CN216988916U - Automatic cleaning machine for button cell - Google Patents

Abstract

The utility model discloses an automatic button cell cleaning machine which comprises a rack, a feeding device and a discharging device which are arranged at the left end and the right end of the rack, a cleaning device which is arranged in the rack and is positioned between the feeding device and the discharging device and is used for cleaning all button cells in a cleaning barrel simultaneously, a vacuum drying device which is used for drying all button cells in the cleaning barrel simultaneously, and a walking and carrying device which is used for carrying the cleaning barrel into the cleaning device, the vacuum drying device and the discharging device, wherein the cleaning device comprises at least two stages of cleaning tanks, and a bearing and rotating mechanism which is used for bearing the cleaning barrel and driving the cleaning barrel to rotate and a lifting mechanism which is used for driving the bearing and rotating mechanism to move up and down are arranged in each cleaning tank. The working process of the utility model is basically completed automatically, the working efficiency is high, the harm of chemical substances in the cleaning solution to human bodies can be reduced, the labor intensity is reduced, the labor cost is reduced, the cleaning quality is ensured, and the product quality is ensured.

Description

Automatic cleaning machine for button cell

The technical field is as follows:

the utility model relates to the technical field of battery cleaning, in particular to an automatic button battery cleaning machine.

Background art:

a button cell is also called a button cell, and refers to a cell with a shape and size similar to a small button, which is one of the important elements commonly used in electronic products. Button cells are widely used in various miniature electronic products due to their small size, and are generally used as backup power sources for various electronic products, such as computer motherboards, electronic watches, electronic dictionaries, electronic scales, memory cards, remote controllers, electric toys, cardiac pacemakers, electronic hearing aids, counters, cameras, and the like.

At present, most of button batteries are cleaned manually, specifically, the button batteries are manually placed into a cleaning basket, the cleaning basket is placed into a cleaning pool to be shaken to clean, and finally the button batteries are wiped and aired and then placed into a plastic sucking disc.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provides an automatic button cell cleaning machine.

In order to solve the technical problems, the utility model adopts the following technical scheme: this button cell automatic cleaning machine includes the frame, install loading attachment and the unloader at both ends about this frame, set up in this frame and be located between loading attachment and the unloader and be used for going on abluent belt cleaning device simultaneously and be used for going on the vacuum drying device that dries simultaneously to the whole button cell of dress in wasing the bucket and be used for carrying the belt cleaning device with wasing the bucket, walking handling device among vacuum drying device and the unloader, wherein, this belt cleaning device washs the pond including at least two-stage, be provided with in this washing pond and be used for bearing the weight of washing bucket and order about to wash bucket pivoted and bear slewing mechanism and be used for driving this elevating system who bears slewing mechanism and reciprocate.

Furthermore, in the above technical solution, the lifting mechanism includes a longitudinal guide rail disposed on the inner wall of the cleaning tank, a lifting frame mounted on the longitudinal guide rail through a slider and capable of moving up and down in the cleaning tank, and a hydraulic cylinder for driving the lifting frame to lift, and the bearing rotating mechanism is mounted on the lifting frame.

Furthermore, in the above technical solution, the bearing rotation mechanism includes a first bearing shaft and a second bearing shaft rotatably installed at the bottom of the lifting frame and used for bearing the cleaning barrel, a first gear installed at an end of the first bearing shaft, a second gear installed at an end of the second bearing shaft, a first motor installed at an upper end of the lifting frame, a third gear installed at an end of a driving shaft of the first motor, and a first chain connected among the first gear, the second gear, and the third gear.

Furthermore, in the above technical scheme, the cleaning tanks are three-stage, and are distributed in the rack in parallel, a first drainage pipe communicated with the inner cavity of each cleaning tank is arranged on the periphery of the lower end of each cleaning tank, and a first drainage valve is arranged at the end of each first drainage pipe.

Further, in the above technical scheme, the feeding device and the discharging device are both small carts, a carrying position for carrying the cleaning barrel is arranged on each small cart, and an inclined guide plate is arranged at an opening at the upper end of the carrying position; and the left end and the right end of the frame are respectively provided with a feeding station and a discharging station for the trolley to enter.

Furthermore, in the above technical solution, the vacuum drying device includes a vacuum drying tank, a cover body that is disposed on the vacuum drying tank and can be opened or closed, a driving module that is used for driving the cover body to move so as to close the vacuum drying tank or open the vacuum drying tank, a vacuum pump set that is connected to the vacuum drying tank and vacuumizes the vacuum drying tank, and a heating module that is installed in the vacuum drying tank.

Furthermore, in the above technical solution, a third bearing shaft and a fourth bearing shaft for bearing the cleaning barrel, a fourth gear installed at an end of the third bearing shaft, a fifth gear installed at an end of the fourth bearing shaft, a second motor installed outside the vacuum drying tank, a sixth gear installed at an end of a driving shaft of the second motor and placed in the vacuum drying tank, and a second chain connected among the fourth gear, the fifth gear and the sixth gear are arranged at a bottom of an inner cavity of the vacuum drying tank, and the driving shaft of the second motor penetrates into the inner cavity of the vacuum drying tank from outside to inside.

Furthermore, in the above technical solution, the walking and carrying device includes a walking mechanism installed on the frame, a lifting module installed on the walking mechanism, a lifting plate installed at a lower end of the lifting module and driven by the lifting module to lift, a first clamping plate and a second clamping plate installed at two sides of the lifting plate in a slidable manner and used for clamping and positioning the cleaning barrel, and a first clamping driving mechanism and a second clamping driving mechanism installed on the lifting plate and respectively driving the first clamping plate and the second clamping plate to move.

Furthermore, in the above technical solution, the first clamping plate has a first clamping arm and a second clamping arm, and a first clamping convex column and a second clamping convex column protruding inwards are respectively arranged at inner sides of the first clamping arm and the second clamping arm; the second clamping plate is provided with a third clamping arm and a fourth clamping arm which are distributed opposite to the first clamping arm and the second clamping arm, and the inner sides of the third clamping arm and the fourth clamping arm are respectively provided with a third clamping convex column and a fourth clamping convex column which protrude inwards; a first guide rod and a second guide rod which are distributed in parallel are fixed at the upper end of the lifting plate, and two ends of the first guide rod and the second guide rod extend out of two ends of the lifting plate; the first clamping plate and the second clamping plate are internally provided with a first guide sleeve and a second guide sleeve, and the first guide sleeve and the second guide sleeve are respectively sleeved on the first guide rod and the second guide rod and can slide on the first guide rod and the second guide rod.

Furthermore, in the above technical solution, the traveling mechanism includes a track groove installed on the frame, a rack disposed above the track groove, a traveling frame disposed in the frame, a traveling shaft installed on the traveling frame, a traveling wheel installed at an end of the traveling shaft and disposed in the track groove, a traveling motor installed on the traveling frame, and a traveling gear installed on a driving shaft of the traveling motor and engaged with the rack.

After adopting the technical scheme, compared with the prior art, the utility model has the following beneficial effects: the working process of the utility model is basically completed automatically, the working efficiency is high, the harm of chemical substances in the cleaning solution to human bodies can be reduced, the labor intensity is greatly reduced, the labor cost is reduced, the cleaning quality is ensured, the vacuum drying is realized, the product quality is ensured, the working efficiency is greatly improved, and the market competitiveness is favorably improved. In addition, the cleaning device comprises at least two stages of cleaning tanks, so that the utility model can clean all button cells in the cleaning barrel twice, thereby greatly improving the cleaning quality; moreover, to belt cleaning device working process, bear the weight of by bearing slewing mechanism and wash the bucket and order about and wash the bucket rotation, make all button cell in the washing bucket can realize more abundant washing, still can order about through elevating system and wash bucket 2 and reciprocate to this further improves cleaning quality.

Description of the drawings:

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is a perspective view of the walking and carrying device of the present invention;

FIG. 4 is an assembly view of the cleaning tank and dolly of the present invention;

FIG. 5 is a perspective view of the washing tub of the present invention;

FIG. 6 is a perspective view of the cleaning tank of the present invention with the end cap removed;

FIG. 7 is a perspective view of the end cap of the present invention;

FIG. 8 is a perspective view of the cleaning device of the present invention;

FIG. 9 is a perspective view of the vacuum drying apparatus of the present invention;

FIG. 10 is a perspective view of the cleaning device and the vacuum drying device of the present invention.

The specific implementation mode is as follows:

the utility model is further illustrated below with reference to specific embodiments and the accompanying drawings.

As shown in the figures 1-10, the automatic cleaning machine for the button cell comprises a frame 1, a feeding device and a discharging device which are arranged at the left end and the right end of the frame 1, a cleaning device 3 which is arranged in the frame 1 and is positioned between the feeding device and the discharging device and is used for cleaning all the button cells in a cleaning barrel 2 simultaneously, a vacuum drying device 4 which is used for drying all the button cells in the cleaning barrel 2 simultaneously, and a traveling and conveying device 5 which is used for conveying the cleaning barrel 2 to the cleaning device 3, the vacuum drying device 4 and the discharging device, the cleaning device 3 comprises at least two stages of cleaning tanks 31, and a bearing rotating mechanism 32 for bearing the cleaning barrel 2 and driving the cleaning barrel 2 to rotate and a lifting mechanism 33 for driving the bearing rotating mechanism 32 to move up and down are arranged in the cleaning tanks 31. When the utility model works, a plurality of button batteries are loaded into a cleaning barrel 2, the loading is realized by a loading device, then the cleaning barrel 2 is conveyed into a cleaning device 3 by a walking and conveying device 5, all the button batteries in the cleaning barrel 2 are cleaned simultaneously by the cleaning device 3, after the cleaning work is finished, the cleaning barrel 2 is conveyed to a vacuum drying device 4 by the walking and conveying device 5, the cleaning barrel 2 and all the button batteries in the cleaning barrel are dried simultaneously by the vacuum drying device 4, after the drying work is finished, the cleaning barrel 2 is conveyed to a blanking device by the walking and conveying device 5, the blanking is realized by the blanking device, the working process is basically finished automatically, the working efficiency is high, the chemical substances in the cleaning solution can be reduced to harm human bodies, the labor intensity is greatly reduced, the labor cost is reduced, and the cleaning quality is ensured, and the vacuum drying is realized, the product quality is guaranteed, the working efficiency is greatly improved, and the market competitiveness is favorably improved. In addition, the cleaning device 3 comprises at least two stages of cleaning tanks 31, so that the utility model can clean all button cells in the cleaning barrel 2 twice, thereby greatly improving the cleaning quality; moreover, in the working process of the cleaning device 3, the bearing and rotating mechanism 32 bears the cleaning barrel 2 and drives the cleaning barrel 2 to rotate, so that all button cells in the cleaning barrel 2 can be cleaned more fully, and the cleaning barrel 2 can be driven to move up and down through the lifting mechanism 33, thereby further improving the cleaning quality.

The feeding device and the discharging device are both small trolleys 6, bearing positions for bearing the cleaning barrels 2 are arranged on the small trolleys 6, and inclined guide plates 61 are arranged at openings at the upper ends of the bearing positions; the left end and the right end of the rack 1 are respectively provided with a feeding station 11 and a discharging station 12 for the trolley 6 to enter. In the material loading process of the material loading device, a plurality of button batteries are required to be loaded into the cleaning barrel 2, the cleaning barrel 2 is placed on the bearing position of the small trolley 6, and the inclined guide plate 61 is arranged at the upper end opening of the bearing position of the small trolley 6, so that the cleaning barrel 2 can be rapidly placed on the bearing position of the small trolley 6, the material loading efficiency is improved, then the small trolley 6 is manually pushed to enter the material loading station 11, and the walking and carrying device 5 can grab and carry the material, so that the material loading is realized. When the blanking device realizes blanking, only the trolley 6 needs to be manually pushed to enter the blanking station 12, the cleaning barrel 2 which finishes the vacuum drying work is carried to the bearing position of the trolley 6 by the walking carrying device 5, and then the trolley 6 is manually pulled out from the blanking station 12.

The cleaning barrel 2 comprises a barrel body 21 and an end cover 22 arranged at an opening at the upper end of the barrel body 21, wherein the barrel body 21 and the end cover 22 are fixed together through a snap 23. The periphery and the bottom of the barrel body 21 are provided with a plurality of first through holes 211 penetrating through the inner cavity of the barrel body, the end cover 22 is also provided with second through holes 221 penetrating through the upper end face and the lower end face of the barrel body, the first through holes 211 and the second through holes 221 are used for enabling cleaning liquid/liquid medicine in the cleaning pool 31 to smoothly enter the cleaning barrel 2 in the cleaning process so as to clean the button cell in the cleaning barrel 2, the cleaning liquid/liquid medicine is convenient to discharge, and vacuum drying is rapidly realized in the vacuum drying device 4.

The upper end and the lower end of the barrel body 21 are respectively formed with a first convex ring body 201 and a second convex ring body 202 for being matched with the walking and carrying device 5, wherein the first convex ring body 201 protrudes out of the end cover 22.

The lower end of the end cap 22 is formed with a circular protrusion 222 protruding downward, the circular protrusion 222 is embedded into the upper opening of the barrel 21, the outer edge of the end cap 22 is lapped outside the upper opening of the barrel 21, the assembling mechanism is stable, and after the snap 23 is fastened, the end cap 22 is fixedly mounted at the upper opening of the barrel 21, the structure is firm, and the accidental release cannot occur.

The end cap 22 is also provided with a handle 220 for the user to take. The first convex ring body 201 also protrudes out of the handle 220.

The peripheries of the first convex ring body 201 and the second convex ring body 202 protrude out of the periphery of the barrel body 21, so that when the cleaning barrel 2 is placed on the first bearing shaft 321 and the second bearing shaft 322 at the bottom of the cleaning pool 31, a space large enough for the cleaning liquid/chemical liquid in the cleaning pool 31 to enter the inside of the cleaning barrel 2 is formed between the cleaning barrel 2 and the bottom of the cleaning pool 31, thereby improving the cleaning quality.

The lifting mechanism 33 comprises a longitudinal guide rail arranged on the inner wall of the cleaning pool 31, a lifting frame 331 which is arranged on the longitudinal guide rail through a slide block and can move up and down in the cleaning pool 31, and a hydraulic cylinder 332 for driving the lifting frame 331 to lift, the bearing and rotating mechanism 32 is arranged on the lifting frame 331, and the assembly structure is simple.

The bearing and rotating mechanism 32 comprises a first bearing shaft 321 and a second bearing shaft 322 which are rotatably mounted at the bottom of the lifting frame 331 and are used for bearing the cleaning barrel 2, a first gear mounted at the end part of the first bearing shaft 321, a second gear mounted at the end part of the second bearing shaft 322, a first motor 325 mounted at the upper end of the lifting frame 331, a third gear mounted at the end part of a driving shaft of the first motor 325, and a first chain 327 connected among the first gear, the second gear and the third gear. After the cleaning barrel 2 is placed in the cleaning tank 31, the cleaning barrel 2 falls on the first bearing shaft 321 and the second bearing shaft 322 to bear the cleaning barrel 2 by the first bearing shaft 321 and the second bearing shaft 322, and when the first motor 325 drives the first chain 327 to rotate through the driving shaft, the first chain 327 drives the first gear and the second gear to rotate along the same direction at the same time, so as to drive the first bearing shaft 321 and the second bearing shaft 322 to rotate along the same direction synchronously, at this time, the first bearing shaft 321 and the second bearing shaft 322 can drive the cleaning barrel 2 to rotate for a certain distance, so as to drive all the button cells in the cleaning barrel 2 to shake, so that the button cells fully contact with the cleaning liquid/liquid medicine in the cleaning tank 31, and thereby achieving the purpose of improving the cleaning quality. In addition, the first motor 325 rotates in the forward and reverse directions to drive the first bearing shaft 321 and the second bearing shaft 322 to rotate in the clockwise direction synchronously or rotate in the counterclockwise direction simultaneously, so as to drive the cleaning barrel 2 to rotate in the clockwise direction and then rotate in the counterclockwise direction, so as to rotate back and forth, thereby further improving the cleaning quality. In addition, because bear slewing mechanism 32 and install on this crane 331 to cause this crane 331 to be by the in-process that hydraulic cylinder 332 driven in order to realize going up and down, also can order about this washing bucket 2 to reciprocate, thereby make button cell more abundant with the washing liquid/liquid medicine contact in the washing pond 31, it is better to wash quality.

The cleaning tanks 31 are three-stage and are distributed in the rack 1 in parallel, so that the button cell cleaning machine can clean button cells for 3 times, and the cleaning quality is guaranteed. The periphery of the lower end of each cleaning pool 31 is provided with a first drainage pipe 311 communicated with the inner cavity of the cleaning pool, the end part of the first drainage pipe 311 is provided with a first drainage valve 312, and unclean cleaning liquid/liquid medicine in the cleaning pool 31 is discharged by matching the first drainage pipe 311 through the first drainage valve 312.

The vacuum drying device 4 includes a vacuum drying tank 41, a cover 42 disposed on the vacuum drying tank 41 and capable of being opened or closed, a driving module 43 for driving the cover 42 to move to close the vacuum drying tank 41 or open the vacuum drying tank 41, a vacuum pump unit 44 connected to the vacuum drying tank 41 and configured to evacuate the vacuum drying tank 41, and a heating module installed in the vacuum drying tank 41. When the vacuum drying device 4 works, the vacuum drying pool 41 is vacuumized by the vacuum pump set 44, and meanwhile, the heating module is used for heating, so that the button cell in the cleaning barrel 2 is dried in vacuum, the drying speed is high, the efficiency is high, and the drying quality can be ensured.

The driving module 43 is a cylinder.

The bottom of the inner cavity of the vacuum drying pool 41 is provided with a third bearing shaft 411 and a fourth bearing shaft 412 for bearing the cleaning barrel 2, a fourth gear installed at the end of the third bearing shaft 411, a fifth gear installed at the end of the fourth bearing shaft 412, a second motor installed outside the vacuum drying pool 41, a sixth gear installed at the end of a driving shaft of the second motor and placed in the inner cavity of the vacuum drying pool 41, and a second chain 417 connected among the fourth gear, the fifth gear and the sixth gear, wherein the driving shaft of the second motor penetrates into the inner cavity of the vacuum drying pool 41 from outside to inside. After the cleaning barrel is placed in the vacuum drying tank 41, the third bearing shaft 411 and the fourth bearing shaft 412 bear the cleaning barrel 2, the second motor rotates forward and backward, and the third bearing shaft 411 and the fourth bearing shaft 412 are driven to rotate synchronously by the sixth gear, the second chain 417, the fourth gear and the fifth gear, so that all the button cells in the cleaning barrel 2 are driven to shake, the button cells are fully contacted with hot air in the vacuum drying tank 41, and the purpose of improving vacuum drying is achieved.

The walking and conveying device 5 comprises a walking mechanism 51 mounted on the frame 1, a lifting module 52 mounted on the walking mechanism 51, a lifting plate 53 mounted at the lower end of the lifting module 52 and driven by the lifting module 52 to lift, a first clamping plate 54 and a second clamping plate 55 slidably mounted on two sides of the lifting plate 53 and used for clamping and positioning the cleaning barrel 2, and a first clamping driving mechanism 56 and a second clamping driving mechanism 57 mounted on the lifting plate 53 and respectively driving the first clamping plate 54 and the second clamping plate 55 to move. When the walking and carrying device 5 works, the walking mechanism 51 walks on the frame 1 to realize conveying, the lifting module 52 drives the first clamping plate 54 and the second clamping plate 55 to descend, and finally the first clamping driving mechanism 56 and the second clamping driving mechanism 57 respectively drive the first clamping plate 54 and the second clamping plate 55 to move so as to drive the first clamping plate 54 and the second clamping plate 55 to be mutually matched and clamped at two ends of the cleaning barrel 2; the first clamping plate 54, the second clamping plate 55 and the cleaning barrel 2 are driven by the lifting module 52 to ascend, and then the traveling mechanism 51 travels on the frame 1 to realize the conveying function.

More specifically, the first clamping plate 54 has a first clamping arm 541 and a second clamping arm 542, and the inner sides of the first clamping arm 541 and the second clamping arm 542 are respectively provided with a first clamping projection 543 and a second clamping projection 544 which are protruded inwards; the second clamping plate 55 has a third clamping arm 551 and a fourth clamping arm 552 which are distributed opposite to the first clamping arm 541 and the second clamping arm 542, and a third clamping boss 553 and a fourth clamping boss 554 which protrude inwards are respectively arranged on the inner sides of the third clamping arm 551 and the fourth clamping arm 552; the first holding plate 54 extends into the inside of the first bulge loop body 201 at the end of the cleaning barrel 2 through the first holding bulge column 543 and the second holding bulge column 544 to hook the first bulge loop body 201, and the second holding plate 55 extends into the inside of the second bulge loop body 202 at the end of the cleaning barrel 2 through the third holding bulge column 553 and the fourth holding bulge column 554 to hook the first bulge loop body 201, so that the first holding plate 54 and the second holding plate 55 can cooperate to hold the cleaning barrel 2.

A first guide rod 531 and a second guide rod 532 which are distributed in parallel are fixed at the upper end of the lifting plate 53, and both ends of the first guide rod 531 and the second guide rod 532 extend out of both ends of the lifting plate 53; the first clamping plate 54 and the second clamping plate 55 are respectively provided with a first guide sleeve 540 and a second guide sleeve 550 therein, and the first guide sleeve 540 and the second guide sleeve 550 are respectively sleeved on the first guide rod 531 and the second guide rod 532 and can slide on the first guide rod 531 and the second guide rod 532. That is, the first and second clamping plates 54 and 55 share the first and second guide bars 531 and 532 to reduce parts and installation space, and also to ensure that the first and second clamping plates 54 and 55 can be smoothly slid on the first and second guide bars 531 and 532 by the first and second guide bushes 540 and 550.

The traveling mechanism 51 includes a rail groove 511 mounted on the frame 1, a rack 512 disposed above the rail groove 511, a traveling frame 513 disposed in the frame 1, a traveling shaft 514 mounted on the traveling frame 513, a traveling wheel 515 mounted on an end of the traveling shaft 514 and disposed in the rail groove 511, a traveling motor 516 mounted on the traveling frame 513, and a traveling gear 517 mounted on a driving shaft of the traveling motor 516 and engaged with the rack 512. During operation, the traveling motor 516 drives the traveling gear 517 to rotate through the driving shaft, and the traveling gear 517 is limited by the rack 512 while rotating, so as to drive the traveling frame 513 to move on the rack 1, and the traveling frame 513 is provided with the traveling shaft 514, the traveling shaft 514 moves through the track groove 511 of the traveling wheel 515 on the rack 1, thereby ensuring the stability of the movement of the traveling frame 513, ensuring the traveling frame 513 to move along the length direction of the track groove 511, ensuring the linearity of the operation, ensuring the accuracy of the movement, and the traveling mechanism 51 has a simple structure and low cost.

The bottom of the track groove 511 is also formed with a convex rail 501, the excircle of the walking wheel 515 is formed with a groove body 502, and the convex rail 501 is embedded into the groove body 502, so that the walking wheel 515 can walk more stably in the track groove 511, and the linear running is more accurate.

In conclusion, in the utility model, during operation, a plurality of button cells are loaded into the cleaning barrel 2, the loading is realized by the loading device, then the cleaning barrel 2 is conveyed into the cleaning device 3 by the walking and conveying device 5, all the button cells in the cleaning barrel 2 are cleaned simultaneously by the cleaning device 3, after the cleaning operation is finished, the cleaning barrel 2 is conveyed to the vacuum drying device 4 by the walking and conveying device 5, the cleaning barrel 2 and all the button cells in the cleaning barrel are dried simultaneously by the vacuum drying device 4, after the drying operation is finished, the cleaning barrel 2 is conveyed to the blanking device by the walking and conveying device 5, the blanking is realized by the blanking device, the working process is basically completed automatically, the working efficiency is high, the chemical substances in the cleaning solution can be reduced from harming human bodies, the labor intensity is greatly reduced, the labor cost is reduced, the cleaning quality is ensured, the vacuum drying is realized, the product quality is guaranteed, the working efficiency is greatly improved, and the market competitiveness is favorably improved. In addition, the cleaning device 3 comprises at least two stages of cleaning tanks 31, so that the utility model can clean all the button cells in the cleaning barrel 2 twice, thereby greatly improving the cleaning quality; moreover, to belt cleaning device 3 working process, bear by bearing slewing mechanism 32 and wash bucket 2 and order about washing bucket 2 and rotate, make all button cell in the washing bucket 2 can realize more abundant washing, still can order about through elevating system 33 that washing bucket 2 reciprocates to this further improves cleaning quality.

It should be understood that the above description is only exemplary of the present invention, and is not intended to limit the scope of the present invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides a button cell self-cleaning machine which characterized in that: which comprises a frame (1), a feeding device and a discharging device which are arranged at the left end and the right end of the frame (1), a cleaning device (3) which is arranged in the frame (1) and is positioned between the feeding device and the discharging device and is used for cleaning all button batteries in a cleaning barrel (2) simultaneously, a vacuum drying device (4) which is used for drying all button batteries in the cleaning barrel (2) simultaneously, and a walking and carrying device (5) which is used for carrying the cleaning barrel (2) to the cleaning device (3), the vacuum drying device (4) and the discharging device, wherein the cleaning device (3) comprises at least two stages of cleaning tanks (31), the cleaning pool (31) is internally provided with a bearing rotating mechanism (32) for bearing the cleaning barrel (2) and driving the cleaning barrel (2) to rotate and a lifting mechanism (33) for driving the bearing rotating mechanism (32) to move up and down.

2. The automatic button cell cleaning machine according to claim 1, wherein: the lifting mechanism (33) comprises a longitudinal guide rail arranged on the inner wall of the cleaning pool (31), a lifting frame (331) which is arranged on the longitudinal guide rail through a slide block and can move up and down in the cleaning pool (31), and a hydraulic cylinder (332) for driving the lifting frame (331) to lift, and the bearing rotating mechanism (32) is arranged on the lifting frame (331).

3. The automatic button cell cleaning machine according to claim 2, wherein: the bearing rotating mechanism (32) comprises a first bearing shaft (321) and a second bearing shaft (322) which are rotatably arranged at the bottom of the lifting frame (331) and are used for bearing the cleaning barrel (2), a first gear arranged at the end part of the first bearing shaft (321), a second gear arranged at the end part of the second bearing shaft (322), a first motor (325) arranged at the upper end of the lifting frame (331), a third gear arranged at the end part of a driving shaft of the first motor (325) and a first chain (327) connected among the first gear, the second gear and the third gear.

4. The automatic button cell cleaning machine according to claim 3, characterized in that: the cleaning tanks (31) are three-stage and are distributed in the rack (1) in parallel, a first drainage pipe (311) communicated with the inner cavity of each cleaning tank (31) is arranged on the periphery of the lower end of each cleaning tank (31), and a first drainage valve (312) is arranged at the end part of each first drainage pipe (311).

5. The automatic button cell cleaning machine according to any one of claims 1 to 4, wherein: the feeding device and the discharging device are both small trolleys (6), bearing positions for bearing the cleaning barrels (2) are arranged on the small trolleys (6), and inclined guide plates (61) are arranged at openings at the upper ends of the bearing positions; both ends are provided with material loading station (11) and unloading station (12) that supply small handcart (6) to get into respectively about frame (1).

6. The automatic button cell cleaning machine according to any one of claims 1 to 4, wherein: the vacuum drying device (4) comprises a vacuum drying pool (41), a cover body (42) which is arranged on the vacuum drying pool (41) and can be opened or closed, a driving module (43) which is used for driving the cover body (42) to move so as to close the vacuum drying pool (41) or open the vacuum drying pool (41), a vacuum pump set (44) which is connected with the vacuum drying pool (41) and vacuumizes the vacuum drying pool (41), and a heating module which is arranged in the vacuum drying pool (41).

7. The automatic button cell cleaning machine according to claim 6, wherein: the bottom of the inner cavity of the vacuum drying pool (41) is provided with a third bearing shaft (411) and a fourth bearing shaft (412) which are used for bearing the cleaning barrel (2), a fourth gear which is arranged at the end part of the third bearing shaft (411), a fifth gear which is arranged at the end part of the fourth bearing shaft (412), a second motor which is arranged outside the vacuum drying pool (41), a sixth gear which is arranged at the end part of a driving shaft of the second motor and is arranged in the inner cavity of the vacuum drying pool (41), and a second chain (417) which is connected among the fourth gear, the fifth gear and the sixth gear, wherein the driving shaft of the second motor penetrates into the inner cavity of the vacuum drying pool (41) from outside to inside.

8. The automatic button cell cleaning machine according to any one of claims 1 to 4, wherein: the walking and carrying device (5) comprises a walking mechanism (51) arranged on the rack (1), a lifting module (52) arranged on the walking mechanism (51), a lifting plate (53) which is arranged at the lower end of the lifting module (52) and driven by the lifting module (52) to lift, a first clamping plate (54) and a second clamping plate (55) which are arranged at two sides of the lifting plate (53) in a sliding mode and used for clamping and positioning the cleaning barrel (2), and a first clamping driving mechanism (56) and a second clamping driving mechanism (57) which are arranged on the lifting plate (53) and respectively drive the first clamping plate (54) and the second clamping plate (55) to move.

9. The automatic button cell cleaning machine according to claim 8, wherein: the first clamping plate (54) is provided with a first clamping arm (541) and a second clamping arm (542), and the inner sides of the first clamping arm (541) and the second clamping arm (542) are respectively provided with a first clamping convex column (543) and a second clamping convex column (544) which protrude inwards; the second clamping plate (55) is provided with a third clamping arm (551) and a fourth clamping arm (552) which are distributed opposite to the first clamping arm (541) and the second clamping arm (542), and the inner sides of the third clamping arm (551) and the fourth clamping arm (552) are respectively provided with a third clamping convex column (553) and a fourth clamping convex column (554) which protrude inwards; a first guide rod (531) and a second guide rod (532) which are distributed in parallel are fixed at the upper end of the lifting plate (53), and two ends of the first guide rod (531) and the second guide rod (532) extend out of two ends of the lifting plate (53); a first guide sleeve (540) and a second guide sleeve (550) are arranged in each of the first clamping plate (54) and the second clamping plate (55), and the first guide sleeve (540) and the second guide sleeve (550) are respectively sleeved on the first guide rod (531) and the second guide rod (532) and can slide on the first guide rod (531) and the second guide rod (532).

10. The automatic button cell cleaning machine according to claim 8, wherein: the traveling mechanism (51) comprises a track groove (511) arranged on the rack (1), a rack (512) arranged above the track groove (511), a traveling frame (513) arranged in the rack (1), a traveling shaft (514) arranged on the traveling frame (513), a traveling wheel (515) arranged at the end part of the traveling shaft (514) and arranged in the track groove (511), a traveling motor (516) arranged on the traveling frame (513), and a traveling gear (517) arranged on a driving shaft of the traveling motor (516) and meshed with the rack (512).

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