CN219203225U - Cylindrical cell horizontal encapsulation equipment with automatic glue changing function - Google Patents

Abstract

The utility model relates to the technical field of battery production, and provides a horizontal encapsulation device for a cylindrical battery cell with an automatic gel changing function, which comprises: the device comprises an encapsulation conveying line, a feeding device, an encapsulation device, a glue receiving device, a detection device and a discharging device; the feeding device, the rubber coating device, the rubber collecting device and the detecting device are sequentially arranged on the rubber coating conveying line along the conveying direction of the rubber coating conveying line; the encapsulation device comprises a plurality of encapsulation mechanisms, the structures of the encapsulation mechanisms are the same, the encapsulation mechanisms can move relative to encapsulation positions on the encapsulation conveying line, and one of the encapsulation mechanisms is used for switching to correspond to the encapsulation position so as to encapsulate the electric core of the encapsulation position; according to the utility model, through switching of the plurality of rubber coating mechanisms, the rubber coating device can always maintain normal production, and the production efficiency of the whole cylindrical cell horizontal rubber coating equipment with an automatic rubber changing function is ensured.

Description

Cylindrical cell horizontal encapsulation equipment with automatic glue changing function

Technical Field

The utility model relates to the technical field of battery production, in particular to a horizontal encapsulation device for a cylindrical battery cell with an automatic gel changing function.

Background

In the production process of the battery, there is an encapsulation process, and the encapsulation process comprises a plurality of sub-processes, and the sub-processes are all completed at an encapsulation station, wherein one sub-process is encapsulation treatment of the battery core by an encapsulation machine.

Current rubber coating machine is through the uncoiling of adhesive tape roll, then leads the sticky tape of uncoiling to the electric core tip and carries out the rubber coating and handle, when the adhesive tape roll is used up, need stop the line with the rubber coating machine and change new adhesive tape roll, along with the stop line of rubber coating machine, can influence the beat of other sub-processes, leads to the production efficiency of whole rubber coating workstation can receive the influence for the production efficiency of rubber coating process is lower.

Disclosure of Invention

The utility model provides a horizontal rubber coating device with an automatic rubber changing function for a cylindrical battery cell, which is used for solving or improving the problem that the whole production efficiency is lower because a wire stopping pair rubber coating machine is required to replace a new rubber belt roll in the existing rubber coating station.

The utility model provides a horizontal encapsulation device for a cylindrical battery cell with an automatic glue changing function, which comprises: the device comprises an encapsulation conveying line, a feeding device, an encapsulation device, a glue receiving device, a detection device and a discharging device; the feeding device, the rubber coating device, the rubber collecting device and the detecting device are sequentially arranged on the rubber coating conveying line along the conveying direction of the rubber coating conveying line; the feeding device is used for transferring the battery cells on the feeding conveying line to the rubber coating conveying line, and the discharging device is used for transferring the battery cells detected on the rubber coating conveying line to the sorting conveying line; the encapsulation device comprises a plurality of encapsulation mechanisms, the structures of the encapsulation mechanisms are the same, the encapsulation mechanisms can move relative to encapsulation positions on the encapsulation conveying line, and one of the encapsulation mechanisms is used for being switched to correspond to the encapsulation position so as to encapsulate the battery cells of the encapsulation position.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the feeding device comprises a feeding clamping jaw and a first rotating mechanism; the feeding clamping jaw is connected with the first rotating mechanism, and the first rotating mechanism is used for driving the feeding clamping jaw to rotate by 90 degrees so as to adjust the battery cell on the feeding clamping jaw from a vertical state to a horizontal state.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the feeding device further comprises a lifting mechanism and a translation mechanism; the feeding clamping jaw and the first rotating mechanism are arranged on the lifting mechanism, and the lifting mechanism is arranged on the translation mechanism.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the glue collecting device comprises a push head, a guide cylinder, a glue collecting pressure head and a heating piece; the glue collecting pressure head is arranged at one end of the guide cylinder, the push head is used for pushing the battery cell into the guide cylinder from the other end of the guide cylinder, the glue collecting pressure head is used for being abutted to the end face of the battery cell, and the heating piece is used for heating the glue collecting pressure head.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the detection device comprises a visual detection mechanism; the detection end of the visual detection mechanism faces to the battery cell on the rubber coating conveying line, and the visual detection mechanism is in communication connection with the blanking device.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the detection device further comprises a light source assembly; the light source assembly is arranged close to the visual detection mechanism, and light rays emitted by the light source assembly irradiate the battery cell on the rubber coating conveying line.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the detection device further comprises a sliding table; the sliding table is arranged along the conveying direction of the rubber coating conveying line, and the visual detection mechanism is movably arranged on the sliding table.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue changing function, the blanking device comprises a blanking clamping jaw and a second rotating mechanism; the blanking clamping jaw is connected with the second rotating mechanism, and the second rotating mechanism is used for driving the blanking clamping jaw to rotate by 90 degrees so as to adjust the battery cell on the blanking clamping jaw from a horizontal state to a vertical state.

According to the horizontal rubber coating equipment with the automatic rubber changing function for the cylindrical battery cell, the rubber coating device comprises a turntable, a first rubber coating mechanism and a second rubber coating mechanism; the first rubber coating mechanism and the second rubber coating mechanism are oppositely arranged on the rotary table, the first rubber coating mechanism and the second rubber coating mechanism comprise an uncoiling assembly, and a rubber belt roll is arranged on the uncoiling assembly.

According to the cylindrical cell horizontal encapsulation equipment with the automatic glue replacing function, a plurality of encapsulation devices are arranged, and the encapsulation devices are sequentially arranged at intervals along the conveying direction of the encapsulation conveying line.

According to the cylindrical battery cell horizontal encapsulation equipment with the automatic glue replacing function, through switching of the plurality of encapsulation mechanisms, the encapsulation treatment of the battery cell by one encapsulation mechanism in the encapsulation device is ensured all the time, namely the encapsulation device can maintain normal production all the time, and the phenomenon that the coil of tape on the encapsulation mechanism needs to be stopped for replacement after being used up is avoided; after the adhesive tape roll on the first encapsulation mechanism is used up, the first encapsulation mechanism leaves the encapsulation position, the second encapsulation mechanism is switched to the encapsulation position, so that the second encapsulation mechanism carries out encapsulation treatment, an operator changes the adhesive tape roll on the first encapsulation mechanism, after the adhesive tape roll on the second encapsulation mechanism is used up, the second encapsulation mechanism leaves the encapsulation position, the third encapsulation mechanism is switched to the encapsulation position, so that the third encapsulation mechanism carries out encapsulation treatment, the operator changes the adhesive tape roll on the second encapsulation mechanism, and so on; the whole process enables the encapsulation treatment of the encapsulation device to be seamless, the adhesive tape roll does not need to be replaced by stopping a wire, the production beat of the encapsulation treatment is guaranteed, the battery cell after the encapsulation treatment is subjected to the encapsulation treatment through the encapsulation receiving device, the battery cell after the encapsulation treatment is detected by the detecting device so as to judge the encapsulation quality, and the discharging device discharges the battery cell to a corresponding sorting conveying line according to the encapsulation quality; because the rubber coating device can maintain normal production all the time, the production efficiency of the follow-up rubber collecting device, the detection device and the blanking device is guaranteed, and the production efficiency of the whole cylindrical battery cell horizontal rubber coating equipment with the automatic rubber replacing function is further guaranteed.

Drawings

In order to more clearly illustrate the utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural diagram of a horizontal encapsulation device for a cylindrical battery cell with an automatic glue changing function;

fig. 2 is a schematic structural diagram of a feeding device provided by the utility model;

fig. 3 is a schematic structural diagram of the glue receiving device provided by the utility model;

fig. 4 is a schematic structural diagram of a detection device provided by the utility model.

Reference numerals:

1: an encapsulation conveyor line; 2: a feeding device; 21: feeding clamping jaws; 22: a first rotation mechanism; 23: a lifting mechanism; 24: a translation mechanism; 3: a encapsulation device; 31: a first encapsulation mechanism; 32: a second glue-coating mechanism; 4: a glue collecting device; 41: pushing heads; 42: a guide cylinder; 43: a glue receiving pressure head; 5: a detection device; 51: a visual detection mechanism; 52: a light source assembly; 53: a sliding table; 6: a blanking device; 7: a feeding conveying line; 8: a battery cell; 9: sorting conveying lines; 91: a first conveyor line; 92: a second conveyor line; 10: a roll of tape.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the embodiments of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the embodiments of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the embodiments of the present utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In describing embodiments of the present utility model, it should be noted that, unless explicitly stated and limited otherwise, the terms "coupled," "coupled," and "connected" should be construed broadly, and may be either a fixed connection, a removable connection, or an integral connection, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in embodiments of the present utility model will be understood in detail by those of ordinary skill in the art.

The following describes a horizontal encapsulation device for a cylindrical battery cell with an automatic glue-changing function with reference to fig. 1 to 4.

As shown in fig. 1, the horizontal encapsulation device for a cylindrical battery cell with an automatic glue changing function according to this embodiment includes: rubber coating transfer chain 1, loading attachment 2, rubber coating device 3, receipts are glued device 4, detection device 5 and unloader 6.

The feeding device 2, the rubber coating device 3, the rubber collecting device 4 and the detecting device 5 are sequentially arranged on the rubber coating conveying line 1 along the conveying direction of the rubber coating conveying line 1; the feeding device 2 is used for transferring the battery cells 8 on the feeding conveyor line 7 to the rubber coating conveyor line 1, and the discharging device 6 is used for transferring the battery cells 8 detected on the rubber coating conveyor line 1 to the sorting conveyor line 9; the encapsulation device 3 comprises a plurality of encapsulation mechanisms, the structures of the encapsulation mechanisms are the same, the encapsulation mechanisms can move relative to the encapsulation positions on the encapsulation conveying line 1, and one of the encapsulation mechanisms is used for being switched to correspond to the encapsulation position so as to encapsulate the electric core of the encapsulation position.

Specifically, the cylindrical cell horizontal encapsulation equipment with the automatic glue replacing function shown in the embodiment ensures that one encapsulation mechanism can always carry out encapsulation treatment on the cell 8 in the encapsulation device 3 through switching of a plurality of encapsulation mechanisms, namely the encapsulation device 3 can always maintain normal production, and the phenomenon that the adhesive tape roll 10 on the encapsulation mechanism needs to be replaced after being used up is avoided; after the adhesive tape roll 10 on the first encapsulation mechanism is used up, the first encapsulation mechanism leaves the encapsulation position, the second encapsulation mechanism is switched to the encapsulation position, so that the second encapsulation mechanism carries out encapsulation treatment, an operator changes the adhesive tape roll 10 on the first encapsulation mechanism, after the adhesive tape roll 10 on the second encapsulation mechanism is used up, the second encapsulation mechanism leaves the encapsulation position, the third encapsulation mechanism is switched to the encapsulation position, so that the third encapsulation mechanism carries out encapsulation treatment, the operator changes the adhesive tape roll 10 on the second encapsulation mechanism, and so on; the whole process enables the encapsulation treatment of the encapsulation device 3 to be in seamless connection without stopping the line to replace the adhesive tape roll 10, ensures the production beat of the encapsulation treatment, carries out the encapsulation treatment on the battery cells 8 after the encapsulation treatment through the encapsulation receiving device 4, and detects the battery cells 8 after the encapsulation treatment through the detecting device 5 to judge the encapsulation quality, and the discharging device 6 discharges the battery cells 8 onto the corresponding sorting conveying line 9 according to the encapsulation quality; because the rubber coating device 3 can maintain normal production all the time, the production efficiency of the subsequent rubber collecting device 4, the detection device 5 and the blanking device 6 is guaranteed, and the production efficiency of the whole cylindrical battery cell horizontal rubber coating equipment with an automatic rubber replacing function is further guaranteed.

In some embodiments, as shown in fig. 2, the feeding device 2 shown in this embodiment includes a feeding claw 21 and a first rotation mechanism 22; the feeding clamping jaw 21 is connected with a first rotating mechanism 22, and the first rotating mechanism 22 is used for driving the feeding clamping jaw 21 to rotate by 90 degrees so as to adjust the battery cell 8 on the feeding clamping jaw 21 from a vertical state to a horizontal state.

Specifically, after the feeding clamping jaw 21 clamps the electric core 8 in the vertical state, the feeding clamping jaw 21 is rotated by the first rotating mechanism 22, so that the electric core 8 in the vertical state is rotated to the horizontal state, the electric core 8 in the horizontal state is transferred to the encapsulation conveying line 1 by the feeding clamping jaw 21, the electric core 8 in the horizontal state is conveyed by the encapsulation conveying line 1, and when the electric core 8 in the horizontal state is conveyed to the encapsulation device 3, the encapsulation device 3 carries out encapsulation treatment on the electric core 8 in the horizontal state, namely, horizontal encapsulation treatment on the electric core 8.

In some embodiments, as shown in fig. 2, the feeding device 2 shown in this embodiment further includes a lifting mechanism 23 and a translation mechanism 24; the feeding clamping jaw 21 and the first rotating mechanism 22 are arranged on the lifting mechanism 23, and the lifting mechanism 23 is arranged on the translation mechanism 24.

Specifically, when the battery core 8 on the feeding conveying line 7 needs to be clamped, the translation mechanism 24 drives the lifting mechanism 23, the feeding clamping jaw 21 and the first rotation mechanism 22 to move towards the feeding conveying line 7, when the feeding clamping jaw 21 moves to the position right above the feeding conveying line 7, the lifting mechanism 23 lowers the feeding clamping jaw 21 to clamp the battery core 8, after clamping is finished, the lifting mechanism 23 lifts the feeding clamping jaw 21, the feeding clamping jaw 21 is rotated by 90 degrees through the first rotation mechanism 22, the translation mechanism 24 drives the lifting mechanism 23, the feeding clamping jaw 21 and the first rotation mechanism 22 to move towards the encapsulation conveying line 1, and when the feeding clamping jaw 21 moves to the position right above the encapsulation conveying line 1, the lifting mechanism 23 lowers the feeding clamping jaw 21 and places the battery core 8 on the encapsulation conveying line 1.

Wherein, elevating system 23 can be vertical slip table, translation mechanism 24 can be horizontal slip table.

In some embodiments, as shown in fig. 3, the glue receiving device 4 in this embodiment includes a push head 41, a guide cylinder 42, a glue receiving pressure head 43, and a heating element; the glue collecting pressure head 43 is arranged at one end of the guide cylinder 42, the push head 41 is used for pushing the battery cell 8 into the guide cylinder 42 from the other end of the guide cylinder 42, so that the end face of one end of the battery cell encapsulation is abutted against the glue collecting pressure head 43, the heating piece is started and heats the glue collecting pressure head 43, so that the adhesive tape is attached to the end face of the battery cell 5, glue collecting processing is completed, and after the glue collecting processing is completed, the battery cell 8 is pushed out of the guide cylinder 42 through the push mechanism and returns to the encapsulation conveying line 1 again, and is conveyed towards the detection device 5.

In some embodiments, as shown in fig. 4, the detection device 5 shown in this embodiment includes a visual detection mechanism 51; the detection end of the visual detection mechanism 51 faces the battery cell 8 on the rubber coating conveying line 1, and the visual detection mechanism 51 is in communication connection with the blanking device 6.

Specifically, the visual detection mechanism 51 may be a camera, and the end face of the battery cell 8 after the glue receiving treatment is shot through the camera, so as to determine the quality of the encapsulation, and further distinguish the qualified product from the defective product, and the qualified product and the defective product are discharged onto the corresponding sorting conveying line 9 by the discharging device 6.

In some embodiments, as shown in fig. 4, the detection device 5 shown in this embodiment further includes a light source assembly 52; the light source assembly 52 is arranged close to the visual detection mechanism 51, and light emitted by the light source assembly 52 irradiates the battery cell 8 on the rubber coating conveying line 1, so that a bright shooting environment is provided for a camera, and the detection accuracy is further ensured.

In some embodiments, as shown in fig. 4, the detection device 5 shown in this embodiment further includes a sliding table 53; the sliding table 53 is arranged along the conveying direction of the encapsulation conveying line 1, and the visual detection mechanism 51 is movably arranged on the sliding table 53.

Specifically, the sliding table 53 is used for driving the visual detection mechanism 51 and the encapsulation conveying line 1 to move in the same direction, so that the battery cell 8 on the encapsulation conveying line 1 and the visual detection mechanism 51 can be kept relatively static, and the accuracy of detection by the visual detection mechanism 51 is ensured; accordingly, the rubber coating conveying line 1 does not need to be stopped and then is detected by the visual detection mechanism 51, namely, the rubber coating conveying line 1 can always maintain a conveying state, and the production efficiency of the whole cylindrical cell horizontal rubber coating equipment with an automatic rubber changing function is ensured.

In some embodiments, the blanking device 6 shown in this embodiment includes a blanking claw and a second rotating mechanism; the blanking clamping jaw is connected with a second rotating mechanism, and the second rotating mechanism is used for driving the blanking clamping jaw to rotate by 90 degrees so as to adjust the electric core on the blanking clamping jaw from a horizontal state to a vertical state.

Specifically, the electric core 8 on the rubber coating conveying line 1 is in a horizontal state, and after the electric core on the rubber coating conveying line 1 is clamped by the blanking clamping jaw, the electric core is rotated by 90 degrees under the action of the second rotating mechanism, so that the electric core 8 is switched from the horizontal state to the vertical state, and the electric core 8 in the vertical state is conveyed by the sorting conveying line 9.

As shown in fig. 1, the sorting conveyor line 9 includes a first conveyor line 91 and a second conveyor line 92, the first conveyor line 91 is used for conveying qualified products, the second conveyor line 92 is used for conveying defective products, and the blanking gripper correspondingly transfers the battery cells 8 to the first conveyor line 91 or the second conveyor line 92 according to the quality of encapsulation.

In some embodiments, as shown in fig. 1, the encapsulation device 3 shown in this embodiment includes a turntable, a first encapsulation mechanism 31, and a second encapsulation mechanism 32; the first rubber coating mechanism 31 and the second rubber coating mechanism 32 are arranged on the turntable in a back-to-back mode, and the first rubber coating mechanism 31 and the second rubber coating mechanism 32 comprise an uncoiling assembly, and the adhesive tape roll 10 is installed on the uncoiling assembly.

Specifically, the first encapsulation mechanism is the setting of being the back of the body with the second encapsulation mechanism, and the orientation of first encapsulation mechanism 31 and second encapsulation mechanism 32 is opposite promptly, from this, the angle of revolving stage rotation at every turn is 180 degrees, thereby realize the switching between first encapsulation mechanism 31 and the second encapsulation mechanism 32, set up through the back of the body of first encapsulation mechanism 31 and second encapsulation mechanism 32, thereby keep away from encapsulation transfer chain 1 with the encapsulation mechanism that needs to change adhesive tape roll 10 as far as possible, guaranteed the operating space of changing adhesive tape roll 10, in order to reduce operating personnel's interference to the encapsulation when changing adhesive tape roll 10.

In some embodiments, as shown in fig. 1, the encapsulation device 3 shown in this embodiment is provided with a plurality of encapsulation devices 3, and the plurality of encapsulation devices 3 are sequentially arranged at intervals along the conveying direction of the encapsulation conveying line 1, and by setting the plurality of encapsulation devices 3, the encapsulation treatment can be performed on the plurality of battery cells 8 at the same time, so that the production efficiency of the encapsulation station is improved.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (10)

1. Horizontal rubber coating equipment of cylinder electricity core with automatic trade gluey function, its characterized in that includes: the device comprises an encapsulation conveying line, a feeding device, an encapsulation device, a glue receiving device, a detection device and a discharging device;

the feeding device, the rubber coating device, the rubber collecting device and the detecting device are sequentially arranged on the rubber coating conveying line along the conveying direction of the rubber coating conveying line; the feeding device is used for transferring the battery cells on the feeding conveying line to the rubber coating conveying line, and the discharging device is used for transferring the battery cells detected on the rubber coating conveying line to the sorting conveying line;

the encapsulation device comprises a plurality of encapsulation mechanisms, the structures of the encapsulation mechanisms are the same, the encapsulation mechanisms can move relative to encapsulation positions on the encapsulation conveying line, and one of the encapsulation mechanisms is used for being switched to correspond to the encapsulation position so as to encapsulate the battery cells of the encapsulation position.

2. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 1, wherein,

the feeding device comprises a feeding clamping jaw and a first rotating mechanism;

the feeding clamping jaw is connected with the first rotating mechanism, and the first rotating mechanism is used for driving the feeding clamping jaw to rotate by 90 degrees so as to adjust the battery cell on the feeding clamping jaw from a vertical state to a horizontal state.

3. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 2, wherein,

the feeding device further comprises a lifting mechanism and a translation mechanism;

the feeding clamping jaw and the first rotating mechanism are arranged on the lifting mechanism, and the lifting mechanism is arranged on the translation mechanism.

4. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 1, wherein,

the glue collecting device comprises a push head, a guide cylinder, a glue collecting pressure head and a heating piece;

the glue collecting pressure head is arranged at one end of the guide cylinder, the push head is used for pushing the battery cell into the guide cylinder from the other end of the guide cylinder, the glue collecting pressure head is used for being abutted to the end face of the battery cell, and the heating piece is used for heating the glue collecting pressure head.

5. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 1, wherein,

the detection device comprises a visual detection mechanism;

the detection end of the visual detection mechanism faces to the battery cell on the rubber coating conveying line, and the visual detection mechanism is in communication connection with the blanking device.

6. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 5, wherein,

the detection device further comprises a light source component;

the light source assembly is arranged close to the visual detection mechanism, and light rays emitted by the light source assembly irradiate the battery cell on the rubber coating conveying line.

7. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 5, wherein,

the detection device further comprises a sliding table;

the sliding table is arranged along the conveying direction of the rubber coating conveying line, and the visual detection mechanism is movably arranged on the sliding table.

8. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 1, wherein,

the blanking device comprises a blanking clamping jaw and a second rotating mechanism;

the blanking clamping jaw is connected with the second rotating mechanism, and the second rotating mechanism is used for driving the blanking clamping jaw to rotate by 90 degrees so as to adjust the battery cell on the blanking clamping jaw from a horizontal state to a vertical state.

9. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 1, wherein,

the rubber coating device comprises a turntable, a first rubber coating mechanism and a second rubber coating mechanism;

the first rubber coating mechanism and the second rubber coating mechanism are oppositely arranged on the rotary table, the first rubber coating mechanism and the second rubber coating mechanism comprise an uncoiling assembly, and a rubber belt roll is arranged on the uncoiling assembly.

10. The horizontal encapsulation device for cylindrical cells with automatic gel changing function according to claim 1, wherein,

the encapsulation device is provided with a plurality of encapsulation devices, and a plurality of encapsulation devices are sequentially arranged at intervals along the conveying direction of the encapsulation conveying line.

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