CN112264663A

CN112264663A - Be used for polymer battery to cut utmost point ear device in batches

Info

Publication number: CN112264663A
Application number: CN202011159075.6A
Authority: CN
Inventors: 黄学华
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-26
Filing date: 2020-10-26
Publication date: 2021-01-26

Abstract

The invention relates to a tab shearing device, in particular to a tab shearing device for polymer batteries in batches. The invention provides a device for shearing tabs of polymer batteries in batches, which can support the tabs of the batteries when the tabs of the batteries are cut, is convenient for collecting the tabs of the batteries and does not need manual fixation. A batch shear tab apparatus for polymer batteries, comprising: the top of the bottom plate is provided with a plurality of supporting columns; the pushing mechanism is arranged between the bottom plate and the support column; the cutting mechanism is arranged on the bottom plate. The battery is pushed forwards by the pushing mechanism, and then the battery tab is cut under the cooperation of the cutting mechanism.

Description

Be used for polymer battery to cut utmost point ear device in batches

Technical Field

The invention relates to a tab shearing device, in particular to a tab shearing device for polymer batteries in batches.

Background

The battery is divided into positive and negative poles, the tab is a metal conductor which is led out from the battery core and the positive and negative poles, after the battery is produced, the tab of the battery is mostly irregular, so that people are required to cut the tab of the battery, the length of the tab of the battery is consistent, when people cut the tab of the battery, the battery is firstly manually placed on a cutting device and manually fixed, and because the tab is not supported when being cut, the tab is easily bent when being cut, and in addition, after redundant tabs are cut off, the tab can be scattered onto the ground, so that people are not convenient to collect the tab of the battery.

Therefore, it is highly desirable to develop a batch tab shearing device for polymer batteries, which can support the battery tabs when cutting the battery tabs, is convenient for collecting the battery tabs, and does not need manual fixation.

Disclosure of Invention

In order to overcome the defects that the battery needs to be manually fixed, the electrode lugs are not supported during cutting and the battery electrode lugs are inconvenient to collect in the prior art, the invention has the technical problems that: the device for shearing the tabs of the polymer batteries in batches can support the tabs of the batteries when the tabs of the batteries are cut, is convenient for collecting the tabs of the batteries and does not need manual fixation.

The technical implementation scheme of the invention is as follows: a batch shear tab apparatus for polymer batteries, comprising: the top of the bottom plate is provided with a plurality of supporting columns; the pushing mechanism is arranged between the bottom plate and the support column; the cutting mechanism is arranged on the bottom plate.

In a preferred embodiment of the present invention, the pusher mechanism comprises: the slotting material plates are arranged among 4 adjacent support columns, and the polymer batteries are placed on the slotting material plates; the top of the bottom plate is provided with a fixing frame; the cylinder is arranged on the fixed frame; the push plate frame is arranged on the telescopic rod of the air cylinder, and the push plate frame slides on the slotting material plate.

In a preferred embodiment of the present invention, the cutting mechanism comprises: the top of the bottom plate is symmetrically provided with the first guide rail frames; the extrusion cutting blocks are arranged between the first guide rail frames in a sliding manner; the first supporting spring is arranged at the top in the extrusion cutting block; the tail end of the first supporting spring is provided with a pressing block; the fixed tooth block is arranged on the pressing block.

In a preferred embodiment of the present invention, the scrap guide apparatus further comprises: the waste box shell is arranged at the top of the bottom plate; a material guide channel is arranged on the waste material box shell; the top of the waste box shell is provided with a plurality of second guide rail frames; a sliding bracket is arranged between the second guide rail frames in a sliding manner; the fixed rods are arranged between the slotting material plates; the fixed rod is rotatably provided with a first gear; the fixed rack block is arranged on the sliding bracket, and the first gear is meshed with the fixed rack block and the fixed rack block.

In a preferred embodiment of the present invention, the present invention further comprises a linkage mechanism, the linkage mechanism comprising: the top of the bottom plate is provided with a first mounting frame; the top in the first mounting frame is symmetrically provided with third guide rail frames; the top in the first mounting frame is provided with a first return spring; a sliding rack block is arranged between the third guide rail frames in a sliding manner, and a first return spring is connected with the sliding rack block; the push rod is arranged at the bottom of the sliding rack block and connected with the extrusion cutting block; the upper part of the first mounting frame is rotatably provided with a first connecting shaft; the first connecting shaft is provided with a first gear, and the first gear is meshed with the sliding rack block; the first mounting frame is provided with a first mounting frame; the second mounting frame is rotatably provided with a second connecting shaft; the second connecting shaft is provided with a one-way clutch; the one-way clutch is provided with a third gear; the transmission belt group is wound between the second connecting shaft and the first connecting shaft; and the transmission rack frame is arranged on the push plate frame and is meshed with the third gear.

In a preferred embodiment of the present invention, the present invention further comprises a clamping mechanism, the clamping mechanism comprising: the top of the bottom plate is symmetrically provided with the fixed guide rail frames; sliding blocks are arranged on the fixed guide rail frames in a sliding mode; the clamping frames are arranged on the sliding blocks in a sliding manner; a second supporting spring is arranged between the sliding block and the clamping frame; the connecting rod is arranged on the sliding block, and the tail end of the connecting rod is connected with the sliding rack block.

In a preferred embodiment of the present invention, the present invention further comprises a feeding mechanism, the feeding mechanism comprising: the storage boxes are symmetrically arranged at the top of the bottom plate and are connected with each other; the pushing block frame is symmetrically provided with pushing block frames; the slotting material plates are all provided with a jacking block frame; the lower parts of the storage boxes are provided with the plugboard frames in a sliding manner; second return springs are symmetrically arranged between the plug board frame and the adjacent storage boxes; the sliding rack blocks are provided with guide connecting frames; the wedge-shaped rod is arranged on the guide connecting frame in a sliding mode and matched with the ejector block frame and the push block frame; and a third return spring is connected between the wedge-shaped rod and the guide connecting frame.

In a preferred embodiment of the invention, the waste bin mechanism further comprises: the movable waste material box is arranged in the shell of the waste material box in a sliding way; the waste box shell is provided with a guide mounting seat; the sliding fixture block is arranged in the guide mounting seat in a sliding manner; a fourth reset spring is connected between the sliding fixture block and the guide mounting seat; the elastic blocks are connected between the two ends of the movable waste material box and the shell of the waste material box.

The invention has the beneficial effects that: 1. the battery is pushed forwards by the pushing mechanism, and then the battery tab is cut under the cooperation of the cutting mechanism.

2. Through shutdown mechanism and waste material guiding mechanism's cooperation, when shutdown mechanism moves down, waste material guiding mechanism moves up, and then withstands battery tab, so just can be better support battery tab.

3. Through the cooperation of pushing equipment and link gear, when pushing equipment moved backward, pushing equipment passed through the link gear and drove the shutdown mechanism and function, made extrusion cutting piece move down, just so can realize the automatic cutout to battery tab, and then need not artifical manual press extrusion cutting piece.

4. Through link gear and clamping mechanism's cooperation, when link gear moves down, clamping mechanism moves down, and then presss from both sides the better clamp of battery, so just can fix the better of battery under the cooperation of sliding bracket, compact heap and clamping frame, wherein if the skew takes place for the position of battery, the clamping frame still can be ajusted the battery, and then makes the position that the battery was cut unanimous.

5. Through the matching of the pushing mechanism and the feeding mechanism, when the pushing mechanism moves backwards, the pushing mechanism drives the feeding mechanism to move backwards, and therefore intermittent blanking of the battery is achieved.

6. Through being equipped with waste material case mechanism to the realization is to the collection of battery utmost point ear, still is convenient for simultaneously people to the processing of battery utmost point ear.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 5 is a schematic perspective view of the linkage mechanism of the present invention.

Fig. 6 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 7 is a partially enlarged schematic view of the scrap guiding mechanism of the present invention.

Fig. 8 is an enlarged view of part a of the present invention.

Fig. 9 is an enlarged view of part B of the present invention.

The parts are labeled as follows: 1: bottom plate, 2: support column, 3: pushing equipment, 31: slotted flitch, 32: mount, 33: cylinder, 34: push pedal frame, 4: cutting mechanism, 41: first rail holder, 42: extrusion cutting block, 43: first support spring, 44: compact block, 45: fixed block, 5: scrap guide mechanism, 51: waste box housing, 52: material guiding passage, 53: second rail holder, 54: sliding bracket, 55: fixing rod, 56: first gear, 57: fixing rack blocks, 6: linkage, 61: first mount, 62: third rail holder, 63: first return spring, 64: sliding rack block, 65: push rod, 66: first coupling shaft, 67: second gear, 68: second mount, 69: second coupling shaft, 610: one-way clutch, 611: third gear, 612: drive belt set, 613: drive rack, 7: clamping mechanism, 71: fixed rail bracket, 72: slider, 73: clamping frame, 74: second support spring, 75: connecting rod, 8: feeding mechanism, 81: a magazine, 82: pusher carriage, 83: top block rack, 84: plugboard frame, 85: second return spring, 86: guide link, 87: wedge rod, 88: third return spring, 9: waste bin mechanism, 91: movable waste bin, 92: guide mount, 93: sliding latch, 94: fourth return spring, 95: elastic block, 10: a polymer battery.

Detailed Description

The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which presently preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided for completeness and fully convey the scope of the invention to the skilled person.

Example 1

A device for shearing tab electrodes of polymer batteries in batches is shown in figures 1, 2, 4 and 8 and comprises a bottom plate 1, support columns 2, a material pushing mechanism 3 and a cutting mechanism 4, wherein the top of the bottom plate 1 is provided with the support columns 2, the material pushing mechanism 3 is arranged between the bottom plate 1 and the support columns 2, and the cutting mechanism 4 is arranged on the bottom plate 1.

When people need to use the device, firstly, people place the polymer battery 10 on the material pushing mechanism 3, then the material pushing mechanism 3 can be started, the material pushing mechanism 3 pushes the battery forwards, then the cutting mechanism 4 moves downwards, when a cutting part of the mechanism 4 to be cut is contacted with a battery tab, the cutting mechanism 4 cuts the battery tab, then redundant battery tabs are cut out, people can release the cutting mechanism 4 after the cutting is completed, the cutting mechanism 4 is reset, then people reset the material pushing mechanism 3, therefore, people only need to place the battery on the material pushing mechanism 3 continuously to quickly cut the battery tab, and when people do not need to use the device, the material pushing mechanism 3 is closed.

The pushing mechanism 3 comprises a slotting material plate 31, a fixing frame 32, a cylinder 33 and a pushing plate frame 34, the slotting material plate 31 is arranged between 4 adjacent supporting columns 2, the polymer batteries 10 are placed on the slotting material plate 31, the fixing frame 32 is arranged on the rear side of the top of the bottom plate 1, the cylinder 33 is arranged on the upper portion of the fixing frame 32, the pushing plate frame 34 is arranged on an expansion rod of the cylinder 33, and the pushing plate frame 34 slides on the slotting material plate 31.

The cutting mechanism 4 comprises a first guide rail frame 41, an extrusion cutting block 42, a first support spring 43, a pressing block 44 and a fixed tooth block 45, the first guide rail frame 41 is arranged on the front side of the top of the bottom plate 1 in a bilateral symmetry mode, the extrusion cutting block 42 is arranged between the first guide rail frame 41 in a sliding mode, the first support spring 43 is arranged on the inner top of the extrusion cutting block 42, the pressing block 44 is arranged at the tail end of the first support spring 43, and the fixed tooth block 45 is arranged on the front side of the pressing block 44.

Firstly, people place a battery on the rear side of the slotting material plate 31, then the air cylinder 33 can be started, the telescopic rod of the air cylinder 33 can move forwards, the telescopic rod of the air cylinder 33 can drive the push plate frame 34 to move forwards, when the push plate frame 34 is contacted with the battery, the battery can be pushed forwards by the push plate frame 34, when the push plate frame 34 moves forwards to the maximum, the battery can stop moving, then people can drive the telescopic rod of the air cylinder 33 to drive the push plate frame 34 to move backwards and reset, then people can extrude the cutting block 42 downwards and fix the battery, the extruding cutting block 42 can drive the first supporting spring 43 and the pressing block 44 to move downwards, the pressing block 44 can drive the fixed tooth block 45 to move downwards, when the pressing block 44 is contacted with the battery tab, the pressing block 44 can press the battery tab, at the moment, the extruding cutting block 42 continues to move downwards, the first supporting spring 43 is compressed, and then when the extruding cutting block 42 is contacted with the battery, the extrusion cutting block 42 cuts the battery tab to be cut, and people can loosen the extrusion cutting block 42 and move the extrusion cutting block 42 upwards to reset the extrusion cutting block 42, and then when the pressing block 44 is separated from the battery tab, the first supporting spring 43 resets, and when people do not need to use the device, the cylinder 33 is closed.

Example 2

Based on the embodiment 1, as shown in fig. 1, fig. 2, fig. 3, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the waste guiding mechanism 5 further includes a waste guiding mechanism 5, the waste guiding mechanism 5 includes a waste box housing 51, a material guiding channel 52, second guide rail frames 53, sliding brackets 54, fixing rods 55, a first gear 56 and a fixed gear block 57, the waste box housing 51 is disposed in the middle of the front side of the top of the bottom plate 1, the material guiding channel 52 is disposed on the waste box housing 51, the plurality of second guide rail frames 53 are disposed on the top of the waste box housing 51, the sliding brackets 54 are slidably disposed between the second guide rail frames 53, the fixing rods 55 are disposed between the upper portions of the front sides of the slotting material plates 31, the first gear 56 is rotatably disposed in the middle of the fixing rods 55, the fixed gear block 57 is disposed on the front side of the sliding brackets 54, and the first gear 56 is engaged.

When the fixed tooth block 45 moves downwards to be meshed with the first gear 56, the first gear 56 drives the sliding bracket 54 to move upwards through the fixed tooth bar block 57, so that the battery tabs are dragged, the extrusion cutting block 42 can cut better, and after the battery tabs are cut off, the battery tabs are dropped into the waste material box shell 51 through the material guide channel 52, so that the collection of the battery tabs is facilitated.

The device also comprises a linkage mechanism 6, wherein the linkage mechanism 6 comprises a first mounting frame 61, a third guide rail frame 62, a first return spring 63, a sliding rack block 64, a push rod 65, a first connecting shaft 66, a second gear 67, a second mounting frame 68, a second connecting shaft 69, a one-way clutch 610, a third gear 611, a transmission belt group 612 and a transmission rack frame 613, the first mounting frame 61 is arranged on the front side of the top of the bottom plate 1, the third guide rail frame 62 is symmetrically arranged on the top inside the first mounting frame 61, the first return spring 63 is arranged on the front side of the top inside the first mounting frame 61, a sliding rack block 64 is arranged between the third guide rail frames 62, the first return spring 63 is connected with the sliding rack block 64, the push rod 65 is arranged at the bottom of the sliding rack block 64, the push rod 65 is connected with the extrusion cutting block 42, the first connecting shaft 66 is rotatably arranged on the upper part of the first mounting frame 61, the second gear 67 is arranged on the first connecting shaft 66, the second gear 67 is meshed, the rear side of the first mounting frame 61 is provided with a second mounting frame 68, the second mounting frame 68 is rotatably provided with a second connecting shaft 69, the second connecting shaft 69 is provided with a one-way clutch 610, the one-way clutch 610 is provided with a third gear 611, a transmission belt group 612 is wound between the second connecting shaft 69 and the first connecting shaft 66, a transmission rack 613 is arranged in the middle of the top of the push plate frame 34, and the transmission rack 613 is meshed with the third gear 611.

When the push rack 34 moves forward, the push rack 34 drives the transmission rack 613 to move forward, at this time, under the action of the one-way clutch 610, when the transmission rack 613 is engaged with the third gear 611, the third gear 611 does not drive the second connecting shaft 6 to rotate left, then when the push rack 34 moves backward, the push rack 34 drives the transmission rack 613 to move backward, then when the transmission rack 613 moves backward to engage with the third gear 611, the third gear 611 drives the second connecting shaft 6 to rotate left, the second connecting shaft 6 drives the first connecting shaft 66 to rotate left by the transmission belt group 612, the first connecting shaft 66 drives the sliding rack block 64 to move downward by the second gear 67, the first return spring 63 is stretched, the sliding rack block 64 drives the push rod 65 and the extrusion cutting block 42 to move downward, so that automatic cutting of the battery tab can be realized, then when the transmission rack 613 is separated from the third gear 611, the third gear 611 stops rotating, and the first return spring 63 returns, thereby driving the sliding rack block 64, the push rod 65 and the extrusion cutting block 42 to return.

The clamping mechanism 7 comprises a fixed guide rail frame 71, sliding blocks 72, a clamping frame 73, second supporting springs 74 and connecting rods 75, the fixed guide rail frame 71 is arranged on the front side of the top of the bottom plate 1 in a bilateral symmetry mode, the sliding blocks 72 are arranged on the fixed guide rail frame 71 in a sliding mode, the clamping frame 73 is arranged on the sliding blocks 72 in a sliding mode, the second supporting springs 74 are arranged between the sliding blocks 72 and the clamping frame 73, the connecting rods 75 are arranged on the sliding blocks 72, and the tail ends of the connecting rods 75 are connected with the sliding rack blocks 64.

When the sliding rack block 64 moves downwards, the sliding rack block 64 drives the sliding block 72 to move downwards through the connecting rod 75, the sliding block 72 drives all components on the sliding block 72 to move downwards, when the clamping frame 73 is in contact with the battery, the battery is fixed by the clamping frame 73, then the sliding block 72 continues to move downwards, the second supporting spring 74 is compressed, so that the battery can be better fixed under the matching of the sliding bracket 54, the pressing block 44 and the clamping frame 73, manual operation is not needed for fixing the battery, if the position of the battery deviates, the clamping frame 73 can also align the battery, the cut position of the battery is consistent, when the sliding rack block 64 moves upwards, the sliding block 72 moves upwards, and when the clamping frame 73 is separated from the battery, the second supporting spring 74 resets.

Still include feeding mechanism 8, feeding mechanism 8 is including storage box 81, ejector pad frame 82, kicking block frame 83, picture peg frame 84, second reset spring 85, direction link 86, wedge pole 87 and third reset spring 88, 1 top bilateral symmetry of bottom plate is equipped with storage box 81, interconnect between the storage box 81, the left and right symmetry of push pedal frame 34 is equipped with ejector pad frame 82, fluting flitch 31 rear side all is equipped with kicking block frame 83, storage box 81 lower part rear side all slidingly is equipped with picture peg frame 84, picture peg frame 84 all with close storage box 81 between the symmetry be equipped with second reset spring 85, all be equipped with direction link 86 on the slip rack piece 64, the gliding style is equipped with wedge pole 87 on the direction link 86, wedge pole 87 cooperates with kicking block frame 83 and ejector pad frame 82, be connected with third reset spring 88 between wedge pole 87 and the direction link 86.

Firstly, people place batteries in the storage box 81, when the push plate frame 34 moves forwards, the push plate frame 34 drives the push block frame 82 to move forwards, then when the push block frame 82 contacts with the wedge-shaped rod 87, the wedge-shaped rod 87 is extruded to move upwards, the third return spring 88 is compressed, then when the push plate frame 82 passes over the wedge-shaped rod 87, the third return spring 88 drives the wedge-shaped rod 87 to return, when the push plate frame 34 moves backwards, the push plate frame 34 drives the push block frame 82 to move backwards, when the push block frame 82 moves backwards to contact with the wedge-shaped rod 87, the push block frame 82 drives the guide connecting frame 86 and the plug plate frame 84 to move backwards through the wedge-shaped rod 87, the second return spring 85 is stretched, then when the wedge-shaped rod 87 moves to contact with the push block frame 83, the plug plate frame 84 no longer blocks the batteries in the storage box 81, so that the lowest batteries in the storage box 81 fall downwards, and the batteries fall out, wedge-shaped rod 87 contacts with ejector block frame 83, and wedge-shaped rod 87 moves upwards along ejector block frame 83 to no longer be supported by ejector block frame 82, second reset spring 85 drives picture peg frame 84 and resets rapidly this moment, and then blocks remaining battery, so continuous repetition just can realize the intermittent type unloading to the battery.

Still include waste bin mechanism 9, waste bin mechanism 9 is including activity waste material box 91, direction mount pad 92, slip fixture block 93, fourth reset spring 94 and elastic block 95, waste material box shell 51 internal sliding type is equipped with activity waste material box 91, waste material box shell 51 left side front side is equipped with direction mount pad 92, direction mount pad 92 internal sliding type is equipped with slip fixture block 93, be connected with fourth reset spring 94 between slip fixture block 93 and the direction mount pad 92, activity waste material box 91 both ends all with be connected with elastic block 95 between the waste material box shell 51.

After the battery tab is cut off, the battery tab falls into activity waste material box 91, when people need clear up the battery tab in the activity waste material box 91, people just can move the slip fixture block 93 left, fourth reset spring 94 is compressed, because the elastic block 95 is compression state during initial state, consequently when slip fixture block 93 separates with activity waste material box 91, elastic block 95 can drive activity waste material box 91 and pop out forward, people just can handle the battery tab in the activity waste material box 91 after that, it will reset to wait to process the completion people, wait to move about after waste material box 91 crosses slip fixture block 93, under the reset action of fourth reset spring 94, slip fixture block 93 resets, and then block activity waste material box 91 again.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

1. A batch shearing tab device for polymer batteries is characterized by comprising the following components:

the top of the bottom plate (1) is provided with a plurality of supporting columns (2);

the pushing mechanism (3) is arranged between the bottom plate (1) and the supporting column (2);

a cutting mechanism (4), and the bottom plate (1) is provided with the cutting mechanism (4).

2. The batch shearing tab device for the polymer batteries according to claim 1, wherein the pushing mechanism (3) comprises:

slotting flitches (31) are arranged among 4 adjacent supporting columns (2), and polymer batteries (10) are placed on the slotting flitches (31);

the top of the bottom plate (1) is provided with a fixed frame (32);

the cylinder (33) is arranged on the fixed frame (32);

the pushing plate frame (34) is arranged on the telescopic rod of the air cylinder (33), and the pushing plate frame (34) slides on the slotting material plate (31).

3. The batch shear tab apparatus for polymer batteries according to claim 1, wherein the cutting mechanism (4) comprises:

the top of the bottom plate (1) is symmetrically provided with first guide rail brackets (41);

the extrusion cutting blocks (42) are arranged between the first guide rail brackets (41) in a sliding manner;

the first supporting spring (43) is arranged at the top in the extrusion cutting block (42);

the tail end of the first supporting spring (43) is provided with a pressing block (44);

a fixed tooth block (45) is arranged on the pressing block (44).

4. A batch shear tab apparatus for polymer batteries according to claim 2 or 3, further comprising a scrap guide mechanism (5), wherein the scrap guide mechanism (5) comprises:

the waste box comprises a waste box shell (51), wherein the waste box shell (51) is arranged at the top of the bottom plate (1);

a material guide channel (52), wherein the waste box shell (51) is provided with the material guide channel (52);

a plurality of second guide rail brackets (53) are arranged at the top of the waste box shell (51);

the sliding bracket (54) is arranged between the second guide rail brackets (53) in a sliding way;

the fixing rods (55) are arranged between the slotting material plates (31);

a first gear (56), wherein the fixed rod (55) is provided with the first gear (56) in a rotating way;

the fixed rack block (57) is arranged on the sliding bracket (54), and the first gear (56) is meshed with the fixed rack block (45) and the fixed rack block (57).

5. The batch shearing tab device for polymer batteries according to claim 4, further comprising a linkage mechanism (6), wherein the linkage mechanism (6) comprises:

the top of the bottom plate (1) is provided with a first mounting frame (61);

the third guide rail bracket (62) is symmetrically arranged at the top in the first mounting bracket (61);

the top in the first mounting frame (61) is provided with a first return spring (63);

a sliding rack block (64) is arranged between the third guide rail frames (62) in a sliding manner, and a first return spring (63) is connected with the sliding rack block (64);

the push rod (65) is arranged at the bottom of the sliding rack block (64), and the push rod (65) is connected with the extrusion cutting block (42);

the upper part of the first mounting frame (61) is rotatably provided with a first connecting shaft (66);

the first connecting shaft (66) is provided with a first gear (67), and the first gear (67) is meshed with the sliding rack block (64);

the first mounting rack (61) is provided with a second mounting rack (68);

the second connecting shaft (69) is rotatably arranged on the second mounting frame (68);

the one-way clutch (610) is arranged on the second connecting shaft (69);

a third gear (611), wherein the one-way clutch (610) is provided with the third gear (611);

the transmission belt group (612) is wound between the second connecting shaft (69) and the first connecting shaft (66);

the transmission rack frame (613) is arranged on the push plate frame (34), and the transmission rack frame (613) is meshed with the third gear (611).

6. The batch shearing tab device for the polymer batteries according to claim 5, further comprising a clamping mechanism (7), wherein the clamping mechanism (7) comprises:

the top of the bottom plate (1) is symmetrically provided with the fixed guide rail brackets (71);

the sliding blocks (72) are arranged on the fixed guide rail bracket (71) in a sliding way;

the clamping frames (73) are arranged on the sliding blocks (72) in a sliding manner;

a second supporting spring (74), wherein the second supporting spring (74) is arranged between the sliding block (72) and the clamping frame (73);

the connecting rod (75) is arranged on the sliding block (72), and the tail end of the connecting rod (75) is connected with the sliding rack block (64).

7. The batch shearing tab device for the polymer batteries according to claim 6, further comprising a feeding mechanism (8), wherein the feeding mechanism (8) comprises:

the storage boxes (81) are symmetrically arranged at the top of the bottom plate (1), and the storage boxes (81) are connected with each other;

the push block frame (82), the push block frame (82) is symmetrically arranged on the push block frame (34);

the top block frames (83) are arranged on the slotting material plates (31);

the lower parts of the plugboard frames (84) and the storage boxes (81) are all provided with the plugboard frames (84) in a sliding way;

second return springs (85) are symmetrically arranged between the plug board frames (84) and the adjacent storage boxes (81);

the guide connecting frames (86) are arranged on the sliding rack blocks (64);

the wedge-shaped rod (87) is arranged on the guide connecting frame (86) in a sliding mode, and the wedge-shaped rod (87) is matched with the ejector block frame (83) and the push block frame (82);

and a third return spring (88) is connected between the wedge-shaped rod (87) and the guide connecting frame (86).

8. The batch shear tab apparatus for polymer batteries according to claim 7, further comprising a scrap box mechanism (9), wherein the scrap box mechanism (9) comprises:

the movable waste material box (91) is arranged in the waste material box shell (51) in a sliding way;

the waste box comprises a guide mounting seat (92), wherein the waste box shell (51) is provided with the guide mounting seat (92);

the sliding fixture block (93) is arranged in the guide mounting seat (92) in a sliding manner;

a fourth return spring (94), wherein the fourth return spring (94) is connected between the sliding clamping block (93) and the guide mounting seat (92);

the elastic block (95) is connected between both ends of the movable waste material box (91) and the waste material box shell (51).