CN218769654U - Battery insulation piece film-making mechanism and battery assembly equipment - Google Patents

Abstract

The utility model provides a battery insulation piece film-making mechanism and battery rigging equipment, battery insulation piece film-making mechanism includes: the device comprises a rack, wherein an insulating sheet cutting assembly, an insulating sheet transferring assembly and an insulating sheet spacing assembly are arranged on the rack; the insulation sheet cutting assembly cuts out at least two insulation sheets from the insulation sheet material belt at one time; the insulation sheet transferring assembly transfers the cut insulation sheets to the insulation sheet spacing assembly at the same time; the insulation sheet spacing assembly separates the cut insulation sheets according to a set distance. The utility model discloses set up multistation insulating piece cutting assembly and insulating piece components from a distance subassembly, can once cut out two at least insulating pieces to separately the insulating piece according to setting for the distance, improved cutting efficiency and assembly efficiency, thereby the totality promotes production efficiency.

Description

Battery insulation piece film-making mechanism and battery assembly equipment

Technical Field

The utility model belongs to the technical field of the lithium cell manufacture equipment, concretely relates to film-making mechanism and battery assembly equipment of preparation insulating piece in battery assembly line.

Background

With the ever-increasing demand of the power battery market, the demand of large-size cylindrical batteries such as 32140, 4680 and the like is increasing. Due to the increase of the overall size of the battery, the conventional equipment suitable for producing the small-size battery cannot be directly applied to the production of the large-size battery, so that the existing equipment needs to be improved. For example, in the existing cylindrical battery assembly line, the preparation of an insulating sheet is generally performed by adopting a single station, the efficiency is low, and the high-efficiency production requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can improve battery insulation piece film-making mechanism and battery rigging equipment of production efficiency's multistation.

In order to achieve the above object, the present invention adopts the following technical solutions:

a battery insulation sheet production mechanism includes: the device comprises a rack, wherein an insulating sheet cutting assembly, an insulating sheet transferring assembly and an insulating sheet spacing assembly are arranged on the rack; the insulation sheet cutting assembly cuts at least two insulation sheets from the insulation sheet material belt at one time; the insulation sheet transferring assembly transfers the cut insulation sheets to the insulation sheet spacing assembly at the same time; the insulation sheet separating assembly separates the cut insulation sheets according to a set distance.

Further, insulating piece cutting assembly include the blade holder and with knife rest, the drive that the blade holder set up relatively the blade holder is relative the blade holder remove cut the drive unit, set gradually in first die-cutting rule and second die-cutting rule on the blade holder, first die-cutting rule is used for going the blanking of holing to the insulating piece material area, the second die-cutting rule is used for carrying out the appearance blanking to the insulating piece material area, makes insulating piece and insulating piece material area separation.

Further, the insulation sheet spacing assembly at least comprises a first insulation sheet placing position and a second insulation sheet placing position, and the first placing position and the second placing position can move relatively between a first position and a second position; the first insulation piece place the position with when the second insulating piece is placed the position and is located the first position, the first insulation piece place the position with the second insulating piece is placed the distance between the position and is cut the distance between the adjacent insulating piece of back corresponding, the first insulation piece place the position with the second insulating piece is placed the position when being in the second position, the first insulation piece place the position with the second insulating piece is placed the distance between the position and is waited to adorn the distance between the battery of insulating piece corresponding.

Furthermore, the insulation sheet spacing assembly further comprises a mounting frame, the first insulation sheet placing position is fixedly arranged on the mounting frame, and the second insulation sheet placing position is movably arranged on the mounting frame; be provided with the direction spacing groove on the mounting bracket, the second insulating piece is placed the position and is followed under the control that moves piece drive unit the direction spacing groove removes.

Furthermore, the insulating sheet transfer assembly comprises an insulating sheet grabbing part and an insulating sheet moving driving unit, the insulating sheet grabbing part is a sucker, the sucker is arranged on the sucker frame, and the insulating sheet moving driving unit drives the sucker frame to move.

Further, be provided with the insulating piece that sets gradually in the frame and unreel subassembly and first insulating piece and pull the subassembly, first insulating piece pulls the subassembly and is located before the insulating piece cutting assembly.

Further, be provided with insulating piece assembly subassembly in the frame, insulating piece assembly subassembly is located behind the insulating piece components apart from the subassembly, be used for adorning the insulating piece to the battery.

Further, an insulation sheet excess material recovery assembly and a second insulation sheet traction assembly are arranged on the rack, and the second insulation sheet traction assembly is arranged in front of the insulation sheet excess material recovery assembly; insulating piece clout recovery unit includes the clout collecting vessel and is located clout cutter before the clout collecting vessel, the clout cutter is used for cutting off the insulating piece material area after the blanking, and the clout after cutting off is collected in the clout collecting vessel.

The utility model also provides a battery assembly equipment, including battery conveyer belt and aforementioned battery insulation piece film-making mechanism, battery insulation piece film-making mechanism set up in the side of battery conveyer belt.

The battery insulation sheet production mechanism is characterized by further comprising a tab clamping and positioning assembly, wherein the tab clamping and positioning assembly and the battery insulation sheet production mechanism are oppositely arranged and are respectively positioned on two sides of the battery conveying belt; the pole lug clamping and positioning assembly comprises an inner clamping block and an outer clamping block which are oppositely arranged, and the inner clamping block and the outer clamping block can relatively move in the horizontal direction so as to be mutually clamped or separated to clamp the pole lug or loosen the pole lug.

According to the above technical scheme, the utility model discloses a set up multistation insulating piece cutting assembly, can once cut out two at least insulating pieces, improved cutting efficiency to through setting up insulating piece minute distance subassembly, the insulating piece that will cut is according to setting for apart the distance, and the distance between the insulating dish after separately is corresponding with the interval between the battery of waiting to assemble, thereby can assemble the insulating piece direct displacement after the minute distance to the battery, improved assembly efficiency, thereby realize the whole promotion of battery assembly production efficiency.

Drawings

In order to illustrate the embodiments of the present invention more clearly, the drawings that are needed in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained by those skilled in the art without inventive effort.

Fig. 1 is a schematic structural diagram of an insulation sheet making mechanism according to an embodiment of the present invention;

fig. 2 is a schematic view of the front surface of an insulation sheet producing mechanism according to an embodiment of the present invention;

fig. 3 is a schematic side view of an insulating sheet making mechanism according to an embodiment of the present invention;

fig. 4 is a schematic structural view of an insulation sheet cutting assembly according to an embodiment of the present invention;

fig. 5 is a top view of an insulation sheet cutting assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural view of an insulation sheet spacing assembly according to an embodiment of the present invention;

fig. 7 is a schematic view of the insulation sheet spacing assembly according to the embodiment of the present invention before the insulation sheet spacing;

fig. 8 is a schematic view of the insulation sheet spacing assembly according to the embodiment of the present invention after the insulation sheet is spaced;

FIG. 9 is a schematic illustration of the position of the cutting and spacing process of the insulating sheet;

fig. 10 is a schematic structural diagram of a battery assembling apparatus according to an embodiment of the present invention;

fig. 11 is a partially enlarged view of a portion a in fig. 10.

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, wherein for convenience of illustration, the drawings showing the structure of the device are not to scale and are partially enlarged, and the drawings are only examples, which should not limit the scope of the invention. It should be noted that the drawings are in simplified form and are not to precise scale, which is only used for the purpose of facilitating and clearly assisting in the description of the embodiments of the present invention. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated; the terms "front," "back," "bottom," "upper," "lower," and the like refer to an orientation or positional relationship relative to an orientation or positional relationship shown in the drawings, which is for convenience and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, fig. 2 and fig. 3, the battery insulation sheet making mechanism of the present embodiment includes a frame 1, wherein an insulation sheet unwinding assembly 2, an insulation sheet cutting assembly 3, an insulation sheet transferring assembly 4 and an insulation sheet spacing assembly 5 are disposed on the frame 1, and the insulation sheet unwinding assembly 2, the insulation sheet cutting assembly 3, the insulation sheet transferring assembly 4 and the insulation sheet spacing assembly 5 are sequentially disposed along a conveying direction of an insulation sheet material tape 100.

Insulating piece unreels subassembly 2 includes insulating piece unreel roller 2-1 and drive insulating piece unreel roller 2-1 pivoted and unreel drive unit 2-2, and insulating piece material is rolled up and is adorned on insulating piece unreel roller 2-1, unreels drive unit 2-2 drive insulating piece unreel roller 2-1 and rotates, realizes unreeling of insulating piece material area 100. Still be provided with first insulation sheet on frame 1 and pull subassembly 6, first insulation sheet of this embodiment pulls subassembly 6 includes a pair of pinch rolls (not shown) of relative setting, and the pinch roll is rotated by motor drive, and insulating sheet material area 100 passes the pinch roll, presss from both sides between two pinch rolls, and drive insulating sheet material area 100 and carry forward when the pinch roll rotates. The first insulation sheet pulling assembly 6 of the present embodiment is disposed before the insulation sheet cutting assembly 3. Be provided with a plurality of buffer roller 7 and tension control roller 11 between insulating piece subassembly 2 and insulating piece cutting assembly 3 unreels, insulating piece material area 100 is followed the insulating piece and is rolled up the back of pulling out, walks around buffer roller 7 and tension control roller 11, delivers to insulating piece cutting assembly 3 position.

The insulating sheet cutting assembly 3 is used for cutting the insulating sheet material strip 100 to obtain an insulating sheet with a desired shape. Referring to fig. 1, 4 and 5, the insulation sheet cutting assembly 3 of the present embodiment includes a cutter base 3-1, a first die-cutting rule 3-2, a second die-cutting rule 3-3, a cutter holder 3-4 and a cutting driving unit 3-5. The cutter frame 3-4 is arranged above the cutter holder 3-1, and the cutter frame 3-4 can move relative to the cutter holder 3-1 under the driving of the cutting driving unit 3-5. The first die-cutting rule 3-2 and the second die-cutting rule 3-3 are integrally arranged on the tool rest 3-4, the first die-cutting rule 3-2 and the second die-cutting rule 3-3 are sequentially arranged, the first die-cutting rule 3-2 is used for punching and blanking the insulating strip 100 in a hole-removing mode, namely, the insulating strip 100 is punched at a set position, and the second die-cutting rule 3-3 is used for punching and blanking the appearance of an insulating strip of the punched insulating strip to cut out an insulating strip with a set shape, so that the insulating strip is separated from the insulating strip 100. The first die-cutting rule 3-2 and the second die-cutting rule 3-3 can punch more than two insulation sheets once, so that the sheet-making efficiency of the insulation sheets is improved. The insulating sheet cutting assembly 3 of the present embodiment can cut two insulating sheets at a time. The first die-cutting rule 3-2 is arranged before the second die-cutting rule 3-3, the shape blanking of the insulating sheet is carried out after the hole-removing blanking, the positioning of the hole-removing blanking is facilitated, if the shape is firstly blanked, the hole-removing blanking is carried out after the insulating sheet is separated from the insulating sheet material belt, and the position can be deviated due to the fact that the insulating sheet is separated from the material belt, and the precision of the hole-removing blanking can be influenced.

The insulating sheet transferring assembly 4 is located between the insulating sheet cutting assembly 3 and the insulating sheet spacing assembly 5 and used for conveying the cut insulating sheet to the insulating sheet spacing assembly 5. The insulation sheet transferring assembly 4 comprises an insulation sheet grabbing part 4-1 and an insulation sheet moving driving unit 4-2, the insulation sheet grabbing part 4-1 of the embodiment is a sucker, the sucker is arranged on a sucker frame, the sucker frame is controlled to move by the insulation sheet moving driving unit 4-2, and the insulation sheet moving driving unit 4-2 is an air cylinder. The sucker (sucker frame) can move at least in the horizontal direction, preferably in the vertical direction, so that the position can be adjusted conveniently to accurately grab the insulating sheet. The insulating sheet grabbing part 4-1 can convey a plurality of insulating sheets cut by the insulating sheet cutting assembly 3 to the insulating sheet spacing assembly 5 at the same time. The insulating sheet grasping portion 4-1 of the present embodiment can convey two insulating sheets at a time.

Insulating piece back through insulating piece cutting assembly 3 cuts, and the distance between adjacent insulating piece is smaller, and is more nearly from being close, and inconvenient insulating piece assembly 8 is direct assembles the battery simultaneously with two insulating pieces on, for this reason, the utility model discloses a set up insulating piece components 5 apart, the insulating piece after will cutting is according to treating the interval between the assembly battery separately to insulating piece assembly 8 can be directly on assembling the battery with the insulating piece after the branch apart, raises the efficiency. As shown in fig. 6, the insulating sheet pitch assembly 5 includes a first insulating sheet placing site 5-1 and a second insulating sheet placing site 5-2, and the first insulating sheet placing site 5-1 and the second insulating sheet placing site 5-2 are relatively movable, and are close to or away from each other. When the first insulating sheet placing position 5-1 and the second insulating sheet placing position 5-2 are located at the first position, that is, are close to each other, the distance between the first insulating sheet placing position 5-1 and the second insulating sheet placing position 5-2 corresponds to the distance between adjacent insulating sheets after cutting, so that the insulating sheet transferring assembly 4 can directly translate and place the cut insulating sheets on the first insulating sheet placing position 5-1 and the second insulating sheet placing position 5-2. When the first insulation sheet placing position 5-1 and the second insulation sheet placing position 5-2 are located at the second position, namely, when the first insulation sheet placing position 5-1 and the second insulation sheet placing position 5-2 are separated from each other, the distance between the first insulation sheet placing position 5-1 and the second insulation sheet placing position 5-2 corresponds to the distance between the batteries to be provided with the insulation sheets, and therefore the insulation sheet assembly 8 can directly translate and assemble the separated insulation sheets onto the batteries. The quantity of position and the insulating piece quantity that insulating piece cutting assembly once cut out are put to the insulating piece and correspond.

The first insulation sheet placement position 5-1 is a fixed position, and the second insulation sheet placement position 5-2 is a movable position, that is, the second insulation sheet placement position 5-2 can move relative to the first insulation sheet placement position 5-1 under the action of the sheet moving driving unit 5-3, and is close to the first insulation sheet placement position 5-1 or far from the first insulation sheet placement position 5-1. The first insulation sheet placement site 5-1 and the second insulation sheet placement site 5-2 of the present embodiment are provided on a mounting seat 5-4, and the first insulation sheet placement site 5-1 and the mounting seat 5-4 are fixed to each other. As shown in fig. 7 and 8, a guide limit groove 5-4a is formed in the mounting base 5-4, the second insulation sheet placement position 5-2 has a guide portion (not shown) matched with the guide limit groove 5-4a, when the second insulation sheet placement position 5-2 is driven by the sheet moving driving unit 5-3 to move, the second insulation sheet placement position 5-2 moves along the guide limit groove 5-4a, and the second insulation sheet placement position 5-2 is controlled to move to a set position through the guide limit groove 5-4 a.

The present embodiment is provided with an insulating sheet assembly unit 8 on the frame 1, and the insulating sheet assembly unit 8 is used to assemble an insulating sheet to a battery. The structure of the insulating sheet assembly unit 8 is the same as that of the insulating sheet transfer unit 4.

Preferably, the present embodiment further includes an insulation sheet excess recovering assembly 9 and a second insulation sheet pulling assembly 10 disposed on the frame 1, the second insulation sheet pulling assembly 10 is disposed before the insulation sheet excess recovering assembly 9, and the structure of the second insulation sheet pulling assembly 10 is the same as that of the first insulation sheet pulling assembly 6. The insulation sheet excess material recycling assembly 9 comprises an excess material collecting barrel 9-1 and an excess material cutter 9-2, wherein the excess material cutter 9-2 cuts off the punched insulation sheet material belt, and the cut excess material is collected in the excess material collecting barrel 9-1. Further, a cutting waste suction pipe 12 is provided below the insulation sheet cutting assembly 3, and the cutting waste suction pipe 12 is connected to a vacuum pump (not shown) to collect the cut waste together by suction.

The sheet making process of the present invention is described below with reference to fig. 1 to 9:

firstly, manually winding an insulating sheet material on an insulating sheet unwinding roller 2-1, pulling an insulating sheet material strip 100 out of an insulating sheet material roll, sequentially bypassing a buffer roller 7 and a tension adjusting roller 11, and clamping by a first insulating sheet traction assembly 6 to forward the insulating sheet material strip 100 to an insulating sheet cutting assembly 3 and an insulating sheet spacing assembly 5;

the insulating sheet material strip 100 is cut at an insulating sheet cutting assembly 3, a tool rest 3-4 of the insulating sheet cutting assembly 3 moves up and down under the control of a cutting driving unit 3-5, so that a first die cutter 3-2 and a second die cutter 3-3 are pressed on a tool apron 3-1 or leave the tool apron 3-1, the first die cutter 3-2 carries out hole removing and punching on the insulating sheet material strip 100, the insulating sheet cutting assembly 3 of the embodiment is double-station, namely the first die cutter 3-2 punches hollow parts or holes of two insulating sheets on the insulating sheet material strip 100 at a time, then the second die cutter 3-3 punches the appearance of the insulating sheets and cuts the insulating sheets from the insulating sheet material strip 100, and the cut insulating sheets are moved to the discharging position of the insulating sheet cutting assembly 3;

the insulation sheet transferring assembly 4 simultaneously conveys the insulation sheets cut at one time to the insulation sheet spacing assembly 5 and respectively places the insulation sheets on the first insulation sheet placing position 5-1 and the second insulation sheet placing position 5-2; the first insulation sheet placing position 5-1 and the second insulation sheet placing position 5-2 are far away from each other, the cut insulation sheets are separated in the horizontal direction, and the separation distance corresponds to the space between the batteries to be assembled;

the insulation sheet assembly unit 8 transfers the divided insulation sheets to the battery.

Fig. 10 is a schematic structural diagram of a battery assembling apparatus having the mechanism for making the battery insulation sheet according to the present invention. As shown in fig. 10, the battery assembling apparatus includes a battery conveyor belt 20, a battery insulation sheet making mechanism is disposed beside the battery conveyor belt 20, a battery clamp 21 is disposed on the battery conveyor belt 20, and the battery 30 is placed on the battery clamp 21 and conveyed by the battery conveyor belt 20. When the battery passes through the position of the battery insulation sheet making mechanism, the divided insulation sheets are assembled on the battery by the insulation sheet assembly component 8. The side of the battery conveying belt 20 is also provided with mechanisms (not shown) such as lug shaping, steel shell welding, battery positioning, battery feeding, battery discharging and the like, and the mechanisms are mechanisms on a conventional battery assembly line.

In order to facilitate the installation of the insulation sheet on the battery, a tab clamping and positioning assembly 22 is further disposed opposite to the battery insulation sheet production mechanism in this embodiment, as shown in fig. 11, the tab clamping and positioning assembly 22 includes an inner clamping block 22-1 and an outer clamping block 22-2 which are disposed oppositely, and the inner clamping block 22-1 and the outer clamping block 22-2 can move relatively in the horizontal direction, so as to be clamped or separated from each other. When the battery is transferred to the position of the battery insulation sheet making mechanism, the inner clamping block 22-1 and the outer clamping block 22-2 move oppositely to clamp and position the pole lugs of the battery, and the insulation sheets are arranged on the battery after the positioning is finished.

Of course, the technical concept of the present invention is not limited to the above embodiments, and many different specific schemes can be obtained according to the concept of the present invention, for example, the driving unit can be a linear electric cylinder, a motor, an electric rod, a servo mechanism, etc. conventional mechanical driving structures, in order to ensure the efficiency and the compatibility of the equipment, in the foregoing embodiments, the driving unit of the moving part in the insulating sheet assembling assembly, the insulating sheet transferring assembly, the insulating sheet cutting assembly and the tab clamping and positioning assembly adopts a cam driving link mechanism to drive the moving part to move, but in other embodiments, the driving unit can also adopt a motor, a cylinder, etc. to drive; such modifications and equivalents are intended to be included within the scope of the present invention.

Claims (10)

1. A battery insulation piece film-making mechanism which is characterized by comprising:

the device comprises a rack, wherein an insulating sheet cutting assembly, an insulating sheet transferring assembly and an insulating sheet spacing assembly are arranged on the rack;

the insulation sheet cutting assembly cuts at least two insulation sheets from the insulation sheet material belt at one time;

the insulation sheet transferring assembly transfers the cut insulation sheets to the insulation sheet spacing assembly at the same time;

the insulation sheet spacing assembly separates the cut insulation sheets according to a set distance.

2. The battery insulating sheet-making mechanism according to claim 1, wherein: insulating piece cutting assembly include the blade holder, with relative knife rest, the drive that sets up of blade holder the knife rest is relative the blade holder remove cut the drive unit, set gradually in first die-cutting rule and second die-cutting rule on the blade holder, first die-cutting rule is used for going out the hole blanking to the insulating piece material area, the second die-cutting rule is used for carrying out the appearance blanking to the insulating piece material area, makes insulating piece and insulating piece material area separation.

3. The battery insulation sheet producing mechanism according to claim 1, wherein: the insulation sheet spacing assembly at least comprises a first insulation sheet placing position and a second insulation sheet placing position, and the first insulation sheet placing position and the second insulation sheet placing position can move relatively between a first position and a second position;

when the first insulating sheet placing position and the second insulating sheet placing position are positioned at the first position, the distance between the first insulating sheet placing position and the second insulating sheet placing position corresponds to the distance between adjacent insulating sheets after cutting, the first insulation piece put the position with when the second insulating piece was put the position and is in the second position, the first insulation piece put the position with the second insulating piece is put the distance between the position and is waited to adorn the distance between the battery of insulating piece corresponding.

4. The battery insulating sheet-making mechanism according to claim 3, wherein: the insulation sheet spacing assembly further comprises a mounting frame, the first insulation sheet placing position is fixedly arranged on the mounting frame, and the second insulation sheet placing position is movably arranged on the mounting frame;

the mounting bracket is provided with a guide limiting groove, and the second insulation sheet placing position is controlled by the sheet moving driving unit to move along the guide limiting groove.

5. The battery insulation sheet producing mechanism according to claim 1, wherein: the insulation sheet transferring assembly comprises an insulation sheet grabbing part and an insulation sheet moving driving unit, the insulation sheet grabbing part is a sucker, the sucker is arranged on the sucker frame, and the insulation sheet moving driving unit drives the sucker frame to move.

6. The battery insulation sheet producing mechanism according to claim 1, wherein: the frame is provided with insulating piece unreeling assembly and first insulating piece traction assembly that set gradually, first insulating piece traction assembly is located before the insulating piece cutting assembly.

7. The battery insulation sheet producing mechanism according to claim 1, wherein: be provided with insulating piece assembly subassembly in the frame, insulating piece assembly subassembly is located behind the insulating piece components apart from for on adorning the battery with the insulating piece.

8. The battery insulation sheet producing mechanism according to claim 1, wherein: the machine frame is provided with an insulation sheet excess material recovery assembly and a second insulation sheet traction assembly, and the second insulation sheet traction assembly is arranged in front of the insulation sheet excess material recovery assembly;

insulating piece clout recovery unit includes the clout collecting vessel and is located clout cutter before the clout collecting vessel, the clout cutter is used for cutting off the insulating piece material area after the blanking, and the clout after cutting off is collected in the clout collecting vessel.

9. Battery rigging equipment, including the battery conveyer belt, its characterized in that: the battery insulation sheet production mechanism according to any one of claims 1 to 8, which is disposed beside the battery conveyor belt.

10. The battery mounting apparatus of claim 9, wherein: the battery insulation sheet production mechanism is arranged on the battery conveying belt and comprises a battery insulation sheet production mechanism, a battery conveying belt and a tab clamping and positioning assembly, wherein the tab clamping and positioning assembly and the battery insulation sheet production mechanism are oppositely arranged and are respectively positioned on two sides of the battery conveying belt;

the pole lug clamping and positioning assembly comprises an inner clamping block and an outer clamping block which are oppositely arranged, and the inner clamping block and the outer clamping block can relatively move in the horizontal direction so as to be mutually clamped or separated to clamp the pole lug of the battery or loosen the pole lug of the battery.

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