CN216470445U

CN216470445U - Battery piece loading attachment

Info

Publication number: CN216470445U
Application number: CN202122856501.8U
Authority: CN
Inventors: 沈庆丰; 陈伟; 齐文博; 谭晓靖
Original assignee: Wuxi Autowell Technology Co Ltd
Current assignee: Wuxi Autowell Technology Co Ltd
Priority date: 2021-11-19
Filing date: 2021-11-19
Publication date: 2022-05-10
Anticipated expiration: 2031-11-19

Abstract

The utility model relates to a battery piece feeding device which comprises a battery piece jacking mechanism and a battery piece carrying mechanism, wherein the battery piece jacking mechanism is arranged on the battery piece jacking mechanism; the battery piece jacking mechanism is configured to bear a multi-connected battery box capable of loading at least two groups of battery pieces simultaneously and jack up each group of battery pieces in the multi-connected battery box; the battery piece conveying mechanism is configured to suck the uppermost battery piece in each group of battery pieces jacked up in the multi-connected battery box at the same time, and convey at least two battery pieces to the battery piece material level and release the battery pieces. Through the cooperation of battery piece climbing mechanism and battery piece transport mechanism, carry the material level on the battery piece with at least two battery pieces at every turn, can improve the material loading efficiency of battery piece manyfold.

Description

Battery piece loading attachment

Technical Field

The utility model relates to solar cell production equipment, in particular to a cell feeding device.

Background

The traditional battery piece feeding mode often adopts the sucker single piece feeding. The feeding method has low feeding efficiency because only one battery piece can be conveyed at a time. In addition, when the conventional sucker is used for feeding, the sucker needs to be pressed down, and the battery piece can be adsorbed after the compression amount is formed. The sucking disc can extrude the battery piece, and the battery piece can be damaged, resulting in the loss of the battery piece.

SUMMERY OF THE UTILITY MODEL

The utility model provides a battery piece feeding device with high feeding efficiency, aiming at the problem of low feeding efficiency of the existing battery piece.

The technical scheme of the battery piece feeding device is as follows: a battery piece feeding device comprises a battery piece jacking mechanism and a battery piece carrying mechanism; wherein: the battery piece jacking mechanism is configured to bear a multi-connected battery box capable of loading at least two groups of battery pieces simultaneously and jack up each group of battery pieces in the multi-connected battery box; the battery piece conveying mechanism is configured to suck the uppermost battery piece in each group of battery pieces jacked up in the multi-connected battery box at the same time, and convey at least two battery pieces to the battery piece material level and release the battery pieces.

Through the cooperation of battery piece climbing mechanism and battery piece transport mechanism, carry the material level on the battery piece with at least two battery pieces at every turn, can improve the material loading efficiency of battery piece manyfold.

Furthermore, the battery piece jacking mechanism comprises a battery box jacking part and a bearing plate jacking part, and the battery box jacking part is arranged on a movable part of the bearing plate jacking part; the battery box lifting part is configured to lift the battery box, and the bearing plate lifting part is configured to lift the bearing plate in the multi-battery box together with the battery pieces.

The battery box jacking part is matched with the bearing plate jacking part to complete jacking of the battery piece, so that preparation is made for the battery piece carrying mechanism to carry the battery piece.

The battery piece conveying mechanism comprises a battery piece lifting part, a rotating part and an adsorption part, wherein the adsorption part is arranged on a movable part of the rotating part, and the rotating part is arranged on the movable part of the battery piece lifting part; the battery piece lift portion drives the rotating part and goes up and down, and the rotating part drives the rotation of absorption portion.

Adsorb the battery piece through adsorption part, drive the battery piece through battery piece lift portion and rise, make the battery piece rotatory to the battery piece material level through the rotating part and realize the material loading.

Further, the adsorption part comprises an adsorption bracket and at least one group of sucker components, each group of sucker components is arranged below the adsorption bracket, and each group of sucker components comprises two suckers.

Every group sucking disc subassembly adsorbs two battery pieces through two sucking discs, can adsorb the battery piece steadily reliably, can avoid the battery piece to drop.

Furthermore, the sucker comprises a sucker body and a blowing structure; the air blowing structure is configured to reduce air pressure between the battery piece and the bottom surface of the suction cup body when the suction cup adsorbs the battery piece.

The air pressure between the sucking disc and the battery piece is reduced by configuring the air blowing structure, so that the pressure difference is generated between the lower part of the battery piece and the upper part of the battery piece, the battery piece is adsorbed to a batch judgment by utilizing the atmospheric pressure, the sucking disc is prevented from extruding the battery piece, and the battery piece is prevented from being damaged.

Further, the air blowing structure comprises an air blowing pipeline which is arranged in the sucker body and is opened at the bottom surface of the sucker body.

The air blowing pipeline of the air blowing structure is arranged in the sucker body, so that the volume of the sucker can be reduced, and the external air blowing pipeline can be prevented from forming interference.

Furthermore, the battery piece feeding device also comprises a battery box circulation mechanism, the battery box circulation mechanism comprises a battery box conveying part and a battery box circulation part, and the battery box conveying part comprises a feeding conveying line and a discharging conveying line; the feeding conveying line is configured to convey the multi-connected battery box fully loaded with the battery pieces to the battery piece jacking mechanism, the battery box circulation portion is configured to convey the empty multi-connected battery box to the discharging conveying line from the battery piece jacking mechanism, and the discharging conveying line is configured to convey the empty multi-connected battery box away.

Through configuration battery case circulation mechanism, make no-load battery case and full load battery case form the circulation and circulate, can improve the circulation efficiency of battery case.

Further, the battery box circulation part comprises a battery box lifting part, a transverse moving part and a top plate, the top plate is arranged on a movable part of the battery box lifting part, and the battery box lifting part is arranged on a movable part of the transverse moving part; the top plate is configured to carry and position the multiple battery box; the transverse moving part drives the battery box lifting part to translate, and the battery box lifting part drives the top plate to lift; the battery box lifting part drives the top plate to ascend so as to position and bear the multi-connected battery box, and the transverse moving part drives the battery box lifting part to translate so as to transversely transfer the multi-connected battery box.

The battery box is driven to lift through the battery box lifting part, and the battery box is driven to transversely move through the transversely moving part, so that the circulation of the battery box is realized.

Further, the battery box circulation mechanism further comprises a wind knife assembly, and the wind knife assembly is configured to blow air to the battery piece when the battery piece carrying mechanism adsorbs the battery piece so as to blow the battery piece away from the battery piece below.

The air knife assembly is arranged to blow air to the battery pieces, so that the battery pieces can be prevented from being adhered, and one battery piece can be guaranteed to be adsorbed each time.

Further, the battery box circulation mechanism further comprises a sensing part, and the sensing part is configured to sense whether the battery piece is jacked up to the position.

Whether the battery piece is jacked up in place or not is sensed by the sensing part, so that equipment can be prevented from being damaged due to misoperation.

Furthermore, the battery piece feeding device comprises two feeding conveying lines, a discharging conveying line, two battery piece jacking mechanisms, two battery box circulation parts and two battery piece carrying mechanisms; the two feeding conveying lines are symmetrically arranged on two sides of one discharging conveying line, the two battery piece jacking mechanisms and the two battery box circulating parts are respectively arranged at the discharging ends of the two feeding conveying lines, and the two battery piece carrying mechanisms are respectively arranged above the two battery piece jacking mechanisms; two material loading transfer chain carry two sets of ally oneself with battery case respectively to two battery piece climbing mechanisms, and two battery piece transport mechanisms carry the battery piece on two battery piece climbing mechanisms to battery piece material level release respectively, and two battery case circulation portions carry two empty ally oneself with battery cases respectively to the unloading transfer chain, and the unloading transfer chain transports empty ally oneself with battery case more and transport away.

Through configuring two battery piece carrying mechanisms and corresponding matched components thereof, at least two groups of battery boxes of four battery pieces can be operated simultaneously or alternately to carry out feeding and discharging circulation, so that quick feeding is realized, and the feeding efficiency of the battery pieces is further improved.

Drawings

Fig. 1 is a schematic perspective view of an alternative embodiment of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a perspective view illustrating a multiple cell cartridge according to the present invention.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a schematic perspective view of a cell lifting mechanism according to the present invention.

Fig. 6 is a front view of fig. 5.

Fig. 7 is a top view of fig. 6.

Fig. 8 is a schematic perspective view of a battery sheet conveying mechanism according to the present invention.

Fig. 9 is a front view of fig. 8.

Fig. 10 is a bottom view of fig. 8.

Fig. 11 is a cross-sectional view of the suction cup of fig. 8.

Fig. 12 is a perspective view of the battery case circulation mechanism according to the present invention.

Fig. 13 is a perspective view of the battery case transfer part in fig. 12.

Fig. 14 is a front view of fig. 13.

In fig. 1 to 2, the present invention includes:

a battery sheet feeding device 1;

the battery piece jacking system comprises a battery piece jacking mechanism 10, a battery box jacking part 11, a lifting cylinder 111, a jacking plate 112, a bearing plate jacking part 12, a first top plate 121, a connecting plate 122, a guide post 123, a lifting plate 124 and a lifting motor 125;

the battery piece conveying mechanism 20, the battery piece lifting part 21, the rotating part 22, the adsorption part 23, the adsorption bracket 231, the sucker assembly 232, the sucker 233, the sucker body 234, the air blowing structure 235 and the air blowing pipeline 236;

a battery box circulation mechanism 30, a battery box conveying part 31, a feeding conveying line 311, a blanking conveying line 312, a battery box circulation part 32, a battery box lifting part 321, a transverse moving part 322, a second top plate 323, a positioning pin 324, a wind knife assembly 33 and a sensing part 34;

the multi-connection battery box comprises a multi-connection battery box 100, a bottom plate 101, a baffle plate 102, an accommodating space 103, a bearing plate 104 and a positioning hole 105;

the die pad level 200.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Fig. 1 and 2 show a battery piece feeding device 1 for feeding battery pieces. The battery piece feeding device 1 mainly comprises a battery piece jacking mechanism 10 and a battery piece carrying mechanism 20.

Wherein: the cell jacking mechanism 10 is configured to carry a multi-connected cell box 100 capable of loading at least two groups of cells simultaneously and jack up each group of cells in the multi-connected cell box 100;

the cell handling mechanism 20 is configured to simultaneously suck up an uppermost one of the battery cells in each group of the battery cells that are lifted up in the multi-pack case 100, and handle at least two battery cells to the cell loading position 200 to be released.

Through the cooperation of the cell jacking mechanism 10 and the cell carrying mechanism 20, at least two cells are carried to the cell loading position 200 at each time, and the cell loading efficiency can be improved exponentially.

Fig. 3 and 4 show an alternative embodiment of the multiple battery pack 100. The multi-pack case 100 may simultaneously accommodate a plurality of sets of battery cells. The multi-connected battery box 100 comprises a bottom plate 101 and a plurality of baffle plates 102, wherein the plurality of baffle plates 102 are fixedly connected above the bottom plate 101 to form a plurality of accommodating spaces 103 for accommodating battery pieces, and two accommodating spaces 103 are shown in the figure and can simultaneously accommodate two groups of battery pieces. The bottom of each accommodating space 103 is provided with a bearing plate 104, and the bearing plate 104 is used for bearing the battery piece and can be jacked up. A plurality of positioning holes 105 for positioning are also provided on the base plate.

As shown in fig. 5 to 7, as an alternative embodiment, the cell lifting mechanism 10 includes a cell box lifting portion 11 and a bearing plate lifting portion 12, the cell box lifting portion 11 is mounted on a movable part of the bearing plate lifting portion 12; the battery case lifting part 11 is configured to lift up the battery case, and the carrier plate lifting part 12 is configured to lift up the carrier plate 104 in the multi-pack case 100 together with the battery cells.

The battery piece is lifted by matching the battery box lifting part 11 with the bearing plate lifting part 12, so that the battery piece is ready for the battery piece conveying mechanism 20 to convey the battery piece.

In this embodiment, the battery pack lifting unit 11 includes a lifting cylinder 111 and a lifting plate 112, and the lifting plate 112 is attached to a piston rod of the lifting cylinder 111. The two lifting cylinders 111 are symmetrically arranged on the lifting plate 124 of the lifting part 12 of the bearing plate.

In this embodiment, the carrier plate lift portion 12 includes a first top plate 121, a connecting plate 122, guide posts 123, a lift plate 124, and a lift motor 125, the lift plate 124 is mounted on an output shaft of the lift motor 125, the connecting plate 122 is mounted on the lift plate 124 through a plurality of guide posts 123, and a plurality of first top plates 121 (the number of the first top plates 121 is the same as the number of the accommodating spaces 103 of the multiple battery pack 100, and two in the illustrated embodiment) are mounted on the connecting plate 122 through connecting rods.

The multi-connected battery box 100 is jacked up by the lifting cylinder 111, and the first top plate 121 is driven by the lifting motor 125 to move upwards, so that the bearing plate 104 in the multi-connected battery box 100 and the battery piece are jacked up to the sensing position of the sensing part 34. The lifting motor 125 drives the first top plate 121 to move up and down, and slowly descends along with the decrease of the battery pieces.

As shown in fig. 8, 9 and 10, as an alternative embodiment, the cell conveying mechanism 20 includes a cell lifting unit 21, a rotating unit 22 and an adsorbing unit 23, the adsorbing unit 23 is mounted on a movable part of the rotating unit 22, and the rotating unit 22 is mounted on a movable part of the cell lifting unit 21; the cell lifting unit 21 drives the rotation unit 22 to lift, and the rotation unit 22 drives the adsorption unit 23 to rotate.

Adsorb the battery piece through absorption portion 23, drive the battery piece through battery piece lift portion 21 and rise, make the battery piece rotate to battery piece material level 200 through rotating part 22 and realize the material loading.

In this embodiment, the suction portion 23 optionally includes a suction frame 231 and at least one set of chuck assemblies 232, and in the illustrated embodiment includes two sets of chuck assemblies 232. Each group of sucker components 232 is arranged below the adsorption bracket 231, and each group of sucker components 232 comprises two suckers 233.

Each group of sucker assemblies 232 can adsorb two battery pieces through two suckers 233, so that the battery pieces can be stably and reliably adsorbed, and the battery pieces can be prevented from falling. Adopt two sets of sucking disc subassemblies 232, can adsorb the battery piece in turn, shorten latency, improve material loading efficiency.

As shown in FIG. 11, in one embodiment, the suction cup 233 includes a suction cup body 234 and a blow-off structure 235; the air blowing structure 235 is configured to form a vacuum between the cell piece and the bottom surface of the suction cup body 234 when the suction cup 233 sucks the cell piece.

The air pressure between the sucking disc 233 and the battery piece is reduced by configuring the air blowing structure 235, so that a pressure difference is generated between the lower side of the battery piece and the upper side of the battery piece, the battery piece is adsorbed to a batch judgment by utilizing the atmospheric pressure, the sucking disc 233 is prevented from extruding the battery piece, and the battery piece is prevented from being damaged.

Optionally, the air blowing structure 235 includes an air blowing pipe 236 disposed in the suction cup body 234 and opened at the bottom surface of the suction cup body 234.

By arranging the blowing lines 236 of the blowing structure 235 in the suction cup body 234, the volume of the suction cup 233 can be reduced, and the interference of the external blowing lines 236 can be prevented.

As shown in fig. 1 and 2, the battery sheet feeding device 1 may further include a battery case circulation mechanism 30. As shown in fig. 12, as an alternative embodiment, the battery box circulation mechanism 30 includes a battery box conveying part 31 and a battery box circulation part 32, and the battery box conveying part 31 includes a feeding conveying line 311 and a discharging conveying line 312; the feeding conveyor line 311 is configured to convey the multi-pack battery pack 100 with fully loaded battery cells to the cell sheet jacking mechanism 10, the battery pack circulation unit 32 is configured to convey the empty multi-pack battery pack 100 from the cell sheet jacking mechanism 10 to the discharging conveyor line 312, and the discharging conveyor line 312 is configured to convey the empty multi-pack battery pack 100 away.

Through configuration battery case circulation mechanism 30, make no-load battery case and full-load battery case form the circulation and circulate, can improve the circulation efficiency of battery case.

In this embodiment, the feeding conveyor line 311 and the discharging conveyor line 312 may be any one of the structures in the prior art, such as a belt conveyor.

In this embodiment, alternatively, as shown in fig. 13 and 14, the battery pack transfer part 32 includes a battery pack lifting part 321, a traverse part 322, and a second top plate 323, the second top plate 323 is attached to a movable member of the battery pack lifting part 321, and the battery pack lifting part 321 is attached to a movable member of the traverse part 322; the second top plate 323 is configured to carry and position the multi-cell cartridge 100; the transverse moving part 322 drives the battery box lifting part 321 to translate, and the battery box lifting part 321 drives the second top plate 323 to lift; the battery pack lifting part 321 drives the second top plate 323 to ascend to position and support the multi-connected battery pack 100, and the traverse part 322 drives the battery pack lifting part 321 to translate to laterally transfer the multi-connected battery pack 100.

The battery box is driven to ascend and descend by the battery box ascending and descending part 321, and the battery box is driven to transversely move by the transversely moving part 322, so that the circulation of the battery box is realized.

Alternatively, the battery pack lifting unit 321 may be a lifting cylinder, and the traverse unit 322 may be a traverse cylinder.

Optionally, a positioning pin 324 is disposed on the second top plate 323. The positioning pin 324 corresponds to the positioning hole 105 on the edge of the battery box, and the battery box is driven by the transverse moving cylinder after being inserted into the positioning hole 105, so that the battery box is pulled to the blanking conveying line 312.

Referring again to fig. 12, in one embodiment, the battery box circulation mechanism 30 further includes a fan assembly 33, and the fan assembly 33 is configured to blow air to the battery pieces to blow the battery pieces away from the battery pieces below when the battery pieces are adsorbed by the battery piece handling mechanism 20.

The air knife assembly 33 is arranged to blow air to the battery pieces, so that the battery pieces can be prevented from being adhered, and one battery piece can be adsorbed each time.

Optionally, the battery box circulation mechanism 30 further includes a sensing part 34, and the sensing part 34 is configured to sense whether the battery piece is jacked up. Alternatively, the sensing part 34 employs a correlation photoelectric sensor for sensing the position where the battery piece is lifted.

Whether the battery piece is jacked up in place or not is sensed by the sensing part 34, and equipment can be prevented from being damaged due to misoperation.

As shown in fig. 1 and fig. 2, in one embodiment, the battery piece feeding device 1 includes two feeding conveyor lines 311, one discharging conveyor line 312, two battery piece lifting mechanisms 10, two battery box circulation parts 32, and two battery piece handling mechanisms 20; the two feeding conveying lines 311 are symmetrically arranged on two sides of one blanking conveying line 312, the two cell piece jacking mechanisms 10 and the two battery box circulation parts 32 are respectively arranged at the discharge ends of the two feeding conveying lines 311, and the two cell piece carrying mechanisms 20 are respectively arranged above the two cell piece jacking mechanisms 10; the two feeding conveying lines 311 respectively convey the two groups of multi-connected battery boxes 100 to the two battery piece jacking mechanisms 10, the two battery piece conveying mechanisms 20 respectively convey the battery pieces on the two battery piece jacking mechanisms 10 to the battery piece loading position 200 for releasing, the two battery box circulation parts 32 respectively convey the two empty multi-connected battery boxes 100 to the discharging conveying lines 312, and the discharging conveying lines 312 convey the empty multi-connected battery boxes 100 away.

Through configuring the two battery piece carrying mechanisms 20 and corresponding matched components thereof, at least two groups of battery boxes, namely four battery pieces, can be operated simultaneously or alternately to carry out feeding and discharging circulation, so that quick feeding is realized, and the feeding efficiency of the battery pieces is further improved.

As shown in fig. 1 and 2, the operation process of the battery sheet feeding device 1 is as follows:

1. the battery box circulation mechanism 30 conveys the full-material battery box 100 from the feeding conveying position to the upper part of the battery piece jacking mechanism 10;

2. the cell jacking mechanism 10 lifts the bearing plate 104 at the bottom of the battery box 100;

3. the battery piece conveying mechanism 20 sucks up the battery pieces through the battery piece lifting part 21 and the sucking discs 233, and rotates 180 degrees to perform feeding;

4. the empty battery box 100 is driven by the battery box circulation mechanism 30 to be pulled to the blanking conveying position to carry out blanking of the empty battery box 100.

The utility model has been described above with a certain degree of particularity. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that come within the true spirit and scope of the utility model are desired to be protected. The scope of the utility model is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims

1. The battery piece feeding device is characterized by comprising a battery piece jacking mechanism and a battery piece carrying mechanism; wherein:

the battery piece jacking mechanism is configured to bear a multi-connected battery box capable of loading at least two groups of battery pieces simultaneously and jack up each group of battery pieces in the multi-connected battery box;

the battery piece conveying mechanism is configured to suck up the uppermost battery piece in each group of battery pieces jacked up in the multi-connected battery box at the same time, convey at least two battery pieces to a battery piece material level and release the battery pieces.

2. The battery piece feeding device according to claim 1, wherein the battery piece jacking mechanism comprises a battery box jacking portion and a bearing plate jacking portion, and the battery box jacking portion is mounted on a movable part of the bearing plate jacking portion;

the battery box lifting part is configured to lift the battery box, and the bearing plate lifting part is configured to lift the bearing plate together with the battery pieces in the multi-connected battery box.

3. The device for feeding battery pieces according to claim 1, wherein the battery piece conveying mechanism includes a battery piece lifting unit, a rotating unit, and an adsorbing unit, the adsorbing unit being attached to a movable member of the rotating unit, and the rotating unit being attached to a movable member of the battery piece lifting unit;

the battery piece lift portion drives the rotating part goes up and down, the rotating part drives the absorption portion is rotatory.

4. The battery piece feeding device according to claim 3, wherein the adsorption part comprises an adsorption bracket and at least one set of sucker components, each set of sucker components is installed below the adsorption bracket, and each set of sucker components comprises two suckers.

5. The battery piece feeding device according to claim 4, wherein the suction cup comprises a suction cup body and a blowing structure; the air blowing structure is configured to reduce air pressure between the battery piece and the bottom surface of the suction cup body when the suction cup adsorbs the battery piece.

6. The battery piece feeding device according to claim 5, wherein the blowing structure comprises a blowing pipe provided in the suction cup body and opened at a bottom surface of the suction cup body.

7. The battery piece feeding device according to any one of claims 1 to 6, further comprising a battery box circulating mechanism, wherein the battery box circulating mechanism comprises a battery box conveying part and a battery box circulating part, and the battery box conveying part comprises a feeding conveying line and a discharging conveying line;

the battery pack transferring part is configured to transfer an empty multi-connected battery pack from the battery piece jacking mechanism to the blanking conveying line, and the blanking conveying line is configured to convey the empty multi-connected battery pack away.

8. The battery pack loading apparatus according to claim 7, wherein the battery pack circulating section includes a battery pack lifting section, a traverse section, and a top plate, the top plate being mounted on a movable part of the battery pack lifting section, the battery pack lifting section being mounted on a movable part of the traverse section; the top plate is configured to carry and position the multi-cell cartridge;

the transverse moving part drives the battery box lifting part to translate, and the battery box lifting part drives the top plate to lift;

the battery box lifting part drives the top plate to ascend so as to position and bear the multi-connected battery box, and the transverse moving part drives the battery box lifting part to translate so as to transversely transfer the multi-connected battery box.

9. The battery piece feeding device according to claim 7, wherein the battery box circulating mechanism further comprises a wind knife assembly configured to blow air to the battery piece when the battery piece carrying mechanism adsorbs the battery piece so as to blow the battery piece away from the battery piece below.

10. The battery tab loading device of claim 7, wherein the battery compartment circulation mechanism further comprises a sensing part configured to sense whether the battery tab is jacked up into place.

11. The battery piece feeding device according to claim 7, wherein the battery piece feeding device comprises two feeding conveying lines, one discharging conveying line, two battery piece jacking mechanisms, two battery box circulation parts and two battery piece carrying mechanisms;

the two feeding conveying lines are symmetrically arranged on two sides of one discharging conveying line, the two cell piece jacking mechanisms and the two battery box circulating parts are respectively arranged at the discharging ends of the two feeding conveying lines, and the two cell piece carrying mechanisms are respectively arranged above the two cell piece jacking mechanisms;

two the material loading transfer chain carries two sets of ally oneself with battery case to two respectively battery piece climbing mechanism, two battery piece transport mechanism is respectively with two battery piece transport to battery piece material level release on the battery piece climbing mechanism, two battery case circulation portion is respectively with two empty ally oneself with battery case carry respectively to the unloading transfer chain, the unloading transfer chain will empty ally oneself with the battery case transports away.