stabilisateurs anti-roulis - de bateaux existants avec le dispositif amovible, en bénéficiant à la fois d'une fabrication économique (permise par une gamme limitée de dispositifs standardisés) et d'une immobilisation brève - ou nulle - du bateau pour l'installation du dispositif à bord.Another advantage lies in the possibility of equipping the rudders - as well as some anti-roll stabilizers - of existing boats with the removable device, benefiting both from an economical manufacturing (allowed by a limited range of standardized devices) and a brief - or no - immobilization of the vessel for the installation of the device on board.
Un autre avantage de la brièveté d'installation du dispositif amovible sur le gouvernail d'un bateau existant et de l'absence de transformation significative de ce bateau est la facilité de prêt, utile en location ou essai avant-vente.Another advantage of the short installation of the removable device on the rudder of an existing boat and the lack of significant transformation of this boat is the ease of loan, useful for rental or pre-sale test.
Un autre avantage du dispositif amovible posé sur un
gouvernail réside dans la facilité d'enlever ce dispositif à chaque rentrée au port pour le mettre à 1 ' abri des chocs ou du vol et de le remettre en place à chaque départ du port .Another advantage of the removable device placed on a rudder lies in the ease of removing this device every return to port to protect it from shocks or theft and to put it back in place at each departure from the port.
Un autre avantage du dispositif amovible posé sur certains gouvernails est la possibilité d'usage immédiat du gouvernail d'origine en cas de panne dudit dispositif.Another advantage of the removable device on some rudders is the possibility of immediate use of the original rudder in case of failure of said device.
D'autres caractéristiques, détails et avantages de l'invention ressortiront plus clairement de la description donnée ci-après à titre indicatif en relation avec des dessins dans lesquels : la figure 1 montre deux exemples de réalisations particulières 301 et 302 de dispositifs selon l'invention,Other characteristics, details and advantages of the invention will emerge more clearly from the description given below as an indication in relation to drawings in which: FIG. 1 shows two examples of particular embodiments 301 and 302 of devices according to invention,
- les schémas 2 à 6 représentent différents exemples de réalisation d'ailerons orientables à volet de bord de fuite du dispositif selon 1 ' invention, les figures 7 et 8 représentent deux exemples de réalisation du dispositif selon 1 ' invention montrant les principales rotations ainsi que deux modes d'implantation d'actionneur (s) , en détaillant l'exemple 302 de la figure 1, - les figures 9 (ensemble) et 10 (détail) montrent un exemple de réalisation particulière du dispositif selon l'invention, détaillant les exemples 302 des figures 1 et 8,FIGS. 2 to 6 show different examples of embodiment of orientable flaps with trailing edge flap of the device according to the invention, FIGS. 7 and 8 show two embodiments of the device according to the invention showing the main rotations as well as two modes of implantation of actuator (s), detailing the example 302 of Figure 1, - Figures 9 (together) and 10 (detail) show a particular embodiment of the device according to the invention, detailing the Examples 302 of Figures 1 and 8,
- les figures 11 à 13 représentent en 3 vues un exemple de réalisation particulière du dispositif selon l'invention, montrant le renflement central de l'aileron,FIGS. 11 to 13 show in 3 views an example of a particular embodiment of the device according to the invention, showing the central bulge of the fin,
- les figures 14 à 16 représentent d'autres exemples de réalisation du dispositif selon l'invention montrant des possibilités de réduction ou de suppression de ce renflement,FIGS. 14 to 16 show other embodiments of the device according to the invention showing possibilities of reducing or eliminating this bulge,
- la figure 17 représente un exemple de réalisation 303 du dispositif selon l'invention avec volet en deux parties,FIG. 17 represents an exemplary embodiment 303 of the device according to the invention with two-part flap,
- la figure 18 montre une girouette immergée 55 dans une réalisation particulière du dispositif selon l'invention,FIG. 18 shows a submerged wind vane 55 in a particular embodiment of the device according to the invention,
- la figure 19 représente un exemple de réalisation 304 du dispositif selon l'invention avec gouvernail préexistant, - la figure 20 détaille l'aube libre à petit volet d'une réalisation particulière du dispositif selon l'invention.- Figure 19 shows an embodiment 304 of the device according to the invention with pre-existing rudder, - Figure 20 details the small vane free blade of a particular embodiment of the device according to the invention.
Le fonctionnement général du dispositif selon l'invention est expliqué ci-après. L'axe pivot d'aileron, orthogonal à
l'axe longitudinal du bateau, permet d'obtenir, selon l'angle d'incidence de l'aileron par rapport à l'écoulement de l'eau, une portance hydrodynamique sensiblement perpendiculaire à la direction de marche du bateau pour gouverner et/ou stabiliser ce dernier. La surface du volet est 25% à 30% de celle de l'aileron. Un moyen moteur règle par le mécanisme primaire l'orientation de la/des aubes par rapport au rotor qui la/les porte. Le couple hydrodynamique sur la/les aubes entraîne le/les rotors, qui règle (nt) par un mécanisme secondaire l'angle entre volet et aileron jusqu'à équilibre des couples. Cela modifie la portance d'ensemble du dispositif - celle de l'aileron est prépondérante -, aube (s) et volet formant ainsi amplificateur hydrodynamique de couple à deux étages.The general operation of the device according to the invention is explained below. The aileron pivot axis, orthogonal to the longitudinal axis of the boat makes it possible to obtain, depending on the angle of incidence of the fin with respect to the flow of the water, a hydrodynamic lift substantially perpendicular to the running direction of the boat for steering and / or stabilize it. The surface of the flap is 25% to 30% of that of the flap. A motor means regulates by the primary mechanism the orientation of the blade / blades with respect to the rotor which carries them. The hydrodynamic torque on the blade (s) drives the rotor (s), which adjusts (s) by a secondary mechanism the angle between flap and fin until equilibrium couples. This modifies the overall lift of the device - that of the fin is preponderant -, blade (s) and shutter thus forming a two-stage hydrodynamic torque amplifier.
La figure 1 montre deux exemples de réalisations particulières 301 et 302 de dispositifs selon l'inventionFIG. 1 shows two examples of particular embodiments 301 and 302 of devices according to the invention
(pour une illustration simultanée, ici dans une application particulière à support commun avec carénage pivotant) . Chaque dispositif 301, 302 comporte un aileron 1 libre en rotation et guidé par un pivot 2 d'axe fixe par rapport au bateau, un volet ' 3 orientable articulé au bord de fuite dudit aileron selon un axe sensiblement parallèle audit pivot, un rotor 4 d'axe de rotation 5 fixe par rapport à l'aileron et orthogonal à l'axe pivot 2. Le rotor porte une aube 6 radiale et orientable à mouvement pendulaire 7, ce rotor étant prolongé par un carénage profilé en forme de bulbe 8. L'axe 5 est situé de préférence en extrémité d'aileron (cas 301) dont le bord d1 attaque présente une échancrure 9 laissant passer le support 52 de son pivot, sauf lorsque le support est en extrémité du pivot (cas 302), auquel cas l'axe 5 est situé vers le milieu de l'aileron.(for a simultaneous illustration, here in a particular common support application with pivoting fairing). Each device 301, 302 comprises an aileron 1 freely rotatable and guided by a pivot 2 fixed axis relative to the boat, a component '3 orientable articulated at the trailing edge of said fin about an axis substantially parallel to said pivot, a rotor 4 of axis of rotation 5 fixed relative to the fin and orthogonal to the pivot axis 2. The rotor carries a radial blade 6 and steerable pendulum movement 7, this rotor being extended by a streamlined shaped fairing bulb 8. the axis 5 is preferably located fin end (case 301), the board 1 has a recess 9 attack passing the support 52 of its pivot, except when the holder is at the end of the pivot (case 302), in which case the axis 5 is located towards the middle of the fin.
Les schémas 2 et 3 montrent deux variantes de disposition d'aileron 1 et volet 3 des exemples 301 et 302 précédents, avec et sans espace intermédiaire, qui sont détaillées en coupe aux schémas 4 et 5. Le pivot 10 du volet 3 est supporté par des flasques latéraux 11 solidaires de l'aileron 1 - non dessinés sur les autres figures pour les simplifier - et le cas échéant par des flasques intermédiaires (non dessinés) pour limiter la flexion du volet, dont le bord d'attaque
comporte alors des échancrures pour leur passage. Le schéma 6 montre une variante à aileron à bord d'attaque en V. Le mode de réalisation préféré combine volet à nez encastré (figuresDiagrams 2 and 3 show two variants of flap arrangement 1 and flap 3 of Examples 301 and 302 above, with and without intermediate space, which are detailed in section in diagrams 4 and 5. The pivot 10 of flap 3 is supported by side flanges 11 integral with the fin 1 - not shown in the other figures to simplify them - and if necessary by intermediate flanges (not drawn) to limit the bending of the flap, including the leading edge then has indentations for their passage. Figure 6 shows a V-leading flap variant. The preferred embodiment combines flush-to-nose flange (Figures
3 et 5) avec aileron à bord d'attaque en V (figure 6) . La figure 7 montre, pour l'exemple 302 à pivot 2 vertical de la figure 1, les organes de guidage 12 de l'aileron sur le pivot, ainsi qu'un moyen moteur réalisé par une disposition d'actionneur 13 nécessitant un renflement en forme de bulbe 8 profilé de l'aileron 1, prolongé jusqu'au niveau du volet 3 pour réduire le sillage. Le bulbe 8 doit être de maître couple limité pour limiter la perturbation d'écoulement autour de l'aileron. Le bulbe 8 supporte un rotor 4. Le rotor3 and 5) with V-leading edge fin (Figure 6). FIG. 7 shows, for the vertical pivot example 302 of FIG. 1, the guide members 12 of the fin on the pivot, as well as a motor means produced by an actuator arrangement 13 requiring a bulge in FIG. bulb shape 8 profile of the flap 1, extended to the level of the flap 3 to reduce the wake. The bulb 8 must be of limited torque torque to limit the flow disturbance around the fin. The bulb 8 supports a rotor 4. The rotor
4 comporte au moins un moyeu 14 rotatif autour d'un axe radial 16 perpendiculaire à l'axe de rotation 5 du rotor, le moyeu 14 supportant une aube 6 profilée. L'aube 6, solidaire du moyeu 14, est orientable d'un angle 15 autour de l'axe radial 16 fixe par rapport au rotor. Dans cet exemple, le dispositif comporte un calculateur (non dessiné) , un/des actionneurs 13 et un/des capteurs électroniques de mesure de position (non dessinés) - de type fonctionnant dans l'air ou le fluide environnant - , notamment de mesure de 1 ' angle entre l'aileron et le volet, qui coopèrent pour orienter l'aileron.4 comprises at least one hub 14 rotatable about a radial axis 16 perpendicular to the axis of rotation 5 of the rotor, the hub 14 supporting a profiled blade 6. The blade 6, integral with the hub 14, is adjustable at an angle 15 about the radial axis 16 fixed relative to the rotor. In this example, the device comprises a computer (not drawn), an actuator (s) 13 and an electronic position measuring sensor (non-drawn) - of type operating in the air or the surrounding fluid -, in particular measurement the angle between the fin and the flap, which cooperate to orient the flap.
La figure 8 montre une variante de réalisation de l'exemple précédent, qui comporte plusieurs actionneurs 13 couplés et répartis parallèlement au pivot 2 afin de limiter le maître-couple du bulbe 8. En cas d' actionneurs rotatifs, la transmission à l'arbre primaire rotatif utilise par exemple un renvoi à pignons coniques, et en cas d' actionneurs linéaires par exemple un mécanisme bielle-manivelle ou crémaillère-pignon. Les flèches 201, 202, 203, 204 désignent respectivement les directions amont, aval, bâbord et tribord. Les actionneur 13 pilotés par le calculateur relié au capteur de mesure de position 20 constituent moyen pour rétablir la géométrie initiale du dispositif, un tel moyen pourra également être réalisé par d'autres dispositifs, par exemple comprenant ressorts et butées. On pourra munir d'un tel moyen/ le mécanisme primaire 101 et/ou le mécanisme secondaire 102.
Les figures 9 (ensemble) et 10 (détail central) montrent des modes de réalisation particuliers desdits mécanismes primaire 101 et secondaire 102 qui reprennent la disposition des actionneurs et des formes externes de la figure 8. Le mécanisme primaire 101 de transmission de mouvement est réalisé par un levier 23 dont une première extrémité est solidaire du moyeu 14 et une seconde extrémité 22 est sphérique et glisse sans jeu dans une lumière radiale d'un doigt rotatif 21 de même axe de rotation 5 que le rotor 4. Un ensemble d' actionneurs 13 rotatifs couplés, électriques, hydrauliques ou pneumatiques, entraîne par un renvoi d'angle 17 et un limiteur de couple 18 - tous deux de types connus - l'arbre primaire 19, d'axe 5, guidé en rotation par rapport à l'aileron 1, muni d'un capteur de mesure angulaire 20 et solidaire d'un doigt radial 21 dont la fourchette d'extrémité entraîne le pommeau sphérique 22 glissant sans jeu entre ses parois planes, parallèles à l'arbre 19. Ce pommeau est fixé à l'extrémité du levier 23 solidaire du moyeu 14 qui est solidaire en rotation de l'aube 6. Ce moyeu, d'axe 16 radial par rapport au rotor 4, est guidé en rotation par rapport à ce rotor par des roulements 25. Le levier 23 traverse la paroi du rotor 4 par une lumière 26 de forme sensiblement conique, permettant des débattements d'environ 160° du rotor 4 autour de l'axe 5 et d'environ 40° du moyeu 14 autour de l'axe 16. Une telle réalisation permet au pommeau sphérique 22 situé à l'extrémité du levier 23 d'être entraîné par un guidage plan, plan perpendiculaire à l'axe 5 de rotation du rotor 4 et solidaire d'une pièce guidée en translation parallèlement à l'axe 5 de rotation du rotor 4. L'aube β est reliée à la chape 28 d'extrémité du moyeu 14 par une articulation de sécurité d'axe 27 perpendiculaire à l'axe 16 du moyeu, à rappel automatique de l'axe de l'aube en position érigée 29 par ressort 30 et butée angulaire 31 après rabattement temporaire vers l'aval en position 32 au passage d'un obstacle. Le rotor 4 est solidaire d'un arbre secondaire 33, d'axe de rotation 5. Cet arbre est guidé en rotation par rapport à l'aileron 1 par un roulement à aiguilles 34 et des roulements 35 et 36 formant butées et il comporte un filet de
vis 37 dont les flancs entraînent sans jeu, par un galet 38 à roulement, un chariot (non dessiné) à guidage en translation parallèle à l'axe 5. Lesdits galet et chariot, formant écrou de vérin à vis, entraînent le volet 3 en rotation par un mécanisme bielle-manivelle (non dessiné) articulé au chariot et au maneton 39 solidaire du volet 3 (figure 9) . Les alvéoles 40 à 42 sont remplis de fluides pressurisés, confinés par joints 43 à 46, certains avec joints antiparticules 47 à 49 frottant sur des portées des moyeu 14, rotor 4 et bagues 50, 51: pour l'alvéole 40 un fluide adapté aux organes contenus, pour les autres un fluide lubrifiant. La surpression, forte en navigation et modérée au port ou au mouillage, est entretenue par pompe (s) - ou par réservoir (s) de gaz comprimé renouvellable avec détendeur (s) de pression - et conduite aux alvéoles par canalisations et canaux. L'aileron 1 et le bulbe 8, en matériau composite, comportent des parties démontables assemblées avec joints étanches (non dessinés) pour monter les organes internes. Par exemple, le bulbe 8 pourra être en deux parties séparées par le rotor 4, chacune divisée en deux éléments symétriques à fixations vissées avec plan de joint perpendiculaire au pivot 2 et contenant l'axe 5; la ou les parties du reste de l'aileron 1 pourront être assemblées au bulbe 8 avec plans de joint perpendiculaires au pivot 2, et positionnées par emboîtement de formes ou pieds de centrage, maintenues par tirants filetés et écrous, avec un guidage intermédiaire sur le pivot 2 ajouté au voisinage de chaque plan de joint, entre les guidages 12 visibles en figure 8.FIG. 8 shows an alternative embodiment of the preceding example, which comprises several actuators 13 coupled and distributed parallel to the pivot 2 in order to limit the master torque of the bulb 8. In the case of rotary actuators, the transmission to the shaft rotary primer for example uses a bevel gears return, and in case of linear actuators for example a connecting rod-crank mechanism or rack-pinion. The arrows 201, 202, 203, 204 respectively designate the upstream, downstream, port and starboard directions. The actuator 13 controlled by the computer connected to the position measuring sensor 20 is a means for restoring the initial geometry of the device, such a means can also be achieved by other devices, for example comprising springs and stops. Such means / primary mechanism 101 and / or secondary mechanism 102 may be provided with such means. FIGS. 9 (together) and 10 (central detail) show particular embodiments of said primary 101 and secondary 102 mechanisms which take up the arrangement of the actuators and the external shapes of FIG. 8. The primary mechanism 101 for transmitting motion is realized by a lever 23 whose one end is integral with the hub 14 and a second end 22 is spherical and slides without play in a radial slot of a rotating finger 21 of the same axis of rotation 5 as the rotor 4. A set of actuators 13 rotary coupled, electric, hydraulic or pneumatic, drives by a bevel gear 17 and a torque limiter 18 - both of known types - the primary shaft 19, axis 5, guided in rotation relative to the fin 1, provided with an angular measuring sensor 20 and secured to a radial finger 21 whose end fork drives the spherical knob 22 sliding without play between its flat walls parallel to the ar 19. This knob is fixed to the end of the lever 23 integral with the hub 14 which is integral in rotation with the blade 6. This hub, axis 16 radial with respect to the rotor 4, is guided in rotation relative to this rotor by bearings 25. The lever 23 passes through the wall of the rotor 4 by a substantially conical light 26, allowing deflections of about 160 ° of the rotor 4 about the axis 5 and about 40 ° of the hub 14 such an embodiment allows the spherical knob 22 located at the end of the lever 23 to be driven by a plane guide plane perpendicular to the axis 5 of rotation of the rotor 4 and integral with a part guided in translation parallel to the axis 5 of rotation of the rotor 4. The vane β is connected to the end cap 28 of the hub 14 by an axis safety joint 27 perpendicular to the axis 16 of the hub, with automatic return of the axis of the blade in erected position 29 by spring 30 and angular stop 31 after s Temporary downward tilting in position 32 when passing an obstacle. The rotor 4 is secured to a secondary shaft 33, of axis of rotation 5. This shaft is guided in rotation relative to the fin 1 by a needle bearing 34 and bearings 35 and 36 forming stops and it comprises a net of screw 37 whose sidewalls drive without play, by a rolling roller 38, a carriage (not drawn) guiding in translation parallel to the axis 5. Said roller and carriage, forming a screw jack nut, cause the flap 3 in rotation by a connecting rod-crank mechanism (not drawn) articulated to the carriage and the crank pin 39 secured to the flap 3 (Figure 9). The cells 40 to 42 are filled with pressurized fluids, confined by seals 43 to 46, some with antiparticle seals 47 to 49 rubbing on bearings of the hubs 14, rotor 4 and rings 50, 51: for the cell 40 a fluid adapted to contained organs, for others a lubricating fluid. The overpressure, strong in navigation and moderate at port or at anchor, is maintained by pump (s) - or tank (s) of compressed compressed gas with pressure reducer (s) - and ducted to pipes and channels. The fin 1 and the bulb 8, made of composite material, comprise dismountable parts assembled with seals (not drawn) to mount the internal organs. For example, the bulb 8 may be in two parts separated by the rotor 4, each divided into two symmetrical elements screwed fasteners with joint plane perpendicular to the pivot 2 and containing the axis 5; the part or parts of the remainder of the fin 1 can be assembled in the bulb 8 with joint planes perpendicular to the pivot 2, and positioned by interlocking shapes or centering feet, held by threaded rods and nuts, with an intermediate guide on the pivot 2 added in the vicinity of each joint plane, between the guides 12 visible in Figure 8.
L'exemple envisagé ci-dessus de mode de réalisation du dispositif selon l'invention a été donné à titre illustratif. On pourra aussi réaliser l'invention selon d'autres modes.The example envisaged above of embodiment of the device according to the invention has been given for illustrative purposes. The invention may also be embodied according to other modes.
Ainsi par exemple, l'aileron 1 pourra être solidaire du pivot 2, alors relié au bateau par des guidages en rotation. • Ainsi par exemple, les schémas 11 à 13 et 16 (montrant l'échancrure 9 du bord d'attaque et le support 52, aussi visibles en figure 1) montrent que le bulbe 8 pourra être réduit par méplats en épousant la forme des organes internes, comme sur le schéma 14, et même être supprimé, comme sur le
schéma 15, en réduisant l'encombrement des organes contenus.For example, the fin 1 may be integral with the pivot 2, then connected to the boat by rotating guides. • For example, the patterns 11 to 13 and 16 (showing the notch 9 of the leading edge and the support 52, as visible in Figure 1) show that the bulb 8 can be reduced by flats in matching the shape of the bodies as in Figure 14, and even be deleted, as on the Figure 15, reducing the size of the contained organs.
On pourra aussi favoriser l'élimination d'algues en déplaçant la butée 31 (figure 10) afin que l'axe 29 de l'aube soit légèrement incliné vers l'aval et/ou incliner légèrement le bord d'attaque de l'aube, dont le centre de poussée hydrodynamique devra rester en aval de l'axe pivot radial 16.We can also promote the elimination of algae by moving the stop 31 (Figure 10) so that the axis 29 of the blade is slightly inclined downstream and / or slightly incline the leading edge of the blade , whose hydrodynamic thrust center must remain downstream of the radial pivot axis 16.
On pourra aussi par exemple munir l'aube 6 d'un moyen de bref repliement autour de sa charnière de sécurité d'axe 27 pour éliminer les algues, tel un moyen de traction - manuel ou à actionneur télécommandé -, tirant vers l'amont un câble ancré au bord de fuite de 1 ' aube et formant un quart de tour dans une gorge en arrondi ménagée au pied de l'aube, formant ainsi poulie (arrondi visible en figure 10) .It will also be possible, for example, to provide the blade 6 with a means of brief folding around its axis safety hinge 27 to eliminate the algae, such as a pulling means - manual or with a remote-controlled actuator -, pulling upstream. a cable anchored to the trailing edge of one blade and forming a quarter turn in a rounded groove formed at the base of the blade, thus forming a pulley (rounded visible in Figure 10).
Dans le cas où l'axe 5 de rotation du rotor 4 passe vers le milieu de l'aileron 1 (comme en figures 7 et 8), on pourra aussi avantageusement remplacer le rotor à une aube par un rotor à deux aubes 6 diamétralement opposées, ce qui doublera le couple utile et symétrisera la traînée hydrodynamique.In the case where the axis 5 of rotation of the rotor 4 passes towards the middle of the fin 1 (as in FIGS. 7 and 8), it is also possible advantageously to replace the rotor with a blade by a rotor with two vanes 6 diametrically opposite , which will double the useful torque and symmetrize the hydrodynamic drag.
Ces deux avantages pourront aussi être obtenus en cas de rotor situé en extrémité d'envergure d'aileron 1 (cas 301 en figure 1), en ajoutant à l'autre extrémité de l'aileron un second rotor 4 mono-aube et contrarotatif ; afin d'augmenterThese two advantages may also be obtained in the case of a rotor located at the aileron wing end 1 (case 301 in FIG. 1), adding to the other end of the wing a second rotor 4 which is a single-blade and counter-rotating; to increase
1 ' immunité aux algues on pourra en outre coupler ces deux rotors par un mécanisme de transmission de mouvement d'un type connu leur assurant des. rotations exactement opposées.Seaweed immunity can be further coupled to these two rotors by a motion transmission mechanism of a known type ensuring them. exactly opposite rotations.
On pourra aussi envisager de réaliser l'invention en plaçant le rotor 4 entre l'aileron 1 et le volet 3 (cas non dessiné) ou même en aval du volet 3, et éloigner l'axe pivot 10 du volet en bout d'un ou plusieurs bras 53 prolongeant l'aileron 1 vers l'aval - comme l'exemple 304 en figure 19 -. Cela permet d'augmenter le nombre d'aubes 6, d'augmenter le couple, ainsi que la course angulaire du rotor 4 et donc la démultiplication permise. Un nombre d'aubes 6 impair est alors recommandé pour obtenir un couple moteur plus régulier. En cas de rotor 4 d'axe 5 fixe par rapport à l'aileron 1 et situé en aval du volet 3, ce dernier laissera passer l'arrière du bulbe 8 jusqu'au rotor 4, soit au moyen d'un tunnel formé de deux arches enjambant cet arrière, soit en
étant divisé en deux moitiés comme l'exemple du dispositif 303 illustré en figure 17. Ces moitiés pourront porter des plaques de garde 54 à leurs extrémités voisines pour limiter l'effet de coupure et être couplées en rotation, par exemple ainsi : chacune desdites moitiés sera entraînée par une moitié dédoublée de la partie finale de la chaîne cinématique dudit mécanisme secondaire, dont la partie du début sera unique. On pourra prévoir 1 ' arbre secondaire tubulaire et traversé par l'arbre primaire afin de loger une partie dudit mécanisme primaire dans la pointe aval dudit rotor et son ou ses actionneurs et ledit mécanisme secondaire en amont du rotor.It will also be possible to envisage carrying out the invention by placing the rotor 4 between the fin 1 and the flap 3 (not drawn case) or even downstream of the flap 3, and moving the pivot axis 10 away from the flap at the end of a flap. or several arms 53 extending the aileron 1 downstream - as the example 304 in Figure 19 -. This makes it possible to increase the number of vanes 6, to increase the torque, as well as the angular travel of the rotor 4 and thus the permitted gear ratio. An odd number of blades 6 is then recommended to obtain a more regular motor torque. In the case of a rotor 4 having a fixed axis 5 relative to the fin 1 and located downstream of the shutter 3, the latter will pass the rear of the bulb 8 to the rotor 4, or by means of a tunnel formed of two arches spanning this back, either in being divided into two halves as the example of the device 303 illustrated in FIG. 17. These halves may carry guard plates 54 at their adjacent ends to limit the cutting effect and be coupled in rotation, for example as follows: each of said halves will be driven by a split half of the final part of the kinematic chain of said secondary mechanism, the beginning part of which will be unique. The tubular secondary shaft may be provided and traversed by the primary shaft to accommodate a portion of said primary mechanism in the downstream tip of said rotor and its actuator (s) and said secondary mechanism upstream of the rotor.
On pourra aussi envisager, comme en figure 19, que l'axe 5 du rotor 4 soit fixe par rapport au volet 3 , le renflement en forme de bulbe 8 logeant tout ou partie des actionneur (s) et/ou mécanisme (s) étant alors situé au niveau du volet 3.It may also be envisaged, as in FIG. 19, that the axis 5 of the rotor 4 is fixed relative to the flap 3, the bulge in the form of a bulb 8 housing all or part of the actuator (s) and / or mechanism (s) being then located at level 3.
L'invention pourra aussi être réalisée avec ledit mécanisme secondaire comportant un engrenage conique (non dessiné) formant renvoi d'angle à 90° transformant la rotation de l'arbre secondaire en rotation du volet 3 par rapport à l'aileron 1.The invention may also be realized with said secondary mechanism comprising a bevel gear (not drawn) forming a 90 ° angle of rotation transforming the rotation of the secondary shaft in rotation of the flap 3 with respect to the fin 1.
Pour un petit bateau, ledit mécanisme secondaire pourra aussi être réalisé avec une transmission (non dessinée) à lien flexible, tendu et inextensible, ancré et enroulé sur un tambour solidaire du rotor 4, dont les mouvements de translation des deux brins sortant de l'enroulement sont convertis en translations de directions sensiblement parallèles à l'axe 5 de rotation du rotor 4 par des renvois d'angle à poulies dont les axes de rotation prennent appui sur l ' élément à portance hydrodynamique qui est fixe par rapport à l'axe 5 de rotation du rotor 4 (selon le cas l'aileron 1 ou le volet 3); au delà de ces poulies, les translations résultantes sont transmises par lesdits brins à deux points d'ancrage aux côtés de l'autre élément à portance hydrodynamique à orienter par rapport au précédent (selon le cas, respectivement, et dans cet ordre: le volet 3 ou l'aileron 1). Ledit lien pourra être maintenu tendu par enroulement sur des pistes à rayon variable ménagées sur ledit tambour et/ou par sa fixation à l'élément à orienter
sur des pistes à rayon d'enroulement variable formant secteur de poulies autour desquels le lien fera un tour partiel.For a small boat, said secondary mechanism may also be realized with a transmission (not drawn) with flexible link, stretched and inextensible, anchored and wound on a drum secured to the rotor 4, whose translational movements of the two strands coming out of the winding are converted into translations of directions substantially parallel to the axis 5 of rotation of the rotor 4 by pulley angle references whose axes of rotation are supported on the hydrodynamic lift element which is fixed with respect to the axis 5 rotation of the rotor 4 (as the case the wing 1 or the flap 3); beyond these pulleys, the resulting translations are transmitted by said strands at two anchor points to the sides of the other hydrodynamic lift member to be oriented relative to the preceding (as appropriate, respectively, and in this order: the shutter 3 or the fin 1). Said link may be maintained stretched by winding on variable-radius tracks provided on said drum and / or by fixing it to the element to be orientated on tracks with variable winding radius forming sector of pulleys around which the link will make a partial turn.
Dans une variante de ce mode de réalisation, on pourra envisager pour lesdits renvois d'angles des guignols a la place de poulies et assurer la fin de parcours de la transmission par des biellettes articulées entre ces guignols et lesdits points d'ancrage. Par sécurité, ces biellettes pourront être télëscopiques avec un moyen de verrouillage à leur longueur moyenne à limitation d'effort tarée, tel un encliquetage à billes et ressorts avec rappel élastique à leur longueur moyenne, par exemple par ressorts et butées.In a variant of this embodiment, it will be possible to consider for said corner returns horns in place of pulleys and ensure the end of the transmission by connecting rods articulated between these horns and said anchor points. For safety, these rods may be telescopic with a locking means to their average length with tared stress limitation, such as a snap ball and spring with elastic return to their average length, for example by springs and stops.
En ce qui concerne d'autre part ledit mécanisme primaire, on pourra aussi envisager de remplacer le contact glissant précédemment assuré par le pommeau 22 (voir figure 10) entre le doigt 21 rotatif à fourchette et le levier 23 par un contact roulant à engrenage, en substituant au doigt 21 et au levier 23 deux secteurs dentés de pignons coniques engrenés formant renvoi d'angle à 90° (non dessinés) .With regard also to said primary mechanism, it is also possible to consider replacing the sliding contact previously provided by the knob 22 (see FIG. 10) between the rotary fork finger 21 and the lever 23 by a rolling gear contact. by replacing the finger 21 and the lever 23 with two toothed sectors of beveled bevel gears forming an angle of 90 ° (not shown).
On pourra aussi, par exemple, obtenir un dispositif selon l'invention en modifiant ainsi (non dessiné) le mécanisme primaire 101 illustré en figure 10: l'arbre secondaire 33 est alors uniquement guidé par les roulements 35 et 36; le roulement 34, le doigt 21 et le levier 23 sont supprimés; l'arbre primaire 19 rotatif est prolongé et pénètre par une ouverture' dans la chambre du rotor 4, son extrémité est solidaire d'un pignon conique qui engrène avec un pignon conique solidaire du moyeu 14; ce moyeu est alors nettement plus court et de diamètre nettement plus petit que dessiné en figure 10 et son guidage par rapport au rotor 4 est aussi court et proche de la chape 28 que possible, par exemple constitué par deux roulements à rouleaux coniques accolés. Ce mode de réalisation convient particulièrement bien à un rotorIt is also possible, for example, to obtain a device according to the invention thus modifying (not drawn) the primary mechanism 101 illustrated in FIG. 10: the secondary shaft 33 is then guided solely by the bearings 35 and 36; the bearing 34, the finger 21 and the lever 23 are removed; the rotary primary shaft 19 is extended and penetrates through an opening ' in the rotor chamber 4, its end is integral with a conical pinion which meshes with a conical pinion integral with the hub 14; this hub is then much shorter and much smaller diameter than drawn in Figure 10 and its guide relative to the rotor 4 is as short and close to the yoke 28 as possible, for example consisting of two conical roller bearings contiguous. This embodiment is particularly suitable for a rotor
4 entouré de plusieurs aubes 6 disposées en étoile.4 surrounded by several blades 6 arranged in a star.
D'autres modes de réalisation envisageables (non dessinés) dudit mécanisme primaire 101 consistent, en partant de l'exemple du paragraphe précédent, à rendre coulissant (au lieu de rotatif) l'arbre primaire 19 prolongé et à adapter en conséquence ses guidages - qui seront alors linéaires - . Le
ou les actionneurs 13 pourront être par exemple rotatifs, disposés comme sur la figure 8, et leur arbre de sortie muni d'une manivelle entraînant l'arbre primaire 19 coulissant par l'intermédiaire d'une bielle, ou selon une autre variante, 1 ' actionneur ou les actionneurs couplés pourront être de type linéaire, d'axe 5 (comme sur la figure 7) et entraîner directement l'arbre 19, ou encore ils pourront être disposés avec leur axe parallèle au pivot 2 (comme en figure 8) en entraînant alors l'arbre 19 coulissant par deux bielles articulées à un guignol intermédiaire formant renvoi d'angle. Les actionneurs linéaires pourront être par exemple des vérins électriques pas à pas ou des servocommandes hydrauliques ou pneumatiques, de préférence à limitation tarée d'effort. La conversion de la translation de l'arbre 19 en la rotation du ou des moyeux 14 autour de leur axe 16 sera réalisée par un mécanisme de transformation de mouvement de type connu, choisi pour autoriser en outre une rotation du rotor 4 autour de 1 ' axe 5 : par exemple une bague rigidement liée à l'arbre coulissant 19, munie d'une gorge périphérique dans laquelle coulissent sans jeu les manetons, munis de galets, de manivelles solidaires des moyeux 14, ou encore - autre exemple - une bague solidaire en translation de l'arbre coulissant 19, mais libre en rotation autour de lui grâce à des roulements formant butée double, munie en périphérie de manetons sur lesquels sont articulées des manivelle.s solidaires des moyeux 14 ou encore - troisième exemple - une bague encore liée en translation à l'arbre coulissant 19 et libre en rotation, mais ici munie de crémaillères parallèles à l'axe 5 et engrenant avec des pignons dentés solidaires des moyeux 14. Les modes de réalisation à arbre primaire 19 coulissant nécessitent un moyen de contre-réaction, tel un capteur de mesure d'angle entre volet et aileron, coopérant avec un calculateur pilotant le ou les actionneurs 13.Other conceivable embodiments (not shown) of said primary mechanism 101 consist, starting from the example of the preceding paragraph, to make sliding (instead of rotating) the primary shaft 19 extended and to adapt accordingly its guidance - which will then be linear -. The or the actuators 13 may be for example rotary, arranged as in Figure 8, and their output shaft provided with a crank driving the primary shaft 19 sliding via a connecting rod, or in another variant, 1 The actuator or the coupled actuators may be of linear type, of axis 5 (as in FIG. 7) and directly drive the shaft 19, or they may be arranged with their axis parallel to the pivot 2 (as in FIG. 8). then driving the sliding shaft 19 by two links articulated to an intermediate horn forming angle gear. The linear actuators may for example be stepped electric cylinders or hydraulic or pneumatic servocontrols, preferably with limited effort limitation. The conversion of the translation of the shaft 19 into the rotation of the hub or hubs 14 about their axis 16 will be performed by a known type of motion transformation mechanism, chosen to allow further rotation of the rotor 4 around 1 ' axis 5: for example a ring rigidly connected to the sliding shaft 19, provided with a peripheral groove in which slides without play the crank pins, provided with rollers, integral cranks of the hubs 14, or else - another example - a solidarity ring in translation of the sliding shaft 19, but free to rotate around it by means of bearings forming a double stop, provided on the periphery with crank pins on which are articulated cranks integral with the hubs 14 or else - third example - a ring still linked in translation to the sliding shaft 19 and free in rotation, but here provided with racks parallel to the axis 5 and meshing with integral toothed gears hubs 14. The embodiments The sliding shaft assembly 19 requires a counter-reaction means, such as a sensor for measuring the angle between flap and fin, cooperating with a computer controlling the actuator (s) 13.
On pourra aussi améliorer le contrôle de portance de l'aileron 1, comme illustré en figure 18, par une girouette immergée 55 placée en extrémité de l'aileron 1, près du bord d'attaque, d'axe de rotation parallèle au pivot 2, protégée des remous par une plaque de garde 56 solidaire de l'aileron
et normale à son pivot, et entraînant un capteur 57 de mesure angulaire de type courant, communiquant au calculateur l'angle de la girouette 55 par rapport à l'aileron 1.It will also be possible to improve the lift control of the fin 1, as illustrated in FIG. 18, by a submerged vane 55 placed at the end of the flap 1, close to the leading edge, with an axis of rotation parallel to the pivot 2 protected from the eddies by a guard plate 56 integral with the fin and normal to its pivot, and driving a sensor 57 of angular measurement of the current type, communicating to the computer the angle of the wind vane 55 relative to the fin 1.
On pourra aussi améliorer ledit contrôle en ajoutant dans la boucle d'asservissement par calculateur des capteurs - de type courant - de mesure de position relative d'autres organes mobiles et/ou de mesure d'efforts ou déformations, tels des jauges extensiomêtriques mesurant la flexion du pivot 2 d'aileron 1 ou du pivot 10 de volet 3, ou mesurant la force de réaction d'appui du pivot 2 sur le bateau.It will also be possible to improve said control by adding in the computer control loop sensors - of the current type - for measuring the relative position of other moving members and / or for measuring forces or deformations, such as strain gauges measuring the bending the pivot 2 aileron 1 or pivot 10 flap 3, or measuring the reaction force of support pivot 2 on the boat.
L'invention pourra aussi être réalisée avec le ou les actionneurs 13 disposés hors du volet 1 ou de l'aileron 3, par exemple dans une zone émergée du bateau, ledit mécanisme primaire comprenant alors par exemple une transmission hydraulique à vérins menant et mené reliés par canalisations, complété le cas échéant d'un moyen de recalage anti-dérive en cas d'étanchéité imparfaite des vérins (par exemple un by- pass à électrovanne commandée par le calculateur); d'autres moyens de transmission à distance du mouvement du ou des actionneurs pourront être envisagés, tels des dispositifs à tringleries, engrenages ou liens flexibles et inextensibles.The invention may also be achieved with the actuator or actuators 13 disposed outside the flap 1 or fin 3, for example in an emerging area of the boat, said primary mechanism then comprising for example a hydraulic transmission with cylinders leading and driven connected by piping, supplemented if necessary with an anti-drift resetting means in case of imperfect sealing of the cylinders (for example a solenoid bypass controlled by the computer); other means of remote transmission of the movement of the actuator (s) may be envisaged, such as linkage devices, gears or flexible and inextensible links.
L'invention pourra aussi être réalisée en remplaçant le ou les actionneurs par un mécanisme de transmission de mouvement à entraînement manuel, tels: barre, roue, manette ou pédale. On pourra aussi avantageusement réaliser l'invention, notamment lorsqu'il s'agit d'équiper un bateau existant, en conservant l'aileron 1 d'origine de ce bateau (par exemple son gouvernail) et en rendant aisément amovible une grande partie du dispositif selon l'invention, comme l'illustre l'exemple 304 en figure 19, qui comporte un support amovible 58 à pose et dépose rapides sur l'aileron d.' origine 1 comprenant un moyen de positionnement tel une forme dudit support s 'emboîtant sur une forme de l'aileron 1 et un moyen d'arrimage à pression, tel des demi colliers 59 avec moyens d'accrochage à pression 60, tels des verrous à pênes coniques verrouillables ou des crochets à genouillère et ressort, avec moyens de télécommande (non dessinés) , comme des câbles sous gaines. Ce support 58 porte l'axe pivot 10 du volet 3 et
enfin l'axe de rotation 5 du rotor 4 est fixe par rapport au volet 3. On pourra aussi envisager que ledit moyen d'arrimage à pression comporte des parties restant solidaires dudit aileron 1 (tels encoches ou anneaux formant ancrage pour l'autre partie dudit moyen d'arrimage à pression, par exemple des pênes ou des crochets) qui y seront fixées par l'intermédiaire de pièces posés à demeure sur ledit aileron, tels des cerclages perpendiculaires au pivot d'aileron. Pour la pose et la dépose de la partie amovible du dispositif, on pourra par exemple fixer un câble de levage 61 à la partie supérieure du support 58 et des anneaux pour moyens de guidage, tels des gaffes à crochet télécommandé. L'axe 10 pourra être solidaire du support 58 par l'intermédiaire d'un bras 53 monobloc, ou en deux tronçons dont celui aval est articulé à celui amont par une charnière de sécurité d'axe 62 orthogonal au pivot 2 et qui comporte un verrouillage à limitation d'effort maintenant les deux tronçons alignés par un moyen de rappel élastique 63 - tel un ressort - et une butée angulaire (non dessinée) . Les organes de communication de signaux ou données ainsi que de fourniture d'énergie entre le' bateau et la partie amovible du dispositif - s'il y en a - seront si besoin à moyens de connexion amovibles. Dans la variante préférée de ce mode de réalisation, le rotor 4 est en aval du volet 3, se termine par une pointe hydrodynamique, est solidaire dudit arbre secondaire rotatif, d'axe 5 fixe par rapport au volet 3, et porte cinq aubes 6 munies de charnières de sécurité (voir figure 10) orientées par rapport au rotor par ledit mécanisme primaire. Ce dernier (détails non dessinés) comporte un arbre primaire d'axe 5, par exemple coulissant et manœuvré, par l'intermédiaire d'un guignol et de deux bielles formant renvoi d'angle, grâce à un arbre coulissant vertical aboutissant à l'air libre et dont l'extrémité supérieure est couplée soit à/aux actionneur (s) commandé (s) par un calculateur ou manuellement, soit couplée à une commande manuelle. Le dispositif selon l'invention peut en effet être réalisé sans actionneur ni calculateur ni capteur. Mais pour bénéficier d'un temps de réponse rapide, il comportera de préférence un/des actionneurs commandés par
un calculateur propre, ou d'une centrale de navigation d'un type approprié, coopérant avec un capteur du bateau mesurant ses variations rapides d'orientation, tel un gyromètre.The invention can also be achieved by replacing the actuator or actuators by a manual drive movement transmission mechanism, such as: bar, wheel, handle or pedal. It will also be advantageous to realize the invention, especially when it comes to equipping an existing boat, retaining the original flap 1 of this boat (for example its rudder) and making easily removable a large part of the boat. device according to the invention, as illustrated in example 304 in Figure 19, which comprises a removable support 58 for quick installation and removal on the fin d. ' origin 1 comprising a positioning means such as a form of said support fitting on a shape of the fin 1 and a pressure securing means, such as half collars 59 with pressure hooking means 60, such as locks. lockable tapered bolts or toggle and spring hooks, with remote control means (not drawn), such as sheathed cables. This support 58 carries the pivot axis 10 of the shutter 3 and finally the axis of rotation 5 of the rotor 4 is fixed relative to the flap 3. It may also be envisaged that said pressure securing means comprises portions remaining integral with said flap 1 (such notches or anchoring rings for the other part said securing means to pressure, for example bolts or hooks) which will be fixed by means of parts permanently fixed on said fin, such strings perpendicular to the aileron pivot. For the installation and removal of the removable part of the device, it is possible for example to attach a hoisting cable 61 to the upper part of the support 58 and rings for guiding means, such as hooks remotely controlled. The axis 10 may be secured to the support 58 by means of a monobloc arm 53, or in two sections, the downstream portion of which is articulated to that upstream by a safety hinge axis 62 orthogonal to the pivot 2 and which comprises a locking force limitation maintaining the two sections aligned by an elastic return means 63 - such as a spring - and an angular stop (not drawn). The signal communication devices or data and energy supply between the 'boat and the removable part of the device - if any - will be so need to removable connecting means. In the preferred variant of this embodiment, the rotor 4 is downstream of the flap 3, ends with a hydrodynamic tip, is integral with said rotary secondary shaft, with a fixed axis 5 relative to the flap 3, and carries five blades 6. provided with safety hinges (see Figure 10) oriented relative to the rotor by said primary mechanism. The latter (non-drawn details) comprises a primary shaft of axis 5, for example sliding and maneuvered, via a horn and two connecting rods forming an angle, thanks to a vertical sliding shaft leading to the free air and whose upper end is coupled to the actuator (s) controlled (s) by a computer or manually, or coupled to a manual control. The device according to the invention can indeed be realized without actuator neither computer nor sensor. But to benefit from a fast response time, it will preferably comprise one or more actuators controlled by a clean computer, or a navigation unit of an appropriate type, cooperating with a sensor of the boat measuring its rapid changes of orientation, such as a gyrometer.
On pourra encore réduire 1 ' énergie de commande nécessaire en réalisant par exemple l'invention, comme illustré par le schéma 20 (où l'aube 6 et ses accessoires sont dessinés exagérément tournés autour de l'axe 16 pour la lisibilité), avec l'aube 6 libre en rotation autour dudit axe pivot radial 16, fixe par rapport au rotor 4 (non dessiné) , par exemple guidée par roulements 25 prisonniers du rotor, et munie d'un petit volet 64 orientable par rapport à elle, articulé au bord de fuite de l'aube selon un axe 65 parallèle à son pivot, et de surface environ trois à quatre fois moindre que la sienne, ledit mécanisme, primaire réglant alors directement l'orientation dudit petit volet par rapport à l'aube. Ce réglage modifie l'équilibre des portances de l'aube et du petit volet et modifie l'orientation de l'aube 6 par rapport au rotor 4. On pourra envisager que ledit mécanisme primaire transforme l'écart angulaire entre l'arbre primaire rotatif 19 et le rotor 4 en l'angle dièdre entre plans moyens du petit volet 64 et de l'aube par un mécanisme tel le suivant: cet écart angulaire est transformé par un secteur de came 66The necessary control energy can be further reduced by, for example, realizing the invention, as illustrated by FIG. 20 (where the blade 6 and its accessories are drawn in an exaggerated manner around the axis 16 for readability), with blade 6 free in rotation about said radial pivot axis 16, fixed relative to the rotor 4 (not drawn), for example guided by bearings 25 prisoners of the rotor, and provided with a small flap 64 that is pivotable relative thereto, articulated to trailing edge of the blade along an axis 65 parallel to its pivot, and about three to four times less than its own surface, said primary mechanism then directly adjusting the orientation of said small flap relative to the blade. This adjustment modifies the balance of the lift of the blade and the small shutter and modifies the orientation of the blade 6 with respect to the rotor 4. It may be envisaged that said primary mechanism transforms the angular difference between the rotary primary shaft. 19 and the rotor 4 at the dihedral angle between the mean planes of the small flap 64 and the blade by a mechanism such as the following: this angular difference is transformed by a cam sector 66
(dessinée pour cinq aubes) solidaire de l'arbre 19 et un galet 67 en la translation d'une tige 68 coulissant dans le moyeu tubulaire 14 de l'aube; puis cette tige 68 pousse par un autre galet 61 le bras 69 d'une équerre pivotante 70 d'axe de rotation 71 fixe par rapport à l'aube 6 et perpendiculaire au plan moyen de l'aube; l'autre bras 72 de l' équerre tire, par une bielle 74 articulée à rotules, un levier 73 solidaire du petit volet 64 et perpendiculaire au plan moyen de ce dernier; un moyen élastique, tel un ressort (non dessiné) , maintient le contact des galets. On pourra remplacer certains de ces mécanismes par d'autres de meilleur rendement connus de l'homme de l'art (engrenages, etc.). En cas d'arbre 19 coulissant sans came 66, son extrémité pourra pousser les bras de cinq nouvelles êquerres disposées en étoile, à pivots orthogonaux à l'axe 5 et fixes par rapport au rotor 4, dont les autres bras pousseront les cinq galets 67. La charnière
de sécurité éventuelle d'axe 27 (fig. 10) sera sur le moyeu tubulaire 14 en deux tronçons, avec pivot de charnière en deux parties dégageant sa lumière; le bras 69 pourra être en secteur cylindrique à peu près centré sur l'axe charnière pour garder le contact du galet au repliement, ou la tige 68 être en tronçons liés par articulations d'axes parallèles à l'axe charnière 27 ou liés par un ou des ressorts flexibles.(designed for five blades) secured to the shaft 19 and a roller 67 in translation of a rod 68 sliding in the tubular hub 14 of the blade; then this rod 68 pushes by another roller 61 the arm 69 of a pivoting bracket 70 of axis of rotation 71 fixed with respect to the blade 6 and perpendicular to the mean plane of the blade; the other arm 72 of the bracket pulls, by a connecting rod 74 articulated with ball joints, a lever 73 secured to the small flap 64 and perpendicular to the mean plane thereof; an elastic means, such as a spring (not drawn), maintains the contact of the rollers. Some of these mechanisms may be replaced by others of better performance known to those skilled in the art (gears, etc.). In case of sliding shaft 19 without cam 66, its end may push the arms of five new brackets arranged in a star, with pivots orthogonal to the axis 5 and fixed relative to the rotor 4, whose other arms will push the five rollers 67 . The hinge if possible, the axis 27 (FIG 10) will be on the tubular hub 14 in two sections, with a two-part hinge pivot releasing its light; the arm 69 may be in a cylindrical sector approximately centered on the hinge axis to keep the contact of the roller at the fold, or the rod 68 be in sections connected by joints of axes parallel to the hinge axis 27 or connected by a or flexible springs.
Pour accroître la portance, on pourra munir des éléments (tels aileron, volet, ...) de plaques de garde d'extrémité perpendiculaires à leur pivot ou tapisser leur surface de fins orifices reliés à un dispositif d'aspiration de couche limite, avec chasse d'eau intermittente anti-colmatage, utilisant une/des pompes et éventuellement de l'air comprimé.To increase the lift, it will be possible to provide elements (such as a fin, flap, etc.) of end guard plates perpendicular to their pivot or to cover their surface with thin orifices connected to a boundary layer suction device, with intermittent anti-clogging flush, using one or more pumps and possibly compressed air.
Le fonctionnement du dispositif selon l'invention est le suivant : Lorsqu'on souhaite orienter l'aileron 1, on oriente la ou les aubes 6 le par rapport au rotor 4 au moyen du mécanisme primaire 101 de transmission de mouvement, la modification d'orientation de la ou des aubes engendre une modification de la résistance hydrodynamique de la ou es aubes, ce qui provoque la rotation du rotor 4 qui entraîne le système vis/écrou 37,38 coopérant avec le mécanisme bielle- manivelle, entraînant la translation de l'élément mobile 38 du système vis/écrou parallèlement à l'axe 5 et permetant alors l ' entrainement en rotation et l'orientation du volet 3 par rapport à l' aileron 1 par l'intermédiaire du mécanisme secondaire 102 de transmission de mouvement.
The operation of the device according to the invention is as follows: When it is desired to orient the fin 1, the or the vanes 6 are oriented with respect to the rotor 4 by means of the primary mechanism 101 for transmitting motion, the modification of orientation of the blade or blades causes a modification of the hydrodynamic resistance of the blade or blades, which causes the rotation of the rotor 4 which drives the screw / nut 37,38 system cooperating with the crank-crank mechanism, resulting in the translation of the blade; movable member 38 of the screw / nut system parallel to the axis 5 and then allowing the drive in rotation and the orientation of the flap 3 relative to the fin 1 through the secondary mechanism 102 of motion transmission.
Claims
1. Dispositif pour gouverner et/ou stabiliser un bateau comportant au moins un aileron (1) profilé, immergé et pivotant librement autour d'un axe pivot (2) solidaire du bateau, l'aileron (1) comportant un volet profilé (3) articulé autour d'un axe pivot (10) sensiblement parallèle à l'axe pivot (2) , dispositif caractérisé en ce qu'au moins un aileron (1) , ou son volet (3) , supporte un rotor (4) dont l'axe de rotation (5) est sensiblement orthogonal à l'axe pivot (2) de l'aileron (1), la rotation du rotor (4) permettant l ' entraînement en rotation et l'orientation du volet (3) par rapport à l'aileron (1), par l'intermédiaire d'un mécanisme secondaire (102) de transmission de mouvement.1. Device for steering and / or stabilizing a boat comprising at least one fin (1) shaped, immersed and freely pivoting about a pivot axis (2) integral with the boat, the fin (1) having a profiled flap (3). ) articulated about a pivot axis (10) substantially parallel to the pivot axis (2), characterized in that at least one fin (1), or its flap (3), supports a rotor (4) of which the axis of rotation (5) is substantially orthogonal to the pivot axis (2) of the fin (1), the rotation of the rotor (4) allowing the driving in rotation and the orientation of the flap (3) by relative to the fin (1), via a secondary mechanism (102) for transmitting motion.
2. Dispositif selon la revendication 1, caractérisé en ce que le rotor (4) comporte au moins un moyeu (14) rotatif autour d'un axe radial (16) perpendiculaire à l'axe de rotation (5) du rotor, le moyeu (14) supportant une aube (6) profilée et orientable par rapport au rotor (4) par un mécanisme primaire (101) de transmission de mouvement. 2. Device according to claim 1, characterized in that the rotor (4) comprises at least one hub (14) rotatable about a radial axis (16) perpendicular to the axis of rotation (5) of the rotor, the hub (14) supporting a blade (6) profiled and orientable relative to the rotor (4) by a primary mechanism (101) for transmitting motion.
3. Dispositif selon la revendication 1 ou 2, caractérisé en ce que le mécanisme secondaire (102) est réalisé par le rotor (4), entraînant un système vis/écrou (37,38) coopérant avec un mécanisme bielle-manivelle ; la rotation du rotor (4) autour de l'axe (5) entraînant la translation de l'élément mobile (38) du système vis/écrou parallèlement à l'àxe (5) afin de provoquer la rotation du volet (3) par l'intermédiaire du mécanisme bielle-manivelle.3. Device according to claim 1 or 2, characterized in that the secondary mechanism (102) is formed by the rotor (4), driving a screw / nut system (37,38) cooperating with a connecting rod-crank mechanism; the rotation of the rotor (4) about the axis (5) causing the translation of the movable element (38) of the screw / nut system parallel to the axis (5) in order to cause rotation of the flap (3) by via the connecting rod-crank mechanism.
4. Dispositif selon l'une des revendications 1 ou 2, caractérisé en ce que le mécanisme secondaire (102) est réalisé par le rotor (4) , solidaire en rotation d'un tambour sur lequel est enroulé sans glissement un lien flexible, dont les mouvements des deux brins sont transmis par renvois d'angles à deux points d'ancrage aux côtés soit du volet (3) soit de l'aileron (1). 4. Device according to one of claims 1 or 2, characterized in that the secondary mechanism (102) is formed by the rotor (4), integral in rotation with a drum on which is wound without sliding a flexible link, of which the movements of the two strands are transmitted by reference angles to two anchor points at the sides of either the flap (3) or the fin (1).
5. Dispositif selon l'une quelconque des revendications 2 à 4, caractérisé en ce que le mécanisme primaire (101) de transmission de mouvement est entraîné en rotation par un moyen moteur (13) et est réalisé par un levier (23) dont une première extrémité est solidaire du moyeu (14) et une seconde extrémité (22) est sphérique et glisse sans jeu dans une lumière radiale d'un doigt rotatif (21) de même axe de rotation (5) que le rotor (4) et entraîné en rotation par le S moyen moteur (13) ..5. Device according to any one of claims 2 to 4, characterized in that the primary mechanism (101) of motion transmission is rotated by a motor means (13) and is realized by a lever (23) of which one first end is integral with the hub (14) and a second end (22) is spherical and slides without play in a radial slot of a rotating finger (21) of the same axis of rotation (5) as the rotor (4) and driven rotated by the S motor (13).
6. Dispositif selon la revendication 5, caractérisé en ce que l'extrémité du levier (23) est entraînée par un guidage plan, plan perpendiculaire à l'axe (5) de rotation du rotor6. Device according to claim 5, characterized in that the end of the lever (23) is driven by a plane guide plane perpendicular to the axis (5) of rotation of the rotor
(4) et solidaire d'une pièce guidée en translation 0 parallèlement à l'axe (5) de rotation du rotor (4) et entraînée par un moyen moteur.(4) and integral with a part guided in translation 0 parallel to the axis (5) of rotation of the rotor (4) and driven by a motor means.
7. Dispositif selon l'une quelconque des revendications 2 à 6, caractérisé en ce que le moyeu (14) comporte une charnière de sécurité munie d'un moyen élastique (30) 5 maintenant l'aube (6) en position érigée (29) en appui contre une butée angulaire (31) et permettant le repliement de l'aube (6) vers l'aval par pivotement autour de l'axe (27) de la charnière en cas de heurt d'obstacle par cette aube (6) .7. Device according to any one of claims 2 to 6, characterized in that the hub (14) comprises a safety hinge provided with an elastic means (30) 5 maintaining the blade (6) in erected position (29). ) against an angular abutment (31) and allowing the blade (6) to fold downstream by pivoting about the axis (27) of the hinge in the event of an obstacle collision with this blade (6). ).
8. Dispositif selon l'une des revendications 2 à 7, 0 caractérisé en ce que le mécanisme primaire (101) est muni d'un limiteur de force ou de couple (18) coopérant avec un moyen pour rétablir sa géométrie initiale.8. Device according to one of claims 2 to 7, 0 characterized in that the primary mechanism (101) is provided with a force limiter or torque (18) cooperating with means for restoring its initial geometry.
9. Dispositif selon l'une des revendications précédentes, caractérisé en ce que le mécanisme secondaire (102) est muni 5 d'un limiteur de force ou de couple coopérant avec un moyen pour rétablir sa géométrie initiale.9. Device according to one of the preceding claims, characterized in that the secondary mechanism (102) is provided with a force limiter or torque cooperating with means for restoring its initial geometry.
10. Dispositif selon l'une quelconque des revendications précédentes, caractérisé en ce qu'il comporte un support amovible par rapport à l'aileron (1) assurant la liaison 0 entre l'aileron (1) et l'axe pivot (10) du volet (3) et en ce que la liaison du support amovible à l'aileron (1) est assurée par un dispositif de solidarisation et de désolidarisation rapides comportant un moyen de positionnement et un moyen d'arrimage à pression. 5 11. Dispositif selon la revendication 10, caractérisé en ce qu'une première partie du support amovible (68) comporte des éléments du dispositif de solidarisation et désolidarisation rapides et constitue un sous-ensemble rapporté sur la seconde partie du support (68) , a laquelle elle est solidarisée par un moyen d'assemblage, la première partie formant ainsi adaptateur à un modèle particulier de l'aileron (1) . 10. Device according to any one of the preceding claims, characterized in that it comprises a removable support relative to the fin (1) providing the connection 0 between the fin (1) and the pivot axis (10). the flap (3) and in that the connection of the removable support to the fin (1) is provided by a fast fastening and detaching device comprising a positioning means and a pressure securing means. 11. Device according to claim 10, characterized in that a first portion of the removable support (68) comprises elements of the fast fastening and detaching device and constitutes a subset. attached to the second part of the support (68), to which it is secured by an assembly means, the first part thus forming an adapter to a particular model of the fin (1).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FR0505481A FR2886270B1 (en) | 2005-05-31 | 2005-05-31 | ANTI-CONTROLLED AILERON WITH HYDRODYNAMIC PORTABILITY PILOTED BY ROTATING DAWN DRIVING A LEADING FLIGHT COMPONENT |
FR0505481 | 2005-05-31 |
Publications (2)
Publication Number | Publication Date |
---|---|
WO2006129011A2 true WO2006129011A2 (en) | 2006-12-07 |
WO2006129011A3 WO2006129011A3 (en) | 2007-01-25 |
Family
ID=35531070
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/FR2006/001229 WO2006129011A2 (en) | 2005-05-31 | 2006-05-31 | Orientable aileron controlled by setting a rotatable paddle |
Country Status (2)
Country | Link |
---|---|
FR (1) | FR2886270B1 (en) |
WO (1) | WO2006129011A2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101879935A (en) * | 2010-06-25 | 2010-11-10 | 哈尔滨工程大学 | Drag-reducing device of anti-rolling fin of ship wing flap |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GR1006319B (en) * | 2007-12-10 | 2009-03-19 | Device for the development od regulated lift as to measure and direction on the bottoms of a sailing boat. | |
ITMI20090033A1 (en) * | 2009-01-16 | 2010-07-17 | Davide Tagliapietra | SLIDING MOBILE BULB KEEL |
AT509946B1 (en) * | 2010-06-14 | 2015-08-15 | Oliver Dr Kormann | WATERCRAFT |
NL2007844C2 (en) * | 2011-11-23 | 2013-05-27 | Aken Group B V Van | DEVICE AND CONSTRUCTION INCLUDING THE DEVICE. |
WO2019150264A1 (en) * | 2018-01-30 | 2019-08-08 | Mark Fraser | A yacht with a hydrofoil |
FR3089200B1 (en) * | 2018-12-04 | 2021-07-16 | Univ Montpellier | Support assembly for profiled element |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3092062A (en) * | 1962-05-18 | 1963-06-04 | Savitsky Daniel | Mechanical control for submerged hydrofoil systems |
DE3713176A1 (en) * | 1987-02-07 | 1988-08-18 | Erich Victora | Sailing boat with winged keel |
US5448963A (en) * | 1994-09-13 | 1995-09-12 | Gallington; Roger W. | Hydrofoil supported planing watercraft |
FR2812270A1 (en) * | 2000-07-26 | 2002-02-01 | Benoit Luc Marie Cabaret | Ship's rudder has leading and trailing edge vanes controlled by a drive operating through a spindle bearing and gear mechanism |
US6453836B1 (en) * | 1999-11-29 | 2002-09-24 | Stephen Hampton Ditmore | Sailboat keel with a rotatable secondary foil |
GB2397565A (en) * | 2003-01-25 | 2004-07-28 | Jonathan Sebastian Howes | An aerofoil sailing craft |
WO2005054049A2 (en) * | 2003-11-24 | 2005-06-16 | Aldin Gerard | Dynamic stabiliser for a boat, a force stabilising device for orienting sails and a semi-submersible boat |
-
2005
- 2005-05-31 FR FR0505481A patent/FR2886270B1/en not_active Expired - Fee Related
-
2006
- 2006-05-31 WO PCT/FR2006/001229 patent/WO2006129011A2/en active Application Filing
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3092062A (en) * | 1962-05-18 | 1963-06-04 | Savitsky Daniel | Mechanical control for submerged hydrofoil systems |
DE3713176A1 (en) * | 1987-02-07 | 1988-08-18 | Erich Victora | Sailing boat with winged keel |
US5448963A (en) * | 1994-09-13 | 1995-09-12 | Gallington; Roger W. | Hydrofoil supported planing watercraft |
US6453836B1 (en) * | 1999-11-29 | 2002-09-24 | Stephen Hampton Ditmore | Sailboat keel with a rotatable secondary foil |
FR2812270A1 (en) * | 2000-07-26 | 2002-02-01 | Benoit Luc Marie Cabaret | Ship's rudder has leading and trailing edge vanes controlled by a drive operating through a spindle bearing and gear mechanism |
GB2397565A (en) * | 2003-01-25 | 2004-07-28 | Jonathan Sebastian Howes | An aerofoil sailing craft |
WO2005054049A2 (en) * | 2003-11-24 | 2005-06-16 | Aldin Gerard | Dynamic stabiliser for a boat, a force stabilising device for orienting sails and a semi-submersible boat |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101879935A (en) * | 2010-06-25 | 2010-11-10 | 哈尔滨工程大学 | Drag-reducing device of anti-rolling fin of ship wing flap |
Also Published As
Publication number | Publication date |
---|---|
FR2886270A1 (en) | 2006-12-01 |
WO2006129011A3 (en) | 2007-01-25 |
FR2886270B1 (en) | 2007-06-29 |
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