KR101892583B1 - Splicing Device of Secondary Battery Separator and Method the Same - Google Patents

Abstract

The present invention provides a separation film bonding device for a secondary battery, capable of continuously supplying a separation film for a secondary battery, and an operation method for the same. The separation film bonding device for a secondary battery includes: a first mounting unit (16) having a first separation film roll (1) on which a first separation film is wound; a second mounting unit (26) having a second separation film roll (2) on which a second separation film is wound; a first bonding unit (10) including a first adsorption unit (13), a first cutting unit, and a first moving unit (11); and the first bonding unit (20) comprising a second compression unit (24), a second adsorption unit (23), a second rotation unit (22), and a second moving unit (21). The first adsorption unit (13) fixes the first separation film by adsorbing the first separation film in a vacuum when the first separation film is exhausted by being supplied in a secondary battery manufacturing process. The first cutting unit cuts the first separation film fixed to the first adsorption unit (13) by protruding from the first adsorption unit (13). The first moving unit (11) moves the first adsorption unit (13) toward the first bonding unit (20). The second compression unit (24) compresses the first separation film by being adjacent to and facing the first adsorption unit (13) and easily cuts the first separation film by the first cutting unit. The second adsorption unit (23) attaches a half of an adhesive surface of a tape to an end of the second separation film and fixes a non-adhesive surface by adsorbing the non-adhesive surface of the tape in vacuum. The second adsorption unit (23) bonds an end of the first separation film to the remaining half of the adhesive surface of the tape as the first adsorption unit (13) faces and comes closes to the second adsorption unit (23). The second rotation unit (22) rotates the second compression unit (24) and the second adsorption unit (23) for the second compression unit (24) or the second adsorption unit (23) to face the first adsorption unit (13). The second moving unit (21) moves the second adsorption unit (23) or the second compression unit (24) toward the first bonding unit (10) in accordance with the rotation of the second rotation unit (22).

Description

TECHNICAL FIELD [0001] The present invention relates to a secondary battery separator for a secondary battery,

Disclosure of the present invention relates to a separation membrane joining apparatus for a secondary battery and a method of operating the same. More particularly, when a secondary battery is manufactured, a separation membrane disposed between the cathode film and the cathode film is continuously supplied to improve the efficiency of the secondary battery manufacturing process And securing uniformity in quality and performance, and a method of operating the same.

Herein, the background art relating to the present invention is provided, and they are not necessarily referred to as known arts.

Generally, a secondary battery is manufactured by winding between a cathode film and a cathode film, and a separator is disposed between the two electrode films to prevent a short between the two electrode films.

The separation membrane for a secondary battery is wound in a roll form and is introduced into a secondary battery manufacturing process. If all of the separator wound on the roll is exhausted, it must be replaced with a new separator roll and put into the manufacturing process. At this time, the separation membrane of the exhausted separation membrane roll and the end of the separation membrane withdrawn from the new separation membrane roll must be connected to each other in the manufacturing process.

Since the two electrode films are also rolled into rolls and put into the manufacturing process, the production operation can not be interrupted to replace the spent separator roll with a new separator roll. If the production process is interrupted for the replacement of the separator roll, there is a high possibility that not only the production efficiency but also the quality and performance of the manufactured product are deviated.

On the other hand, in order to connect the separators to each other, both ends of the separators are bonded by using a tape. In general, the ends of the two separation membranes are overlapped and bonded by using a double-sided tape. By connecting the membranes in this manner, the process and apparatus can be simplified since there is no need to precisely align the two membrane ends. However, there is a problem in that there is a high possibility that the separation membrane of the overlapped portion of the separation membrane is different in characteristics, thereby providing a cause of performance variation of the manufactured product.

1. Korean Patent Registration No. 10-0915269

Disclosure of the Invention The object of the present invention is to provide a separation membrane joining apparatus and method for a secondary battery capable of continuously supplying a separation membrane for a secondary battery.

Disclosure of the Invention The object of the present invention is to provide a separation membrane joining apparatus and method for a secondary battery which aligns and connects two ends of a separation membrane to be replaced.

The present invention is not intended to be exhaustive or to limit the scope of the present invention to the full scope of the present invention. of its features).

According to an aspect of the present invention, there is provided a separation membrane joining apparatus for a secondary battery, comprising: a first holder (16) on which a first separation membrane roll (1) on which a first separation membrane is wound is mounted; A second holder (26) on which the second separation membrane roll (2) wound with the second separation membrane is mounted; A first adsorption unit 13 for vacuum adsorbing and fixing the first separation membrane when the first separation membrane is supplied to the secondary battery fabrication process and exhausting the first separation membrane and the first adsorption unit 13 is fixed to the first adsorption unit 13 by being protruded from the first adsorption unit 13, A first bonding unit (10) including a first cut section for cutting the first separation membrane and a first movement section (11) for moving the first adsorption section (13) in the direction of the first bonding unit (20); And a second compression section (24) for compressing the first separation membrane so as to face the first absorption section (13) to facilitate the first separation section cutting the first separation membrane, and a second compression section The adhesive surface of the tape is adhered to the tape, the non-adhesive surface of the tape is vacuum-adhered and fixed, and the end of the first separating film is adhered to the remaining half of the tape adhering surface, (24) and the second adsorption section (23) so that the second adsorption section (24) or the second adsorption section (23) faces the first adsorption section (13) A second rotary part 22 for rotating the second adsorption part 23 and a second rotary part 22 for rotating the second suction part 23 or the second compressed part 24 in accordance with the rotation operation of the second rotary part 22, And a second moving unit (21) configured to move the first joining unit (10) in the direction of the first joining unit (10), wherein the first joining unit (10) The first adsorption section 13 is provided with a first swing section 12 for rotating the first adsorption section 13 so as to face the second adsorption section 23 and a second swing section 12 facing the second adsorption section 23 And a first compression section (14) for compressing the second separation membrane to facilitate cutting of the second separation membrane, wherein the first absorption section (13) And adheres the end portion of the second separation membrane to the other half of the tape adhering surface so as to face the first adsorption portion 13, The first moving part 11 moves the first suction part 13 or the first pressing part 14 toward the first bonding unit 20 according to the rotation operation of the first rotary part 12, , And the second joining unit (20) is formed by joining the second separating membrane fixed to the second adsorbing part (23) to the second adsorbing part by projecting from the second adsorbing part (23) The second adsorption unit 23 adsorbs and fixes the second adsorption unit 13, and the second adsorption unit 13 adsorbs the second adsorption unit 13, Wherein the first cut portion and the second cut portion are disposed so as to face each other at the same position when the second cut portion and the second cut portion face each other, And the second adsorption section (23) is constituted by the second-first adsorption surface and the second-second adsorption surface divided by the second cut-off section , The vacuum adsorption functions of the 1-1 adsorption surface and the 1-2 adsorption surface are independent of each other, and the vacuum adsorption functions of the 2-1 adsorption surface and the 2-2 adsorption surface are independent from each other.

delete

delete

delete

In order to solve the above problems, an operation method of a separator membrane joining apparatus for a secondary battery according to an aspect of the present invention is characterized in that a first separator roll 1 on which a first separator membrane is wound is mounted on a first holder base 16, (S10) in which a second separator roll (2) on which a second separator is wound is placed on a second holder (26); A step (S20) of attaching half of the adhesive surface of the tape to the end of the second separation membrane, and vacuum-adsorbing the non-adhesive surface of the tape to the second adsorption unit (23); The first adsorption unit 13 vacuum-adsorbs and fixes the first separation membrane when the first separation membrane is supplied to the secondary cell fabrication process and is exhausted (S30); The first moving part 11 moves the first suction part 13 and the second moving part 21 moves the second pressing part 24 to move the first suction part 13 and the second suction part 13, A step (S40) of the pressing section (24) pressing the first separating membrane; The first cut portion is protruded from the first suction portion 13 to cut the first separator fixed by the first suction portion 13 and the second compressed portion 24 and the first separation portion 16 ) Winding the remainder of the first separation film cut by the first cut portion (S50); A step (S60) in which the second rotary part (22) is rotated to arrange the second suction part (23) so as to face the first suction part (13); The first moving part 11 and the second moving part 21 move the first suction part 13 and the second suction part 23 in close proximity to each other, And adhering the end portion of the separation membrane (S70).

delete

According to the present invention, it is possible to prevent the problem that the separation membranes are overlapped and bonded by bonding the separation membrane using a single-sided tape.

According to the present invention, by rotating the pressing part and the adsorption part, the structure is simple and the work is simplified, and the defective ratio of the separation membrane joining step can be improved.

According to the present invention, the separation operation of the separation membrane end can be easily performed by projecting to the adsorption section and cutting the separation membrane.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing a configuration of an embodiment of a separation membrane bonding apparatus for a secondary battery according to the present invention;
FIGS. 2A to 2X are views sequentially showing the operation of the bonding apparatus of FIG. 1,
3 is a view showing the operation of the first rotary part 12 and the second rotary part 22 of the bonding apparatus of FIG. 1,
4 is a flowchart for explaining a method of operating the bonding apparatus of FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a separation membrane joining apparatus and method for a secondary battery according to the present invention will be described in detail with reference to the drawings.

It is to be understood, however, that the scope of the present invention is not limited to the embodiments described below, and those skilled in the art of the present invention, other than the scope of the present invention, It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention.

In addition, the terms used below are selected for convenience of explanation. Therefore, the technical meaning of the present invention should not be limited to the prior meaning, but should be properly interpreted in accordance with the technical idea of the present invention.

1 is a side view showing a configuration of an embodiment of a separation membrane bonding apparatus for a secondary battery according to the present invention.

1, a separation membrane joining apparatus for a secondary battery according to the present embodiment includes a first holding table 16, a second holding table 26, a first joining unit 10, and a second joining unit 20 .

The first separating film roll 1 on which the first separating film is wound is placed on the first placing table 16 and the second separating film roll 2 on which the second separating film is wound is placed on the second placing table 26. The first separator roll 1 and the second separator roll 2 are alternately put into the secondary battery manufacturing process. The second separator roll 2 is placed while the first separator film wound in the first separator roll 1 is put into the manufacturing process. When the first separation membrane is exhausted, the end of the first separation membrane is joined to the end of the second separation membrane, and the separation membrane is continuously injected into the manufacturing process.

The first bonding unit 10 and the first bonding unit 20 are arranged side by side, and the first separating film and the second separating film are inserted into the manufacturing process line therebetween.

The first bonding unit 10 and the first bonding unit 20 are provided with a first adsorption unit 13 and a second adsorption unit 23, a first bonding unit 14 and a second bonding unit 24, 1 moving part 11, a second moving part 21, a first turning part 12 and a second turning part 22, and a first cutting part and a second cutting part.

When the first adsorption part 13 and the second adsorption part 23 face each other, it is preferable that the first cut part and the second cut part are arranged to face each other at the same position.

The first adsorption part (13) and the second adsorption part (23) fix the first separation membrane and the second separation membrane by vacuum adsorption. The first adsorption portion 13 may be composed of a first adsorption surface and a first adsorption surface divided by the first cut portion and the second adsorption portion 23 may be composed of a 2-1 adsorption surface 23-1 and second adsorption surface 23-2. It is preferable that the vacuum adsorption functions of the 1-1 adsorption surface and the 1-2 adsorption surface are independent of each other and the vacuum adsorption functions of the 2-1 adsorption surface and the 2-2 adsorption surface operate independently of each other. One of the separators on both sides cut by the first and second cuts should be put into the manufacturing process and the opposite side should be rewound with the separator roll as the remainder.

The first cut portion and the second cut portion protrude from the first adsorption portion 13 and the second adsorption portion 23 to cut the first and second adsorption portions fixed to the first and second adsorption portions have.

The first squeezing portion 14 and the second squeezing portion 24 face the second adsorption portion 23 and the first adsorption portion 13 to press the first and second separation membranes therebetween.

The first moving part 11 moves the first adsorption part 13 and the first pressing part 14 toward the first bonding unit 20 and the second moving part 21 moves the second adsorption part 23 And the second pressing portion 24 are linearly moved in the direction of the first joining unit 10.

The first rotary part 12 rotates the first suction part 13 and the first compressed part 14 to rotate the first suction part 13 or the first compressed part 14 in the direction of the first bonding unit 20 . The second rotary part 22 rotates the second suction part 23 and the second pressed part 24 to move the second suction part 23 or the second pressed part 24 toward the first bonding unit 10 .

FIGS. 2A to 2C are views sequentially showing the operation of the bonding apparatus of FIG. 1. FIG.

Referring to FIG. 2A, in the separation membrane joining apparatus for a secondary battery according to the present embodiment, a first separation membrane is drawn out from a first separation membrane roll 1 and introduced into a manufacturing process.

The end of the second separation film wound on the second separation membrane roll 2 is adhered to the half of the adhesive surface of the cross section tape 3 so that the non-adhesive surface of the tape is vacuum-adsorbed to the second adsorption section 23 .

Next, referring to FIG. 2B, when the first separation membrane is supplied to the secondary battery manufacturing process and exhausted, the first adsorption unit 13 vacuum-adsorbs the first separation membrane. At this time, the first moving part 11 moves the first suction part 13 and the second moving part 21 moves the second pressing part 24 to move the first suction part 13 and the second suction part 13, The first separating film 24 is pressed against the first separating film.

The first cut portion is protruded from the first suction portion 13 to cut the first separating film fixed by the first suction portion 13 and the second press portion 24.

Next, referring to FIG. 2C, the second rotary part 22 is rotated so that the second suction part 23 faces the first suction part 13. At this time, the first holder 16 rotates the first separator roll 1 in the reverse direction and rewinds the remainder of the first separator cut by the first cutter so that the first adsorbing portion 13 and the second pressurizing portion The residual portion of the first separation membrane is removed.

Next, the first moving part 11 and the second moving part 21 move the first suction part 13 and the second suction part 23 close to each other, .

3 is a view showing the operation of the first rotary part 12 or the second rotary part 22 of the bonding apparatus of FIG.

Referring to Fig. 3, in the separation membrane joining apparatus for a secondary battery according to the present embodiment, the pressing portion and the adsorption portion are rotated inside the joining unit to change their positions. In other words, by changing the arrangement of the pressed portion and the attracted portion by the pivot portion, the cut operation of the exhausted separation membrane and the bonding operation of the new separation membrane can be easily performed.

When the first and second adsorption plates are faced to the side, it is easy for the operator to attach the tape and align it on the adsorption plate and adsorb it after the new separation film roll is mounted on the holder.

As described above, if the structures of the first and second bonding units are the same, aligning the ends of the separation membrane with respect to the first and second cutouts facilitates alignment of the ends of the separation membrane with the ends of the new separation membrane.

The operation of adsorbing the tape and adhering the separator to the adsorbing plate that has been moved to the side of the new separator roll is performed until the separation membrane roll supplied to the present manufacturing process is exhausted. Therefore, it is possible to secure the time required for performing the work, and by semi-automating the alignment of the ends of the separation membrane, the bonding apparatus can be simplified, and the uniformity of the bonding accuracy can be secured.

4 is a flowchart for explaining a method of operating the bonding apparatus of FIG.

Referring to FIG. 4, it can be seen that the first separation membrane roll 1 and the second separation membrane roll 2 are alternately joined while being put into the manufacturing process alternately.

The process proceeds from step S10 to step S70 so that the first separator roll 1 is put into the manufacturing process and exhausted and the second separator film of the second separator roll 2 starts to be supplied. If the second separator roll 2 is exhausted, steps S110 to S170 are performed, which is the same operation as from step S10 to step S70.

First, in step S10, the first separation membrane roll 1 on which the first separation membrane is wound is placed on the first holder base 16, the second separation membrane roll 2 on which the second separation membrane is wound on the second holder base 26, Is mounted. The first separation membrane 1 is unwound and introduced into the manufacturing process.

In step S20, half of the adhesive surface of the tape is adhered to the end of the second separation membrane while the first separation membrane is put into the manufacturing process, and the non-adhesive surface of the tape is vacuum-adsorbed to the second adsorption part 23 and fixed. The end of the second separation membrane is aligned with the second cut portion 25 formed in the second suction portion 23.

In step S30, the first adsorption unit 13 vacuum-adsorbs the first separation membrane when the first separation membrane supplied to the secondary battery manufacturing process is exhausted and becomes the replacement point.

In step S40, the first moving unit 11 moves the first suction unit 13 and the second moving unit 21 moves the second pressing unit 24. [ The first adsorption part (13) and the second press part (24) press and fix the first separation membrane.

In the step S50, the first cut portion is protruded from the first adsorption portion 13 to cut off the first separator fixed by the first adsorption portion 13 and the second press portion 24.

In step S60, the second rotary part 22 is rotated so that the second suction part 23 faces the first suction part 13.

In the step S70, the first moving part 11 and the second moving part 21 move the first suction part 13 and the second suction part 23 close to each other, Adhere the ends.

When the process up to step S70 is performed, the second separation membrane is used in the manufacturing process.

The exposed first separator roll is removed from the first holder and S110 is carried out to mount the new separator roll on the first holder. At this time, the first rotation part is rotated to direct the first adsorption part to the side, thereby performing step S120.

3, the first rotating unit 12 and the second rotating unit 22 are alternately rotated, and the steps S10 to S70, S110 to S170, Is repeated.

Claims (6)

A first holder (16) on which the first separator roll (1) wound with the first separation membrane is mounted;
A second holder (26) on which the second separation membrane roll (2) wound with the second separation membrane is mounted;
A first adsorption unit 13 for vacuum adsorbing and fixing the first separation membrane when the first separation membrane is supplied to the secondary battery fabrication process and exhausting the first separation membrane and the first adsorption unit 13 is fixed to the first adsorption unit 13 by being protruded from the first adsorption unit 13, A first bonding unit (10) including a first cut section for cutting the first separation membrane and a first movement section (11) for moving the first adsorption section (13) in the direction of the first bonding unit (20); And
A second compression section (24) for compressing the first separation membrane so as to face the first absorption section (13) to facilitate the first separation section to cut the first separation membrane, and a second compression section The adhesive surface of the tape is adhered, the non-adhered surface of the tape is vacuum-adhered and fixed, and the end of the first separating film is adhered to the remaining half of the tape adhering surface, The second adsorption section 23 and the second adsorption section 24 are arranged such that the second adsorption section 24 or the second adsorption section 23 faces the first adsorption section 13, A second rotating part 22 for rotating the suction part 23 and a second rotating part 22 for rotating the second suction part 23 or the second pressing part 24 in accordance with the rotation operation of the second rotary part 22, And a second moving unit (21) configured to move in the direction of the joining unit (10)
The first bonding unit (10)
The first adsorption unit 13 faces the first adsorption unit 13 so as to face the second adsorption unit 23 and the first adsorption unit 13 faces the second adsorption unit 23 Further comprising a first crimping portion (14) for crimping the second separating film in proximity to the second separating portion to facilitate cutting of the second separating film,
The first adsorption part 13 is adhered to the end of the first separation membrane by adhering half of the adhesive surface of the tape to adsorb and fix the non-adhered surface of the tape. The first adsorption part 13 faces the first adsorption part 13, And the first moving part 11 is attached to the other end of the second adsorption part 13 or the second adsorption part 13 according to the turning operation of the first rotating part 12, The first bonding unit 14 is moved in the direction of the first bonding unit 20,
The second bonding unit (20)
Further comprising a second cut-off portion which protrudes from the second adsorbing portion (23) and cuts the second separating film fixed to the second adsorbing portion (23), wherein the second separating film The second adsorption unit 23 adsorbs and fixes the second separation membrane,
When the first adsorption part (13) and the second adsorption part (23) face each other, the first cut part and the second cut part are arranged to face each other at the same position,
The first adsorption part (13) is composed of a 1-1 adsorption face and a 1-2 adsorption face divided by the first cut part,
The second adsorption section (23) is composed of the (2-1) adsorption surface and the (2-2) adsorption surface divided by the second cut section,
The vacuum adsorption functions of the 1-1 adsorption surface and the 1-2 adsorption surface are independent of each other,
And the vacuum adsorption functions of the second adsorbing surface and the second adsorbing surface are independent of each other. delete delete delete The first separation membrane roll 1 on which the first separation membrane is wound is placed on the first mounting table 16 and the second separation membrane roll 2 on which the second separation membrane is wound is placed on the second mounting table 26 );
(S20) a half of the adhesive surface of the tape is adhered to the end of the second separation membrane and the non-adhesive surface of the tape is vacuum-adsorbed to the second adsorption unit (23);
The first adsorption unit 13 vacuum-adsorbs and fixes the first separation membrane when the first separation membrane is supplied to the secondary cell fabrication process and is exhausted (S30);
The first moving part 11 moves the first suction part 13 and the second moving part 21 moves the second pressing part 24 to move the first suction part 13 and the second suction part 13, A step (S40) of the pressing section (24) pressing the first separating membrane;
The first cut portion is protruded from the first suction portion 13 to cut the first separator fixed by the first suction portion 13 and the second compressed portion 24 and the first separation portion 16 ) Winding the remainder of the first separation film cut by the first cut portion (S50);
A step (S60) in which the second rotary part (22) is rotated to arrange the second suction part (23) so as to face the first suction part (13);
The first moving part 11 and the second moving part 21 move the first suction part 13 and the second suction part 23 in close proximity to each other, And a step (S70) of bonding an end of the separation membrane to the separation membrane. delete

Images