CN220272511U - Double rubberizing device for electrodes on two sides of cylindrical battery - Google Patents

Abstract

The utility model provides a double rubberizing device of electrodes on two sides of a cylindrical battery, comprising: the feeding mechanism comprises a feeding roll, a motor, a stripping mechanism and a receiving roller, wherein the motor drives a material belt on the feeding roll passes through the stripping mechanism and then is wound on the receiving roller, the rubberizing mechanism comprises a material taking cylinder, a rubberizing cylinder and a rubberizing suction nozzle connected with the material taking cylinder, the rubberizing cylinder drives the material taking cylinder and the rubberizing suction nozzle to move towards a first direction close to or far away from a battery to be rubberized, and the material taking cylinder drives the rubberizing suction nozzle to move in a second direction perpendicular to the first direction. The utility model can finish coil stock rubberizing through the feeding and the feeding of the rotary table, can rubberize the electrodes on two sides of the cylindrical battery at the same time, ensures that rubberizing positions are neat and consistent, and has the characteristics of high speed and high efficiency.

Description

Double rubberizing device for electrodes on two sides of cylindrical battery

Technical Field

The utility model relates to the field of battery manufacturing, in particular to a double rubberizing device for electrodes on two sides of a cylindrical battery.

Background

In the prior art, when the electrodes on two sides of the cylindrical battery are rubberized, only one side of the cylindrical battery can be rubberized at each time, and after the electrodes on one side are rubberized, the electrodes on the other side are rubberized, so that the rubberizing efficiency is low, and the phenomenon that the rubberizing positions on two ends are inconsistent is easily caused.

Disclosure of Invention

The utility model provides a double rubberizing device for electrodes on two sides of a cylindrical battery, which aims to solve at least one technical problem.

To solve the above problems, as one aspect of the present utility model, there is provided a dual paste device for both side electrodes of a cylindrical battery, comprising: the feeding mechanism comprises a feeding roll, a motor, a stripping mechanism and a receiving roller, wherein the motor drives a material belt on the feeding roll passes through the stripping mechanism and then is wound on the receiving roller, the rubberizing mechanism comprises a material taking cylinder, a rubberizing cylinder and a rubberizing suction nozzle connected with the material taking cylinder, the rubberizing cylinder drives the material taking cylinder and the rubberizing suction nozzle to move towards a first direction close to or far away from a battery to be rubberized, and the material taking cylinder drives the rubberizing suction nozzle to move in a second direction perpendicular to the first direction.

Preferably, the rubberizing mechanism further comprises an optical fiber sensor for detecting whether a material taking position of the rubberizing suction nozzle is filled with materials.

Preferably, the two material taking cylinders are installed on the same movable seat, the movable seat is installed on the linear guide rail, and the rubberizing cylinder is connected with the movable seat.

Preferably, the feeding mechanism further comprises a feeding roller, a feeding synchronous wheel is arranged on the feeding roller, a receiving synchronous wheel is arranged on the receiving roller, and the motor drives the feeding roller and the receiving roller to rotate through a belt matched with the feeding synchronous wheel and the receiving synchronous wheel.

Preferably the feed roller, feed roller and stripping mechanism are mounted on a first side of the mounting riser, and the motor, feed synchronizing wheel and take-up synchronizing wheel are mounted on a second side of the mounting riser.

By adopting the technical scheme, the utility model can finish coil stock rubberizing through feeding and feeding of the turntable, can rubberize electrodes on two sides of the cylindrical battery at the same time, ensures that rubberizing positions are neat and consistent, and has the characteristics of high speed and high efficiency.

Drawings

Fig. 1 schematically shows a perspective view of the utility model;

fig. 2 schematically shows a second perspective view of the present utility model.

Reference numerals in the drawings: 1. feeding rolls; 2. a motor; 3. a peeling mechanism; 4. a material receiving roller; 5. a material belt; 6. a material taking cylinder; 7. a rubberizing cylinder; 8. sticking a rubber suction nozzle; 9. a movable seat; 10. a linear guide rail; 11. a feeding roller; 13. a material receiving synchronous wheel; 14. a belt; 15. and installing a vertical plate.

Detailed Description

The following describes embodiments of the utility model in detail, but the utility model may be practiced in a variety of different ways, as defined and covered by the claims.

As one aspect of the present utility model, there is provided a double rubberizing device for both side electrodes of a cylindrical battery, comprising: the feeding mechanism comprises a feeding roll 1, a motor 2, a stripping mechanism 3 and a receiving roller 4, wherein the motor 2 drives a material belt 5 on the feeding roll 1 to pass through the stripping mechanism 3 and then to be wound on the receiving roller 4, the rubberizing mechanism comprises a material taking cylinder 6, a rubberizing cylinder 7 and a rubberizing suction nozzle 8 connected with the material taking cylinder 6, the rubberizing cylinder 7 drives the material taking cylinder 6 and the rubberizing suction nozzle 8 to move towards a first direction close to or far away from a battery to be rubberized, and the material taking cylinder 6 drives the rubberizing suction nozzle 8 to move in a second direction perpendicular to the first direction.

Preferably, the rubberizing mechanism further comprises an optical fiber sensor for detecting whether the material taking position of the rubberizing suction nozzle 8 is filled with material.

Preferably, the two material taking cylinders 6 are installed on the same movable seat 9, the movable seat 9 is installed on a linear guide rail 10, and the rubberizing cylinder 7 is connected with the movable seat 9.

Preferably, the feeding mechanism further comprises a feeding roller 11, a feeding synchronous wheel (not shown in the figure) is mounted on the feeding roller 11, a receiving synchronous wheel 13 is mounted on the receiving roller 4, and the motor 2 drives the feeding roller 11 and the receiving roller 4 to rotate through a belt 14 matched with the feeding synchronous wheel and the receiving synchronous wheel 13.

Preferably the feed roller 11, the feed roller 11 and the peeling mechanism 3 are mounted on a first side of a mounting riser 15, and the motor 2, the feed synchronizing wheel and the take-up synchronizing wheel 13 are mounted on a second side of the mounting riser 15.

During operation, the product to be rubberized is transported to a jig positioned at one side of the utility model, which belongs to the prior art and is not described herein. According to the utility model, the motor 2 drives the feeding synchronous wheel and the receiving synchronous wheel 13 to rotate, so that the receiving roller 4 and the feeding roller 11 are driven to rotate. The take-up roller 4 and the feed roller 11 then feed the tape 5 from the supply reel 1 with the adhesive to the stripping means 3. The peeling mechanism 3 is used for separating the rubberizing on the material belt 5 from the material belt, which belongs to the prior art and is not described in detail herein.

The optical fiber sensors are connected with the corresponding material taking cylinders 6 as well as the rubberizing suction nozzles 8. The optical fiber sensor is used for controlling the motor 2 to move when sensing that the material taking position of the rubberizing suction nozzle 8 is filled, so that feeding and receiving are performed. When the optical fiber sensor senses that the material exists, the rubberizing suction nozzle 8 on the material taking cylinder 6 is horizontally pushed to the material taking position, and rubberizing is sucked. After the material is taken, the material taking cylinder 6 is retracted to the original position, the rubberizing cylinder 7 pushes the movable seat 9 on the linear guide rail 10, so that the material taking cylinder 6 and the rubberizing suction nozzle 8 on the movable seat are moved to the rubberizing position of the jig in the horizontal plane along the moving direction perpendicular to the material taking cylinder 6, then the rubberizing suction nozzle 8 on the material taking cylinder 6 is moved to a product, rubberizing is carried out on the product, and then the material taking cylinder 6 and the rubberizing cylinder 7 are retracted to the original position, so that rubberizing is completed.

By adopting the technical scheme, the utility model can finish coil stock rubberizing through feeding and feeding of the turntable, can rubberize electrodes on two sides of the cylindrical battery at the same time, ensures that rubberizing positions are neat and consistent, and has the characteristics of high speed and high efficiency.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. A dual rubberizing device for electrodes on two sides of a cylindrical battery, comprising: the feeding mechanism comprises a feeding roll (1), a motor (2), a stripping mechanism (3) and a receiving roller (4), wherein the feeding mechanism is symmetrically arranged, the motor (2) drives a material belt (5) on the feeding roll (1) to pass through the stripping mechanism (3) and then to be wound on the receiving roller (4), the rubberizing mechanism comprises a material taking cylinder (6), a rubberizing cylinder (7) and a rubberizing suction nozzle (8) connected with the material taking cylinder (6), the rubberizing cylinder (7) drives the material taking cylinder (6) and the rubberizing suction nozzle (8) to move in a first direction close to or far away from a battery to be rubberized, and the material taking cylinder (6) drives the rubberizing suction nozzle (8) to move in a second direction perpendicular to the first direction.

2. The double rubberizing device of two side electrodes of a cylindrical battery according to claim 1, wherein said rubberizing mechanism further comprises an optical fiber sensor for detecting whether the material taking position of the rubberizing suction nozzle (8) is filled.

3. The double rubberizing device of two side electrodes of a cylindrical battery according to claim 1, wherein two material taking cylinders (6) are installed on the same movable seat (9), the movable seat (9) is installed on a linear guide rail (10), and the rubberizing cylinders (7) are connected with the movable seat (9).

4. The double rubberizing device of the two side electrodes of the cylindrical battery according to claim 1, wherein the feeding mechanism further comprises a feeding roller (11), a feeding synchronous wheel is installed on the feeding roller (11), a receiving synchronous wheel (13) is installed on the receiving roller (4), and the motor (2) drives the feeding roller (11) and the receiving roller (4) to rotate through a belt (14) matched with the feeding synchronous wheel and the receiving synchronous wheel (13).

5. The double rubberizing device of two side electrodes of a cylindrical battery according to claim 4, wherein the feeding roller (11), the feeding roller (11) and the peeling mechanism (3) are mounted on a first side of a mounting vertical plate (15), and the motor (2), the feeding synchronous wheel and the receiving synchronous wheel (13) are mounted on a second side of the mounting vertical plate (15).