CN112087903A - Device capable of automatically and continuously assembling U disk shell - Google Patents

Abstract

The invention relates to the field of electronic storage equipment and discloses a device capable of automatically and continuously assembling a U disk shell, which comprises a main box body, wherein a working cavity with an upward opening and penetrating through the main box body is arranged in the main box body, the left side and the right side of the working cavity are communicated and provided with symmetrically arranged telescopic shaft cavities, the upper side of each telescopic shaft cavity is communicated and provided with a shell discharging cavity, the upper side of each shell discharging cavity is communicated and provided with a shell push plate cavity, and the upper side of each shell push plate cavity is communicated and provided with a lifting rod cavity. Further improving the production efficiency.

Description

Device capable of automatically and continuously assembling U disk shell

Technical Field

The invention relates to the field of electronic storage equipment, in particular to a device capable of automatically and continuously assembling a shell of a USB flash disk.

Background

Storage equipment is the equipment that is used for storing information, generally with the media of modes such as utilization electricity, magnetism or optics after the information digitization again to save, installation USB flash disk circuit board shell all adopts the manual sorting formula to press down the installation now mostly, so not only installation rate is low, influence the whole production efficiency of USB flash disk, and a large amount of labours still are wasted, thereby increase the capital cost, on the other hand, when artificial lock, can have the lock error by accident, thereby make the USB flash disk dispatch from the factory not up to standard, many materials have been wasted.

Disclosure of Invention

The invention aims to provide a device capable of automatically and continuously assembling a USB flash disk shell, which can overcome the defects in the prior art, thereby improving the practicability of equipment.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a device capable of automatically and continuously assembling a shell of a USB flash disk, which comprises a main box body, wherein a working cavity with an upward opening and penetrating front and back is arranged in the main box body, the left side and the right side of the working cavity are communicated and provided with symmetrically arranged telescopic shaft cavities, the upper side of each telescopic shaft cavity is communicated and provided with a shell discharging cavity, the upper side of each shell discharging cavity is communicated and provided with a shell push plate cavity, the upper side of each shell push plate cavity is communicated and provided with a lifting rod cavity, the upper side of each lifting rod cavity is provided with a wire wheel cavity, the upper side of each wire wheel cavity is communicated and provided with a torsion spring cavity, the upper side of each telescopic shaft cavity is communicated and provided with a magnetic block cavity positioned at the side of the shell push plate cavity far away from the working cavity, the side of the telescopic shaft cavity far away from the working cavity is provided with a belt cavity, the lower side of the working cavity is communicated and provided with a, a transposition shaft cavity is communicated with the left side of the transposition cavity, a motor gear cavity is communicated with the left side of the transposition shaft cavity, a transposition magnet cavity is communicated with the left side of the motor gear cavity, a telescopic shaft is arranged in the telescopic shaft cavity in a sliding fit connection, a clamp plate is arranged on the telescopic shaft close to the working cavity side, a pressing plate shaft cavity which penetrates through the clamp plate from left to right is arranged in the clamp plate, clamping claws which are symmetrically arranged by taking the pressing plate shaft cavity as a center are fixedly connected with the upper side end face and the lower side end face of the clamp plate, a pressing plate shaft which extends through the pressing plate shaft cavity to the outside and is connected with the pressing plate shaft cavity in a sliding fit manner is fixedly connected with the telescopic shaft close to the working cavity side end face, a pressing plate is fixedly connected with the pressing plate shaft close to the working cavity side end face, a pressing plate spring is fixedly connected between the side end face of the clamp plate far away from the working cavity and the side, be equipped with the lead screw chamber in the telescopic shaft, screw thread fit connection in the lead screw chamber is equipped with to keeping away from the working chamber side extends to the lead screw in the belt intracavity, the lead screw is kept away from the terminal fixed connection of working chamber side is equipped with driven pulley.

On the basis of the technical scheme, a main trigger magnet block which can correspond to the magnetic block cavity is fixedly connected and arranged in the telescopic shaft, an auxiliary trigger block which can be contacted with the main trigger magnet block is fixedly connected and arranged in the upper end wall of the telescopic shaft cavity, a repeated trigger block is fixedly connected and arranged in the left side wall of the right end wall of the magnetic block cavity, the magnetic block is arranged in the magnetic block cavity in a sliding fit connection mode, a shell push plate is arranged in the shell push plate cavity in a sliding fit connection mode, a shell push plate spring is fixedly connected and arranged between the end surface of the shell push plate far away from the side end surface of the working cavity and the end wall of the shell push plate cavity far away from the side end wall of the working cavity, a lifting rod is arranged in the lifting rod cavity in a sliding fit connection mode, a screw rod which extends upwards to penetrate through the reel cavity to the torsion spring cavity, the wire wheel is fixedly connected with the screw rod and located in the wire wheel cavity, the torsion spring is fixedly connected between the upper end face of the screw rod and the upper end wall of the torsion spring cavity, and the pull rope is fixedly connected between the wire wheel and the corresponding magnetic block.

On the basis of the technical scheme, a rack mounting plate is arranged in the working cavity in a sliding fit connection manner, a plurality of U disk fixing cavities which are arranged at equal intervals and have upward openings are arranged in the rack mounting plate, a half gear shaft which extends leftwards into the transposition cavity and rightwards into the half gear cavity is arranged in the half gear cavity in a rotating fit connection manner, a half gear which can be meshed with the rack mounting plate is arranged at the tail end of the right side of the half gear shaft in a fixed connection manner, a half-tooth transmission gear is arranged at the tail end of the left side of the half gear shaft in a fixed connection manner, a transmission pulley shaft which extends rightwards into the belt cavity through the driven straight gear cavity to the right side and extends leftwards into the belt cavity is connected in a rotating fit manner at the right end of the left side of the belt cavity, a transmission pulley which is positioned in the belt cavity is fixedly connected on the, and a driven straight gear positioned in the driven straight gear cavity is fixedly connected to the transmission belt pulley shaft.

On the basis of the technical scheme, driven spur gear chamber left end wall normal running fit is connected and is equipped with and extends to right driven spur gear intracavity and extend to left the transmission spur gear axle in the transposition intracavity, the terminal fixed connection in transmission spur gear axle right side be equipped with driven spur gear meshed transmission spur gear, the terminal fixed connection in transmission spur gear axle left side is equipped with transmission spur gear, transposition axle intracavity normal running fit is connected and is equipped with and extends to run through left motor gear chamber extremely transposition magnet intracavity and extend to right the transposition axle in the transposition intracavity, the terminal fixed connection in transposition axle right side be equipped with transmission spur gear meshing and can with half-tooth drive gear meshed transposition gear, the epaxial fixed connection that shifts is equipped with is located motor gear intracavity transposition driven gear, the terminal running fit in transposition axle left side connect be equipped with the transposition magnet that transposition magnet chamber sliding fit is connected shifts magnet The motor gear cavity comprises a motor gear cavity and a transposition magnet cavity, wherein the transposition magnet cavity is formed in the left end wall of the transposition magnet cavity, the transposition magnet cavity is fixedly connected with the left end wall of the transposition magnet cavity, the right end face of the transposition magnet is fixedly connected with the left end face of the transposition magnet cavity and provided with a transposition magnet spring, the motor gear cavity is arranged on the left side of the motor gear cavity and fixedly connected with the main box body and located on the lower side of the transposition magnet cavity, the right end face of the motor is fixedly connected with a motor shaft extending rightwards to the motor gear cavity, and.

The invention has the beneficial effects that: this device promotes the USB flash disk shell through the lifter, makes it press from both sides tightly by the clamping claw just, makes both sides USB flash disk shell lock on the USB flash disk circuit board through the telescopic shaft, has realized automatic installation USB flash disk circuit board shell, great quickening installation speed, improved whole production efficiency, also reduced staff's use simultaneously, reduced the capital cost, then rethread half gear promotes the rack mounting panel motion, can accomplish the continuity action, further improve production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic diagram of the overall structure of an apparatus for automatically and continuously assembling the shells of the usb flash disk according to the present invention.

Fig. 2 is a schematic sectional view of the structure in the direction of a-a in fig. 1.

Fig. 3 is an enlarged schematic view of the structure at B in fig. 1.

Fig. 4 is an enlarged schematic view of the structure at C in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The device capable of automatically and continuously assembling the shell of the USB flash disk, which is described in conjunction with the attached drawings 1-4, comprises a main box body 10, wherein a working chamber 18 with an upward opening and a front-back through function is arranged in the main box body 10, the left and right sides of the working chamber 18 are communicated with symmetrically arranged telescopic shaft chambers 36, the upper side of the telescopic shaft chamber 36 is communicated with a shell discharging chamber 21, the upper side of the shell discharging chamber 21 is communicated with a shell push plate chamber 23, the upper side of the shell push plate chamber 23 is communicated with a lifting rod chamber 64, the upper side of the lifting rod chamber 64 is provided with a wire wheel chamber 61, the upper side of the wire wheel chamber 61 is communicated with a torsion spring chamber 59, the upper side of the telescopic shaft chamber 36 is communicated with a magnetic block chamber 13 which is positioned at the side of the shell push plate chamber 23 far away from the working chamber 18, the telescopic shaft chamber 36 is far away from the side of the working chamber 18 and is, half gear chamber 17 left side is equipped with and is located transposition chamber 54 of working chamber 18 downside, transposition chamber 54 right side is equipped with and is located driven straight gear chamber 31 of half gear chamber 17 downside, transposition chamber 54 left side intercommunication is equipped with transposition axle chamber 51, transposition axle chamber 51 left side intercommunication is equipped with motor gear chamber 66, motor gear chamber 66 left side intercommunication is equipped with transposition magnet chamber 47, sliding fit connects in telescopic axle chamber 36 and is equipped with telescopic shaft 35, telescopic shaft 35 is close to working chamber 18 side is equipped with clamp plate 39, be equipped with in clamp plate 39 and control the pressure strip axle chamber 41 that runs through, both sides terminal surface fixed connection is equipped with about clamp plate 39 pressure strip axle chamber 41 sets up for central symmetry, telescopic shaft 35 is close to working chamber 18 side terminal surface fixed connection is equipped with to be close to working chamber 18 side extends to run through pressure strip axle chamber 41 to the external world and with the pressure strip axle chamber 41 sliding fit connects 43, the pressure strip axle 43 is close to work chamber 18 side end face fixed connection is equipped with pressure strip 40, anchor clamps board 39 is kept away from work chamber 18 side end face with the telescopic shaft 35 is close to fixed connection is equipped with pressure strip spring 42 between the work chamber 18 side end face, be equipped with lead screw chamber 34 in the telescopic shaft 35, lead screw chamber 34 internal thread fit connection is equipped with to keeping away from work chamber 18 side extends to lead screw 33 in the belt chamber 26, lead screw 33 keeps away from work chamber 18 side end fixed connection is equipped with driven pulley 32.

In addition, in an embodiment, a main trigger magnet block 11 capable of corresponding to the magnetic block cavity 13 is fixedly connected and arranged in the telescopic shaft 35, an auxiliary trigger block 14 capable of contacting with the main trigger magnet block 11 is fixedly connected and arranged in the upper end wall of the telescopic shaft cavity 36, a repeated trigger block 68 is fixedly connected and arranged in the right end wall of the magnetic block cavity 13 on the left side, a magnetic block 12 is arranged in the magnetic block cavity 13 in a sliding fit connection, a shell push plate 22 is arranged in the shell push plate cavity 23 in a sliding fit connection, a shell push plate spring 24 is fixedly connected and arranged between the end face of the shell push plate 22 far away from the working cavity 18 and the end wall of the shell push plate cavity 23 far away from the working cavity 18, a lifting rod 20 is arranged in the lifting rod cavity 64 in a sliding fit connection, a screw rod cavity 19 is arranged in the lifting rod 20, a screw rod 63 which extends upwards and penetrates through the reel cavity 61 to the torsion spring cavity 59 is arranged in a thread fit connection, the wire rod 63 is fixedly connected with a wire wheel 62 positioned in the wire wheel cavity 61, the upper end face of the wire rod 63 is fixedly connected with the upper end wall of the torsion spring cavity 59 to form a torsion spring 60, and the wire wheel 62 is fixedly connected with the corresponding magnetic block 12 to form a pull rope 58.

In addition, in one embodiment, a rack mounting plate 15 is disposed in the working chamber 18 in a sliding fit connection, a plurality of usb disk fixing chambers 37 with equal distance and upward opening are disposed in the rack mounting plate 15, a half gear shaft 65 extending leftwards in the transposition chamber 54 and rightwards in the half gear chamber 17 is disposed in a sliding fit connection in the left end wall of the half gear chamber 17, a half gear 16 capable of meshing with the rack mounting plate 15 is disposed at the right end of the half gear shaft 65 in a fixed connection, a half-tooth transmission gear 52 is disposed at the left end of the half gear shaft 65, a transmission pulley shaft 28 extending rightwards through the driven straight gear chamber 31 to the right side in the belt chamber 26 and leftwards in the belt chamber 26 is disposed in a sliding fit connection in the right end wall of the left side belt chamber 26, a transmission pulley 27 located in the belt chamber 26 is disposed in a fixed connection on the transmission pulley shaft 28, the driving belt wheel 27 is connected with the driven belt wheel 32 in a power fit mode and is provided with a belt 25, and the driving belt wheel shaft 28 is fixedly connected with a driven straight gear 30 located in the driven straight gear cavity 31.

In addition, in an embodiment, the end of the left end of the driven spur gear cavity 31 is connected in a rotationally matched manner to be provided with a transmission spur gear shaft 67 which extends rightwards into the driven spur gear cavity 31 and extends leftwards into the transposition cavity 54, the end of the right side of the transmission spur gear shaft 67 is fixedly connected to be provided with a transmission spur gear 29 which is meshed with the driven spur gear 30, the end of the left side of the transmission spur gear shaft 67 is fixedly connected to be provided with a transmission spur gear 55, the end of the right side of the transposition shaft 51 is connected in a rotationally matched manner to be provided with a transposition shaft 49 which extends leftwards into the motor gear cavity 66 and extends rightwards into the transposition cavity 54, the end of the right side of the transposition shaft 49 is fixedly connected to be provided with a transposition gear 53 which is meshed with the transmission spur gear 55 and can be meshed with the half-tooth transmission gear 52, the transposition shaft 49 is fixedly connected to be provided with a, the tail end of the left side of the transposition shaft 49 is connected and provided with a transposition magnet 48 in sliding fit connection with the transposition magnet cavity 47, the inner fixed connection of the left end wall of the transposition magnet cavity 47 is provided with a transposition electromagnet 46, the right end surface of the transposition electromagnet 46 is fixedly connected with the left end surface of the transposition magnet 48 and provided with a transposition magnet spring 45, the left side of the motor gear cavity 66 is provided with a motor 44 which is fixedly connected with the main box body 10 and positioned on the lower side of the transposition magnet cavity 47, the right end surface of the motor 44 is fixedly connected with a motor shaft 57 which extends rightwards to the motor gear cavity 66, and the tail end of the right side of the motor shaft 57 is fixedly connected with a motor gear 56 which is meshed with the transposition.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-4, when the apparatus of the present invention is in an initial state, the main trigger magnet 11 corresponds to the magnetic block cavity 13, the lifting rod 20 is in an extended state, the shell push plate spring 24 is in a compressed state, the torsion spring 60 is in a twisted state, the transposition gear 53 is not engaged with the half-tooth transmission gear 52, and the half-gear 16 is not engaged with the rack mounting plate 15;

sequence of mechanical actions of the whole device:

when the work is started, a USB flash disk circuit board is fixed in the USB flash disk fixing cavity 37 on the rack mounting plate 15, the rack mounting plate 15 is placed in the work cavity 18, the rack mounting plate 15 is meshed with the half gear 16, the position of the first USB flash disk circuit board is adjusted, the motor 44 is started to rotate forwards, the motor 44 rotates to drive the motor gear 56 to rotate through the motor shaft 57, the motor gear 56 rotates to drive the transposition shaft 49 to rotate through the transposition driven gear 50, the transposition shaft 49 rotates to drive the transmission spur gear 55 to rotate through the transposition gear 53, the transmission spur gear 55 rotates to drive the transmission spur gear 29 to rotate through the transmission spur gear shaft 67, the transmission spur gear 29 rotates to drive the transmission pulley shaft 28 to rotate through the driven spur gear 30, the transmission pulley shaft 28 rotates to drive the belt 25 to rotate through the transmission pulley 27, the belt 25 rotates to drive the lead screw 33 to rotate through the driven pulley, thereby, the telescopic shaft 35 moves towards the side close to the working cavity 18 and drives the clamp plate 39 and the clamping claws 38 to move towards the side close to the working cavity 18 through the pressure plate shaft 43 until the clamping claws 38 at the two sides are abutted, the telescopic shaft 35 overcomes the thrust of the pressure plate spring 42 to drive the pressure plate 40 to push the USB flash disk shell to be clamped on the USB flash disk circuit board, and at the moment, the main trigger magnet block 11 is just contacted with the corresponding auxiliary trigger block 14;

meanwhile, after the main trigger magnet block 11 is separated from the corresponding magnetic block cavity 13, the lead screw 63 drives the wire wheel 62 to rotate under the torsion action of the torsion spring 60, so that the stay cord 58 drives the magnetic block 12 to move upwards, the lead screw 63 rotates to drive the lifting rod 20 to move upwards until the lifting rod is completely positioned in the lifting rod cavity 64, and at the moment, the U disk shell moves towards the side close to the working cavity 18 under the elastic action of the shell push plate spring 24 through the shell push plate 22;

after the main triggering magnet 11 contacts the auxiliary triggering block 14, the motor 44 stops rotating, then starts to rotate reversely, and the transposition electromagnet 46 is powered, the adsorption transposition magnet 48 overcomes the thrust of the transposition magnet spring 45 and drives the transposition gear 53 to be meshed with the half-tooth transmission gear 52 through the transposition shaft 49, at this time, the telescopic shaft 35 moves away from the working chamber 18 side, simultaneously the transposition gear 53 rotates and drives the half-gear shaft 65 to rotate through the half-tooth transmission gear 52, the half-gear shaft 65 rotates and drives the half-gear 16 to rotate until the half-gear 16 is meshed with the rack mounting plate 15, the half-gear 16 rotates and drives the rack mounting plate 15 to move backwards until the next U-disk circuit board just can be buckled, then the main triggering magnet 11 corresponds to the corresponding magnetic block chamber 13, the main triggering magnet 11 adsorbs the magnetic block 12 and drives the wire wheel 62 to rotate through the pull rope 58, the wire wheel 62 rotates and drives the lifting rod 20 to move downwards through the lead screw 63 and, so that the usb disk housing is clamped by the clamping jaw 38 and the left side 12 is now in contact with the clamping jaw 68, the motor 44 can be stopped and then reversed to repeat the next usb disk circuit board installation.

The invention has the beneficial effects that: this device promotes the USB flash disk shell through the lifter, makes it press from both sides tightly by the clamping claw just, makes both sides USB flash disk shell lock on the USB flash disk circuit board through the telescopic shaft, has realized automatic installation USB flash disk circuit board shell, great quickening installation speed, improved whole production efficiency, also reduced staff's use simultaneously, reduced the capital cost, then rethread half gear promotes the rack mounting panel motion, can accomplish the continuity action, further improve production efficiency.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a device that can assemble USB flash disk shell in succession automatically, includes the main tank body, its characterized in that: the main box body is internally provided with a working cavity with an upward opening and penetrating through the front and the back, the left side and the right side of the working cavity are communicated with symmetrically arranged telescopic shaft cavities, the upper side of the telescopic shaft cavity is communicated with a shell discharging cavity, the upper side of the shell discharging cavity is communicated with a shell push plate cavity, the upper side of the shell push plate cavity is communicated with a lifter cavity, the upper side of the lifter cavity is provided with a wire wheel cavity, the upper side of the wire wheel cavity is communicated with a torsion spring cavity, the upper side of the telescopic shaft cavity is communicated with a magnetic block cavity which is positioned at the side of the shell push plate cavity far away from the working cavity, the side of the telescopic shaft cavity far away from the working cavity is provided with a belt cavity, the lower side of the working cavity is communicated with a half gear cavity, the left side of the half gear cavity is provided with a transposition cavity positioned at the lower side of the working cavity, the, a motor gear cavity is communicated with the left side of the transposition shaft cavity, a transposition magnet cavity is communicated with the left side of the motor gear cavity, a telescopic shaft is arranged in the telescopic shaft cavity in a sliding fit connection mode, a clamp plate is arranged on the telescopic shaft close to the side of the working cavity, a pressing plate shaft cavity penetrating through the clamp plate from left to right is arranged in the clamp plate, clamping claws symmetrically arranged by taking the pressing plate shaft cavity as a center are fixedly connected with the upper side end face and the lower side end face of the clamp plate, a pressing plate shaft extending through the pressing plate shaft cavity to the outside and connected with the pressing plate shaft cavity in a sliding fit mode is fixedly connected with the telescopic shaft close to the side end face of the working cavity, a pressing plate is fixedly connected with the pressing plate shaft close to the side end face of the working cavity, a pressing plate spring is fixedly connected between the side end face of the clamp plate far away from the working cavity and the side end face of, be equipped with the lead screw chamber in the telescopic shaft, screw thread fit connection in the lead screw chamber is equipped with to keeping away from the working chamber side extends to the lead screw in the belt intracavity, the lead screw is kept away from the terminal fixed connection of working chamber side is equipped with driven pulley.

2. The device for automatically and continuously assembling the shell of the U disk according to claim 1, wherein: the telescopic shaft is internally and fixedly connected with a main trigger magnet block which can correspond to the magnetic block cavity, the upper end wall of the telescopic shaft cavity is internally and fixedly connected with an auxiliary trigger block which can be contacted with the main trigger magnet block, the right end wall of the magnetic block cavity is internally and fixedly connected with a repeated trigger block, the magnetic block cavity is internally and slidably connected with the magnetic block, the shell push plate is internally and slidably connected with a shell push plate, the shell push plate is far away from the side end surface of the working cavity, and the shell push plate cavity is far away from the side end wall of the working cavity, the shell push plate spring is fixedly connected between the side end wall of the working cavity, the lifting rod cavity is internally and slidably connected with a lifting rod, the lifting rod is internally provided with a screw rod cavity, the screw rod is internally and threadedly connected with a screw rod which upwards extends through the wire wheel cavity to the torsion spring cavity, and a wire wheel positioned in, the upper end face of the screw rod is fixedly connected with the upper end wall of the torsion spring cavity to form a torsion spring, and the wire wheel is fixedly connected with the magnetic block to form a pull rope.

3. The device for automatically and continuously assembling the shell of the U disk according to claim 1, wherein: the rack mounting plate is arranged in the working cavity in a sliding fit connection mode, a plurality of U disk fixing cavities which are arranged at equal intervals and are provided with upward openings are arranged in the rack mounting plate, a half gear shaft which extends leftwards into the transposition cavity and rightwards into the half gear cavity is arranged in the left end wall of the half gear cavity in a rotating fit connection mode, a half gear which can be meshed with the rack mounting plate is fixedly connected at the right end of the half gear shaft, a half-gear transmission gear is fixedly connected at the left end of the half gear shaft, a transmission pulley shaft which extends rightwards into the belt cavity through the driven straight gear cavity to the right side and extends leftwards into the belt cavity is connected at the right end wall of the belt cavity at the left side in a rotating fit mode, a transmission belt pulley positioned in the belt cavity is fixedly connected at the transmission pulley shaft, and a belt is arranged between the, and a driven straight gear positioned in the driven straight gear cavity is fixedly connected to the transmission belt pulley shaft.

4. The device for automatically and continuously assembling the shell of the U disk according to claim 1, wherein: the end of the left end of the driven spur gear cavity is connected with an inner rotary fit in a right end and extends to the inner of the driven spur gear cavity and extends to the inner of the transposition cavity leftwards, the end of the right side of the transmission spur gear shaft is fixedly connected with a transmission spur gear meshed with the driven spur gear, the end of the left side of the transmission spur gear shaft is fixedly connected with a transmission spur gear, the inner of the transposition shaft cavity is connected with an inner rotary fit in a left end and extends to the inner of the transposition magnet cavity rightwards and extends to the transposition shaft meshed with the driven spur gear, the end of the right side of the transposition shaft is fixedly connected with a transposition gear meshed with the transmission spur gear and can be meshed with the half-tooth transmission gear, the upper of the transposition shaft is fixedly connected with a transposition driven gear positioned in the motor gear cavity, the end of the left side of the transposition shaft is connected with a transposition magnet connected, fixed connection is equipped with the transposition electro-magnet in the transposition magnet chamber left end wall, transposition electro-magnet right-hand member face with fixed connection is equipped with the transposition magnet spring between the transposition magnet left end face, motor gear chamber left side be equipped with main tank body fixed connection just is located the motor of transposition magnet chamber downside, motor right-hand member face fixed connection be equipped with extend right to the motor shaft in motor gear chamber, the terminal fixed connection in motor shaft right side be equipped with the motor gear that the driven gear that replaces meshes.

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