CN100356078C - Structure of moving device using electromechanical to control clutch - Google Patents

Abstract

The present invention discloses a motion device structure for electromechanically controlling a clutch, which is applied to the motion device structure in the automatic-manual shifting system for controlling the motion of the clutch. A worm and worm wheel assembly is driven by an electric control motor, a rotating shaft of the worm wheel engages with a driven gear by using a driving gear so as to drive the rotating shaft of the driven gear to rotate, a swing arm with a thrust pin is fixed to one end of the rotating shaft, and a supporting rod which is spaced in a shaft seat is pushed by the rotating swing of the swing arm in a butting mode so as to do a linear reciprocating motion; thereby, the linear motion with a favorable thrust value and favorable motion speed can be obtained by using the rotating motion of the motor through a multi-stage decelerating mechanism and a crank link mechanism of the swing arm so as to control and push the clutch to make the opening and closing motions, so that the present invention is easy in use for matching and designing so as to effectively reduce the cost and obtain the optimum motion characteristic.

Description

Structure of moving device with the electromechanical control clutch

Technical field

The present invention relates to a kind of multistage reducing gear that utilizes, particularly be easy to arrange in pairs or groups with electronically controlled motor, and by the crank-connecting rod machine mechanism, will rotatablely move converts straight line motion completely to, and obtains the structure of moving device with the electromechanical control clutch of preferable thrust magnitude and movement speed.

Background technique

Auto-manual retaining system (Automated Manual Transmission), the meaning is exactly not need the clutch pedal that tramps with one's feet, can allow the driver control the mode of operation of emissions groove with hand again, that is drive the action that clutch is done folding with auto-control mode, its power source useful oil cylinder pressure of controlling automatically action, also useful electric motor action; Move with the conventional motors motor, its actuator mechanism is because of the variation of be not easy to exert oneself specification, movement speed and actuating range, and its electric motor needs special design, can not directly use other microminiature motor (as vehicle window motor, rain brush motor) that is widely used on the vehicle, make cost of production can't effectively reduce always, its actuator mechanism easily produces the component that is lateral to action force again, also causes reducing its working life.

Summary of the invention

Main purpose of the present invention provides a kind of structure of moving device with the electromechanical control clutch, it drives a worm and worm gear group with an electronically controlled motor, mesh a driven gear with driving gear again in the rotating shaft of worm gear, and the rotating shaft that drives driven gear is rotated, this rotating shaft one end sets firmly a swing arm with thrust pin, and with the rotary oscillation of swing arm, push a push rod that is limited in the axle bed and do seesawing of straight line; By this, utilize multistage reducing gear, make electronically controlled motor directly to use to be widely used in other microminiature motor (as vehicle window motor, rain brush motor) on the vehicle, the collocation design that cooperates multi-stage speed-reducing mechanism, can obtain the straight line motion of preferable thrust magnitude and movement speed, and then reach the conversion use that is easy to arrange in pairs or groups effectively to reduce production costs.

Another object of the present invention provides a kind of structure of moving device with the electromechanical control clutch, it drives a worm and worm gear group with an electronically controlled motor, mesh a driven gear with driving gear again in the rotating shaft of worm gear, and the rotating shaft that drives driven gear is rotated, this rotating shaft one end sets firmly a swing arm with thrust pin, and with the rotary oscillation of swing arm, push a push rod that is limited in the axle bed and do seesawing of straight line; By this, utilize the crank-connecting rod machine mechanism of swing arm, can be to ejector rob axis to producing straight-line active force, and can not produce lateral force, will rotatablely move converts straight line motion completely to, and then can effectively promote transmission efficiency, and guarantees working life.

Another purpose of the present invention provides a kind of structure of moving device with the electromechanical control clutch, this thrust pin with swing arm is sheathed in the guide groove of thrust block seat of push rod one end, make when rotary oscillation is made in swing arm, thrust pin can move and push against the push rod moving linearly along guide groove, wherein, this thrust block seat one end can be resisted against the power assistant spring of a rotatable swing, make power assistant spring to push against the thrust block seat by elastic force, and to ejector rob axis to producing component, and push rod is straight more when advancing to stretch out, the component that axially produces component is big more, and then can assist exerting oneself of electronically controlled motor, and making clutch when doing the action that separates, electronically controlled motor need not maintain the state of acrotorque value.

Structure of moving device with the electromechanical control clutch of the present invention comprises:

One electronically controlled motor is the power source of output speed and torsion;

One worm and worm gear group, worm screw is linked to the output shaft of electronically controlled motor, worm gear sets up with rotating shaft, and with the worm meshing transmission;

One main, passive tooth wheels, driving gear is located on the worm wheel shaft, driven gear then is set up in another rotating shaft, and with the driving gear engagement driving; This driven gear is a tooth sector, and the rotating shaft one end free end of this driven gear is provided with connecting head, in order to corresponding one group of position transducer, with the rotation angle of perception rotating shaft;

One crank-connecting rod group is fixedly arranged on the rotating shaft the other end output terminal of driven gear with a swing arm, and the end in addition of swing arm is provided with thrust pin, one by bearing bracket stand limit the position push rod, the one end is provided with the thrust block seat of tool guide groove, and thrust pin is sheathed in this guide groove, does seesawing of straight line with the pushing and pressing push rod.

The present invention is described in detail below in conjunction with accompanying drawing.

Description of drawings

Fig. 1 is a configuration diagram of the present invention;

Fig. 2 is a generalized section of the present invention;

Fig. 3 is the A-A sectional drawing of Fig. 2;

Fig. 4 is the B-B sectional drawing of Fig. 2;

Fig. 5 is the C-C sectional drawing of Fig. 2;

Fig. 6 is an action schematic representation of the present invention;

Fig. 7 is that the present invention moves the enforcement illustration that makes clutch separation;

Fig. 8 be the present invention move make clutch separation another implement illustration.

Description of reference numerals: 10 actuator; 11 casings; 12 electronically controlled motors; 13 worm screws; 14 worm gears; 15 driving gears; 16 driven gears; 17 rotating shafts; 18 connecting heads; 19 position transducers; 20 swing arms; 21 thrust pins; 22 push rods; 23 thrust block seats; 24 guide grooves; 25 stoppers; 26 power assistant spring; 27 adjustable terminations; 30 clutches; 31 force arms; 32 fulcrums; 33 rocking arms; 34 Thrust rings; 35 leaf springs; 40 clutches; 41 lever fulcrums; 42 support piece; 43 Thrust rings; 44 leaf springs.

Embodiment

See also Fig. 1, Fig. 2, Fig. 3, actuator 10 structures of the present invention are to set firmly an electronically controlled motor 12 in casing 11 outsides, the rotating shaft of this electronically controlled motor 12 is stretched into and is linked a worm screw 13 in the casing 11, and with a worm gear 14 engagement driving, and utilize the transmission of worm and worm gear group, the outputting torsion that can obtain very big reduction speed ratio and amplify electronically controlled motor 12; See also Fig. 1, Fig. 2, Fig. 3, Fig. 4, side in worm gear 14 rotating shafts is provided with a driving gear 15, it utilizes the rotation of worm gear 14 can drive driven gear 16 with its engagement, driven gear 16 is under the stroke that does not influence rotation, occupy the too much space of casing 11 in order to reduce, and be made into fan-shapedly, and this is main, the passive tooth wheels can carry out partial retarded motion; See also Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, driven gear 16 is fixedly arranged in the rotating shaft 17, therefore driven gear 16 can drive rotating shaft 17 and rotate synchronously, rotating shaft 17 1 end free ends are provided with connecting head 18, in order to corresponding one group of position transducer 19, rotation angle with perception rotating shaft 17, also get final product the actual angle position of perception driven gear 16, the affixed swing arm 20 of the other end output terminal of rotating shaft 17, make rotary oscillation and can drive swing arm 20 by rotating shaft 17, and the rotary oscillation of this swing arm 20 can carry out the retarded motion of the third level; The end in addition of swing arm 20 is provided with the thrust pin 21 of tool roller, one by bearing bracket stand limit the position push rod 22, the one end is provided with thrust block seat 23, be provided with a guide groove 24 in the thrust block seat 23, thrust pin 21 is sheathed in this guide groove 24, and when thrust pin 21 was made rotary oscillation, it can be swung slippage and push against push rod 22 in guide groove 24, push rod 22 only can be done seesawing of straight line because of being subjected to the spacing of bearing when therefore the quilt pushing and pressing are mobile; Thrust pin 21 is owing to have roller, so it can reduce the frictional force when moving when swing slippage guide groove 24 in, and coating lubricant grease also or in guide groove 24 also can be with low-frictional force; In addition on casing 11 positions of relative force bearing seat 23, be provided with an adjustable stopper 25 of making by bolt, with when push rod 22 retreats, the range that auxiliary limit thrust bearing seat 23 retreats; Thrust block seat 23 1 sides also can be established a power assistant spring 26 that can pivot and swing, it keeps pushing thrust block seat 23 with spring, the strength that pushes of power assistant spring 26 just can be to the axial component of push rod 22 generations, and push rod 22 is straight more when advancing to stretch out, axially the component that produces is big more, and then can assist exerting oneself of electronically controlled motor 12, and make clutch when doing the action that separates, electronically controlled motor 12 need not maintain the state of acrotorque value; When yet if the reduction speed ratio of worm and worm gear group is very big, this actuating mechanism will produce self-locking action, reaction force by the clutch passback can't promote the counter-rotating of worm and worm gear group, and electronically controlled motor 12 promptly need not be kept action torsion, and then power assistant spring 26 can not need be provided with.In addition, the adjustable terminations 27 of a bolt type also can be established in the end of push rod 22, to finely tune the contact position of itself and clutch, makes actuator promote clutch with best initial position.

See also Fig. 6, actuator of the present invention is owing to there are three grades of reducing gears such as worm and worm gear group, master, passive tooth wheels and swing arm, therefore can be easy to and the electronically controlled motor collocation design, make when push rod 22 stretches out motion as straight line, can obtain best thrust magnitude and movement speed; And utilize the crank-connecting rod machine mechanism of swing arm 20, can axially produce straight-line active force to push rod 22, and can not produce lateral force, will rotatablely move converts straight line motion completely to, and then can effectively promote transmission efficiency, and guarantees working life.

See also Fig. 7, the push rod 22 of actuator 10 of the present invention stretches out as straight line, return motion, therefore with rotary when moving in plate clutch 30, push rod 22 can push a force arm 31 earlier, to drive force arm fulcrum 32 rotation synchronously, another is fixedly arranged on the rocking arm 33 on the fulcrum 32, it also can be along with fulcrum 32 rotates synchronously, and with the Thrust ring 34 of rocking arm 33 pushing clutches 30, and then with the leaf spring 35 of Thrust ring 34 pushing clutches 30, and the lining of clutch 30 and the flywheel of drl engine bent axle are disengaged, promptly make engine power suspend and drive to transmission shaft, to carry out hand shift; After finishing gear shift, electronically controlled motor 12 counter-rotatings make push rod 22 retreat, then leaf spring 35 resiliences of clutch 30, and the lining of clutch 30 is contacted with the flywheel recovery pressing of drl engine bent axle, make that promptly engine power recovers to drive to transmission shaft, with the power that provides vehicle to advance.

See also Fig. 8, actuator 10 of the present invention is when moving in plate clutch 40 with direct press type, its push rod 22 can push a lever fulcrum 41 earlier, and with the Thrust ring 43 that supports piece 42 pushing clutches 40 on the lever fulcrum 41, and then with the leaf spring 44 of Thrust ring 43 pushing clutches 40, and the lining of clutch 40 and the flywheel of drl engine bent axle are disengaged, promptly make engine power suspend and drive to transmission shaft, to carry out hand shift; After finishing gear shift, electronically controlled motor 12 counter-rotatings make push rod 22 retreat, then leaf spring 44 resiliences of clutch 40, and the lining of clutch 40 is contacted with the flywheel recovery pressing of drl engine bent axle, make that promptly engine power recovers to drive to transmission shaft, with the power that provides vehicle to advance.

Claims (6)

1, a kind of structure of moving device with the electromechanical control clutch comprises:

One electronically controlled motor is the power source of output speed and torsion;

One worm and worm gear group, worm screw is linked to the output shaft of electronically controlled motor, worm gear sets up with rotating shaft, and with the worm meshing transmission;

One main, passive tooth wheels, driving gear is located on the worm wheel shaft, driven gear then is set up in another rotating shaft, and with the driving gear engagement driving; This driven gear is a tooth sector, and the rotating shaft one end free end of this driven gear is provided with connecting head, in order to corresponding one group of position transducer, with the rotation angle of perception rotating shaft;

One crank-connecting rod group is fixedly arranged on the rotating shaft the other end output terminal of driven gear with a swing arm, and the end in addition of swing arm is provided with thrust pin, one by bearing bracket stand limit the position push rod, the one end is provided with the thrust block seat of tool guide groove, and thrust pin is sheathed in this guide groove, does seesawing of straight line with the pushing and pressing push rod.

2, according to the described structure of moving device with the electromechanical control clutch of claim 1, wherein, this crank-connecting rod group swing arm thrust pin of end in addition has a roller.

3,, wherein, apply lubricant grease in the guide groove of this crank-connecting rod group thrust block seat according to the described structure of moving device of claim 1 with the electromechanical control clutch.

4, according to the described structure of moving device of claim 1 with the electromechanical control clutch, wherein, on the relative casing position of crank-connecting rod group thrust block seat, be provided with an adjustable stopper of making by bolt, with when push rod retreats, the range that auxiliary limit thrust bearing seat retreats.

5, according to the described structure of moving device with the electromechanical control clutch of claim 1, wherein, a side of this crank-connecting rod group thrust block seat is provided with the power assistant spring of the swing that pivots, and pushes the thrust block seat with axial component, the output of auxiliary electronically controlled motor.

6, according to the described structure of moving device with the electromechanical control clutch of claim 1, wherein, the adjustable terminations of a bolt type is established in the push rod end of this crank-connecting rod group, to finely tune the contact position of itself and clutch.

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