CN204371985U - Screw spring engaging and disengaging gear - Google Patents

Abstract

Screw spring engaging and disengaging gear, the passive arbor wheel comprising an externally threaded driven axle of band and be screwed on driven axle, passive arbor wheel is built with multiple little magnetic patch of being replied location by little spring tractive, passive arbor wheel overcoat has a passive free wheel, there are left accessory whorl, left buffering wheel, left gear wheel and left spring on the left of passive arbor wheel, on the right side of passive arbor wheel, have right accessory whorl, right buffering wheel, right gear wheel and right spring; It is characterized in that: the annular region near passive arbor wheel excircle in passive arbor wheel is provided with multiple little magnetic patch symmetrically, the end face of the little magnetic patch of every block near driven axle wheel axle center is provided with a little spring, and the little magnetic patch of every block is provided with a trundle away from an end face in driven axle wheel axle center; Passive free wheel is arranged on the excircle of passive arbor wheel, passive free wheel inner ring is provided with two groups of bearings and is connected with passive arbor wheel, middle circle inner cylinder region inside passive free wheel is distributed with multiple passive free wheel inner cylinder groove symmetrically, and the passive size of free wheel inner cylinder groove and the external diameter size of trundle match.

Description

Screw spring engaging and disengaging gear

Technical field

The present invention relates to screw spring engaging and disengaging gear, be applicable to the clutch speed changer of all automobiles, belong to automotive transmission technical field.

Background technique

Since automobile is born, the paces of the clutch of human research's automobile were never interrupted, people develop many moneys automobile clutch miscellaneous, modern conventional clutch mainly contains friction clutch, fluid coupling clutch, magnetic clutch etc., but these clutches all cannot accomplish gear-driven efficient driving efficiency; The present invention be the patent of invention " 201510000063.1 screw spring synchronizer " according to Wei Baiqing utilize screw rod and spring to combine dexterously and utilize magnetic principle formed contactless, utilize spring buffer, without obvious pause and transition in rhythm or melody sense, as the gear-driven efficiency the clutch of efficient driving power.

Summary of the invention

The object of this invention is to provide a kind of utilize screw rod and spring to combine dexterously and utilize magnetic principle formed contactless, utilize spring buffer, without obvious pause and transition in rhythm or melody sense, as the gear-driven efficiency the screw spring engaging and disengaging gear of efficient driving power.

Screw spring engaging and disengaging gear, the passive arbor wheel comprising an externally threaded driven axle of band and be screwed on driven axle, passive arbor wheel is built with multiple little magnetic patch of being replied location by little spring tractive, passive arbor wheel overcoat has a passive free wheel, there are left accessory whorl, left buffering wheel, left gear wheel and left spring on the left of passive arbor wheel, on the right side of passive arbor wheel, have right accessory whorl, right buffering wheel, right gear wheel and right spring; It is characterized in that:

1, internal thread is had in passive arbor wheel center hole, outside thread on the internal thread of passive arbor wheel and driven axle matches, namely passive arbor wheel can overlap to be screwed on driven axle and can to rotate forward like a cork to be moved to the left on driven axle and move right with counterrotating, left accessory whorl is had on the left of passive arbor wheel, left buffering wheel, left gear wheel and left spring, right accessory whorl is had on the right side of passive arbor wheel, right buffering wheel, right gear wheel and right spring, when passive arbor wheel rotates forward and is moved to the left, the force action and rotating being subject to the acting force of the spring of the right spring on left spring on the left of passive arbor wheel and right side is slowed down, when passive arbor wheel rotate forward be moved to the left to left buffering wheel time, the left surface of the left accessory whorl on the left of passive arbor wheel abuts in the right flank of the left buffering wheel on the left of passive arbor wheel and stops being moved to the left, now passive arbor wheel and driven axle synchronous rotary, when passive arbor wheel counterrotating moves right, the force action and rotating being subject to the acting force of the spring of the right spring on left spring on the left of passive arbor wheel and right side is slowed down, when passive arbor wheel counterrotating moves right to right buffering wheel, the right flank of the right accessory whorl on the right side of passive arbor wheel abuts in the left surface of the right buffering wheel on the right side of passive arbor wheel and stops moving right, now passive arbor wheel and driven axle synchronous rotary, annular region near passive arbor wheel excircle in passive arbor wheel is provided with multiple little magnetic patch symmetrically, the N pole of the little magnetic patch of every block is consistent with driven axle wheel radial axial direction with the line of S pole, namely little magnetic patch internal magnetic field lines is consistent with driven axle wheel radial axial direction, and the N pole of all little magnetic patch is all towards the direction away from driven axle wheel axle center, the end face of the little magnetic patch of every block near driven axle wheel axle center is provided with a little spring, the effect of little spring is subject to the outer magnetic force of driven axle wheel radial to when doing moving radially of passive arbor wheel away from driven axle wheel axis direction at little magnetic patch, the position before the outer magnetic force being subject to driven axle wheel radial can be returned to by tractive immediately after the outer magnetic force of driven axle wheel radial disappears, the elastic force of little spring is greater than the centrifugal force of passive arbor wheel when the highest design rotational speed, the little magnetic patch of every block is provided with a trundle away from an end face in driven axle wheel axle center, trundle is cylindrical, a trundle rotating shaft is had in the middle of trundle, the central axis of trundle spindle central axis and trundle is overlapping, and with the centerline axis parallel of passive arbor wheel, trundle can freely rotate around trundle rotating shaft, trundle is connected with little magnetic patch by a trundle supporting rod, trundle supporting rod is connected by a trundle rotating shaft with trundle, little spring central axis, the central point of little magnetic patch, the central axis of trundle supporting rod and the central point of trundle are all in same longitudinal axis of passive arbor wheel, passive arbor wheel appearance circle layer and trundle corresponding position have a trundle spacing hole, when little magnetic patch is subject to the outer magnetic force stretching little spring of driven axle wheel radial, trundle can be pulled out trundle spacing hole, namely the outer magnetic force stretching little spring being subject to driven axle wheel radial at little magnetic patch makes trundle part stretch out passive arbor wheel appearance circle layer, trundle is located by the little magnetic patch that the distance and position of the outer magnetic force pull-out trundle spacing hole of driven axle wheel radial takes turns axis direction by trundle spacing hole near driven axle, because little magnetic patch is greater than the aperture of trundle spacing hole in passive arbor wheel appearance circle tangent direction at the width of passive arbor wheel appearance circle tangent direction.

2, passive free wheel is arranged on the excircle of passive arbor wheel, passive free wheel inner ring is provided with two groups of bearings and is connected with passive arbor wheel, two groups of bearing bracket stands of passive free wheel are fixedly mounted on both sides inside passive free wheel respectively near position, passive free wheel bi-side, middle circle inner cylinder region inside passive free wheel is distributed with multiple passive free wheel inner cylinder groove symmetrically, the passive size of free wheel inner cylinder groove and the external diameter size of trundle match, and namely the size of passive free wheel inner cylinder groove just holds half trundle, because the outer gear teeth meshing of the driving wheel on the outer gear teeth of passive free wheel and driving shaft makes passive free wheel and driving wheel rotate with linear velocity, passive arbor wheel is then rotated with angular velocity with the spring force drive of right spring by left spring together with driven axle, the rotation of passive arbor wheel has certain non-rigid feature, so, after trundle pulls out trundle spacing hole by the outer magnetic force of driven axle wheel radial, the rotational speed of passive free wheel and the rotational speed of passive arbor wheel different, but difference is not under king-sized condition, trundle can be easily, snap in passive free wheel inner cylinder groove rapidly, thus make the rotational speed of passive free wheel reach the same with the rotational speed of passive arbor wheel, realize the closure function in clutch, in passive arbor wheel and passive free wheel closing course, namely move closer in the rotational speed process of passive free wheel in the rotational speed of passive arbor wheel, passive arbor wheel changes with driven axle rotational speed different and by the left spring on the left of force transmission to passive arbor wheel and the right spring on the right side of passive arbor wheel because of speed, the rotational speed of passive arbor wheel is made to move closer to the rotational speed of driven axle, rotational speed and the rotational speed of passive arbor wheel of passive free wheel reach the same after, passive arbor wheel overcomes making a concerted effort of the active force of the right spring on the right side of the active force of the left spring on the left of passive arbor wheel and passive arbor wheel, on the left buffering wheel right flank that left accessory whorl left surface on the left of passive arbor wheel is abutted on the left of passive arbor wheel, thus make passive arbor wheel relative with driven axle position fixing, and then realize passive arbor wheel and driven axle rotates with angular velocity, or on the right buffering wheel left surface that the right accessory whorl right flank on the right side of passive arbor wheel is abutted on the right side of passive arbor wheel, thus make passive arbor wheel relative with driven axle position fixing, and then realize passive arbor wheel and driven axle rotates with angular velocity, complete the closed synchronous overall process in clutch process thus, because passive arbor wheel fast rotational, so when also do not disappeared completely by the magnetic field of the outer magneto motive little magnetic patch of driven axle wheel radial, but also accept the outer magnetic force of the driven axle wheel radial brought because of fast rotational not only, therefore, little magnetic patch is in the outer magnetic force of driven axle wheel radial all the time, namely trundle is stuck in all the time in passive free wheel inner cylinder groove and passive free wheel and passive arbor wheel is rotated with angular velocity, after the outer magnetic force removing driven axle wheel radial, little magnetic patch is by the active force of little spring, the state making little magnetic patch be returned to original little spring not to be stretched, thus make trundle leave passive free wheel inner cylinder groove and within retracting to the outer round surface of passive arbor wheel, and then passive free wheel is only connected and each spinning by two groups of bearings with passive arbor wheel, complete the separation process in clutch process.

3, screw spring synchronizer: passive arbor wheel left surface is installed with left accessory whorl, the diameter of left accessory whorl is less than the diameter of passive arbor wheel, the center-hole diameter of left accessory whorl is larger than the externally threaded external diameter of driven axle, there is left buffering wheel in the left side of left accessory whorl, the left surface of left buffering wheel is installed with left gear wheel, the diameter of left buffering wheel is less than the diameter of left gear wheel, the center-hole diameter of left buffering wheel is larger than the externally threaded external diameter of driven axle, a left spring is had between left accessory whorl and left buffering wheel, the spring ring internal diameter of left spring is larger than the external diameter of left accessory whorl, the spring ring internal diameter of left spring is larger than the external diameter of left buffering wheel, the left end of left spring is fixedly mounted on the right flank of left gear wheel, the right-hand member of left spring is fixedly mounted on the left surface of passive arbor wheel, left buffering wheel and left accessory whorl standoff distance are that L is left, left gear wheel is fixedly mounted on driven axle, passive arbor wheel right flank is installed with right accessory whorl, the diameter of right accessory whorl is less than the diameter of passive arbor wheel, the center-hole diameter of right accessory whorl is larger than the externally threaded external diameter of driven axle, there is right buffering wheel on the right side of right accessory whorl, the right flank of right buffering wheel is installed with right gear wheel, the diameter of right buffering wheel is less than the diameter of right gear wheel, the center-hole diameter of right buffering wheel is larger than the externally threaded external diameter of driven axle, a right spring is had between right accessory whorl and right buffering wheel, the spring ring internal diameter of right spring is larger than the external diameter of right accessory whorl, the spring ring internal diameter of right spring is larger than the external diameter of right buffering wheel, the right-hand member of right spring is fixedly mounted on the left surface of right gear wheel, the left end of right spring is fixedly mounted on the right flank of passive arbor wheel, right buffering wheel and right accessory whorl standoff distance are that L is right, right gear wheel is fixedly mounted on driven axle.

4, left spring is consistent with the spring steel bar Hand of spiral of right spring, when passive arbor wheel produces and rotates, can rotate forward on the screw thread of driven axle and to be moved to the left or counterrotating moves right, because the left spring left end on the left of passive arbor wheel is fixedly mounted on the right flank of left gear wheel, left spring right-hand member on the left of passive arbor wheel is fixedly mounted on the left surface of passive arbor wheel, left gear wheel is fixedly mounted on driven axle, relative driven axle is static non rotating, because the right spring right-hand member on the right side of passive arbor wheel is fixedly mounted on the left surface of right gear wheel, right spring left end on the right side of passive arbor wheel is fixedly mounted on the right flank of passive arbor wheel, right gear wheel is fixedly mounted on driven axle, relative driven axle is static non rotating, and passive arbor wheel can rotate on the screw thread of driven axle, so, the right-hand member that passive arbor wheel rotarily drives left spring on the screw thread of driven axle screws direction around driven axle to left spring and rotates, and produce the acting force of the spring that driven axle rotation is curled up in spring resistance, passive arbor wheel rotate on the screw thread of driven axle also drive the left end of right spring on the right side of passive arbor wheel around driven axle to the right spring unscrew direction and rotate, and produce spring resistance and curl up the acting force of the spring that driven axle unscrews, passive arbor wheel rotate forward on the screw thread of driven axle be moved to the left or counterrotating move right the right spring needing the acting force of the spring of the left spring simultaneously overcome on the left of passive arbor wheel and right side acting force of the spring make a concerted effort, when passive arbor wheel rotate forward be moved to the left time, passive arbor wheel rotates to the left buffering wheel the closer to left side, passive arbor wheel is subject to the larger with joint efforts of the acting force of the spring of the acting force of the spring of the left spring on the left of passive arbor wheel and the right spring on right side, when passive arbor wheel by External Force Acting rotate forward the left surface being moved to the left to left accessory whorl abut in the right flank of left buffering wheel time, passive arbor wheel is subject to the maximum with joint efforts of the acting force of the spring of the acting force of the spring of the left spring on the left of passive arbor wheel and the right spring on right side, now, passive arbor wheel makes passive arbor wheel and driven axle with the equidirectional rotation of speed because being subject to the stop of left gear wheel, namely the External Force Acting totally tansitive that now passive arbor wheel is subject to gives driven axle, the now rotation of driving wheel realizes synchronous with the rotation of driven axle, and the not consumed energy of having made a concerted effort into internal force of the acting force of the spring of the acting force of the spring of left spring on the left of passive arbor wheel and the right spring on right side, when passive arbor wheel counterrotating moves right, passive arbor wheel rotates to the right buffering wheel the closer to right side, passive arbor wheel be subject to the acting force of the spring of the acting force of the spring of right spring on the right side of passive arbor wheel and the left spring in left side make a concerted effort larger, when passive arbor wheel abuts in the left surface of right buffering wheel by the right flank that External Force Acting counterrotating moves right to right accessory whorl, passive arbor wheel is subject to the maximum with joint efforts of the acting force of the spring of the acting force of the spring of right spring on the right side of passive arbor wheel and the left spring in left side, now, passive arbor wheel makes passive arbor wheel and driven axle with the equidirectional rotation of speed because being subject to the stop of right gear wheel, namely the External Force Acting totally tansitive that now passive arbor wheel is subject to gives driven axle, the now rotation of driving wheel realizes synchronous with the rotation of driven axle, and the not consumed energy of having made a concerted effort into internal force of the acting force of the spring of the acting force of the spring of right spring on the right side of passive arbor wheel and the left spring in left side.

The present invention compared with prior art has the following advantages:

1. clutch process of the present invention is the contactless control of magnetic drives, and in passive arbor wheel and passive free wheel engagement process, because passive arbor wheel is mainly subject to the active force of left spring and right spring two springs, the effect of spring be have larger flexible, so passive arbor wheel can be more steady with passive free wheel engagement process.

2. the transmission after the present invention is synchronously direct-drive, and can not produce the reduction of any transmission efficiency.

Accompanying drawing explanation

Fig. 1 is the axial section structural representation of the embodiment of the present invention;

Fig. 2 is AA generalized section embodiment illustrated in fig. 1;

Fig. 3 is P schematic diagram embodiment illustrated in fig. 2;

Fig. 4 is Q schematic diagram embodiment illustrated in fig. 1.

In Fig. 1-4: 1, driven axle 2, driving shaft 3, left gear wheel 4, left buffering wheel 5, left spring 6, left accessory whorl 7, driving wheel 8, passive arbor wheel 9, right accessory whorl 10, little magnetic patch 11, passive free wheel 12, right spring 13, right buffering wheel 14, right gear wheel 15, trundle 16, little spring 17, trundle limited ring 18, trundle supporting rod 19, trundle rotating shaft 20, trundle spacing hole 21, passive free wheel inner cylinder groove 22, the outer gear teeth of passive free wheel.

Embodiment

In the embodiment shown in Fig. 1-4: screw spring engaging and disengaging gear, the passive arbor wheel 8 comprising an externally threaded driven axle 1 of band and be screwed on driven axle 1, passive arbor wheel 8 is built with multiple little magnetic patch 10 of being replied location by little spring 16 tractive, passive arbor wheel 8 overcoat has a passive free wheel 11, there are left accessory whorl 6, left buffering wheel 4, left gear wheel 3 and left spring 5 on the left of passive arbor wheel 8, on the right side of passive arbor wheel 8, have right accessory whorl 9, right buffering wheel 13, right gear wheel 14 and right spring 12, it is characterized in that: in passive arbor wheel 8 center hole, have internal thread, outside thread on the internal thread of passive arbor wheel 8 and driven axle 1 matches, namely passive arbor wheel 8 can overlap to be screwed on driven axle 1 and can to rotate forward to be moved to the left on driven axle 1 like a cork and move right with counterrotating, left accessory whorl 6 is had on the left of passive arbor wheel 8, left buffering wheel 4, left gear wheel 3 and left spring 5, right accessory whorl 9 is had on the right side of passive arbor wheel 8, right buffering wheel 13, right gear wheel 14 and right spring 12, when passive arbor wheel 8 rotates forward and is moved to the left, the force action and rotating being subject to the acting force of the spring of the right spring 12 on left spring 5 on the left of passive arbor wheel 8 and right side is slowed down, when passive arbor wheel 8 rotate forward be moved to the left to left buffering wheel 4 time, the left surface of the left accessory whorl 6 on the left of passive arbor wheel 8 abuts in the right flank of the left buffering wheel 4 on the left of passive arbor wheel 8 and stops being moved to the left, now passive arbor wheel 8 and driven axle 1 synchronous rotary, when the counterrotating of passive arbor wheel 8 moves right, the force action and rotating being subject to the acting force of the spring of the right spring 12 on left spring 5 on the left of passive arbor wheel 8 and right side is slowed down, when the counterrotating of passive arbor wheel 8 moves right to right buffering wheel 13, the right flank of the right accessory whorl 9 on the right side of passive arbor wheel 8 abuts in the left surface of the right buffering wheel 13 on the right side of passive arbor wheel 8 and stops moving right, now passive arbor wheel 8 and driven axle 1 synchronous rotary, annular region near passive arbor wheel 8 excircle in passive arbor wheel 8 is provided with multiple little magnetic patch 10 symmetrically, the N pole of the little magnetic patch of every block 10 is consistent with passive arbor wheel 8 longitudinal axis direction with the line of S pole, namely little magnetic patch 10 internal magnetic field lines is consistent with passive arbor wheel 8 longitudinal axis direction, and the N pole of all little magnetic patch 10 is all towards the direction away from passive arbor wheel 8 axle center, the end face of the little magnetic patch of every block 10 near passive arbor wheel 8 axle center is provided with a little spring 16, the effect of little spring 16 is subject to the outer magnetic force of passive arbor wheel 8 radial direction to when doing moving radially of passive arbor wheel 8 away from passive arbor wheel 8 axis direction at little magnetic patch 10, the position before the outer magnetic force being subject to passive arbor wheel 8 radial direction can be returned to by tractive immediately after the outer magnetic force of passive arbor wheel 8 radial direction disappears, the elastic force of little spring 16 is greater than the centrifugal force of passive arbor wheel 8 when the highest design rotational speed, the little magnetic patch of every block 10 is provided with a trundle 15 away from an end face in passive arbor wheel 8 axle center, trundle 15 is cylindrical, a trundle rotating shaft 19 is had in the middle of trundle 15, the central axis of trundle rotating shaft 19 central axis and trundle 15 is overlapping, and with the centerline axis parallel of passive arbor wheel 8, trundle 15 can freely rotate around trundle rotating shaft 19, trundle 15 is connected with little magnetic patch 10 by a trundle supporting rod 18, trundle supporting rod 18 is connected by a trundle rotating shaft 19 with trundle 15, little spring 16 central axis, the central point of little magnetic patch 10, the central axis of trundle supporting rod 18 and the central point of trundle 15 are all in same longitudinal axis of passive arbor wheel 8, passive arbor wheel 8 appearance circle layer and trundle 15 corresponding position have a trundle spacing hole 20, when little magnetic patch 10 is subject to the outer magnetic force stretching little spring 16 of passive arbor wheel 8 radial direction, trundle 15 can be pulled out trundle spacing hole 20, namely the outer magnetic force stretching little spring 16 being subject to passive arbor wheel 8 radial direction at little magnetic patch 10 makes trundle 15 part stretch out passive arbor wheel 8 appearance circle layer, trundle 15 is located by the little magnetic patch 10 of trundle spacing hole 20 near passive arbor wheel 8 axis direction by the distance and position of the outer magnetic force pull-out trundle spacing hole 20 of passive arbor wheel 8 radial direction, because little magnetic patch 10 is greater than the aperture of trundle spacing hole 20 in passive arbor wheel 8 appearance circle tangent direction at the width of passive arbor wheel 8 appearance circle tangent direction.

2, passive free wheel 11 is arranged on the excircle of passive arbor wheel 8, passive free wheel 11 inner ring is provided with two groups of bearings and is connected with passive arbor wheel 8, two groups of bearing bracket stands of passive free wheel 11 are fixedly mounted on both sides inside passive free wheel 11 respectively near position, passive free wheel 11 bi-side, middle circle inner cylinder region inside passive free wheel 11 is distributed with multiple passive free wheel inner cylinder groove 21 symmetrically, the passive size of free wheel inner cylinder groove 21 and the external diameter size of trundle 15 match, and namely the size of passive free wheel inner cylinder groove 21 just holds half trundle 15, because the outer gear teeth meshing of the driving wheel 7 on the outer gear teeth of passive free wheel 11 and driving shaft 2 makes passive free wheel 11 rotate with linear velocity with driving wheel 7, passive arbor wheel 8 is then rotated with angular velocity with the spring force drive of right spring 12 by left spring 5 together with driven axle 1, the rotation of passive arbor wheel 8 has certain non-rigid feature, so, after trundle 15 pulls out trundle spacing hole 20 by the outer magnetic force of passive arbor wheel 8 radial direction, the rotational speed of passive free wheel 11 and the rotational speed of passive arbor wheel 8 different, but difference is not under king-sized condition, trundle 15 can be easily, snap in passive free wheel inner cylinder groove 21 rapidly, thus make the rotational speed of passive free wheel 11 reach the same with the rotational speed of passive arbor wheel 8, realize the closure function in clutch, at passive arbor wheel 8 with passive free wheel 11 closing course, namely move closer in the rotational speed of passive arbor wheel 8 in the rotational speed process of passive free wheel 11, passive arbor wheel 8 changes with driven axle 1 rotational speed different and by the left spring 5 on the left of force transmission to passive arbor wheel 8 and the right spring 12 on the right side of passive arbor wheel 8 because of speed, the rotational speed of passive arbor wheel 8 is made to move closer to the rotational speed of driven axle 1, rotational speed and the rotational speed of passive arbor wheel 8 of passive free wheel 11 reach the same after, passive arbor wheel 8 overcomes making a concerted effort of the active force of the right spring 12 on the right side of the active force of the left spring 5 on the left of passive arbor wheel 8 and passive arbor wheel 8, on left buffering wheel 4 right flank that left accessory whorl 6 left surface on the left of passive arbor wheel 8 is abutted on the left of passive arbor wheel 8, thus make passive arbor wheel 8 relative fixing with driven axle 1 position, and then realize passive arbor wheel 8 and rotate with angular velocity with driven axle 1, or on right buffering wheel 13 left surface that right accessory whorl 9 right flank on the right side of passive arbor wheel 8 is abutted on the right side of passive arbor wheel 8, thus make passive arbor wheel 8 relative fixing with driven axle 1 position, and then realize passive arbor wheel 8 and rotate with angular velocity with driven axle 1, complete the closed synchronous overall process in clutch process thus, because passive arbor wheel 8 fast rotational, so when also do not disappeared completely by the magnetic field of the outer magneto motive little magnetic patch 10 of passive arbor wheel 8 radial direction, but also accept the outer magnetic force of passive arbor wheel 8 radial direction brought because of fast rotational not only, therefore, little magnetic patch 10 is in the outer magnetic force of passive arbor wheel 8 radial direction all the time, namely trundle 15 is stuck in all the time in passive free wheel inner cylinder groove 21 and passive free wheel 11 is rotated with angular velocity with passive arbor wheel 8, after the outer magnetic force removing passive arbor wheel 8 radial direction, little magnetic patch 10 is by the active force of little spring 16, the state making little magnetic patch 10 be returned to original little spring 16 not to be stretched, thus make trundle 15 leave passive free wheel inner cylinder groove 21 and within retracting to the outer round surface of passive arbor wheel 8, and then passive free wheel 11 is only connected and each spinning by two groups of bearings with passive arbor wheel 8, complete the separation process in clutch process.

Screw spring synchronizer, the passive arbor wheel 8 comprising a threaded driven axle 1 and be screwed on driven axle 1, there are left accessory whorl 6, left buffering wheel 4, left gear wheel 3 and left spring 5 on the left of passive arbor wheel 8, on the right side of passive arbor wheel 8, have right accessory whorl 9, right buffering wheel 13, right gear wheel 14 and right spring 12, it is characterized in that: in passive arbor wheel 8 center hole, have internal thread, outside thread on the internal thread of passive arbor wheel 8 and driven axle 1 matches, namely passive arbor wheel 8 can overlap to be screwed on driven axle 1 and can to rotate forward to be moved to the left on driven axle 1 like a cork and move right with counterrotating, passive arbor wheel 8 left surface is installed with left accessory whorl 6, the diameter of left accessory whorl 6 is less than the diameter of passive arbor wheel 8, the center-hole diameter of left accessory whorl 6 is larger than the externally threaded external diameter of driven axle 1, there is left buffering wheel 4 in the left side of left accessory whorl 6, the left surface of left buffering wheel 4 is installed with left gear wheel 3, the diameter of left buffering wheel 4 is less than the diameter of left gear wheel 3, the center-hole diameter of left buffering wheel 4 is larger than the externally threaded external diameter of driven axle 1, a left spring 5 is had between left accessory whorl 6 and left buffering wheel 4, the spring ring internal diameter of left spring 5 is larger than the external diameter of left accessory whorl 6, the spring ring internal diameter of left spring 5 is larger than the external diameter of left buffering wheel 4, the left end of left spring 5 is fixedly mounted on the right flank of left gear wheel 3, the right-hand member of left spring 5 is fixedly mounted on the left surface of passive arbor wheel 8, left buffering wheel 4 and left accessory whorl 6 standoff distance are that L is left, left gear wheel 3 is fixedly mounted on driven axle 1, passive arbor wheel 8 right flank is installed with right accessory whorl 9, the diameter of right accessory whorl 9 is less than the diameter of passive arbor wheel 8, the center-hole diameter of right accessory whorl 9 is larger than the externally threaded external diameter of driven axle 1, there is right buffering wheel 13 on the right side of right accessory whorl 9, the right flank of right buffering wheel 13 is installed with right gear wheel 14, the diameter of right buffering wheel 13 is less than the diameter of right gear wheel 14, the center-hole diameter of right buffering wheel 13 is larger than the externally threaded external diameter of driven axle 1, a right spring 12 is had between right accessory whorl 9 and right buffering wheel 13, the spring ring internal diameter of right spring 12 is larger than the external diameter of right accessory whorl 9, the spring ring internal diameter of right spring 12 is larger than the external diameter of right buffering wheel 13, the right-hand member of right spring 12 is fixedly mounted on the left surface of right gear wheel 14, the left end of right spring 12 is fixedly mounted on the right flank of passive arbor wheel 8, right buffering wheel 13 and right accessory whorl 9 standoff distance are that L is right, right gear wheel 14 is fixedly mounted on driven axle 1.

Left spring 5 is consistent with the spring steel bar Hand of spiral of right spring 12, when passive arbor wheel 8 produces and rotates, can rotate forward on the screw thread of driven axle 1 and to be moved to the left or counterrotating moves right, because left spring 5 left end on the left of passive arbor wheel 8 is fixedly mounted on the right flank of left gear wheel 3, left spring 5 right-hand member on the left of passive arbor wheel 8 is fixedly mounted on the left surface of passive arbor wheel 8, left gear wheel 3 is fixedly mounted on driven axle 1, relative driven axle 1 is static non rotating, because right spring 12 right-hand member on the right side of passive arbor wheel 8 is fixedly mounted on the left surface of right gear wheel 14, right spring 12 left end on the right side of passive arbor wheel 8 is fixedly mounted on the right flank of passive arbor wheel 8, right gear wheel 14 is fixedly mounted on driven axle 1, relative driven axle 1 is static non rotating, and passive arbor wheel 8 can rotate on the screw thread of driven axle 1, so, the right-hand member that passive arbor wheel 8 rotarily drives left spring 5 on the screw thread of driven axle 1 screws direction around driven axle 1 to left spring 5 and rotates, and produce the acting force of the spring that driven axle 1 rotation is curled up in spring resistance, passive arbor wheel 8 rotate on the screw thread of driven axle 1 also drive the left end of right spring 12 on the right side of passive arbor wheel 8 around driven axle 1 to the right spring 12 unscrew direction and rotate, and produce spring resistance and curl up the acting force of the spring that driven axle 1 unscrews, passive arbor wheel 8 rotates forward and to be moved to the left or counterrotating moves right making a concerted effort of the acting force of the spring that needs the acting force of the spring of the left spring 5 simultaneously overcome on the left of passive arbor wheel 8 and the right spring 12 on right side on the screw thread of driven axle 1, when passive arbor wheel 8 rotate forward be moved to the left time, passive arbor wheel 8 rotates to the left buffering wheel 4 the closer to left side, passive arbor wheel 8 is subject to the larger with joint efforts of the acting force of the spring of the acting force of the spring of the left spring 5 on the left of passive arbor wheel 8 and the right spring 12 on right side, when passive arbor wheel 8 by External Force Acting rotate forward the left surface being moved to the left to left accessory whorl 6 abut in the right flank of left buffering wheel 4 time, passive arbor wheel 8 is subject to the maximum with joint efforts of the acting force of the spring of the acting force of the spring of the left spring 5 on the left of passive arbor wheel 8 and the right spring 12 on right side, now, passive arbor wheel 8 makes passive arbor wheel 8 with driven axle 1 with the equidirectional rotation of speed because being subject to the stop of left gear wheel 3, namely the External Force Acting totally tansitive that now passive arbor wheel 8 is subject to gives driven axle 1, the now rotation of driving wheel 7 realizes synchronous with the rotation of driven axle 1, and the not consumed energy of having made a concerted effort into internal force of the acting force of the spring of the acting force of the spring of left spring 5 on the left of passive arbor wheel 8 and the right spring 12 on right side, when the counterrotating of passive arbor wheel 8 moves right, passive arbor wheel 8 rotates to the right buffering wheel 13 the closer to right side, passive arbor wheel 8 is subject to the larger with joint efforts of the acting force of the spring of the acting force of the spring of the right spring 12 on the right side of passive arbor wheel 8 and the left spring 5 in left side, when passive arbor wheel 8 abuts in the left surface of right buffering wheel 13 by the right flank that External Force Acting counterrotating moves right to right accessory whorl 9, passive arbor wheel 8 is subject to the maximum with joint efforts of the acting force of the spring of the acting force of the spring of the right spring 12 on the right side of passive arbor wheel 8 and the left spring 5 in left side, now, passive arbor wheel 8 makes passive arbor wheel 8 with driven axle 1 with the equidirectional rotation of speed because being subject to the stop of right gear wheel 14, namely the External Force Acting totally tansitive that now passive arbor wheel 8 is subject to gives driven axle 1, the now rotation of driving wheel 7 realizes synchronous with the rotation of driven axle 1, and the not consumed energy of having made a concerted effort into internal force of the acting force of the spring of the acting force of the spring of right spring 12 on the right side of passive arbor wheel 8 and the left spring 5 in left side.

Claims (1)

1. screw spring engaging and disengaging gear, the passive arbor wheel (8) comprising the externally threaded driven axle of a band (1) and be screwed on driven axle (1), passive arbor wheel (8) is built with multiple little magnetic patch (10) of being replied location by little spring (16) tractive, passive arbor wheel (8) overcoat has a passive free wheel (11), there are left accessory whorl (6), left buffering wheel (4), left gear wheel (3) and left spring (5) in passive arbor wheel (8) left side, and there are right accessory whorl (9), right buffering wheel (13), right gear wheel (14) and right spring (12) in passive arbor wheel (8) right side, it is characterized in that: in passive arbor wheel (8) center hole, have internal thread, outside thread on the internal thread of passive arbor wheel (8) and driven axle (1) matches, namely passive arbor wheel (8) can overlap to be screwed on driven axle (1) and can to rotate forward to be moved to the left like a cork on driven axle (1) and move right with counterrotating, there are left accessory whorl (6), left buffering wheel (4), left gear wheel (3) and left spring (5) in passive arbor wheel (8) left side, and there are right accessory whorl (9), right buffering wheel (13), right gear wheel (14) and right spring (12) in passive arbor wheel (8) right side, annular region near passive arbor wheel (8) excircle in passive arbor wheel (8) is provided with multiple little magnetic patch (10) symmetrically, the N pole of the little magnetic patch of every block (10) is consistent with passive arbor wheel (8) longitudinal axis direction with the line of S pole, namely little magnetic patch (10) internal magnetic field lines is consistent with passive arbor wheel (8) longitudinal axis direction, and the N pole of all little magnetic patch (10) is all towards the direction away from passive arbor wheel (8) axle center, the end face of the little magnetic patch of every block (10) near passive arbor wheel (8) axle center is provided with a little spring (16), the little magnetic patch of every block (10) is provided with a trundle (15) away from an end face in passive arbor wheel (8) axle center, trundle (15) is for cylindrical, a trundle rotating shaft (19) is had in the middle of trundle (15), the central axis of trundle rotating shaft (19) central axis and trundle (15) is overlapping, and with the centerline axis parallel of passive arbor wheel (8), trundle (15) can freely rotate around trundle rotating shaft (19), trundle (15) is connected with little magnetic patch (10) by a trundle supporting rod (18), trundle supporting rod (18) is connected by a trundle rotating shaft (19) with trundle (15).