CN218731189U

CN218731189U - Automatic rubberizing device of mobile phone battery lamination machine

Info

Publication number: CN218731189U
Application number: CN202222625590.XU
Authority: CN
Inventors: 姜艺; 刘伟; 晏毓达
Original assignee: Hunan Dali Intelligent Equipment Co ltd
Current assignee: Hunan Dali Intelligent Equipment Co ltd
Priority date: 2022-10-08
Filing date: 2022-10-08
Publication date: 2023-03-24
Anticipated expiration: 2032-10-08

Abstract

The utility model discloses a mobile phone battery lamination machine's automatic rubberizing device adopts high accuracy step motor drive ball screw structure, through the directional removal of linear guide, realizes the automatic rubberizing process to the pole piece, has improved the stability of operation, rubberizing precision and efficiency, has solved artifical rubberizing or rubberizing unstability of current lamination machine, response slow, the low scheduling problem of precision.

Description

Automatic rubberizing device of mobile phone battery lamination machine

Technical Field

The utility model relates to a mobile phone batteries lamination machine's automatic rubberizing device especially relates to a lithium cell production technical field.

Background

The lamination process is an important part in the manufacturing process of lithium ion 3C type batteries. The lamination process generally carries out rubberizing after lamination is finished so as to prevent the battery core from scattering after being formed, and at present, automatic rubberizing is unstable, response is slow or manual rubberizing and the like in the process affect efficiency, so improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a device. The utility model discloses stable in structure, control accuracy is high, saves space.

The purpose of the utility model is realized through the following technical scheme:

an automatic adhesive tape sticking device of a mobile phone battery lamination machine comprises a first rotary pushing mechanism, wherein a second rotary pushing mechanism is mounted on the first rotary pushing mechanism, and a movable adhesive tape sticking assembly is mounted on the second rotary pushing mechanism; the movable rubberizing assembly comprises a rubberizing movable plate, a rubber belt wheel is mounted on the rubberizing movable plate, a belt pressing double-shaft cylinder is mounted on the right side of the rubber belt wheel and connected with a rubber pressing block, and a lower rubber pressing seat is mounted below the rubber pressing block; a limiting roller assembly is arranged between the lower rubber pressing base and the adhesive tape wheel, and a roller passing assembly is arranged on the right side of the lower rubber pressing base; and a cutter double-shaft cylinder is arranged above the rightmost side of the rubberizing movable plate and is connected with a rubber belt cutter.

The rotary propelling mechanism comprises a first motor mounting seat, a first stepping motor is fixed on the first motor mounting seat, the first stepping motor is connected with a transverse ball screw through a coupling, and the transverse ball screw is connected on a second screw bearing seat; the transverse ball screw is in threaded connection with a screw nut connecting block, the screw nut connecting block is connected with a rubberizing propelling plate, and the rubberizing propelling plate is connected to the linear guide rail in a sliding manner; the top of the rubberizing propulsion plate is fixed with a step motor II through a motor mounting seat II, the step motor II is connected with two ends of a vertical ball screw through a coupling II and respectively connected to a screw bearing seat III in a shaft coupling mode, the vertical ball screw is in threaded connection with a screw nut connecting seat, the screw nut connecting seat is fixedly connected with a rubberizing mobile plate, and the screw nut connecting seat is in sliding connection with the rubberizing propulsion plate.

The rotary propelling mechanism I comprises a stepping motor III, and the stepping motor III is connected with a ball screw III through a coupling III; two ends of the ball screw are coupled to the screw bearing seat IV; a third ball screw is in threaded connection with a rubberized screw nut seat, the rubberized screw nut seat is connected with a support base, and the bottom of the support base is connected to the linear guide rail in a sliding manner; the first motor mounting seat and the second screw rod bearing seat are both fixed on the supporting base.

The improved rubberizing propulsion plate is characterized in that two ends of the top of the rubberizing propulsion plate are respectively fixed with a guide rail stop block II, the guide rail stop blocks II are fixedly connected with linear guide rails which are vertically arranged, and the rubberizing moving plate is connected to the linear guide rails in a sliding mode.

In a further improvement, the cutter double-shaft cylinder is connected with an adhesive tape cutter through an adhesive tape cutter seat.

The beneficial effects of the utility model reside in that:

the automatic adhesive tape sticking device of the lithium ion battery lamination machine has the advantages of stable structure, high control precision and quick response.

Drawings

The present invention is further explained by using the attached drawings, but the content in the attached drawings does not constitute any limitation to the present invention.

Fig. 1-1 is a first schematic perspective view of an automatic adhesive tape sticking device of a lithium ion battery lamination machine of the present invention;

fig. 1-2 are schematic perspective views of an automatic adhesive tape sticking device of the lithium ion battery lamination machine of the present invention;

FIG. 2 is a schematic view of a rotary propulsion mechanism;

FIG. 3 is a schematic structural view of a second rotary propulsion mechanism;

FIG. 4 is a schematic view of a mobile tape-out assembly.

The automatic gluing device comprises a rotary propulsion mechanism I1, a rotary propulsion mechanism II 2, a movable gluing component 3, a stepping motor III 4, a coupler III 5, a ball screw III 6, a screw bearing seat IV 7, a support base 8, a gluing screw nut seat 9, a linear bearing 10, a guide rail stop block 11, a first linear guide rail 12, a stepping motor I13, a motor mounting seat I14, a coupler I15, a transverse ball screw 16, a screw shaft bearing seat II 17, a screw nut connecting block 18, a gluing propulsion plate 19, a guide rail stop block II 20, a stepping motor II 21, a motor mounting seat II 22, a coupler II 23, a vertical ball screw 24, a screw bearing seat III 25, a screw nut connecting seat 26, a rubber belt wheel 27, a gluing movable plate 28, a gluing cylinder seat 29, a belt pressing double-shaft cylinder 30, a cutter double-shaft cylinder 31, a rubber belt cutter seat 32, a rubber belt cutter 33, a gluing nozzle 34, a third linear guide rail roller component 35, a roller assembly 36, a lower gluing seat 37 and a limit 38.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and examples.

Example 1

The automatic adhesive tape sticking device of the battery laminating machine shown in figures 1-1 and 1-2 comprises a first rotary pushing mechanism 1, a second rotary pushing mechanism 2 and a movable adhesive tape sticking assembly 3.

As shown in fig. 2, 3 and 4, a third stepping motor 4 is mounted on a motor plate, connected with a third ball screw 6 and connected with a third coupler 5, the third ball screw 6 is connected with a fourth screw bearing seat 7, a nut of the third stepping motor is fixed on a rubberized screw nut seat 9, a support base 8 is connected with the rubberized screw nut seat 9 and mounted on a second linear guide rail 10, a first linear guide rail 12 is fixed on the support base 8, a rubberized propulsion plate 19 is connected with the first linear guide rail 12, a first motor mounting seat 14 and a second screw bearing seat 17 are both mounted on the support base 8, a first stepping motor 13 is fixed on a first motor mounting seat 14, a nut of a transverse ball screw 16 is connected with a screw nut connecting block 18, the rod nut connecting block 18 is mounted on the rubberized propulsion plate 19, a second stepping motor 21 and a transverse ball screw 16 are connected with a second coupler roller assembly 23, a second motor mounting seat 22 and a third screw bearing seat 25 are mounted on the rubberized propulsion plate 19, the screw nut connecting seat 26 is connected with the rubberized mobile plate 28, a third linear guide rail 35 is connected with the rubberized mobile rubberized propulsion plate 28, an adhesive tape wheel 27, a tape press wheel 29, a tape seat 36 and a pressure cylinder 32 are mounted on a pressure cylinder 32, and a pressure cutting blade holder 32, and a pressure cutting cylinder 32 are connected with a pressure cutting blade holder 31.

Working process

Starting a third stepping motor 4, driving a support base 8 by a rubberizing screw rod nut seat 9, so that a second rotary propulsion assembly 2 moves forward and stops when the second rotary propulsion assembly 3 reaches a specified position, controlling a rubberizing nozzle 34 to advance for a certain distance by a first stepping motor 13, putting down an adhesive tape by the rubberizing nozzle 34, reversely rotating the first stepping motor 13, returning the rubberizing nozzle 34, starting a second stepping motor 21, enabling a rubberizing movable plate 28 to move downwards, controlling the rubberizing nozzle 34 to advance for a certain distance by the first stepping motor 13 after the certain distance is reached, rubberizing, operating a rear belt pressing double-shaft cylinder 30 to press the adhesive tape, starting a cutter double-shaft cylinder 31, enabling an adhesive tape cutter 33 to move forward to cut the adhesive tape, and reversely rotating the first stepping motor 13 after the adhesive tape cutter 34 returns to finish rubberizing.

It should be finally noted that the above embodiments are only used for illustrating the technical solutions of the present invention, not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equally without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. An automatic adhesive tape sticking device of a mobile phone battery laminating machine is characterized by comprising a first rotary pushing mechanism (1), wherein a second rotary pushing mechanism (2) is installed on the first rotary pushing mechanism (1), and a movable adhesive tape sticking assembly (3) is installed on the second rotary pushing mechanism (2); the movable rubberizing assembly (3) comprises a rubberizing movable plate (28), an adhesive tape wheel (27) is mounted on the rubberizing movable plate (28), a belt pressing double-shaft cylinder (30) is mounted on the right side of the adhesive tape wheel (27), the belt pressing double-shaft cylinder (30) is connected with a rubberizing block, and a lower rubberizing seat (37) is mounted below the rubberizing block; a limiting roller assembly (38) is arranged between the lower rubber pressing seat (37) and the adhesive tape wheel (27), and a roller passing assembly (36) is arranged on the right side of the lower rubber pressing seat (37); and a cutter double-shaft cylinder (31) is arranged above the rightmost side of the rubberizing movable plate (28), and the cutter double-shaft cylinder (31) is connected with a tape cutter (33).

2. The automatic gluing device of the mobile phone battery lamination machine as claimed in claim 1, wherein the second rotary pushing mechanism (2) comprises a first motor mounting seat (14), a first stepping motor (13) is fixed on the first motor mounting seat (14), the first stepping motor (13) is connected with a transverse ball screw (16) through a first coupling (15), and the transverse ball screw (16) is coupled on a second screw bearing seat (17); the transverse ball screw (16) is in threaded connection with a screw nut connecting block (18), the screw nut connecting block (18) is connected with a rubberizing pushing plate (19), and the rubberizing pushing plate (19) is connected to the first linear guide rail (12) in a sliding mode; the top of the rubberizing propulsion plate (19) is fixed with a second stepping motor (21) through a second motor mounting seat (22), the second stepping motor (21) is connected with two ends of a vertical ball screw (24) through a second coupler (23) and is respectively connected to a third screw bearing seat (25) in a shaft coupling mode, the vertical ball screw (24) is in threaded connection with a screw nut connecting seat (26), the screw nut connecting seat (26) is fixedly connected with a rubberizing movable plate (28), and the screw nut connecting seat (26) is in sliding connection with the rubberizing propulsion plate (19).

3. The automatic adhesive tape sticking device of the mobile phone battery lamination machine as claimed in claim 1, wherein the rotary pushing mechanism I (1) comprises a stepping motor III (4), and the stepping motor III (4) is connected with a ball screw III (6) through a coupling III (5); two ends of the ball screw III (6) are coupled on the screw bearing seat IV (7) by a shaft; a rubberized screw nut seat (9) is connected to the third ball screw (6) in a threaded manner, the rubberized screw nut seat (9) is connected with a support base (8), and the bottom of the support base (8) is connected to a second linear guide rail (10) in a sliding manner; the first motor mounting seat (14) and the second screw rod bearing seat (17) are fixed on the supporting base (8).

4. The automatic gluing device of the mobile phone battery lamination machine as claimed in claim 2, wherein two ends of the top of the gluing pushing plate (19) are fixed with a second guide rail stop (20), the second guide rail stop (20) is fixedly connected with a third linear guide rail (35) which is vertically arranged, and the gluing movable plate (28) is slidably connected to the third linear guide rail (35).

5. The automatic gumming device of the mobile phone battery lamination machine as claimed in claim 1, wherein the cutter double-shaft cylinder (31) is connected with a tape cutter (33) through a tape cutter seat (32).