CN207315581U - A kind of one-way rotary piston inertia high efficience motor - Google Patents

Abstract

The utility model proposes a kind of one-way rotary piston inertia high efficience motor；Including stator elements and rotor element；The stator elements are equipped with inner cavity, and stator elements inner cavity is a cylindrical chamber；The rotor element is a cylindrical body for being vertical at stator elements inner cavity axis position；Around fixing a piston array, the piston array is pushed away component and is formed the rotor element side-walls by multiple hold for being uniformly fixed on rotor element side-walls；Engine is operationally, stator elements are fixed at external device (ED) with fixed structure, and rotor element rotates in stator elements inner cavity, in rotary course, each piston arm interval of piston array falls into the lowest point of stator elements intracavity sidewall wavy shaped configuration, constantly forms interim chamber structure；The high-temperature gas after indoor gas mixture detonation that burns temporarily promotes piston arm to be run by rotor element direction of rotation；The utility model can push directly on engine spindle rotation with piston motion, and can make full use of the inertia motion energy of piston, lift engine efficiency.

Description

A kind of one-way rotary piston inertia high efficience motor

Technical field

Engine art is the utility model is related to, especially a kind of one-way rotary piston inertia high efficience motor.

Background technology

Piston-mode motor it is with a long history, but the cylinder piston of such engine generally carries out reciprocating fortune at work It is dynamic, the inertia motion energy of piston is wasted, and the reciprocating of piston need to can just change into engine by transmission mechanism Torque, can expend energy again in transmission process；Although the piston of rotor motor is without moving back and forth, rotator type hair The combustion chamber of motivation is smaller so that fuel combustion is insufficient, and rotor main shaft and the relatively near easy high temperature in combustion chamber, how to solve Problem above is a research direction to improve piston engine engine efficiency.

The content of the invention

The utility model proposes a kind of one-way rotary piston inertia high efficience motor, and hair can be pushed directly on piston motion Motivation main shaft rotates, and can make full use of the inertia motion energy of piston, lifts engine efficiency.

The utility model uses following technical scheme.

A kind of one-way rotary piston inertia high efficience motor, the engine include stator elements and rotor element；It is described fixed Component is equipped with inner cavity, and stator elements inner cavity is a cylindrical chamber；The rotor element is vertical at stator elements inner cavity axis position for one Cylindrical body；The rotor element side-walls are around a piston array is fixed, and the piston array is by being uniformly fixed on rotor element side Multiple hold at wall pushes away component composition.

Described hold pushes away that component includes the insulated column being fixed on rotor element side wall and the cylindricality that is articulated with insulated column is lived Fill in arm；The vertical view of the cylinder-piston arm to shape be the lotus root shape with big small end；The small end of lotus root shape long side is hinged end, big end End is pushed away to hold；Top surface, the bottom plate of each piston arm connect with stator elements inner cavity cavity wall and can be slid at cavity wall；Each piston arm hinge Connect end and be oriented to rotor element direction of rotation；On rotor element direction of rotation, upper one holds and pushes away holding to push away end and be placed in next hold and pushing away for component The insulated column side slip at wall of component；The rotor element side-walls are equipped with elastic component；The elastic component is in cylinder-piston arm Side force make cylinder-piston arm hold push away end outer be pressed at the intracavity sidewall of stator elements inner cavity slide.

The stator elements intracavity sidewall is overlooked to being uniformly arranged the wavy shaped configuration that possesses wave crest and trough, the waveform Fuel valve and igniter are equipped with the trough of structure, holding for component piston arm is pushed away when rotor element rotation makes to hold and pushes away end outer and slip into During the lowest point of wavy shaped configuration, the outer wall that the stator elements internal chamber wall at the trough pushes away component with holding surrounds interim combustion chamber jointly； The ignited device of fuel that fuel valve is sent into interim combustion chamber ignites, and promotes piston arm along the wave crest of wavy shaped configuration from trough Inside skid off and rotate rotor element.

Any wave crest of the wavy shaped configuration including steep when easing up, by slow side side equipped with exhaust gas discharge by wave crest Mouthful, when the trough of piston arm along slow side from interim combustion chamber skids off, the indoor exhaust combustion gases that burn temporarily are from outlet port Discharge, wave crest delay side promote piston arm hold push away end slid on next insulated column for holding and push away component.

When hold push away component piston arm hold push away end outer slip into the lowest point of wavy shaped configuration when, described hold pushes away end and waveform The steep side of structure wave crest, which connects, surrounds interim combustion chamber.

The wave crest quantity of the wavy shaped configuration is more than the quantity held and push away component.

The engine is equipped with electronic control module, and the electronic control module makes the interim burning that rotor element is formed in rotary course Room only has one at any one time and is in fired state.

Electronic inductor is equipped with the internal chamber wall of the stator elements, the electronic inductor is arranged at slow side and is arranged with exhaust gas Outlet is close to when piston arm is slided at electronic inductor along slow side, electronic inductor is triggered and sends work to electronic control module Fill in arm perceptual signal.

When electronic control module receives piston arm perceptual signal, electronic control module thinks that next face will be formed at next wave structure When combustion chamber, electronic control module starts fuel valve at next wave structure and igniter with the point of the next interim combustion chamber of preparation Fiery operation.

The wave crest quantity of the wavy shaped configuration is six.

The piston arm, which is held, to be pushed away the endface at end and is equipped with pot-shaped groove.

The wave crest peak face of the wavy shaped configuration is arc line shaped.

In the utility model, due to forming interim combustion chamber with the rotation of rotor element, and the generation of interim combustion chamber pushes away Power pushes directly on rotor element rotation through holding the piston arm of push piece, so that loss of the fuel oil energy in transmission is reduced, and also it is living Inertia force during plug movement is also able to be preserved for drive rotor, so as to improve the efficiency of engine, it helps lifting hair Motivation rotating speed.

In the utility model, the hinged piston arm of component is pushed away by coordinating to hold with the wavy shaped configuration of stator elements cavity wall Form interim combustion chamber, the wave crest peak face of the wavy shaped configuration is arc line shaped, and the piston arm, which is held, to be pushed away the endface at end and be equipped with Pot-shaped groove, light a fire operation when using fuel valve be sent into gas mixture be used as fuel, when piston by combustion gas promotion and in stator elements When being slided on the wave crest of inner cavity wavy shaped configuration, the space of interim combustion chamber also constantly expands, so as to greatly expand interim combustion Burn the combustion space of room so that fuel combustion is more abundant, is conducive to lift engine efficiency.

In the utility model, only have one due to any instant, in interim combustion chamber and be in fired state, so that hair The power output of motivation is steady, can reduce engine vibration.

In the utility model, the rotor element side-walls are around a piston array is fixed, and the piston array is by uniformly solid Multiple hold due to rotor element side-walls pushes away component composition；This is designed as rotor shaft and provides good heat insulation structural so that Rotor shaft is not easy to overheat in high-speed cruising.

Since the piston of the utility model is rotary motion, the space hold of piston is greatly reduced, so as to set Count out subminiature high-speed fuel oil engine.

In the utility model, the wave crest quantity of the wavy shaped configuration is more than the quantity held and push away component；The design to hold The piston arm lengths for pushing away component are more than the length of wavy shaped configuration, can prevent the card resistance phenomenon in piston arm movement.

Brief description of the drawings

With reference to the accompanying drawings and detailed description to the further details of explanation of the utility model：

Attached drawing 1 is the schematic diagram of the utility model；

Attached drawing 2 is the schematic diagram of the piston arm of the utility model（Dotted line is pot-shaped groove in figure）；

Attached drawing 3 is that piston arm holds the schematic diagram for pushing away end；

In figure：1- rotor elements；2- stator elements；3- piston arms；4- elastic components；5- fuel valves；6- igniters；7- piston arms Hinged end；8- holds the insulated column for pushing away component；The fixed structure of 9- stator elements；The interim combustion chambers of 10-；11- piston arms, which are held, pushes away end； 12- outlet ports；13- piston arrays；The slow side of 14- wave structure wave crests；15- electronic inductors；16- wave structure wave crests Steep side；17- held the insulated column side wall for pushing away end sliding for last piston arm；18- stator elements inner cavity；

Interim combustion chamber molded A-；Interim combustion chamber in B- expansions；C- continues the interim combustion chamber in expanding；D- Interim combustion chamber when exhaust gas is discharged；The interim combustion chamber that the discharge of E- exhaust gas is completed；F- is i.e. by molding interim combustion chamber.

Embodiment

As shown in Figs. 1-3, a kind of one-way rotary piston inertia high efficience motor, the engine include 2 He of stator elements Rotor element 1；The stator elements 2 are equipped with inner cavity 18, and stator elements inner cavity 18 is a cylindrical chamber；The rotor element 1 vertically sets for one Cylindrical body in 2 inner cavity axis position of stator elements；1 side-walls of rotor element surround and fix a piston array 13, the piston Array 13 is pushed away component and is formed by multiple hold for being uniformly fixed on rotor element side-walls.

Described hold pushes away component and includes the insulated column 8 being fixed on rotor element side wall and the cylindricality being articulated with insulated column 8 Piston arm 3；The vertical view of the cylinder-piston arm 3 to shape be the lotus root shape with big small end；The small end of lotus root shape long side is hinged end 7, big end pushes away end 11 to hold；Top surface, the bottom plate of each piston arm connect with stator elements inner cavity cavity wall and can be slid at cavity wall；Respectively Piston arm hinged end 7 is oriented to 1 direction of rotation of rotor element；On rotor element direction of rotation, upper one holds and pushes away holding for component and push away end 11 It is placed on next insulated column side wall 17 for holding and push away component and slides；The rotor element side-walls are equipped with elastic component 4；The elastic component 4 Holding for cylinder-piston arm is set to push away 11 outers of end and be pressed on 18 intracavity sidewall of stator elements inner cavity to the medial surface of cylinder-piston arm force Place's sliding.

The stator elements intracavity sidewall is overlooked to being uniformly arranged the wavy shaped configuration that possesses wave crest and trough, the waveform Fuel valve 5 and igniter 6 are equipped with the trough of structure, holding for component piston arm is pushed away when rotor element 1 rotates to make to hold and pushes away end outer When slipping into the lowest point of wavy shaped configuration, the outer wall that the stator elements internal chamber wall at the trough pushes away component with holding surrounds interim burning jointly Room 10；Fuel valve 5 ignites to the ignited device of fuel that interim combustion chamber is sent into, and promotes ripple of the piston arm 3 along wavy shaped configuration Peak skids off out of trough and rotates rotor element.

For any wave crest of the wavy shaped configuration including steep when 16 ease up 14, wave crest is equipped with exhaust gas by slow 14 side of side Outlet 12, when the trough of piston arm along slow side from interim combustion chamber skids off, the indoor exhaust combustion gases that burn temporarily are from exhaust gas Outlet 12 is discharged, wave crest delay side promote piston arm hold push away end slid on next insulated column 8 for holding and pushing away component.

When hold push away component piston arm hold push away end outer and slip into the lowest point of wavy shaped configuration when, described hold pushes away end 11 and wave The steep side 16 of shape structure wave crest, which connects, surrounds interim combustion chamber.

The wave crest quantity of the wavy shaped configuration is more than the quantity held and push away component.

The engine is equipped with electronic control module, and the electronic control module makes the interim burning that rotor element is formed in rotary course Room only has one at any one time and is in fired state.

Electronic inductor 15 is equipped with the internal chamber wall of the stator elements, the electronic inductor is arranged at slow side and and exhaust gas Outlet is close to when piston arm is slided at electronic inductor along slow side, electronic inductor is triggered and is sent to electronic control module Piston arm perceptual signal.

When electronic control module receives piston arm perceptual signal, electronic control module thinks that next face will be formed at next wave structure When combustion chamber, electronic control module starts fuel valve at next wave structure and igniter with the point of the next interim combustion chamber of preparation Fiery operation.

The wave crest quantity of the wavy shaped configuration is six.

The piston arm, which is held, to be pushed away the endface at end and is equipped with pot-shaped groove；As shown in Figure 2 and Figure 3.

The wave crest peak face of the wavy shaped configuration is arc line shaped.

Embodiment：

Operationally, stator elements are fixed at external device (ED) engine with fixed structure, and rotor element is in stator elements inner cavity Rotate, in rotary course, each piston arm interval of piston array 13 falls into the lowest point of stator elements intracavity sidewall wavy shaped configuration, no It is disconnected to form interim chamber structure, generate A, B, C, D, E, F diagram of visible Fig. 1 of process of interim chamber structure.

Electronic inductor 15 is equipped with the internal chamber wall of stator elements, the electronic inductor is arranged at slow side and is discharged with exhaust gas Tight-lipped neighbour, when piston arm is slided at electronic inductor along slow side, electronic inductor is triggered and sends piston to electronic control module Arm perceptual signal.

The interim combustion chamber that electronic control module makes rotor element be formed in rotary course only has one at any one time and is in point Fiery state, the high-temperature gas indoor gas mixture detonation of burning temporarily after promote piston arm to be transported by rotor element direction of rotation OK.

Claims (10)

1. A kind of 1. one-way rotary piston inertia high efficience motor, it is characterised in that：The engine includes stator elements and rotor Part；The stator elements are equipped with inner cavity, and stator elements inner cavity is a cylindrical chamber；The rotor element is vertical at stator elements inner cavity for one The cylindrical body at axis position；The rotor element side-walls are around a piston array is fixed, and the piston array is by being uniformly fixed on Multiple hold of rotor element side-walls pushes away component composition；

   Described hold pushes away component and includes the insulated column being fixed on rotor element side wall and the cylinder-piston arm being articulated with insulated column； The vertical view of the cylinder-piston arm to shape be the lotus root shape with big small end；The small end of lotus root shape long side is hinged end, and big end is to hold Push away end；Top surface, the bottom plate of each piston arm connect with stator elements inner cavity cavity wall and can be slid at cavity wall；Each piston arm hinged end It is oriented to rotor element direction of rotation；On rotor element direction of rotation, upper one holds and pushes away holding to push away end and be placed in next hold and pushing away component for component Insulated column side slip at wall；The rotor element side-walls are equipped with elastic component；Medial surface of the elastic component to cylinder-piston arm Force make cylinder-piston arm hold push away end outer be pressed at the intracavity sidewall of stator elements inner cavity slide；

   The stator elements intracavity sidewall is overlooked to being uniformly arranged the wavy shaped configuration that possesses wave crest and trough, the wavy shaped configuration Trough at be equipped with fuel valve and igniter, push away holding for component piston arm when rotor element rotation makes to hold and push away end outer and slip into wave During the lowest point of shape structure, the outer wall that the stator elements internal chamber wall at the trough pushes away component with holding surrounds interim combustion chamber jointly；Fuel The ignited device of fuel that valve is sent into interim combustion chamber ignites, and promotes piston arm to be slided along the wave crest of wavy shaped configuration out of trough Go out and rotate rotor element.
2. A kind of 2. one-way rotary piston inertia high efficience motor according to claim 1, it is characterised in that：The wave For any wave crest of shape structure including steep when easing up, wave crest is equipped with outlet port by slow side side, when the slow side in piston arm edge When being skidded off from the trough of interim combustion chamber, the indoor exhaust combustion gases that burn temporarily are discharged from outlet port, and wave crest delays side promotion Piston arm holds to push away to hold and is slid on next insulated column for holding and push away component.
3. A kind of 3. one-way rotary piston inertia high efficience motor according to claim 2, it is characterised in that：Group is pushed away when holding The holding of part piston arm pushes away end outer when slipping into the lowest point of wavy shaped configuration, and described hold pushes away end and the steep side phase of wavy shaped configuration wave crest Connect and surround interim combustion chamber.
4. A kind of 4. one-way rotary piston inertia high efficience motor according to claim 2, it is characterised in that：The wave The wave crest quantity of shape structure is more than the quantity held and push away component.
5. A kind of 5. one-way rotary piston inertia high efficience motor according to claim 4, it is characterised in that：It is described to start Machine is equipped with electronic control module, and the interim combustion chamber that the electronic control module makes rotor element be formed in rotary course only has at any one time One is in fired state.
6. A kind of 6. one-way rotary piston inertia high efficience motor according to claim 4, it is characterised in that：The stator It is equipped with electronic inductor at the internal chamber wall of part, the electronic inductor is arranged at slow side and with outlet port close to working as piston When the slow side in arm edge is slided at electronic inductor, electronic inductor is triggered and sends piston arm perceptual signal to electronic control module.
7. A kind of 7. one-way rotary piston inertia high efficience motor according to claim 6, it is characterised in that：When automatically controlled mould When block receives piston arm perceptual signal, electronic control module thinks that next interim combustion chamber, automatically controlled mould will be formed at next wave structure Fuel valve and igniter at the next wave structure of block startup is with the igniting operation of the next interim combustion chamber of preparation.
8. A kind of 8. one-way rotary piston inertia high efficience motor according to claim 4, it is characterised in that：The wave The wave crest quantity of shape structure is six.
9. A kind of 9. one-way rotary piston inertia high efficience motor according to claim 1, it is characterised in that：The piston Arm, which is held, to be pushed away the endface at end and is equipped with pot-shaped groove.
10. A kind of 10. one-way rotary piston inertia high efficience motor according to claim 1, it is characterised in that：The ripple The wave crest peak face of shape wave structure is arc line shaped.