CN218482264U - Battery piece processing apparatus - Google Patents

Abstract

The utility model provides a battery piece processing apparatus, including battery piece material loading guiding mechanism, conveying mechanism, seal tin cream mechanism, burst mechanism and battery piece unloading mechanism, wherein: the battery piece feeding adjusting mechanism picks up the battery pieces from the battery box, adjusts the positions of the battery pieces and feeds the battery pieces with the adjusted positions onto the conveying mechanism; the conveying mechanism conveys the battery pieces, and a tin printing station and a piece separating station are arranged on a conveying path of the conveying mechanism; the solder paste printing mechanism prints solder paste on the battery piece at the solder printing station; the slicing mechanism carries out slicing processing on the battery slices positioned at the slicing station to obtain battery slice halves; the battery piece blanking mechanism is used for taking the battery piece half piece away from the conveying mechanism. The utility model discloses not only accomplish the tin cream printing to the battery piece, still realized the branch to the battery piece. In the whole treatment process, the battery pieces are kept on the conveying mechanism, so that the continuous completion of solder paste printing and piece separation is realized, and the treatment efficiency is improved.

Description

Battery piece processing apparatus

Technical Field

The utility model belongs to the technical field of battery production and specifically relates to a battery piece processing apparatus.

Background

In the production process of the battery, before processes such as lamination, series welding and the like are carried out, a large-size battery piece is often required to be cut into small-size battery piece halves, and then solder paste is printed on welding points of the battery piece halves.

The conventional treatment mode is that a dicing machine is used for cutting a whole battery piece into two battery piece halves, and then a solder paste printing machine is used for printing solder paste on the battery piece halves piece by piece, so that the treatment efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a battery piece processing apparatus, it adopts following technical scheme:

the utility model provides a battery piece processing apparatus, includes battery piece material loading guiding mechanism, conveying mechanism, seal tin cream mechanism, burst mechanism and battery piece unloading mechanism, wherein:

the battery piece feeding adjusting mechanism is used for picking up the battery pieces from the battery box, adjusting the positions of the battery pieces and feeding the battery pieces with the adjusted positions onto the conveying mechanism;

the conveying mechanism is used for conveying the battery pieces, and a tin printing station and a piece separating station are arranged on a conveying path of the conveying mechanism;

the solder paste printing mechanism is used for printing solder paste on the battery piece positioned at the solder printing station;

the slicing mechanism is used for slicing the battery piece positioned at the slicing station to obtain a battery piece half piece;

the battery piece blanking mechanism is used for taking the battery piece half piece away from the conveying mechanism.

The utility model provides a battery piece processing apparatus has not only accomplished the tin cream printing to the battery piece, has still realized the burst to the battery piece, has promoted the treatment effeciency to the battery piece. In addition, in the whole processing procedure, the battery piece is kept on the conveying mechanism, namely, the conveying mechanism is used for serially connecting the solder paste printing mechanism and the piece separating mechanism, so that the continuous completion of solder paste printing and piece separating is realized, and the processing efficiency is further improved.

In some embodiments, the battery piece feeding adjustment mechanism comprises a first carrying mechanism, a position adjustment mechanism and a second carrying mechanism, wherein: the first carrying mechanism is used for picking up the battery pieces from the battery box and carrying the picked battery pieces to the position adjusting mechanism; the position adjusting mechanism is used for adjusting the position of the battery piece; and the second carrying mechanism is used for feeding the battery piece after the position adjustment to the conveying mechanism.

Through the cooperation of first transport mechanism, position adjustment mechanism and second transport mechanism, battery piece material loading guiding mechanism has realized getting the material of battery piece, the continuous operation of adjustment and material loading, has promoted battery piece adjustment, material loading efficiency.

In some embodiments, the battery piece processing device further comprises a separation paper recycling mechanism; the first carrying mechanism is also used for picking up the isolation paper placed on the battery piece from the battery box and carrying the picked isolation paper to the isolation paper recycling mechanism.

The automatic removal and recovery of the isolation paper on the battery piece is achieved, and the feeding efficiency of the battery piece feeding adjusting mechanism is improved.

In some embodiments, the first handling mechanism comprises a first translation mechanism, a first lifting mechanism, a first suction portion, and a second suction portion, wherein: the first lifting mechanism is connected to the movable part of the first translation mechanism, and the first suction part and the second suction part are arranged on the movable part of the first lifting mechanism side by side; the first sucking part is used for picking up the battery piece from the battery box under the driving of the first translation mechanism and the first lifting mechanism and conveying the picked battery piece to the position adjusting mechanism; the second suction part is used for picking up the isolation paper placed on the battery piece from the battery box under the driving of the first translation mechanism and the first lifting mechanism and conveying the picked isolation paper to the isolation paper recovery mechanism.

Under the drive of the first translation mechanism and the first lifting mechanism, when the first suction part conveys the battery piece in the battery box to the position adjusting mechanism, the second suction part synchronously conveys the isolation paper on the battery piece in the battery box to the isolation paper recovery mechanism, and the battery piece feeding efficiency is further improved.

In some embodiments, the first suction part comprises two first suction disc assemblies arranged side by side, and each first suction disc assembly is used for sucking one battery piece; the second portion of absorbing includes two second sucking disc subassemblies that set up side by side, and every second sucking disc subassembly all is used for absorbing a slice barrier paper.

Through absorbing the portion with first portion, second and setting up to include two sucking disc subassemblies for the getting of two battery pieces can be accomplished simultaneously to first portion of absorbing, the second absorbs the portion and can accomplish getting of two barrier papers getting simultaneously, thereby further promotes and gets piece efficiency.

In some embodiments, the position adjusting mechanism includes at least one three-axis adjusting platform for carrying the battery piece and adjusting the position of the battery piece in the horizontal direction and/or the angle of the battery piece in the horizontal direction.

Through the three-axis adjusting platform, the position of the battery piece in the horizontal direction and/or the angle of the battery piece in the horizontal direction are/is adjusted, so that the battery piece can be arranged to meet the requirements of tin printing and slicing.

In some embodiments, the position adjusting mechanism includes two three-axis adjusting platforms arranged side by side, and the first carrying mechanism loads two battery pieces onto the two three-axis adjusting platforms respectively at a time.

Through setting up two triaxial adjustment platforms side by side, can realize the synchronous adjustment to two battery pieces, promote adjustment efficiency.

In some embodiments, the solder paste printing mechanism includes a mounting frame, a printing screen, a translation drive mechanism, and a squeegee assembly, wherein: the printing screen is inserted on the mounting frame; the translation driving mechanism is arranged on the mounting frame and is positioned above the printing screen; the scraper component is connected to the driving end of the translation driving mechanism and is in contact with the printing screen, and the translation driving mechanism is used for driving the scraper component to translate so as to print the solder paste on the battery piece through the printing screen. Scraper subassembly includes first lift actuating mechanism, second lift actuating mechanism, first scraper and second scraper, wherein: the first lifting driving mechanism and the second lifting driving mechanism are connected to the driving end of the translation driving mechanism, the first scraper is connected to the driving end of the first lifting driving mechanism, and the second scraper is connected to the driving end of the second lifting driving mechanism; the translation driving mechanism is used for driving the first scraper and the second scraper to translate synchronously, the first lifting driving mechanism is used for driving the first scraper to lift, and the second lifting driving mechanism is used for driving the second scraper to lift.

The first scraper and the second scraper can alternately perform tin printing operation on the battery piece under the driving of the translation driving mechanism, the first lifting driving mechanism and the second lifting driving mechanism, and the tin printing efficiency is improved.

In some embodiments, the slicing mechanism comprises a slotted laser and a sliced laser, wherein: the slotting laser is used for forming a slitting groove on the surface of the battery piece; the splitting laser is used for heating and splitting the cell along the splitting groove to obtain a half cell.

The utility model provides a laser slicing mechanism, it has realized the automatic scribing to the battery piece through the cooperation of fluting laser instrument, splitting laser instrument.

In some embodiments, the dicing mechanism further comprises a cooling assembly for cooling the cell pieces as the dicing laser dice the cell pieces.

Through setting up cooling module, realized the cooling to the battery piece. In some embodiments, the battery piece blanking mechanism comprises a second translation mechanism, a second lifting mechanism, a spacing driving mechanism, a third sucker assembly and a fourth sucker assembly, wherein: the second lifting mechanism is connected to the movable part of the second translation mechanism, and the spacing driving mechanism is connected to the movable part of the second lifting mechanism; the third sucker assembly and the fourth sucker assembly are respectively connected to two driving ends of the spacing driving mechanism, the third sucker assembly and the fourth sucker assembly respectively suck a half battery piece from the conveying mechanism under the driving of the second translation mechanism and the second lifting mechanism, and the spacing driving mechanism is used for driving the third sucker assembly and the fourth sucker assembly to get close or separate so as to adjust the distance between the two half battery pieces adsorbed on the third sucker assembly and the fourth sucker assembly.

Through the cooperation of the second translation mechanism, the second lifting mechanism and the distance division driving mechanism, the third sucker assembly and the fourth sucker assembly are driven to move, the synchronous blanking of two half battery pieces is realized, and the distance adjustment between the two half battery pieces is realized.

In some embodiments, the transport mechanism comprises a third translation mechanism and a load-bearing platform, wherein: the bearing platform is connected to a movable part of the third translation mechanism, and the third translation mechanism is used for driving the bearing platform to translate so as to convey the battery piece borne on the bearing platform to the tin printing station and the piece separating station.

The third translation mechanism drives the bearing platform to translate, translation conveying of the battery piece is achieved, and the battery piece can be conveyed to the tin printing station and the slicing station in a translation mode.

In some embodiments, the conveying mechanisms are two, the two conveying mechanisms cyclically and alternately complete the reciprocating conveying from the battery piece feeding adjusting mechanism to the battery piece discharging mechanism, and the bearing platform comprises a third lifting mechanism and a bearing plate, wherein: the third lifting mechanism is connected to the movable part of the third translation mechanism, and the bearing plate is connected to the movable part of the third lifting mechanism; the bearing plate is used for bearing the battery piece, and the third lifting mechanism is used for driving the bearing plate to lift.

Two conveying mechanism accomplish alternately and pick up the battery piece from battery piece material loading guiding mechanism to carry the battery piece to seal tin station, burst station department, thereby promoted the utility model discloses a battery piece treatment effeciency. And through setting up third elevating system, realized the lift drive to the loading board.

Drawings

Fig. 1 is a schematic structural diagram of a battery plate processing apparatus provided by the present invention;

fig. 2 is a schematic structural view of a first conveying mechanism in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a position adjustment mechanism in an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a conveying mechanism in an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a solder paste printing mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a slicing mechanism in an embodiment of the present invention;

fig. 7 is a schematic structural view of a battery box conveying mechanism according to an embodiment of the present invention;

battery piece material loading guiding mechanism 1:

a first conveying mechanism 11, a position adjusting mechanism 12, and a second conveying mechanism 13;

a first translation mechanism 111, a first lifting mechanism 112, a first suction part 113, a second suction part 114, a first three-axis adjusting platform 121, and a second three-axis adjusting platform 122;

the conveying mechanism 2:

the third translation mechanism 21, the carrying platform 22, the mounting base 23, the third lifting mechanism 221 and the carrying plate 222; and (3) a solder paste printing mechanism:

the device comprises a mounting frame 31, a printing screen 32, a translation driving mechanism 33 and a scraper component 34;

the slicing mechanism 4:

a slotted laser 41, a split laser 42;

a battery piece blanking mechanism 5;

a separator paper recovery mechanism 6;

battery box transmission device 7:

an upper layer conveying part 71, a battery box lifting part 72, a lower layer conveying part 73 and a jacking mechanism 74.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the following detailed description. It should be noted that the drawings hide some of the connecting structures in order to facilitate viewing of various features described herein.

As shown in fig. 1, the utility model provides a battery piece processing apparatus, including battery piece material loading guiding mechanism 1, conveying mechanism 2, seal tin cream mechanism 3, burst mechanism 4 and battery piece unloading mechanism 5, wherein:

the battery piece feeding adjusting mechanism 1 is used for picking up battery pieces from a battery box, adjusting the positions of the battery pieces and feeding the battery pieces with the adjusted positions onto the conveying mechanism 2.

Conveying mechanism 2 is used for carrying the battery piece, is equipped with on conveying mechanism 2's the transport path and prints tin station and burst station.

The solder paste printing mechanism 3 is used for printing solder paste on the battery piece positioned at the solder printing station;

the slicing mechanism 4 is used for slicing the battery pieces positioned at the slicing station to obtain two battery piece halves.

The battery piece blanking mechanism 5 is used for taking the battery piece half piece from the conveying mechanism 2.

Optionally, the seal tin station is in the front of burst station, the utility model discloses a battery piece processing apparatus's working process as follows:

the battery piece feeding adjusting mechanism 1 picks up the battery piece from the battery box, adjusts the position of the battery piece, and feeds the battery piece after the position adjustment to the conveying mechanism 2.

The conveying mechanism 2 conveys the battery piece to a tin printing station, and tin printing is carried out on the battery piece by the tin paste printing mechanism 3. The conveying mechanism 2 continues to convey the battery pieces subjected to tin printing to the piece separating station, and the piece separating mechanism 4 separates the battery pieces subjected to tin printing, so that two battery piece separation pieces are obtained.

Finally, the battery piece blanking mechanism 5 takes the two battery piece halves from the conveying mechanism 2.

Of course, the slicing station can also be arranged in front of the tin printing station. At this time, the conveying mechanism 2 conveys the battery pieces to the piece separating station, and the piece separating mechanism 4 separates the battery pieces, so that two battery piece separation pieces are obtained. Subsequently, the conveying mechanism 2 conveys the two battery pieces to a tin printing station in a splitting manner, and the tin printing mechanism 3 performs tin printing on the two battery pieces in a splitting manner.

It is visible, the utility model provides a battery piece processing apparatus has not only accomplished the tin cream printing to the battery piece, has still realized the burst to the battery piece, has promoted the treatment effeciency to the battery piece. In addition, in the whole processing process, the battery piece is kept on the conveying mechanism 2, namely, the conveying mechanism 2 is used for serially connecting the solder paste printing mechanism 3 and the piece separating mechanism 4, so that the continuous completion of solder paste printing and piece separation is realized, and the processing efficiency is further improved.

As shown in fig. 1, optionally, the battery piece feeding adjustment mechanism 1 includes a first conveying mechanism 11, a position adjustment mechanism 12, and a second conveying mechanism 13, wherein: the first conveying mechanism 11 is used for picking up the battery piece from the battery box and conveying the picked-up battery piece to the position adjusting mechanism 12. The position adjustment mechanism 12 is used to adjust the position of the battery piece. The second conveying mechanism 13 is used for feeding the battery piece whose position is adjusted to the conveying mechanism 2. Through the cooperation of the first carrying mechanism 11, the position adjusting mechanism 12 and the second carrying mechanism 13, the battery piece feeding adjusting mechanism 1 realizes the continuous and automatic completion of the taking, the adjusting and the feeding of the battery pieces, and the feeding efficiency of the battery pieces is improved.

In order to prevent the adhesion between the battery cells in the battery case, a separator is generally interposed between the adjacent battery cells when the battery cells are stacked in the battery case. Therefore, when taking the battery piece, the release paper needs to be removed first. Optionally, as shown in fig. 1, the battery sheet processing apparatus of the present invention further includes a separator paper recycling mechanism 6, and the first carrying mechanism 11 is further configured to pick up the separator paper placed on the battery sheet from the battery box, and carry the picked-up separator paper to the separator paper recycling mechanism 6.

As shown in fig. 2, optionally, the first carrying mechanism 11 includes a first translation mechanism 111, a first lifting mechanism 112, a first suction part 113 and a second suction part 114, wherein: the first lifting mechanism 112 is connected to the movable member of the first translation mechanism 111, and the first suction part 113 and the second suction part 114 are mounted side by side on the movable member of the first lifting mechanism 112. Wherein: the first suction unit 113 is driven by the first translation mechanism 111 and the first lifting mechanism 112 to pick up a battery piece from the battery box and convey the picked-up battery piece to the position adjustment mechanism 12. The second suction portion 114 is used for picking up the separator placed on the battery piece from the battery box by the driving of the first translation mechanism 111 and the first lifting mechanism 112, and conveying the picked-up separator to the separator recovery mechanism 6.

When the first suction part 113 conveys the battery pieces in the battery box to the position adjusting mechanism 12 under the driving of the first translation mechanism 111 and the first lifting mechanism 112, the second suction part 114 can synchronously convey the isolation paper on the battery pieces in the battery box to the isolation paper recovery mechanism 5, thereby improving the material taking efficiency of the battery pieces.

Optionally, the position adjusting mechanism 12 is a three-axis adjusting platform, and the three-axis adjusting platform is used for bearing the battery piece and adjusting the position of the battery piece in the horizontal direction and/or the angle of the battery piece in the horizontal direction, so as to complete the positioning adjustment of the battery piece, and the positioning of the battery piece meets the printing requirement of the solder paste printing mechanism 3. Therefore, after the battery piece is conveyed to the tin printing station by the conveying mechanism 2, the tin paste printing mechanism 3 can implement glue applying operation on the battery piece.

Optionally, as shown in fig. 3, the position adjustment mechanism 12 includes two three-axis adjustment platforms arranged side by side, which are a first three-axis adjustment platform 121 and a second three-axis adjustment platform 122, respectively. The first carrying mechanism 11 respectively feeds two battery pieces to the first triaxial adjustment platform 121 and the second triaxial adjustment platform 122 at a time, and the first triaxial adjustment platform 121 and the second triaxial adjustment platform 122 synchronously implement position adjustment of the two battery pieces. The second conveying mechanism 13 feeds the two battery pieces whose positions have been adjusted to the conveying mechanism 2.

As shown in fig. 4, the conveying mechanism 2 includes a third translation mechanism 21 and a loading platform 22, in which: the load bearing platform 22 is connected to the movable part of the third translation mechanism 21. The carrying platform 22 is used for carrying the battery piece, and the third translation mechanism 21 is used for driving the carrying platform 22 to translate so as to convey the battery piece carried on the carrying platform 22 to the tin printing station and the piece separating station.

Optionally, the supporting platform 22 includes a third lifting mechanism 221 and a supporting plate 222, wherein: the third elevating mechanism 221 is connected to the movable part of the third translation mechanism 21, and the carrier plate 222 is connected to the movable part of the third elevating mechanism 221. The bearing plate 222 is used for bearing the battery pieces, and the third lifting mechanism 221 is used for driving the bearing plate 222 to lift, so as to realize height adjustment of the battery pieces borne on the bearing plate 222.

For example, when the carrying platform 22 moves to the solder printing station, the third lifting mechanism 221 drives the carrying plate 222 to lift, so that the distance between the battery piece carried on the carrying plate 222 and the solder paste printing mechanism 3 satisfies the solder printing requirement. For another example, when the supporting platform 22 moves to the slicing station, the third lifting mechanism 221 drives the supporting plate 222 to lift, so that the distance between the battery piece supported on the supporting plate 222 and the slicing mechanism 4 satisfies the slicing requirement.

As shown in fig. 4, alternatively, two conveying mechanisms are provided, and the two conveying mechanisms cyclically and alternately complete the reciprocating conveying from the cell feeding adjusting mechanism 1 to the cell discharging mechanism 5. Two conveying mechanism accomplish alternately and pick up the battery piece from battery piece material loading guiding mechanism 1 to carry the battery piece to seal tin station, burst station department, thereby promoted the utility model discloses a battery piece treatment effeciency.

Optionally, the two conveying mechanisms are integrally mounted on the same mounting base 23, and in order to prevent interference between the two conveying mechanisms, optionally, the third translation mechanism 21 of one of the conveying structures is disposed on a first side wall of the mounting base 23, and the third translation mechanism 21 of the other conveying structure is disposed on a second side wall of the mounting base 23 opposite to the first side wall.

As shown in fig. 5, the solder paste printing mechanism 3 optionally includes a mounting frame 31, a printing screen 32, a translational driving mechanism 33 and a scraper assembly 34, wherein: the printing screen 32 is inserted into the mounting frame 31. A translation drive mechanism 33 is mounted on the mounting frame 31 above the printing screen 32. The squeegee assembly 34 is connected to a driving end of the translation driving mechanism 33 and contacts the printing screen 33, and the translation driving mechanism 31 is used for driving the squeegee assembly 34 to translate so as to print the solder paste onto the battery plate at the solder printing station through the printing screen.

Optionally, the printing screen 32 is rotatably inserted into the mounting frame 31. The solder paste printing mechanism 3 further includes a screen angle adjusting mechanism provided on the mounting frame 31. After the conveying mechanism 2 conveys the battery piece to the tin printing station, the screen angle adjusting mechanism can perform angle adjustment on the printing screen 32, so that the printing mesh on the printing screen 32 is completely aligned with the tin printing point on the battery piece.

Optionally, the scraper assembly 34 includes a first lifting driving mechanism, a second lifting driving mechanism, a first scraper and a second scraper, wherein: the first lifting driving mechanism and the second lifting driving mechanism are connected to the driving end of the translation driving mechanism 33, the first scraper is connected to the driving end of the first lifting driving mechanism, and the second scraper is connected to the driving end of the second lifting driving mechanism. The translation driving mechanism 33 is used for driving the first scraper and the second scraper to translate synchronously, the first lifting driving mechanism is used for driving the first scraper to lift, and the second lifting driving mechanism is used for driving the second scraper to lift.

The tin printing process of the doctor assembly 34 is as follows:

before the tin printing operation, the first scraper and the second scraper are both located on the first side of the printing screen 32, and both the first scraper and the second scraper are located at a high position far away from the printing screen 32.

Printing for the first time: first, the first lifting driving mechanism drives the first scraper to descend to a low position, so that the first scraper abuts against the printing screen 32. Then, the translation driving mechanism 33 synchronously drives the first scraper and the second scraper to move to the second side of the printing screen 32, in this process, the first scraper finishes the first printing, and the solder paste on the printing screen 32 is scraped to be printed on one or two battery pieces currently located at the solder printing station. The printed cell is transported away and then one or two more cells are brought to the solder station.

And (3) second printing: the first lifting driving mechanism drives the first scraper to ascend and reset, and the second lifting driving mechanism drives the second scraper to descend to a low position, so that the second scraper is abutted to the printing screen 32. Then, the translation driving mechanism 33 synchronously drives the first scraper and the second scraper to move to the first side of the printing screen 32, in this process, the second scraper completes the second printing, and the solder paste on the printing screen 32 is scraped and printed on the battery piece.

Therefore, the translation driving mechanism 33 drives the first scraper and the second scraper to reciprocate once, so that two tin printing operations can be continuously completed. Namely, the first scraper and the second scraper alternately perform tin printing operation on the battery piece, and the tin printing efficiency is improved.

In this embodiment, before the solder printing station is located at the slicing station, the solder paste is printed on the battery pieces by the solder paste printing mechanism, and then the battery pieces printed with the solder paste are sliced by the slicing mechanism to obtain two half battery pieces printed with the solder paste; in another practical embodiment, after the solder printing station is located at the slicing station, the cell pieces are sliced by the slicing mechanism to obtain two half cell pieces, and then solder paste is printed on the two half cell pieces by the solder paste printing mechanism to obtain two half cell pieces printed with the solder paste.

As shown in fig. 6, the slicing mechanism 4 includes a slotted laser 41 and a sliced laser 42, wherein: the grooving laser 41 is used to form a cutting groove on the surface of the cell piece. The splitting laser 43 is used for heating and splitting the cell along the splitting groove, so as to obtain two half cells. Optionally, the slicing mechanism 4 further includes a cooling assembly for cooling the cell slice when the splitting laser 42 splits the cell slice.

Optionally, battery piece unloading mechanism 5 includes second translation mechanism, second elevating system, minute distance actuating mechanism, third sucking disc subassembly and fourth sucking disc subassembly, wherein: the second lifting mechanism is connected to the movable part of the second translation mechanism, and the spacing driving mechanism is connected to the movable part of the second lifting mechanism.

The third sucker assembly and the fourth sucker assembly are respectively connected to two driving ends of the spacing driving mechanism, and the third sucker assembly and the fourth sucker assembly respectively suck a half cell from the conveying mechanism 2 under the driving of the second translation mechanism and the second lifting mechanism, and finally transfer the two half cells to a next station. The distance-dividing driving mechanism is used for driving the third sucker component and the fourth sucker component to be close to or separate from each other so as to adjust the distance between the two battery piece halves adsorbed on the third sucker component and the fourth sucker component.

Continuing to refer to fig. 1, optionally, the battery piece processing apparatus of the present invention further includes a battery box transmission mechanism 7, the battery box transmission mechanism 7 is used for conveying the battery box with the battery pieces to the loading station, and the battery piece loading adjustment mechanism 1 picks up the battery pieces from the battery box at the loading station. The battery box transmission mechanism 7 is also used for continuously conveying the emptied battery box to a blanking station positioned at the rear of the feeding station, and the battery piece blanking mechanism 5 is used for placing half battery pieces picked up from the conveying mechanism 2 into the battery box at the blanking station.

Optionally, the battery box transmission mechanism 7 includes an upper layer conveying part 71, a battery box lifting part 72 and a lower layer conveying part 73, wherein: the lower layer conveying section 73 is located below the upper layer conveying section 71. The upper layer transfer part 71 is used to transfer the battery cartridge containing the battery pieces to the loading station, and to transfer the emptied battery cartridge to the battery cartridge lifting part 72. The battery pack lifting and lowering unit 72 is arranged to be vertically movable upward and downward, and receives the emptied battery pack discharged from the upper transport unit 71 when the battery pack lifting and lowering unit 72 is raised to the high position. When the battery pack lifting and lowering section 72 is lowered to the low position, the emptied battery pack is output to the lower layer conveying section 73, and the lower layer conveying section 73 conveys the emptied battery pack to the discharging station.

Optionally, the battery box transmission mechanism 7 is further provided with a jacking mechanism 74 below the upper layer conveying part 71, and the jacking mechanism 74 is used for jacking up the battery piece in the battery box located at the feeding station, so as to jack the battery piece up out of the battery box, so that the battery piece feeding adjustment mechanism 1 can smoothly pick up the battery piece in the battery box.

The invention has been described above with a certain degree of particularity sufficient to make a detailed description thereof. It will be understood by those of ordinary skill in the art that the descriptions of the embodiments are merely exemplary and that all changes and modifications made without departing from the true spirit and scope of the present invention are intended to be covered by the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (13)

1. The utility model provides a battery piece processing apparatus, its characterized in that, battery piece processing apparatus includes battery piece material loading guiding mechanism, conveying mechanism, seal tin cream mechanism, burst mechanism and battery piece unloading mechanism, wherein:

the battery piece feeding adjusting mechanism is used for picking up battery pieces from the battery box, adjusting the positions of the battery pieces and feeding the battery pieces with the positions adjusted to the conveying mechanism;

the conveying mechanism is used for conveying the battery pieces, and a tin printing station and a piece separating station are arranged on a conveying path of the conveying mechanism;

the solder paste printing mechanism is used for printing solder paste on the battery piece positioned at the solder printing station;

the slicing mechanism is used for slicing the battery piece positioned at the slicing station to obtain a battery piece half piece;

the battery piece blanking mechanism is used for taking half battery pieces away from the conveying mechanism.

2. The battery piece processing apparatus of claim 1, wherein the battery piece loading adjusting mechanism comprises a first conveying mechanism, a position adjusting mechanism and a second conveying mechanism, wherein:

the first carrying mechanism is used for picking up the battery piece from the battery box and carrying the picked battery piece to the position adjusting mechanism;

the position adjusting mechanism is used for adjusting the position of the battery piece;

and the second carrying mechanism is used for feeding the battery piece after the position adjustment onto the conveying mechanism.

3. The battery plate processing apparatus of claim 2, wherein the battery plate processing apparatus further comprises a separator paper recovery mechanism;

the first carrying mechanism is also used for picking up the isolation paper placed on the battery piece from the battery box and carrying the picked isolation paper to the isolation paper recycling mechanism.

4. The battery piece processing apparatus according to claim 3, wherein the first conveying mechanism includes a first translation mechanism, a first lifting mechanism, a first suction portion, and a second suction portion, wherein:

the first lifting mechanism is connected to a movable part of the first translation mechanism, and the first suction part and the second suction part are arranged on the movable part of the first lifting mechanism side by side;

the first suction part is used for picking up the battery piece from the battery box under the driving of the first translation mechanism and the first lifting mechanism and conveying the picked battery piece to the position adjusting mechanism; the second suction part is used for picking up the isolation paper placed on the battery piece by the cushion from the battery box under the driving of the first translation mechanism and the first lifting mechanism and conveying the picked-up isolation paper to the isolation paper recovery mechanism.

5. The battery sheet processing apparatus according to claim 4, wherein:

the first suction part comprises two first suction disc assemblies arranged side by side, and each first suction disc assembly is used for sucking one battery piece;

the second suction part comprises two second sucker components arranged side by side, and each second sucker component is used for sucking a piece of isolation paper.

6. The battery plate handling device of claim 2, wherein the position adjustment mechanism comprises at least one three-axis adjustment platform for carrying a battery plate and adjusting the position and/or angle of the battery plate in the horizontal direction.

7. The battery piece handling device of claim 6, wherein the position adjustment mechanism comprises two of the three-axis adjustment platforms arranged side by side, and the first handling mechanism feeds two battery pieces onto the two three-axis adjustment platforms at a time.

8. The battery piece handling device of claim 1, wherein the solder paste printing mechanism comprises a mounting frame, a printing screen, a translation drive mechanism, and a scraper assembly, wherein:

the printing screen is inserted into the mounting frame;

the translation driving mechanism is arranged on the mounting frame and is positioned above the printing screen;

the scraper component is connected to the driving end of the translation driving mechanism and is in contact with the printing screen, and the translation driving mechanism is used for driving the scraper component to translate so as to print solder paste on the battery piece through the printing screen;

the scraper subassembly includes first lift actuating mechanism, second lift actuating mechanism, first scraper and second scraper, wherein:

the first lifting driving mechanism and the second lifting driving mechanism are connected to the driving end of the translation driving mechanism, the first scraper is connected to the driving end of the first lifting driving mechanism, and the second scraper is connected to the driving end of the second lifting driving mechanism;

the translation driving mechanism is used for driving the first scraper and the second scraper to translate synchronously, the first lifting driving mechanism is used for driving the first scraper to lift, and the second lifting driving mechanism is used for driving the second scraper to lift.

9. The battery slice processing apparatus of claim 1, wherein the slicing mechanism comprises a slotted laser and a splitting laser, wherein:

the slotting laser is used for forming a slitting groove on the surface of the cell;

the splitting laser is used for heating and splitting the cell along the splitting groove to obtain the half cell.

10. The battery piece handling device of claim 9, wherein the slicing mechanism further comprises a cooling assembly for cooling the battery piece as the splitting laser slices the battery piece.

11. The battery piece handling device of claim 1, wherein the battery piece blanking mechanism comprises a second translation mechanism, a second lifting mechanism, a spacing drive mechanism, a third chuck assembly, and a fourth chuck assembly, wherein:

the second lifting mechanism is connected to a movable part of the second translation mechanism, and the distance-dividing driving mechanism is connected to the movable part of the second lifting mechanism;

third sucking disc subassembly with fourth sucking disc subassembly is connected respectively on two drive ends of minute distance actuating mechanism, third sucking disc subassembly fourth sucking disc subassembly is in second translation mechanism with follow respectively under second elevating system's the drive conveyor mechanism goes up to absorb one half piece of battery piece, minute distance actuating mechanism is used for the drive third sucking disc subassembly fourth sucking disc subassembly is drawn close or is partd to the adjustment adsorbs third sucking disc subassembly fourth sucking disc subassembly is last two distance between half piece of battery piece.

12. The battery plate handling device of claim 1, wherein the transport mechanism comprises a third translation mechanism and a load-bearing platform, wherein:

the bearing platform is connected to a movable part of the third translation mechanism, and the third translation mechanism is used for driving the bearing platform to translate so as to convey the battery piece borne on the bearing platform to the tin printing station and the piece separating station.

13. The battery piece processing apparatus according to claim 12, wherein the conveying mechanisms are provided in two, the two conveying mechanisms cyclically and alternately perform reciprocating conveying from the battery piece feeding adjusting mechanism to the battery piece discharging mechanism, and the carrying platform comprises a third lifting mechanism and a carrying plate, wherein:

the third lifting mechanism is connected to the movable part of the third translation mechanism, and the bearing plate is connected to the movable part of the third lifting mechanism;

the bearing plate is used for bearing the battery piece, and the third lifting mechanism is used for driving the bearing plate to lift.

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