CN216354370U - Battery rubber coating device - Google Patents

Abstract

The utility model relates to the technical field of battery processing, in particular to a battery rubber coating device which comprises a rubber coating seat, a rubber tape supplying mechanism, an upper clamping mechanism, a belt cutting mechanism, a rubber tape U-shaped rubber coating assembly, a rubber coating driving mechanism, a lower clamping traction mechanism and a pressing rubber coating mechanism, wherein the rubber tape U-shaped rubber coating assembly comprises a moving seat connected with the output end of the rubber coating driving mechanism, a belt suction head arranged on the moving seat, a belt pushing driver arranged on the moving seat and a belt pushing U-shaped rubber coating head connected with the output end of the belt pushing driver, the belt suction head is provided with a first belt suction hole group, the belt pushing U-shaped rubber coating head is provided with two belt pushing rubber blocks arranged at intervals, and the first belt suction hole group is positioned between the two belt pushing rubber blocks. The rubber coating device is ingenious in structural design, and the rubber belt section is bent into a U-shaped structure and coated on the protection plate of the battery through the cooperative matching of the belt suction head and the belt pushing U-shaped rubber coating head, so that the automatic rubber coating is realized, the rubber coating efficiency and quality are improved, and the labor cost and labor intensity of rubber coating are reduced.

Description

Battery rubber coating device

Technical Field

The utility model relates to the technical field of battery processing, in particular to a battery rubber coating device.

Background

In the production process of the lithium polymer battery, the protective plate of the battery needs to be encapsulated, folded and wound with glue, so as to achieve the purpose of insulating and fixing the protective plate. In the prior art, the battery protection plate is usually encapsulated manually, so that the encapsulating labor intensity is high, the required manual work is large, the labor cost is high, the encapsulating efficiency is low, and the encapsulating quality is difficult to ensure. Therefore, the drawbacks are obvious, and a solution is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model aims to provide a battery encapsulating device.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a battery rubber coating device comprises a rubber coating seat, a rubber tape supplying mechanism arranged on the rubber coating seat, an upper clamping mechanism arranged at the output end of the rubber tape supplying mechanism, a belt cutting mechanism arranged below the upper clamping mechanism, a rubber tape U-shaped rubber coating component arranged below the belt cutting end of the belt cutting mechanism, a rubber coating driving mechanism arranged on the rubber coating seat and used for driving the rubber tape U-shaped rubber coating component to move, a lower clamping traction mechanism arranged below the rubber tape U-shaped rubber coating component and a pressing rubber coating mechanism arranged at the outer side of the rubber tape U-shaped rubber coating component, wherein the upper clamping mechanism and the lower clamping traction mechanism are arranged oppositely, the rubber tape U-shaped rubber coating component comprises a moving seat connected with the output end of the rubber coating driving mechanism, a belt suction head arranged on the moving seat, a belt pushing driver arranged on the moving seat and a belt pushing U-shaped rubber coating head connected with the output end of the belt pushing driver, and the belt suction head is provided with a first belt suction hole group, the belt pushing U-shaped rubber coating head is provided with two belt pushing rubber blocks arranged at intervals, and the first belt absorbing hole group is located between the two belt pushing rubber blocks.

Further, it inhales the band punch combination, pushes up the trough of belt, pushes down the trough of belt and the third is inhaled the trough of belt still to be provided with the second, the second is inhaled the trough of belt, is pushed up the trough of belt, first is inhaled the trough of belt, is pushed down the trough of belt and the third and is inhaled the trough of belt and set gradually from last down, and two are pushed away and take the rubber coating piece and correspond the setting with the trough of belt and the lower trough of belt that pushes up respectively.

Furthermore, go up smuggle secretly the mechanism including install in the fixed piece of smuggleing secretly on the package glue seat, install in the driver of smuggleing secretly on the package glue seat and install in the last piece of smuggleing secretly of the output of driver on, go up smuggleing secretly the driver and be used for driving on move smuggleing secretly the piece and be close to or keep away from on the fixed piece of smuggleing secretly.

Further, the tape cutting mechanism comprises a tape cutting driver arranged on the adhesive coating seat and a cutter connected with the output end of the tape cutting driver, and the cutter is positioned between the upper clamping belt mechanism and the tape suction head.

Further, lower pulling mechanism smugglies secretly including installing in the package of gluing the seat smuggle lift driver secretly, with smuggle lift seat secretly that the output of lift driver is connected secretly, install in smuggle under the lift seat secretly smuggle secretly the finger cylinder and install respectively under secretly two of the clamping-band piece of two exposed core of finger cylinder secretly.

Furthermore, the rubber coating driving mechanism comprises a first driver arranged on the rubber coating seat, a sliding plate connected to the rubber coating seat in a sliding manner and a second driver arranged on the sliding plate, the sliding plate is connected with the output end of the first driver, the movable seat is connected with the sliding plate in a sliding manner, and the output end of the second driver is connected with the movable seat.

Furthermore, the clamping end of the upper movable clamping belt block is provided with a plurality of clamping blocks which are arranged at intervals.

Furthermore, the pressing and gluing mechanism comprises an upper pressing and gluing component and a lower pressing and gluing component which are respectively arranged on the glue packaging seat, and the upper pressing and gluing component and the lower pressing and gluing component are arranged oppositely.

Furthermore, the upper pressing rubberizing component or/and the lower pressing rubberizing component comprise a pressing rubberizing driver arranged on the rubber coating seat and a pressing rubberizing head arranged at the output end of the pressing rubberizing driver.

Further, supply sticky tape mechanism including rotate connect in the material book frame of rubber coating seat and rotate and connect in the spacing deflector roll of sticky tape of rubber coating seat, the spacing deflector roll of sticky tape is located the material book frame and goes up smugglies between the mechanism secretly.

The utility model has the beneficial effects that: when the battery is started, a tape roll is arranged on the tape supply mechanism, a tape on the tape roll penetrates through the upper clamping mechanism, the free end of the tape is positioned below the upper clamping mechanism, the U-shaped rubber coating component of the tape is positioned on the back surface of the tape, namely the U-shaped rubber coating component of the tape is positioned on one side of the tape, which is far away from the pressing and gluing mechanism, and the protection plate of the battery is positioned at the pressing and gluing end of the pressing and gluing mechanism and is arranged corresponding to the U-shaped rubber coating component of the tape; in practical application, the lower clamping belt traction mechanism clamps the free end of the adhesive tape and pulls the free end downwards, so that the adhesive tape supply mechanism releases the adhesive tape on the adhesive tape roll, the adhesive tape sequentially passes through the tape cutting mechanism and the adhesive tape U-shaped encapsulation assembly until the clamping end of the lower clamping belt traction mechanism is positioned below the adhesive tape U-shaped encapsulation assembly, at the moment, the upper clamping belt mechanism clamps the adhesive tape positioned above the tape cutting mechanism, the tape suction head sucks the adhesive tape tightly, then the tape cutting mechanism works and cuts off the adhesive tape positioned between the upper clamping belt mechanism and the adhesive tape U-shaped encapsulation assembly to form an adhesive tape section, then the lower clamping belt traction mechanism releases clamping force on the bottom end of the adhesive tape section, then the encapsulation driving mechanism drives the movable base to move along the direction of the protective plate close to the battery, the tape section, the tape pushing driver and the pushing belt U-shaped encapsulation head move towards the protective plate close to the battery again after the adhesive tape section moves to the position, the pushing driver drives the pushing belt U-shaped head to move towards the protective plate close to the battery again, in the process of moving the tape pushing U-shaped rubber coating head, two tape pushing rubber blocks on the tape pushing U-shaped rubber coating head respectively push two ends of a rubber tape section until the rubber tape section is bent into a U-shaped structure horizontally arranged, the rubber tape section of the U-shaped structure is wrapped and attached to a protection plate of a battery, and finally the rubber tape section of the U-shaped structure is pressed on the protection plate of the battery by a pressing rubber sticking end of a pressing rubber sticking mechanism, so that the rubber tape section can be firmly stuck to the protection plate of the battery to complete a rubber coating process of the protection plate of the battery. The rubber coating device is ingenious in structural design, and the rubber belt section is bent into a U-shaped structure and coated on the protection plate of the battery through the cooperative matching of the belt suction head and the belt pushing U-shaped rubber coating head, so that the automatic rubber coating is realized, the rubber coating efficiency and quality are improved, and the labor cost and labor intensity of the rubber coating are reduced.

Drawings

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

Fig. 2 is a schematic perspective view of another aspect of the present invention.

Fig. 3 is a schematic perspective view of a U-shaped encapsulation assembly and an encapsulation driving mechanism of the adhesive tape of the utility model.

Fig. 4 is a schematic perspective view of the lower clamping band pulling mechanism of the present invention.

Fig. 5 is a schematic perspective view of an upper clamping mechanism according to the present invention.

Fig. 6 is a schematic structural diagram of the battery of the present embodiment.

Description of reference numerals:

01. a battery; 02. a protection plate; 11. wrapping a rubber seat; 12. a tape supply mechanism; 121. a coil rack; 122. a rubber belt limiting guide roller; 13. an upper entrainment mechanism; 131. fixing an entrainment block; 132. an upper entrainment drive; 133. moving the clamping block upwards; 134. a clamping block; 14. a belt cutting mechanism; 141. a tape cutting drive; 142. a cutter; 15. a U-shaped rubber coating component of the rubber belt; 150. a movable seat; 151. a suction tape head; 152. a tape pushing driver; 153. pushing a U-shaped rubber coating head; 154. a first suction belt hole group; 155. pushing a belt wrapping rubber block; 156. a second suction belt hole group; 157. pushing up the belt groove; 158. a lower push belt groove; 159. a third suction belt hole group; 16. a rubber coating driving mechanism; 161. a first driver; 162. a slide plate; 163. a second driver; 17. a lower belt traction mechanism; 171. a clamp belt lifting driver; 172. a clamp belt lifting seat; 173. a lower clamping finger cylinder; 174. a tape clamping member; 175. a entrainment body; 176. a rubber roller; 18. a laminating and gluing mechanism; 181. pressing and gluing components; 182. a lower pressing rubberizing component; 183. pressing and gluing a driver; 184. and pressing and pasting the adhesive head.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 6, the present invention provides a battery encapsulation device, which includes an encapsulation seat 11, an adhesive tape supplying mechanism 12 installed on the encapsulation seat 11, an upper clamping mechanism 13 installed at an output end of the adhesive tape supplying mechanism 12, a tape cutting mechanism 14 installed below the upper clamping mechanism 13, an adhesive tape U-shaped encapsulation assembly 15 located below a tape cutting end of the tape cutting mechanism 14, an encapsulation driving mechanism 16 installed on the encapsulation seat 11 and used for driving the adhesive tape U-shaped encapsulation assembly 15 to move, a lower clamping traction mechanism 17 located below the adhesive tape U-shaped encapsulation assembly 15, and a press-fit adhesive mechanism 18 installed on the encapsulation seat 11 and located outside the adhesive tape U-shaped encapsulation assembly 15, wherein the upper clamping mechanism 13 and the lower clamping traction mechanism 17 are arranged opposite to each other, the adhesive tape U-shaped encapsulation assembly 15 includes a moving seat 150 connected to the output end of the encapsulation driving mechanism 16, and a tape suction head 151 installed on the moving seat 150, The tape pushing device comprises a tape pushing driver 152 installed on the moving seat 150 and a tape pushing U-shaped rubber coating head 153 connected with the output end of the tape pushing driver 152, wherein a first tape sucking hole group 154 is arranged on the tape sucking head 151, two tape pushing rubber blocks 155 arranged at intervals are arranged on the tape pushing U-shaped rubber coating head 153, and the first tape sucking hole group 154 is located between the two tape pushing rubber blocks 155.

At the beginning, the adhesive tape roll is arranged on the adhesive tape supply mechanism 12, the adhesive tape on the adhesive tape roll penetrates through the upper clamping mechanism 13, the free end of the adhesive tape is positioned below the upper clamping mechanism 13, the adhesive tape U-shaped rubber coating component 15 is positioned on the back surface of the adhesive tape, namely the adhesive tape U-shaped rubber coating component 15 is positioned on one side of the adhesive tape, which is far away from the pressing and gluing mechanism 18, and the protection plate 02 of the battery 01 is positioned at the pressing and gluing end of the pressing and gluing mechanism 18 and is arranged corresponding to the adhesive tape U-shaped rubber coating component 15; in practical application, the lower clamping traction mechanism 17 clamps the free end of the adhesive tape and pulls the free end downwards, so that the adhesive tape supply mechanism 12 releases the adhesive tape on the adhesive tape roll, the adhesive tape passes through the tape cutting mechanism 14 and the adhesive tape U-shaped encapsulation assembly 15 in sequence until the clamping end of the lower clamping traction mechanism 17 is positioned below the adhesive tape U-shaped encapsulation assembly 15, at this time, the upper clamping mechanism 13 clamps the adhesive tape positioned above the tape cutting mechanism 14, the tape suction head 151 sucks the adhesive tape tightly, then the tape cutting mechanism 14 works and cuts off the adhesive tape positioned between the upper clamping mechanism 13 and the adhesive tape U-shaped encapsulation assembly 15 to form an adhesive tape section, then the lower clamping traction mechanism 17 releases the clamping force on the bottom end of the adhesive tape section, then the encapsulation driving mechanism 16 drives the moving seat 150 to move towards the direction of 02 close to the battery 01 protection board together with the tape suction head 151, the adhesive tape section, the tape push driver 152 and the push tape U-shaped encapsulation head 153, after the adhesive tape section is moved to the right position, the tape pushing driver 152 drives the tape pushing U-shaped adhesive coating head 153 to move towards the direction of the protection plate 02 close to the battery 01 again, in the process that the tape pushing U-shaped adhesive coating head 153 moves, two tape pushing adhesive blocks 155 on the tape pushing U-shaped adhesive coating head 153 push two ends of the adhesive tape section respectively until the adhesive tape section is bent into a horizontal U-shaped structure, the adhesive tape section of the U-shaped structure is coated and attached to the protection plate 02 of the battery 01, and finally the adhesive tape section of the U-shaped structure is laminated on the protection plate 02 of the battery 01 by the laminating adhesive end of the laminating adhesive mechanism 18, so that the adhesive tape section can be firmly attached to the protection plate 02 of the battery 01 to complete the working procedure of the protection plate 02 of the battery 01, and the operation steps are repeated to continuously encapsulate the protection plate 02 of the battery 01 to be encapsulated. The rubber coating machine has the advantages that the structural design is ingenious, the rubber belt sections are bent into the U-shaped structure and coated on the protection plate 02 of the battery 01 through the cooperative matching of the belt suction head 151 and the belt pushing U-shaped rubber coating head 153, the automatic rubber coating is realized, the rubber coating efficiency and quality are improved, and the labor cost and labor intensity of rubber coating are reduced.

In this embodiment, the belt suction head 151 is further provided with a second belt suction hole group 156, an upward belt pushing groove 157, a downward belt pushing groove 158, and a third belt suction hole group 159, the second belt suction hole group 156, the upward belt pushing groove 157, the first belt suction hole group 154, the downward belt pushing groove 158, and the third belt suction hole group 159 are sequentially arranged from top to bottom, two belt pushing rubber blocks 155 are respectively arranged corresponding to the upward belt pushing groove 157 and the downward belt pushing groove 158, and the first belt suction hole group 154, the second belt suction hole group 156, and the third belt suction hole group 159 are respectively communicated with different vacuum air passages. Two belt pushing and packing blocks 155 are respectively accommodated in the upper belt pushing groove 157 and the lower belt pushing groove 158, before the tape cutting mechanism 14 cuts the adhesive tape, the first suction hole group 154, the second suction hole group 156, and the third suction hole group 159 each suck the adhesive tape, after the tape cutting mechanism 14 cuts the adhesive tape to form the adhesive tape section, and the adhesive film section is moved in place, the second suction hole group 156 and the third suction hole group 159 release the suction force to both ends of the adhesive tape section, the tape pushing driver 152 then drives the tape pushing U-shaped taping head 153 to move toward the protective plate 02 adjacent to the battery 01, in the process of moving the tape pushing U-shaped tape wrapping head 153, the two tape pushing blocks 155 on the tape pushing U-shaped tape wrapping head 153 move out of the upper tape pushing groove 157 and the lower tape pushing groove 158 respectively and push the two ends of the tape section until the tape section is bent into a horizontal U-shaped structure, and the tape section of the U-shaped structure wraps and is attached to the protection plate 02 of the battery 01. This structural design has improved stability and precision of sticky tape section cladding on battery 01's protection shield 02 to the quality of rubber coating has been improved.

In this embodiment, the upper clamping mechanism 13 includes an upper clamping block 131 installed on the plastic-coated base 11, an upper clamping driver 132 installed on the plastic-coated base 11, and an upper moving clamping block 133 installed at an output end of the upper clamping driver 132, the upper clamping driver 132 is used for driving the upper moving clamping block 133 to approach or be away from the upper clamping block 131, and the upper clamping driver 132 may adopt a horizontally disposed cylinder.

After the lower clamping and pulling mechanism 17 pulls the adhesive tape and before the tape cutting mechanism 14 cuts the adhesive tape, the upper clamping driver 132 drives the upper movable clamping block 133 to move close to the upper fixed clamping block 131 until the upper movable clamping block 133 is matched with the upper fixed clamping block 131 to clamp the adhesive tape, so that the stability and the quality of the adhesive tape cut by the tape cutting mechanism 14 are improved.

In this embodiment, the tape cutting mechanism 14 includes a tape cutting driver 141 installed on the adhesive covering base 11 and a cutter 142 connected to an output end of the tape cutting driver 141, and the cutter 142 is located between the upper clamping mechanism 13 and the tape suction head 151; specifically, the tape cutting driver 141 may employ a horizontally disposed air cylinder. In practical applications, the tape cutting driver 141 drives the cutter 142 to move until the cutter 142 cuts the tape to form a tape segment, and then the tape cutting driver 141 drives the cutter 142 to reset for the next tape cutting.

In this embodiment, the lower entrainment traction mechanism 17 includes an entrainment lifting driver 171 installed on the rubber coating base 11, an entrainment lifting base 172 connected to an output end of the entrainment lifting driver 171, a lower entrainment finger cylinder 173 installed on the entrainment lifting base 172, and two entrainment members 174 respectively installed on two clamping ends of the lower entrainment finger cylinder 173; specifically, the entrainment lift drive 171 may employ a vertically upwardly disposed pneumatic cylinder.

When the adhesive tape needs to be pulled, the upper clamping mechanism 13 releases clamping of the adhesive tape, then the clamping lifting driver 171 drives the clamping lifting seat 172 and the lower clamping finger cylinder 173 to lift together with the two clamping pieces 174, so that the adhesive tape is located between the two clamping pieces 174, then the lower clamping finger cylinder 173 drives the two clamping pieces 174 to close, so that the two clamping pieces 174 clamp the adhesive tape, and finally the clamping lifting driver 171 drives the clamping lifting seat 172 and the lower clamping finger cylinder 173 to move down together with the two clamping pieces 174, so as to pull the adhesive tape until the amount of the pulled adhesive tape reaches a preset value, so as to pull the adhesive tape.

In this embodiment, the encapsulation driving mechanism 16 includes a first driver 161 installed on the encapsulation seat 11, a sliding plate 162 slidably connected to the encapsulation seat 11, and a second driver 163 installed on the sliding plate 162, wherein the sliding plate 162 is connected to an output end of the first driver 161, the movable seat 150 is slidably connected to the sliding plate 162, and an output end of the second driver 163 is connected to the movable seat 150. Specifically, the first driver 161 and the second driver 163 may each employ a horizontally disposed air cylinder. In practical application, the first driver 161 drives the sliding plate 162 to move, and the sliding plate 162 drives the second driver 163 to move synchronously with the tape U-shaped encapsulating assembly 15, so as to adjust the position of the tape U-shaped encapsulating assembly 15, and thus, the requirement that the tape U-shaped encapsulating assembly 15 encapsulates the protection plates 02 of the batteries 01 of different models can be met. The second driver 163 drives the moving base 150 together with the tape suction head 151, the tape section, the tape pushing driver 152 and the tape pushing U-shaped taping head 153 to move toward the direction of the protective plate 02 close to the battery 01, so that the tape section moves to a taping position.

In this embodiment, the clamping member 174 includes a clamping body 175 connected to the clamping end of the lower clamping finger cylinder 173 and a rubber roller 176 connected to the clamping body 175. When the two clamping pieces 174 clamp the adhesive tape, the rubber roller 176 increases the friction force between the adhesive tape and the clamping pieces 174 so as to firmly clamp the adhesive tape and avoid the phenomenon that the adhesive tape slips.

In this embodiment, the clamping end of the upper dynamic entrainment block 133 is provided with a plurality of clamping blocks 134, and the plurality of clamping blocks 134 are arranged at intervals. When the upper movable clamping block 133 and the upper fixed clamping block 131 clamp the adhesive tape, the clamping blocks 134 and the upper fixed clamping piece 174 are matched to clamp the adhesive tape, so that the contact area of the upper movable clamping block 133 and the adhesive tape is reduced, the adhesive surface of the adhesive tape is prevented from being adhered to the upper fixed clamping block 131 too tightly, and the lower clamping traction mechanism 17 can clamp the adhesive tape and pull the adhesive tape.

In this embodiment, the pressing and gluing mechanism 18 includes an upper pressing and gluing component 181 and a lower pressing and gluing component 182 respectively mounted on the glue-wrapping base 11, and the upper pressing and gluing component 181 and the lower pressing and gluing component 182 are disposed opposite to each other. After the tape U-shaped encapsulation assembly 15 coats and adheres the tape section to the protection board 02 of the battery 01, the upper pressing and adhesive component 181 is matched with the lower pressing and adhesive component 182 to press the tape section to the protection board 02 of the battery 01, so that the tape section can be firmly adhered to the protection board 02 of the battery 01, and the encapsulation quality is improved.

In this embodiment, the upper pressing rubberizing component 181 and/or the lower pressing rubberizing component 182 includes a pressing rubberizing driver 183 installed on the rubber covering base 11 and a pressing rubberizing head 184 installed on an output end of the pressing rubberizing driver 183; specifically, the pressing and gluing actuator 183 may employ a vertically disposed air cylinder. In practical applications, the pressing and gluing driver 183 drives the pressing and gluing head 184 to move, so that the pressing and gluing head 184 of the upper pressing and gluing component 181 and the pressing and gluing head 184 of the lower pressing and gluing component 182 move close to each other until the pressing and gluing head 184 of the upper pressing and gluing component 181 and the pressing and gluing head 184 of the lower pressing and gluing component 182 cooperate to press and glue the tape segment against the protection board 02 of the battery 01.

In this embodiment, the tape supplying mechanism 12 includes a material roll frame 121 rotatably connected to the adhesive coating base 11 and a tape limiting guide roller 122 rotatably connected to the adhesive coating base 11, and the tape limiting guide roller 122 is located between the material roll frame 121 and the upper clamping mechanism 13. In practical application, the adhesive tape roll is mounted on the material roll frame 121, and the adhesive tape of the adhesive tape roll is guided and limited by the adhesive tape limiting guide roller 122 and then penetrates through the tape clamping end of the upper clamping mechanism 13; when the lower clamping belt traction mechanism 17 pulls the adhesive tape to move, the adhesive tape roll material and the material roll frame 121 synchronously rotate to realize the tape release of the adhesive tape.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.

Claims (10)

1. A battery rubber coating device which characterized in that: comprises a rubber coating seat, a rubber tape supplying mechanism arranged on the rubber coating seat, an upper clamping mechanism arranged at the output end of the rubber tape supplying mechanism, a belt cutting mechanism arranged below the upper clamping mechanism, a rubber tape U-shaped rubber coating component positioned below the belt cutting end of the belt cutting mechanism, a rubber coating driving mechanism arranged on the rubber coating seat and used for driving the rubber tape U-shaped rubber coating component to move, a lower clamping traction mechanism arranged below the rubber tape U-shaped rubber coating component and a pressing and gluing mechanism positioned at the outer side of the rubber tape U-shaped rubber coating component, wherein the upper clamping mechanism and the lower clamping traction mechanism are arranged oppositely, the rubber tape U-shaped rubber coating component comprises a moving seat connected with the output end of the rubber coating driving mechanism, a belt sucking head arranged on the moving seat, a belt pushing driver arranged on the moving seat and a belt pushing U-shaped rubber coating head connected with the output end of the belt pushing driver, and the belt sucking head is provided with a first belt sucking hole group, the belt pushing U-shaped rubber coating head is provided with two belt pushing rubber blocks arranged at intervals, and the first belt absorbing hole group is located between the two belt pushing rubber blocks.

2. The battery over-molding apparatus of claim 1, wherein: inhale the tape head and still be provided with the second and inhale the band hole group, push up the band groove, push down the band groove and the third inhales the band hole group, the band hole group is inhaled to the second, push up the band groove, the first band hole group of inhaling, push down the band groove and the third and inhale the band hole group from last down setting gradually, two push away and take rubber coating piece to correspond the setting with push up the band groove and push down the band groove respectively.

3. The battery over-molding apparatus of claim 1, wherein: the upper clamping belt mechanism comprises an upper fixed clamping belt block arranged on the rubber coating seat, an upper clamping belt driver arranged on the rubber coating seat and an upper movable clamping belt block arranged at the output end of the upper clamping belt driver, and the upper clamping belt driver is used for driving the upper movable clamping belt block to be close to or far away from the upper fixed clamping belt block.

4. The battery over-molding apparatus of claim 1, wherein: the tape cutting mechanism comprises a tape cutting driver arranged on the adhesive coating seat and a cutter connected with the output end of the tape cutting driver, and the cutter is positioned between the upper clamping belt mechanism and the tape suction head.

5. The battery over-molding apparatus of claim 1, wherein: lower smuggle draw gear secretly including install in the seat of gluing secretly lift driver, with smuggle lift driver's output connection secretly smuggle lift seat, install in smuggle lift seat secretly smuggle under smuggle the finger cylinder and install respectively under smuggle two of grip ends of finger cylinder secretly and take the piece.

6. The battery over-molding apparatus of claim 1, wherein: the rubber coating driving mechanism comprises a first driver arranged on the rubber coating seat, a sliding plate connected to the rubber coating seat in a sliding mode and a second driver arranged on the sliding plate, the sliding plate is connected with the output end of the first driver, the moving seat is connected with the sliding plate in a sliding mode, and the output end of the second driver is connected with the moving seat.

7. The battery over-molding apparatus of claim 3, wherein: the clamping end of the upper dynamic clamping belt block is provided with a plurality of clamping blocks, and the plurality of clamping blocks are arranged at intervals.

8. The battery over-molding apparatus of claim 1, wherein: the pressing and rubberizing mechanism comprises an upper pressing and rubberizing component and a lower pressing and rubberizing component which are respectively arranged on the rubber coating seat, and the upper pressing and rubberizing component and the lower pressing and rubberizing component are arranged oppositely.

9. The battery over-molding apparatus of claim 8, wherein: the upper pressing rubberizing component or/and the lower pressing rubberizing component comprise a pressing rubberizing driver arranged on the rubber coating seat and a pressing rubberizing head arranged at the output end of the pressing rubberizing driver.

10. The battery over-molding apparatus of claim 1, wherein: the adhesive tape supply mechanism comprises a material roll frame which is rotatably connected to the adhesive tape wrapping seat and an adhesive tape limiting guide roller which is rotatably connected to the adhesive tape wrapping seat, and the adhesive tape limiting guide roller is located between the material roll frame and the upper belt clamping mechanism.

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