CN212907820U - Automatic production line of battery - Google Patents

Abstract

The utility model discloses an automatic production line of a battery, which comprises a pole piece unreeling device, a pole piece feeding mechanism and a battery pole piece; the pole piece feeding mechanism drives the battery pole piece to be wound up from the pole piece and conveyed to a preset position, wherein a laser cleaning mechanism, a pole lug welding mechanism and a protective adhesive pasting mechanism are arranged on a conveying path of the battery pole piece; and the pole piece feeding mechanism is provided with a winding mechanism, a diaphragm feeding mechanism and a pasting ending mechanism. Carry out integral type automated production work such as washing, coiling, subsides protective adhesive to battery sheet, do not need the manual work to control alone every process, and greatly simplified the processing technology step, promoted machining efficiency, reduced the operation degree of difficulty, compared with prior art, solved technical defect such as the structure complicacy that prior art exists, bulky, the processing step is many, production efficiency hangs down.

Description

Automatic production line of battery

Technical Field

The utility model relates to a production facility technical field of battery specifically is an automation line of battery.

Background

The prior art process is realized by independent cleaning equipment, welding equipment and winding equipment respectively, so that the production of the battery has more equipment, the comprehensive cost of the equipment and the occupied space of a workshop are larger, and the production cost of the whole battery is higher; for example, in the prior art, the battery pole pieces are manually conveyed to a cleaning device to be cleaned, so that a large amount of labor cost is consumed, the production efficiency is low, and the material waste is increased when the battery pole pieces are conveyed to a belt splicing link.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art scheme, the utility model provides an automatic production line of batteries.

The utility model provides a technical scheme that its technical problem adopted is:

an automatic production line of a battery comprises a pole piece unreeling device, a pole piece feeding mechanism and a battery pole piece; the pole piece feeding mechanism drives the battery pole piece to be wound up from the pole piece and conveyed to a preset position, wherein a laser cleaning mechanism, a pole lug welding mechanism and a protective adhesive pasting mechanism are arranged on a conveying path of the battery pole piece; and the pole piece feeding mechanism is provided with a winding mechanism, a diaphragm feeding mechanism and a pasting ending mechanism.

As an optimal technical scheme of the utility model, laser wiper mechanism includes: a laser module having a projection unit for emitting laser light; the transmission path of the battery pole piece penetrates through the pole piece guiding and feeding seat and penetrates out of the pole piece guiding and feeding seat, and an injection port for injecting laser into the transmission path in the pole piece guiding and feeding seat by the projection part penetrates through the pole piece guiding and feeding seat; and the guide and delivery seat driving assembly is in driving connection with the pole piece guide and delivery seat so as to drive the pole piece guide and delivery seat to move close to or far away from the laser assembly.

As an optimized technical scheme, be provided with on the pole piece guide seat: the air knife is positioned in a conveying path in the pole piece guide and conveying seat; and the speed regulating valve is connected with the air knife in a driving way so as to regulate the air blowing amount of the air knife.

As an optimal technical scheme of the utility model, utmost point ear welding mechanism includes: the tab unreeling device is used for storing tab raw materials; the tab conveying assembly drives tab raw materials to be conveyed to a preset position from the tab unreeling device; the lug corrector and the lug unreeling device are arranged at intervals and used for correcting the conveying position of the lug raw material; and a tab cutter cutting out tab raw materials and conveying the tab raw materials to a preset amount.

As an optimal technical scheme of the utility model, paste protection glue mechanism includes: the material belt spare belt component is used for storing the protective adhesive raw material; the material belt automatic roll changing clamp component; the manual roll changing and sliding cutting assembly conveys the protective glue to a position matched with the automatic roll changing clamp assembly of the material belt; and a cutter assembly for cutting off the protective adhesive delivered to a predetermined amount.

As an optimized technical scheme of the utility model, winding mechanism includes: the winding needle group comprises two winding needles which are oppositely arranged and used for clamping the battery pole piece; and the winding needle seat is connected with one end of the winding needle group to drive the winding needle group to rotate so as to wind the battery pole piece on the outer side of the winding needle.

As a preferred technical solution of the present invention, the winding needle is provided with a movable portion, and the movable portion is movably connected to the winding needle along a first direction and can reciprocate between a first position and a second position; wherein the first position is farther from a rotation center axis of the needle winding group than the second position.

As an optimal technical scheme of the utility model, unfamiliar feeding mechanism includes: unwinding a membrane, and storing the membrane in the membrane unwinding; the membrane feeder is used for conveying the membrane; the membrane puller is used for clamping the membrane and can move in the direction close to or far away from the membrane feeder so as to pull out the membrane in the membrane feeder for a distance; and a diaphragm cutter that cuts the diaphragm pulled out a distance from the diaphragm feed mechanism.

As an optimal technical scheme of the utility model, paste ending mechanism includes: the adhesive tape holder comprises an upper clamping block and a lower clamping block, and the upper clamping block and the lower clamping block can move away from or close to each other to fixedly hold or release an adhesive tape; the clamp holder driving component is in driving connection with the upper clamping block and the lower clamping block and is used for driving the upper clamping block and the lower clamping block to move away from or close to each other; and the clamp moving assembly is in driving connection with the adhesive tape clamp and drives the adhesive tape clamp to move back and forth.

As an optimized technical scheme, still be provided with cleanliness factor CCD detector on battery sheet's transport route.

Compared with the prior art, the beneficial effects of the utility model are that:

carry out integral type automated production work such as washing, coiling, subsides protective adhesive to battery sheet, do not need the manual work to control alone every process, and greatly simplified the processing technology step, promoted machining efficiency, reduced the operation degree of difficulty, compared with prior art, solved technical defect such as the structure complicacy that prior art exists, bulky, the processing step is many, production efficiency hangs down.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention

Fig. 2 is a schematic structural view of the laser cleaning mechanism of the present invention.

Reference numbers in the figures:

1-pole piece unreeling device, 2-pole piece feeding mechanism, 3-battery pole piece, 4-laser cleaning mechanism, 41-laser assembly, 42-pole piece guiding and conveying seat, 43-guiding and conveying seat driving assembly, 44-air knife, 45-speed regulating valve, 46-dust suction plate, 5-pole lug welding mechanism, 6-protective glue pasting mechanism, 7-winding mechanism, 8-traction piece, 9-cleanliness CCD detector, 10-advancing deviation corrector, 11-diaphragm feeding mechanism, 111-diaphragm unreeling, 112-diaphragm cutting mechanism and 12-tail pasting mechanism

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an automation line of battery mainly is used for washing, convoluteing, pastes integral type automated production work such as protective adhesive to battery sheet 3 of electron cigarette, certainly, if other types of battery sheet also are according to the utility model discloses a technical scheme produces, also belongs to the utility model discloses an in the protection range. As shown in fig. 1 and 2, the specific structure includes a pole piece unreeling device 1, a pole piece feeding mechanism 2 and a battery pole piece 3;

as shown in the attached figure 1, the battery pole piece 3 of the utility model is respectively provided with a positive pole piece and a negative pole piece, the pole piece feeding mechanism 2 drives the battery pole piece 3 to be reeled up from the pole piece and conveyed to a preset position, the preset position refers to the processing position of respectively conveying the positive pole piece and the negative pole piece (hereinafter, the positive pole piece and the negative pole piece are both referred to as the battery pole piece 3) to the wound finished product, and a conveying path formed in the battery pole piece 3 during the conveying of the battery pole piece 3, the battery pole piece 3 being conveyed in the conveying path, a plurality of traction members 8 are arranged in the conveying path of the battery pole piece 3, as shown in fig. 1, when the battery pole piece 3 is pulled out from the pole piece unreeling device 1, the plurality of traction members 8 on the conveying path play a role of guiding conveying so as to finally convey the battery pole piece 3 to a preset position.

The device comprises a battery pole piece 3, a pole lug welding mechanism 5, a protective adhesive sticking mechanism 6 and a laser cleaning mechanism 4, wherein the laser cleaning mechanism 4 is arranged on a conveying path of the battery pole piece 3 and is used for cleaning the battery pole piece 3 in the conveying path;

after being conveyed out of the pole piece unreeling device 1, a battery pole piece 3 is firstly welded with a pole lug through a pole lug welding mechanism 5, the pole lug welding mechanism 5 comprises a pole lug unreeling device, a pole lug correcting device, a pole lug conveying assembly, a pole lug cutter deburring mechanism and a welding device, the front end of the pole lug unreeling device is provided with the pole lug correcting mechanism, the front end of the pole lug correcting device is provided with the pole lug conveying assembly, the front end of the pole lug conveying assembly is provided with the pole lug cutting deburring device, the pole lug unreeling device unreels a disk-shaped rolled pole lug into a strip-shaped pole lug and conveys the strip-shaped pole lug to the pole lug correcting device, the pole lug correcting device drives the pole lug to return to the pole lug correcting position, the pole lug conveying assembly drives the pole lug to enter the pole lug cutter deburring mechanism, the pole lug deburring mechanism cuts off the pole lug and removes burrs, the welding mechanism is provided with a welding seat capable of heating up, and after the welding seat preheats the pole piece, the welding mechanism integrates the pole piece with the pole piece.

After the battery pole piece 3 is welded with a tab, the battery pole piece is conveyed into a protective adhesive tape pasting mechanism 6, the protective adhesive tape pasting mechanism 6 comprises a protective adhesive tape preparation component, a protective adhesive tape pasting component, a material tape preparation component, a material tape automatic roll changing clamp component, a manual roll changing slide cutting component and a cutter component, the material tape preparation component and the manual roll changing slide cutting component are respectively provided with two groups, the manual roll changing slide cutting component can be used for switching the material tape preparation component to be matched with the material tape automatic roll changing clamp component, after the work is started, the protective adhesive tape preparation component is used for preparing protective adhesive, the two groups of material tape preparation components can be respectively wound and used for preparing the material tape, one group of material tape preparation component is switched to a position matched with the material tape automatic roll changing clamp component through the manual roll changing slide cutting component, the protective adhesive tape pasting component, the material tape automatic roll changing clamp component and the cutter component are matched to realize the tape receiving and the protective adhesive pasting of the lithium battery, finally, the prepared protective glue of the protective glue preparation assembly is pasted at the interface of the battery pole piece 3.

Because a lot of carbon dust can adhere to the battery pole pieces 3, if the carbon dust adhering to the battery pole pieces 3 is not removed, the quality of the finished battery can be seriously affected, but in the prior art, the battery pole pieces 3 are independently conveyed to cleaning equipment, the workload of an implementer is increased, and in order to solve the technical problem, after the battery pole pieces 3 are adhered with the protective glue, the protective glue is conveyed to the laser cleaning mechanism 4, and the carbon dust adhering to the battery pole pieces is removed.

The laser cleaning mechanism 4 includes: the laser unit 41 has a projection portion for emitting laser light, and the projection portion of the laser unit 41 faces the battery pole piece 3 and emits laser light to remove soot on the battery pole piece 3 during conveyance.

The pole piece guiding and conveying seat 42 is characterized in that a conveying path of the battery pole piece 3 penetrates through the pole piece guiding and conveying seat 42 and penetrates out of the pole piece guiding and conveying seat 42, specifically, the battery pole piece 3 can be conveyed into the pole piece guiding and conveying seat 42 in conveying, and is conveyed out of the pole piece guiding and conveying seat 42 after being cleaned by the laser assembly 41. The pole piece guide holder 42 has a through-hole through which a projection unit projects laser light to a transport path in the pole piece guide holder 42, and as shown in fig. 2, the laser module 41 emits laser light to irradiate the battery pole piece 3.

The guide seat driving assembly 43, the guide seat driving assembly 43 and the pole piece guide seat 42 are in driving connection to drive the pole piece guide seat 42 to move close to or away from the laser assembly 41, and the best cleaning effect can be achieved by adjusting the distance between the pole piece guide seat 42 and the laser assembly 41.

The pole piece guiding and conveying seat 42 is provided with: and an air knife 44 positioned in the conveying path in the pole piece guide seat 42, wherein the air knife 44 is used for blowing off additional water, cooling liquid, dust, scraps and the like in the manufacturing process and has the effects of air cooling, drying and dust removing on the battery pole piece 3, and a speed regulating valve 45 is used for being connected with the air knife 44 in a driving mode so as to regulate the air blowing amount of the air knife 44. Reach and possess negative pole laser cleaning carbon dust function, practice thrift human cost and cost of transportation, for example save solitary laser cleaning machine operating personnel and material transportation personnel, also material saving cost, it is integrated to film-making coiling all-in-one with laser cleaning function, can save the area link of connecing, it is extravagant to reduce the material, save equipment cost in addition, it is integrated to film-making coiling all-in-one with laser cleaning function, can save the detection mechanism and the subsides mark mechanism of laser cleaning machine itself, utilize the system of film-making coiling all-in-one, with the integrated closed-loop control of function, and the integrated closed-loop control of system, can improve the product yield.

The pole piece guiding and conveying base 42 is further provided with a dust suction plate 46, as shown in fig. 2, the dust suction plate 46 is fixed in the conveying path of the battery pole piece 3, so as to suck dust on the battery pole piece 3 during the conveying process of the battery pole piece 3.

The pole piece feeding mechanism 2 is provided with a winding mechanism 7, a diaphragm feeding mechanism 11 and an attaching ending mechanism 12, and the battery pole piece 3 conveyed to a preset position is subjected to finished product processing through the winding mechanism 7, the diaphragm feeding mechanism 11 and the attaching ending mechanism 12.

The membrane feeding mechanism 11 comprises a membrane unreeling 111, and the membrane is stored in the membrane unreeling 111; the membrane feeder is used for conveying the membrane; the membrane feeder is used for clamping the membrane and can move in the direction close to or far away from the membrane feeder so as to pull out the membrane in the membrane feeder for a certain distance; and a membrane cut 112 that cuts the membrane that is pulled a distance from the membrane loader. The diaphragm feeding mechanism is divided into a diaphragm feeding mechanism and a diaphragm pulling mechanism, and the needle winding mechanism can clamp the middle part of a diaphragm pulled by the diaphragm pulling mechanism, so that the winding device can fold the pulled diaphragm into two layers to wind the diaphragm, on one hand, two layers of diaphragms are ensured in a wound battery core, on the other hand, only one diaphragm discharging device and one diaphragm feeding device are needed, and the integral structure of the winding device is greatly simplified.

The diaphragm feed mechanism includes that diaphragm plummer, diaphragm compression roller and diaphragm press and hold the piece, forms the diaphragm transmission path that is used for supplying the diaphragm to pass between diaphragm plummer and the diaphragm compression roller, and the diaphragm is pressed and is held the one end of piece and rotate and set up in the frame, and the other end that the piece was pressed to the diaphragm is used for relying on gravity to press the diaphragm to hold on the diaphragm plummer. The other end of the diaphragm pressing and holding piece is provided with a roller which can prevent the diaphragm pressing and holding piece from damaging the diaphragm.

In this embodiment, the diaphragm feeding mechanism further includes a diaphragm retaining assembly and a diaphragm cutter assembly, the diaphragm retaining assembly is movable in a direction close to or away from the diaphragm pressing member to press the diaphragm pressing member against the diaphragm carrier or release the diaphragm pressing member; the diaphragm cutter assembly comprises a cutter cylinder and a cutter, the cutter cylinder can drive the cutter to stretch, and the stretching direction of the cutter is perpendicular to the diaphragm bearing table and is used for cutting off the diaphragm.

The diaphragm stopping assembly comprises a stopping cylinder and a stopping pressing block, and the output end of the stopping cylinder is connected to the stopping pressing block and used for driving the stopping pressing block to be close to or far away from the diaphragm pressing piece. When the diaphragm needs to be cut off, the retaining cylinder extends out, and the retaining pressing block abuts against the diaphragm pressing piece, so that the diaphragm is pressed between the diaphragm pressing piece and the diaphragm bearing table, and the diaphragm is prevented from deviating in the shearing process.

In this embodiment, the diaphragm draws material mechanism includes first fixing base, first sliding seat, first double-layered material module and first removal module, and first fixing base is connected in the frame, and first sliding seat slides and locates on the first fixing base, and first double-layered material mechanism locates on the first sliding seat, and first double-layered material module can press from both sides tightly or loosen the diaphragm, and first removal module can drive first sliding seat and remove first fixing base relatively to make first double-layered material module drive the diaphragm and remove.

The tape closing mechanism 12 comprises a tape holder which comprises an upper clamping block and a lower clamping block, wherein the upper clamping block and the lower clamping block can move away from or close to each other to fixedly clamp or release the tape; the clamp holder driving component is in driving connection with the upper clamping block and the lower clamping block and is used for driving the upper clamping block and the lower clamping block to move away from or close to each other; the clamping device moving assembly is in driving connection with the adhesive tape clamping device and drives the adhesive tape clamping device to move back and forth, two groups of upper clamping blocks are rotatably arranged above the lower clamping block, and the clamping cylinder and the upper clamping blocks are respectively rotatably arranged at two ends of the lower clamping block, so that when the clamping cylinder drives, the upper clamping block can swing around the lower clamping block, and the front side of the lower clamping block is in a comb-tooth shape, so that the protective adhesive is pressed on comb teeth of the lower clamping block; in order to convey the adhesive tape clamped by the upper clamping block and the lower clamping block forwards, the lower clamping block is slidably mounted on a guide rail on the equipment, the feeding cylinder is fixed on the side surface of the equipment substrate, and the piston rod end of the feeding cylinder is fixed on the lower clamping block. When the feeding cylinder moves, the lower clamping block and the upper clamping block can be driven to move back and forth, and the adhesive tape clamped by the lower clamping block and the upper clamping block is conveyed to the battery pole piece 3 and is attached with the protective adhesive.

The winding mechanism 7 comprises a winding needle group, and the winding needle group comprises two winding needles which are oppositely arranged and used for clamping the battery pole piece 3; and the winding needle seat is connected with one end of the winding needle group so as to drive the winding needle group to rotate, so that the battery pole piece 3 is wound on the outer side of the winding needle. The winding mechanism 7 is used for winding the battery pole piece 3 to form a battery core, and may specifically include at least one winding needle group and a winding needle seat. Wherein, roll up the one end setting of needle group on rolling up the needle file, roll up the needle file and be used for rolling up behind needle group centre gripping substrate, under the drive of external power, drive and roll up the needle group and rotate to on rolling up the peripheral face of needle group with the substrate, each rolls up needle group in this embodiment can include two relative book needles that set up for centre gripping battery pole piece 3.

The winding needle is also provided with a movable part, and the movable part is movably connected with the winding needle along a first direction and can reciprocate between a first position and a second position; when the winding needle group winds the base material, the outer peripheral surface of the movable part and the outer peripheral surface of the winding needle group form an outer peripheral surface with a circular outer contour together; when the winding needle group finishes winding and blanking, the movable part is positioned at the second position so as to flatten and mold the battery pole piece 3.

Through the manner, the winding mechanism 7 in this embodiment can move the movable portion arranged on the winding needle from the first position to the second position by external force when the battery core needs to be blanked, so as to flatten the wound battery pole piece 3; and the flattened battery pole piece 3 can easily keep a fixed shape, and the problems of separation of an inner layer diaphragm belt, crumpling and the like during needle drawing are avoided, so that the quality of the battery pole piece 3 is ensured.

After accomplishing foretell winding mechanism 7, diaphragm feeding mechanism 11 and pasting final phase of a project mechanism 12's theory of operation to the completion is to the finished product process of battery, for the production process to the battery among the prior art, the utility model discloses can realize integral type automated production.

In this embodiment, a cleanliness CCD detector 9 is further disposed on the conveying path of the battery pole piece 3 to detect cleanliness of both sides of the battery pole piece 3, and the cleanliness CCD detector 9 is located on the conveying path of the battery pole piece 3 after laser cleaning is completed in the pole piece guiding seat 42 and the battery pole piece is conveyed out, so that an implementer can observe whether some residual carbon dust exists on the battery pole piece 3.

Still include still to be provided with on the transport route of battery pole piece 3 and advance rectifying device 10 in this embodiment, carry battery pole piece 3 all the time from preset transport route for solve current rectifying mechanism because there is installation error in the installation, make battery pole piece 3 appear the phenomenon of "off tracking" easily, make the marginal damage of substrate even cause whole substrate to tear condemned problem.

Through the utility model discloses can realize, wash, convolute, paste integral type automated production work such as protective adhesive to battery pole piece 3, do not need the manual work to control alone every process, and greatly simplified the processing technology step, promoted machining efficiency, reduced the operation degree of difficulty, compare with prior art, solved technical defect such as the structure complicacy that prior art exists, bulky, the processing step is many, production efficiency hangs down.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. An automatic production line of batteries is characterized by comprising a pole piece unreeling device, a pole piece feeding mechanism and battery pole pieces;

the pole piece feeding mechanism drives the battery pole piece to be wound up from the pole piece and conveyed to a preset position, wherein a laser cleaning mechanism, a pole lug welding mechanism and a protective adhesive pasting mechanism are arranged on a conveying path of the battery pole piece;

and the pole piece feeding mechanism is provided with a winding mechanism, a diaphragm feeding mechanism and a pasting ending mechanism.

2. The automated production line of batteries according to claim 1, wherein said laser cleaning mechanism comprises:

a laser module having a projection unit for emitting laser light;

the transmission path of the battery pole piece penetrates through the pole piece guiding and feeding seat and penetrates out of the pole piece guiding and feeding seat, and an injection port for injecting laser into the transmission path in the pole piece guiding and feeding seat by the projection part penetrates through the pole piece guiding and feeding seat;

and the guide and delivery seat driving assembly is in driving connection with the pole piece guide and delivery seat so as to drive the pole piece guide and delivery seat to move close to or far away from the laser assembly.

3. The automatic production line of batteries according to claim 2, characterized in that said pole piece guide seat is provided with:

the air knife is positioned in a conveying path in the pole piece guide and conveying seat;

the speed regulating valve is connected with the air knife in a driving mode so as to regulate the air blowing amount of the air knife;

and a dust suction plate fixed in the conveying path of the battery pole piece.

4. The automated production line of batteries according to claim 1, wherein said tab welding mechanism comprises:

the tab unreeling device is used for storing tab raw materials;

the tab conveying assembly drives tab raw materials to be conveyed to a preset position from the tab unreeling device;

the lug corrector is arranged at a distance from the lug unreeling device and is used for correcting the conveying position of the lug raw material;

and a tab cutter cutting out tab raw materials and conveying the tab raw materials to a preset amount.

5. The automatic production line of batteries according to claim 1, wherein said protective adhesive applying mechanism comprises:

the material belt spare belt component is used for storing the protective adhesive raw material;

the material belt automatic roll changing clamp component;

the manual roll changing and sliding cutting assembly conveys the protective glue to a position matched with the automatic roll changing clamp assembly of the material belt;

and a cutter assembly for cutting off the protective adhesive delivered to a predetermined amount.

6. The automated line of claim 1, wherein the winding mechanism comprises:

the winding needle group comprises two winding needles which are oppositely arranged and used for clamping the battery pole piece;

and the winding needle seat is connected with one end of the winding needle group to drive the winding needle group to rotate so as to wind the battery pole piece on the outer side of the winding needle.

7. The automatic production line of batteries according to claim 6, wherein said winding needle is provided with a movable portion, said movable portion is movably connected to said winding needle along a first direction and can reciprocate between a first position and a second position; wherein the first position is farther from a rotation center axis of the needle winding group than the second position.

8. The automated manufacturing line for batteries according to claim 1, wherein said membrane feeding mechanism comprises:

unwinding a membrane, and storing the membrane in the membrane unwinding;

the membrane feeder is used for conveying the membrane;

the membrane puller is used for clamping the membrane and can move in the direction close to or far away from the membrane feeder so as to pull out the membrane in the membrane feeder for a distance;

and a diaphragm cutter cutting the diaphragm drawn out from the diaphragm feeder by a distance.

9. The automated manufacturing line for batteries according to claim 1, wherein said closing mechanism comprises:

the adhesive tape holder comprises an upper clamping block and a lower clamping block, and the upper clamping block and the lower clamping block can move away from or close to each other to fixedly hold or release an adhesive tape;

the clamp holder driving component is in driving connection with the upper clamping block and the lower clamping block and is used for driving the upper clamping block and the lower clamping block to move away from or close to each other;

and the clamp moving assembly is in driving connection with the adhesive tape clamp and drives the adhesive tape clamp to move back and forth.

10. The automatic production line of batteries according to claim 1, wherein a cleanliness CCD detector is further provided on the transportation path of the battery pole pieces.

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