CN216470933U - Battery piece material receiving and conveying device - Google Patents

Abstract

The utility model provides a battery piece receiving and conveying device which comprises a material box feeding conveying mechanism, a lifting mechanism and a material box discharging conveying mechanism, wherein the material box feeding conveying mechanism comprises a material box feeding conveying mechanism body, a lifting mechanism and a material box discharging conveying mechanism body, and the material box feeding conveying mechanism body comprises: the lifting mechanism comprises a mounting support, a first lifting driving part and a material box bearing platform, wherein the first lifting driving part is arranged on the mounting support, the material box bearing platform is connected to the first lifting driving part, and a material box translation mechanism is arranged on the material box bearing platform; the material box feeding conveying mechanism is close to the lifting mechanism, and when the material box bearing table is driven to descend to a low position by the first lifting driving part, the material box translation mechanism translates the material box input by the material box feeding conveying mechanism onto the material box bearing table; the material box discharging and conveying mechanism is close to the lifting mechanism, and when the material box bearing platform is driven by the first lifting driving part to ascend to a high position, the material box translation mechanism translates material boxes fully stacked with battery pieces onto the material box discharging and conveying mechanism. The automatic feeding device realizes automatic feeding of empty material boxes and automatic discharging of full material boxes, and improves the material receiving efficiency of the battery pieces.

Description

Battery piece material receiving and conveying device

Technical Field

The utility model relates to the field of battery production, in particular to a battery piece receiving and conveying device.

Background

In the production process of the battery assembly, the printed battery pieces need to be stacked in the material box to complete material receiving and storage of the battery pieces. Traditional receipts material mode, generally will empty magazine material loading to receiving the material position through the manual work, treat that the magazine is received full battery piece after, the artifical full magazine that will fill with the battery of rethread takes away in order to accomplish the unloading to full magazine, traditional receipts material mode receive the material inefficiency.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a battery piece receiving and conveying device, which comprises the following detailed technical scheme:

the utility model provides a battery piece receives material conveyor, includes magazine material loading conveyor, elevating system and magazine unloading conveyor, wherein:

the lifting mechanism comprises a mounting support, a first lifting driving part and a material box bearing table, wherein the first lifting driving part is arranged on the mounting support, the material box bearing table is connected to the driving end of the first lifting driving part, and a material box translation mechanism is arranged on the material box bearing table;

the discharging end of the material box feeding conveying mechanism is close to the lifting mechanism, and when the material box bearing table is driven to descend to the low position by the first lifting driving part, the material box translation mechanism translates the material box input by the material box feeding conveying mechanism onto the material box bearing table;

the feeding end of the material box discharging and conveying mechanism is close to the lifting mechanism, when the material box bearing table is driven by the first lifting driving portion to ascend to a high position, the material box translation mechanism translates material boxes fully stacked with battery pieces to the material box discharging and conveying mechanism, and the material box discharging and conveying mechanism outputs the material boxes.

Through the matching of the material box feeding conveying mechanism, the lifting mechanism and the material box discharging conveying mechanism, the automatic feeding of empty material boxes and the automatic discharging of full material boxes are realized, so that the material receiving efficiency of the battery pieces is greatly improved.

In some embodiments, the lifting mechanism further includes a second lifting driving portion, a lifting bearing plate, and a plurality of cell adjustment portions, wherein the second lifting driving portion is disposed on the mounting bracket, the lifting bearing plate is connected to the driving end of the second lifting driving portion, and the plurality of cell adjustment portions are disposed side by side on the lifting bearing plate. The material box bearing table is provided with a plurality of first through holes which are in one-to-one correspondence with the plurality of battery piece adjusting parts, and the material box translation mechanism translates a plurality of material boxes input by the material box feeding conveying mechanism to the positions above the first through holes in one-to-one correspondence. When the second lifting driving part drives the lifting bearing plate to ascend, each battery piece adjusting part respectively upwards penetrates through the corresponding first through hole under the driving of the lifting bearing plate so as to lift and regulate the battery pieces in the material box above the first through holes.

Through the cooperation of the second lifting driving part, the lifting bearing plate and the battery piece adjusting part, the lifting mechanism realizes that: in the process of stacking the battery pieces into the material box, on one hand, the battery pieces in the material box can be driven to descend, so that the battery pieces are smoothly stacked into the material box, and on the other hand, the battery pieces in the material box can be regulated.

In some embodiments, a bottom plate of the material box is provided with a second through hole for the cell adjusting part to pass through, and the cell adjusting part passes through the first through hole upwards and then enters the material box through the second through hole so as to lift and regulate the cells.

Through set up the second through-hole on the bottom plate of magazine for thereby the jacking of battery piece and regular to the implementation in the magazine can upwards be gone into to the battery piece regulation portion.

In some embodiments, the cell adjusting portion includes a support rod, a lifting plate, and a rotation mechanism, wherein: the lower end of the supporting rod is connected to the lifting bearing plate, and one end of the jacking plate is rotatably connected to the upper end of the supporting rod; the rotating mechanism is arranged on the lifting bearing plate, the driving end of the rotating mechanism is connected with the jacking plate, and the rotating mechanism is used for driving the jacking plate to rotate around the supporting rod so as to drive the battery pieces in the material box supported on the jacking plate to obliquely slide towards the baffle on one side of the material box.

The utility model provides a simple structure's battery piece regulation portion, it is rotatory through slewing mechanism drive jack-up plate to the battery piece that drives to stack in the magazine slides towards the slope of a side baffle of magazine and finally supports and lean on this baffle, thereby realizes regular to the battery piece.

In some embodiments, the rotating mechanisms of two adjacent battery piece adjusting parts drive the lifting plate to rotate and tilt in opposite directions so as to drive the battery pieces in two adjacent material boxes to slide and separate towards two sides.

The rotating mechanisms of the two adjacent battery piece adjusting parts drive the corresponding jacking plates to rotate and incline in opposite directions, so that the battery pieces in the two adjacent material boxes slide to two sides to be separated, and the two adjacent material boxes are prevented from being touched and interfered in the rotating process.

In some embodiments, an air blowing mechanism is arranged between two adjacent cell adjusting parts, and comprises a first air blowing assembly and a second air blowing assembly which have opposite air blowing directions; when the adjacent two battery piece adjusting parts drive the battery pieces in the adjacent two material boxes to slide towards two sides, the first air blowing assembly blows air towards the battery piece in one material box, and the second air blowing assembly blows air towards the battery piece in the other material box.

Through set up the mechanism of blowing between two adjacent battery piece regulating parts, implement the blowing to the battery piece in two feed boxes of both sides to make the battery piece in two feed boxes can slide with higher speed and lean on the baffle along the jacking board of slope respectively, thereby promoted regular efficiency.

In some embodiments, the battery piece receiving and conveying device further comprises a first in-place sensor arranged on the mounting bracket; the material box bearing table is driven by the first lifting driving part to ascend to a high position, and when a material box is loaded on the material box bearing table, the first in-place sensor generates a first in-place sensing signal.

Through setting up the first inductor that targets in place, when the magazine plummer will empty the magazine and jack up to high position, can in time start the battery piece and stack the operation, prevent that the lamination from waiting to appear.

In some embodiments, the battery piece receiving and conveying device further comprises a side edge regulating mechanism arranged on the mounting bracket, the side edge regulating mechanism comprises a flat pushing mechanism and a regulating plate, the flat pushing mechanism is connected to the mounting bracket, and the regulating plate is connected to a driving end of the flat pushing mechanism; after the battery pieces are stacked to the material box, the flat pushing mechanism drives the regulating plate to move towards the material box, and the regulating plate enters the material box and pushes the battery pieces in the material box to move towards the baffle on one side of the material box in a translation mode so as to regulate the battery pieces.

The battery piece in the material box can be pushed towards one side baffle of the material box by arranging the side edge regulating mechanism, so that the battery piece is abutted against the baffle, and regulation of the battery piece is realized. The regular direction of side regular mechanism to the battery piece is perpendicular to the regular direction of battery piece regulating part.

In some embodiments, a second in-place sensor is disposed at the discharge end of the magazine feeding conveyor mechanism, and the second in-place sensor generates a second in-place sensing signal when the magazine feeding conveyor mechanism conveys the magazine to the discharge end.

Through setting up the second inductor that targets in place, when magazine material loading conveyor transported empty magazine to the discharge end, magazine translation mechanism can be in time with empty magazine translation to on the magazine plummer.

In some embodiments, the battery piece receiving and conveying device further comprises a recovery storage rack arranged on the mounting bracket and used for storing unqualified battery pieces.

Through setting up the recovery storage frame, realized the recovery storage to unqualified battery piece.

In some embodiments, the battery piece receiving and conveying device further includes a battery piece feeding mechanism, and when the magazine support table is driven by the first lifting driving portion to ascend to the high position, the battery piece feeding mechanism stacks the battery pieces into the magazine.

Through setting up battery piece feed mechanism, realized stacking, the material loading to the automation of battery piece.

Drawings

Fig. 1 is a schematic structural view of a battery piece receiving and conveying device provided by the utility model;

FIG. 2 is a schematic structural view of a material box feeding and conveying mechanism, a material box discharging and conveying mechanism and a recovery storage rack in the present invention;

FIG. 3 is a schematic view of the lifting mechanism of the present invention from a first perspective;

FIG. 4 is a schematic view of the lifting mechanism of the present invention from a second perspective;

FIG. 5 is a schematic structural diagram of the lifting mechanism of the present invention from a third perspective;

FIG. 6 is an assembly view of the magazine support platform and magazine of the present invention;

FIG. 7 is a schematic structural view of the second elevating driving part, the elevating carrier plate and the cell adjusting part of the present invention;

FIG. 8 is a schematic structural diagram of a cell adjusting part according to the present invention;

fig. 1 to 8 include:

the magazine charging conveyor mechanism 10: a second in-place sensor 11 and a material blocking member 12;

the lifting mechanism 20: the device comprises a first lifting driving part 21, a material box bearing platform 22, a second lifting driving part 23, a lifting bearing plate 24, a cell adjusting part 25, a first in-place sensor 26, a side edge regulating mechanism 27, a supporting rod 251, a jacking plate 252 and a rotating mechanism 253;

a magazine blanking conveying mechanism 30;

a recycling storage rack 40;

a magazine 100.

Detailed Description

The above objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

In the production process of the battery assembly, the printed battery pieces need to be stacked in the material box to complete material receiving and storage of the battery pieces. Traditional receipts material mode, generally will empty magazine material loading to receiving the material position through the manual work, treat that the magazine is received full battery piece after, the artifical full magazine that will fill with the battery of rethread takes away in order to accomplish the unloading to full magazine, traditional receipts material mode receive the material inefficiency.

In view of this, the utility model provides a battery piece receiving and conveying device, which realizes automatic feeding of empty material boxes and automatic discharging of full material boxes, thereby greatly improving the receiving efficiency of battery pieces.

As shown in fig. 1 to 3, the battery piece collecting and conveying device provided by the present invention includes a material box feeding conveying mechanism 10, a lifting mechanism 20 and a material box discharging conveying mechanism 30, wherein:

the lifting mechanism 20 comprises a mounting support, a first lifting driving part 21 and a magazine bearing table 22, wherein the first lifting driving part 21 is arranged on the mounting support, the magazine bearing table 22 is connected to the driving end of the first lifting driving part 21, and the magazine translation mechanism is arranged on the magazine bearing table 22.

The discharging end of the magazine feeding conveyor mechanism 10 is close to the lifting mechanism 20, and when the magazine support platform 22 is driven by the first lifting driving portion 21 to descend, the magazine translation mechanism translates the magazine input by the magazine feeding conveyor mechanism 10 onto the magazine support platform 22.

The feeding end of the material box discharging and conveying mechanism 30 is close to the lifting mechanism 20, when the material box bearing table 22 is driven by the first lifting driving part 21 to rise to a high position, the material box translation mechanism translates the material boxes with the stacked battery pieces onto the material box discharging and conveying mechanism 30, and the material box discharging and conveying mechanism 30 outputs the material boxes.

The working process of the battery piece receiving and conveying device is as follows:

the first lifting driving portion 21 drives the magazine bearing table 22 to a low position, so that the magazine translation mechanism on the magazine bearing table 22 is in butt joint with the discharge end of the magazine feeding conveying mechanism 10.

The magazine feeding conveyor mechanism 10 conveys empty magazines towards the magazine support 22, and when empty magazines reach the discharge end of the magazine feeding conveyor mechanism 10, the magazine translation mechanism cooperates with the magazine feeding conveyor mechanism 10 to translate the empty magazines onto the magazine support 22.

The first lifting driving portion 21 drives the magazine support 22 carrying the empty magazine to the high position, so that the magazine translation mechanism on the magazine support 22 is in butt joint with the feeding end of the magazine discharging conveying mechanism 30.

And then, stacking the battery pieces into an empty material box until the material box is fully stacked.

Then, the material box translation mechanism translates the full material box fully stacked with the battery pieces to the material box blanking conveying mechanism 30, and the material box blanking conveying mechanism 30 conveys the full material box to the next station.

Therefore, through the matching of the material box feeding conveying mechanism 10, the lifting mechanism 20 and the material box discharging conveying mechanism 30, the automatic feeding of empty material boxes and the automatic discharging of full material boxes are realized, so that the material receiving efficiency of the battery pieces is greatly improved.

Optionally, a second in-place sensor 11 is disposed at a discharge end of the magazine feeding conveyor mechanism 10, and when the magazine feeding conveyor mechanism 10 conveys the magazine to the discharge end, the second in-place sensor generates a second in-place sensing signal. Thus, when the empty magazine is conveyed to the discharge end by the magazine feeding conveying mechanism 10, the magazine translation mechanism on the magazine carrier 22 can translate the empty magazine to the magazine carrier 22 in time. Optionally, a material blocking member 12 located in the front of the second in-place sensor 11 is further disposed on the magazine feeding conveyor mechanism 10. In the initial state, the material blocking member 12 is hidden under the conveying bearing surface of the magazine feeding conveying mechanism 10. When empty material boxes exist at the discharge end of the material box feeding conveying mechanism 10, the material blocking part 12 extends upwards out of the conveying bearing surface of the material box feeding conveying mechanism 10, so that the subsequent empty material boxes are blocked.

Optionally, the battery piece receiving and conveying device of the utility model further includes a first in-place sensor 26 disposed on the mounting bracket, the magazine bearing table 22 is driven by the first lifting driving portion 21 to be lifted to a high position, and when a magazine is loaded on the magazine bearing table 22, the first in-place sensor 26 generates a first in-place sensing signal. Thus, when the empty magazine is lifted to the high position by the magazine support 22, the battery stacking operation can be started in time.

As known to those skilled in the art, during the process of stacking the battery plates into the magazine, the battery plates may randomly shift in all directions, which eventually results in uneven four side edges of the stacked battery plates, and eventually affects the material taking of the subsequent processes.

In view of this, optionally, as shown in fig. 3 to 7, the lifting mechanism 20 further includes a second lifting driving portion 23, a lifting carrier plate 24 and four cell adjusting portions 25, wherein the second lifting driving portion 23 is disposed on the mounting bracket, the lifting carrier plate 24 is connected to a driving end of the second lifting driving portion 23, and the four cell adjusting portions 25 are disposed side by side on the lifting carrier plate 24. Correspondingly, the magazine bearing table 22 is provided with four first through holes corresponding to the four battery piece adjusting portions 25 one by one, and the magazine translation mechanism translates the four magazines 100 input by the magazine feeding and conveying mechanism 10 to the positions above the four first through holes one by one.

When the second lifting driving portion 23 drives the lifting bearing plate 24 to ascend, the four cell adjusting portions 25 are driven by the lifting bearing plate 24 to respectively penetrate through the corresponding first through holes upwards, so as to lift and regulate the cells in the material box 100 above the corresponding first through holes.

Optionally, the jacking and regulating processes of the second lifting driving part 23, the lifting bearing plate 24 and the cell regulating part 25 for the cells are as follows:

before stacking the battery plates, the second elevation driving portion 23 drives the elevation loading plate 24 to move upward, so that the battery plate adjusting portion 25 is pushed upward into the material box 100 through the first through hole.

The battery pieces are stacked in the material box 100 and directly supported on the battery piece adjusting part 25, and in the stacking process, after a certain number of battery pieces are stacked, the second lifting driving part 23 drives the battery piece adjusting part 25 to descend for a preset distance, so that the battery piece stacked on the top is always kept in a preset height range, and therefore, the subsequent battery pieces can be smoothly stacked in the material box 100. In addition, the cell regulating part 25 may directly perform the regulation of the cells after the stacking of all the cells is completed.

The lifting mechanism 20 in the embodiment of fig. 3 to 7 can simultaneously perform the synchronous feeding and the arrangement of the four material boxes 100. In other embodiments, synchronous feeding and arranging of other numbers of material boxes can be realized by adjusting the number of the cell adjusting parts 25 and the first through holes.

Optionally, a bottom plate of the material box 100 is provided with a second through hole for the cell adjusting portion 35 to pass through, and the cell adjusting portion passes through the first through hole upwards and then enters the material box 100 through the second through hole to lift and regulate the cells in the material box 100.

As shown in fig. 7 and 8, the cell adjusting portion 35 may alternatively include a support bar 251, a lifting plate 253, and a rotating mechanism 252, wherein: the lower end of the supporting rod 251 is connected to the elevating carrier plate 24, and one end of the lifting plate 252 is rotatably connected to the upper end of the supporting rod 251. The rotating mechanism 253 is arranged on the lifting bearing plate 24, the driving end of the rotating mechanism 253 is connected with the lifting plate 253, and the rotating mechanism 253 is used for driving the lifting plate 252 to rotate around the supporting rod 251 so as to drive the battery pieces supported on the lifting plate 252 to obliquely slide towards one side baffle of the material box.

As described with reference to fig. 5, taking the magazine 100-a as an example, the cell conditioning portion 35 in some embodiments performs the following:

before stacking the battery plates, the second lifting driving part 23 drives the lifting bearing plate 24 to move upwards, and the battery plate adjusting part 25 sequentially pushes upwards into the material box 100-A through the first through hole and the second through hole.

The battery pieces are stacked in the material box 100-A and directly supported on the lifting plate 253 of the battery piece adjusting part 25.

After all the cells are stacked and loaded, the rotating mechanism 253 drives the lifting plate 252 to rotate and tilt around the supporting rod 251, so that the cells in the magazine 100-a all slide along the X-axis in the positive direction and finally abut against a side baffle (e.g., a left side baffle) of the magazine 100-a.

Therefore, the battery pieces are orderly arranged in the X-axis direction, namely two side edges, perpendicular to the X-axis, of the stacked battery pieces are aligned.

Alternatively, as shown in fig. 5, the rotating mechanisms 253 of two adjacent cell adjusting portions 25 drive the corresponding lifting plates 252 to rotate and tilt in opposite directions, so as to drive two adjacent cartridges, such as the cartridge 100-a and the cartridge 100-B, to slide apart the cells in the positive direction of the X axis and the negative direction of the X axis. So set up, can prevent that two adjacent magazine from producing and touching the interference in rotatory, regular in-process.

Optionally, a blowing mechanism is further arranged between two adjacent cell adjusting portions, the blowing mechanism comprises a first blowing assembly and a second blowing assembly, the first blowing assembly and the second blowing assembly are opposite in blowing direction, if the first blowing assembly blows air towards the positive direction of the X axis, the second blowing assembly blows air towards the negative direction of the X axis.

When the adjacent two cell adjusting parts drive the cells in the material box 100-A and the material box 100-B to slide towards two sides for separation, the first air blowing assembly blows air towards the cells in the material box 100-A, and the second air blowing assembly blows air towards the cells in the material box 100-B, so that the cells in the two material boxes respectively slide towards the baffle plate along the inclined lifting plate at an accelerated speed, and the regular efficiency is finally improved.

As shown in fig. 3 and 5, optionally, the battery sheet receiving and conveying device of the present invention further includes side regulating mechanisms 27 disposed on the mounting bracket and corresponding to the cartridges one by one, and since four cartridges are loaded on the cartridge supporting platform 22 in the embodiment of fig. 3 and 5, the side regulating mechanisms 27 are also correspondingly disposed in four. The side edge regulating mechanism 27 comprises a horizontal pushing mechanism and a regulating plate, wherein the horizontal pushing mechanism is connected to the mounting bracket, and the regulating plate is connected to the driving end of the horizontal pushing mechanism.

After all the battery pieces are stacked, the flat pushing mechanism drives the regulating plate to move towards the material box, the regulating plate enters the material box from the side face and pushes the battery pieces in the material box to move horizontally towards one side baffle plate of the material box, and therefore the battery pieces are regulated.

As shown in FIG. 5, and again taking the magazine 100-A as an example, the side edge regulating mechanism 27 in some embodiments regulates the process as follows:

after the cell regulating portion 25 completes the arrangement of the cells in the X-axis direction, that is, the cells already abut against a side barrier (e.g., a left side barrier) of the magazine 100-a.

At the moment, the flat pushing mechanism drives the regulating plate to move towards the material box along the Y-axis direction, and the regulating plate enters the material box. The flat pushing mechanism drives the regulating plate to move continuously, and the battery pieces in the material box slide along the Y axis under the pushing of the regulating plate and finally abut against the other side baffle (such as the front side baffle) of the material box 100-A. Therefore, the battery plates are orderly arranged in the Y-axis direction, namely, two side edges of the stacked battery plates, which are vertical to the Y-axis, are aligned.

To this end, the four side edges of the cells stacked in the magazine 100-A are regularly aligned.

Optionally, the battery piece receiving and conveying device further comprises a recovery storage rack 40 arranged on the mounting bracket and used for storing unqualified battery pieces. In the process of stacking the battery pieces, unqualified battery pieces are cached in the recycling storage rack 40.

Optionally, the battery piece collecting and conveying device of the utility model further comprises a battery piece feeding mechanism, when the material box bearing table 22 is driven by the first lifting driving part 21 to rise to the high position, the battery piece feeding mechanism stacks the battery pieces into the material box, so that automatic stacking and feeding of the battery pieces are realized.

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 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 shall fall within the protective scope of the present invention. The scope of the utility model is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (11)

1. The utility model provides a battery piece receives material conveyor, its characterized in that, battery piece receives material conveyor includes magazine material loading conveyor, elevating system and magazine unloading conveyor, wherein:

the lifting mechanism comprises a mounting support, a first lifting driving part and a material box bearing table, wherein the first lifting driving part is arranged on the mounting support, the material box bearing table is connected to the driving end of the first lifting driving part, and a material box translation mechanism is arranged on the material box bearing table;

the discharging end of the material box feeding conveying mechanism is close to the lifting mechanism, and when the material box bearing table is driven by the first lifting driving part to descend to a low position, the material box translation mechanism translates the material box input by the material box feeding conveying mechanism onto the material box bearing table;

the feeding end of the material box discharging and conveying mechanism is close to the lifting mechanism, when the material box bearing table is driven by the first lifting driving portion to ascend to a high position, the material box translation mechanism translates material boxes with stacked battery pieces onto the material box discharging and conveying mechanism, and the material box discharging and conveying mechanism outputs the material boxes.

2. The battery piece receiving and conveying device as claimed in claim 1,

the lifting mechanism further comprises a second lifting driving part, a lifting bearing plate and a plurality of battery piece adjusting parts, wherein the second lifting driving part is arranged on the mounting bracket, the lifting bearing plate is connected to the driving end of the second lifting driving part, and the plurality of battery piece adjusting parts are arranged on the lifting bearing plate side by side;

a plurality of first through holes which are in one-to-one correspondence with the plurality of battery piece adjusting parts are formed in the material box bearing table, and the material box translation mechanism translates a plurality of material boxes input by the material box feeding conveying mechanism to positions above the first through holes in one-to-one correspondence;

when the second lifting driving part drives the lifting bearing plate to ascend, each battery piece adjusting part is driven by the lifting bearing plate to respectively upwards penetrate through the corresponding first through hole so as to lift and regulate the battery pieces in the material box above the first through holes.

3. The battery piece receiving and conveying device as claimed in claim 2,

the bottom plate of the material box is provided with a second through hole for the cell adjusting part to pass through, and the cell adjusting part upwards passes through the first through hole and then enters the material box through the second through hole so as to lift and regulate the cells.

4. The battery piece collecting and conveying device as claimed in claim 2, wherein the battery piece adjusting portion comprises a support rod, a lifting plate and a rotating mechanism, wherein:

the lower end of the supporting rod is connected to the lifting bearing plate, and one end of the jacking plate is rotatably connected to the upper end of the supporting rod;

the rotating mechanism is arranged on the lifting bearing plate, the driving end of the rotating mechanism is connected with the jacking plate, and the rotating mechanism is used for driving the jacking plate to rotate around the supporting rod so as to drive the battery pieces in the material box supported on the jacking plate to obliquely slide towards a baffle on one side of the material box.

5. The battery piece receiving and conveying device as claimed in claim 4, wherein:

the rotating mechanisms of the two adjacent battery piece adjusting parts drive the jacking plates to rotate and incline in opposite directions so as to drive the battery pieces in the two adjacent material boxes to slide and separate towards two sides.

6. The battery piece receiving and conveying device as claimed in claim 4, wherein: an air blowing mechanism is arranged between every two adjacent cell adjusting parts and comprises a first air blowing assembly and a second air blowing assembly which are opposite in air blowing direction;

when the adjacent two battery piece adjusting parts drive the battery pieces in the two adjacent material boxes to slide towards two sides, the first air blowing assembly blows air towards the battery piece in one material box, and the second air blowing assembly blows air towards the battery piece in the other material box.

7. The battery piece collecting and conveying device as claimed in claim 1, further comprising a first in-place sensor disposed on the mounting bracket;

the material box bearing table is driven by the first lifting driving part to ascend to a high position, and when a material box is loaded on the material box bearing table, the first in-place sensor generates a first in-place sensing signal.

8. The battery piece receiving and conveying device as claimed in claim 1, further comprising a side edge regulating mechanism disposed on the mounting bracket, wherein the side edge regulating mechanism comprises a flat pushing mechanism and a regulating plate, the flat pushing mechanism is connected to the mounting bracket, and the regulating plate is connected to a driving end of the flat pushing mechanism;

after the battery pieces are stacked to the material box, the flat pushing mechanism drives the regulating plate to move towards the material box, and the regulating plate enters the material box and pushes the battery pieces in the material box to move towards the baffle on one side of the material box in a translation mode so as to regulate the battery pieces.

9. The battery piece receiving and conveying device as claimed in claim 1, wherein a second in-place sensor is disposed at the discharging end of the magazine feeding conveying mechanism, and the second in-place sensor generates a second in-place sensing signal when the magazine feeding conveying mechanism conveys the magazine to the discharging end.

10. The battery piece collecting and conveying device as claimed in claim 1, further comprising a collecting and storing rack disposed on the mounting bracket for storing unqualified battery pieces.

11. The device for receiving and conveying battery pieces as claimed in claim 1, further comprising a battery piece loading mechanism, wherein when the magazine support is driven by the first elevating driving portion to ascend to a high position, the battery piece loading mechanism stacks the battery pieces into the magazine.

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