KR101678979B1 - Double bent type Reform pin - Google Patents

Abstract

The present invention is based on the idea of minimizing the damage and defects of the separation membrane by sequentially performing adhesion-expansion of the separation membrane using a single reforming pin using a double bending structure, The present invention proposes a new structure of the reforming pin which is wound tightly along the periphery to minimize the unwinding and springback phenomenon of the electrode assembly.

Description

Double pin type Reform pin having a double bend structure [

In the present invention, a single reforming pin is used in consideration of the length of the separation membrane in the reforming process, and a reforming with a double bending structure that minimizes the release phenomenon and the springback phenomenon by reforming the separation membrane in close contact- Pin.

Lithium batteries, which can be charged and discharged and have high energy density and high output density, are being used as power sources in various devices, from batteries in portable terminals to batteries in electric vehicles. The lithium battery is classified into a lithium-ion battery using a liquid electrolyte and a lithium polymer battery using a polymer electrolyte, depending on the type of electrolyte to be accommodated. The lithium battery is classified into a cylindrical shape, a square shape, or a pouch type depending on the shape of the outer case accommodating the electrode assembly . Typically, an electrode assembly employed in a square or cylindrical shape has a jelly-roll shape in which a positive electrode plate, a separator, and a negative electrode plate are laminated and wound.

When the electrode assembly is wound in the form of a jelly-roll, the separation membrane is formed in the center of the jelly-roll type electrode assembly by a pin for holding the separation membrane.

In order to remove the shape of the Taekwondo pattern and restore the center of the electrode assembly to a circular shape, the electrode assembly should be formed in a jelly-roll shape, and then the center portion should be arranged through a post-process. This post-process will be described with reference to FIGS. 1 and 2. FIG.

1 and 2, in a conventional post-process, the reforming pin 10 having a sharp end is introduced into the central portion 21 of the jelly-roll type electrode assembly 20 to form the central portion 21 of the electrode assembly 20, The shape of the Taekwondo shaped separation membrane is pushed to the rim of the central portion 21. The reforming pin 10 pushes the separation membrane located at the center portion 21 to the rim while advancing or retracting toward the central portion 21. At this time, the separation membrane located at the central portion 21 of the electrode assembly 20, 10 is inserted, and then the body of the remolding pin 10 is inserted and is brought into close contact with the rim of the jelly-roll structure. When the reforming pin 10 is in close contact with the separation membrane, a narrow peak enters the central portion of the jelly-roll structure, and then a wide body enters the reforming pin 10. At this time, - It can be folded tightly against the edge of the roll structure. Since the radius of the reforming pin body is larger than the length of the separating membrane corresponding to the region of the taekguk pattern, the separator of the region forming the caulking pattern forms a circular shape along the jelly-roll rim and forms a circular shape while the end is folded inward. Fig. 2 (a) shows the shape of the separation membrane having a taekwondo pattern, and Fig. 2 (b) shows a structure in which the separation membrane is folded back toward the rim of the jelly-roll structure by the reforming process. The end of the separator is forcibly folded in the opposite direction to deteriorate the durability of the separator and the reliability of the electrode assembly including the separator may be lowered. As such, the separating membrane is forcibly brought into close contact with the rim of the jelly-roll structure by the remolding pin 10 and the separating membrane having a short length is forcibly folded toward the rim of the jelly-roll structure so that the electrode assembly having the separating membrane In addition, the electrode assembly may not be properly wound and may be loosened or the electrode assembly wound may cause a spring back phenomenon.

Korean Patent Publication No. 1998-0068890

An object of the present invention is to remodel the shape of the separation membrane close to the shape of a jelly-roll by sequentially sticking the separation membrane of the Taegukedo pattern provided at the center of the electrode assembly to the jelly-roll frame, The present invention provides a reforming pin having a double bending structure that minimizes development.

According to an aspect of the present invention, there is provided a remodeling pin for sealing a separating membrane located at the center of a jelly-roll with an edge of the jelly-roll according to an embodiment of the present invention, the end of the pin body having an inclined cutting surface, Between the terminal body and the terminal body, the terminal body is bent in the first direction and is extended by a predetermined length along the longitudinal direction of the pin body to form a flat portion, and then the terminal body is doubly bent in the second direction so as to extend from one end to the terminal end, And a double-bent structure in which a double bend is formed.

Here, the double bending portion may be connected to the terminal body and the first inclined surface, and may be connected to the pin body to form the second inclined surface.

At this time, the first inclined surface and the second inclined surface are at the same angle as the flat portion, and the directions of the inclined surfaces may be reversed.

The end portion may be bent by decreasing the angle between the first inclined face and the first inclined face by making the flat portion equal to the first length in the region connected to the double bent portion.

In addition, the terminating portion may have a tapered structure whose diameter decreases in the direction from the first inclined surface toward the terminating end.

Here, the diameter of the double bend portion may be formed to be 80% to 90% of the diameter of the pin body.

Here, the double bend portion may have a diameter smaller than the diameter of the pin body and larger than the peak of the terminal portion.

The reforming fin having a double bending structure according to the present invention is formed by adhering a starting region of a separation membrane requiring a reforming process to a circular rim of a jelly-roll structure in consideration of the length of the separation membrane, At these different locations, the separation membrane is extended toward the rim of the jelly-roll so that the shape of the separation membrane after the reforming process is cleanly formed along the shape of the jelly-roll. Accordingly, the reforming fin having a double bending structure according to the present invention minimizes the damage and defects of the separation membrane and ensures that the shape of the separation membrane formed by the reforming process is wound tightly along the inner periphery of the jelly- It is possible to minimize the unwinding and springback phenomenon of the electrode assembly forming the structure.

Figures 1 and 2 show reference drawings for a conventional reforming process.
FIG. 3 shows an example of a reforming process equipment for performing the reforming process according to the embodiment.
4 shows a cross-sectional view of an example of a remodeling fin according to an embodiment.
5 is a view for explaining a method of performing a reforming process using a reforming pin according to an embodiment.
6 shows a reference diagram for a process of reforming a membrane using a double centerline structure.
Fig. 7 shows a process reference diagram for explaining a remodeling process to which the remodeling fin according to the embodiment is applied.

As used herein, the term " separator "refers to a separation membrane of a secondary battery disposed between an anode and a cathode, but it is possible to specifically designate an area wound by a core of the separation membrane. The separation membrane to which the reference numeral 52 is attached is formed in the center of the electrode assembly which is not supported by the core when the core is removed after the electrode assembly is wound by the core, The separation membrane of the region can be specified.

Hereinafter, the present invention will be described in detail with reference to the drawings.

FIG. 3 shows an example of a reforming process equipment for performing the reforming process according to the embodiment, FIG. 4 shows a sectional view of an example of a new reforming pin applied to the reforming process equipment of FIG. 3, 4 is a view for explaining a method of performing a reforming process using the reforming pin shown in FIG.

3, in order to proceed with the reforming process, the electrode assembly 50 is fixed to the jig 11 and the electrode assembly 50 fixed to the jig 11 The reforming pin 100 is moved forward (toward the D0 direction) or toward the central portion 51 so as to push the separation membrane 52 located inside the central portion 51 toward the inner side of the central portion 51 to be formed inside the central portion 51 It is possible to remove the Taekwondo separation membrane 52.

In the reforming step, the remolding fin 100 can remove the separating film 52 while minimizing contact and friction with the separating film 52 formed inside the central portion 51,

The length of the separation membrane 52 is shorter than that of the body of the remould pin 100 so that the separation membrane 52 is first brought into close contact with the rim of the jelly- The bending portion 120 having a center point different from that of the first contact is secondarily brought into close contact with the separating film 52 so that the separating film 52 is forcedly contacted by the contact surface of the body 110 Care should be taken not to collapse rapidly.

4, the remolding pin 100 includes a bending portion 120 formed between the termination portion 130, the body 110, and the body 110 and the termination portion 130 .

The termination part 130 is formed at the end of the body 110 and has a tapered structure having a sloped cutting surface on one side and gradually widening toward the body direction in which the cutting surface is not formed. The end portion 130 enters between the separator and the edge while minimizing the collision of the remolding pin 100 according to the embodiment with the seaweed separator 52 formed inside the jelly-roll structure.

After the end 130 enters the inside of the electrode assembly in which the remolding pin 100 forms the jelly-roll structure, the body 110 finally enters and separates the separation membrane 52 having the Taekwon- So that the separation membrane 52 is brought into close contact with the inner periphery of the jelly-roll structure.

The double bending portion 120 forms a double bending structure while forming an inclined surface with the end portion 130 and the body 110. The inclined surface formed by the double bending portion 120 and the terminal 130 is referred to as a first inclined surface and the inclined surface formed by the double bent portion 120 and the body 110 is referred to as a second inclined surface, The inclined surfaces may have the same angle with respect to the flat portion 123, where the double bending portion 120 is parallel to the longitudinal direction of the body 110. For example, in FIG. 4, when the first inclined surface 121 forms an angle of 135 degrees with the flat portion 123, the second inclined surface 122 may also form an angle of 135 degrees with the flat portion 123. Of course, the angle formed by the flat portion 123 with the first inclined surface 121 and the second inclined surface 122 may be larger or smaller than that, and it is noted that various angles can be achieved without being limited by the numerical values shown.

The flat portion 123 forms a step at the same angle as the first inclined surface 121 and the second inclined surface 122 and the flat portion 123 is formed between the first inclined surface 121 and the second inclined surface 122 Accordingly, the flat portion 123 may have a trapezoidal structure in which the cross-sectional shape of the flat portion 123 protrudes from the body 110 and the end portion 130.

According to such a trapezoidal structure, the remolding pin according to the embodiment has a double center line, and the remover process can be performed by firstly adhering the separating film 52 by using the double center line, and then expanding it secondarily. This will be described with reference to FIG.

5, the remolding pin according to an exemplary embodiment of the present invention includes a separation membrane 52 positioned at the center of the jelly-roll structure along the peak of the end portion 130, It can be seen that the center line F2 extending secondarily to the separation membrane 52 is not arranged on the same line. The center line F1 of the body 110 and the longitudinal end portion 110 enter the same point but the center line F1 of the double bending portion 120 moves toward the center of the separation membrane 52, Not so. Here, when looking at two center lines F1 and F2,

1) The center line F1 and the center line F2 are not located on the same axis,

2) The diameter of the flat portion 123 of the double bending portion 120 that advances or retracts along the center line F2 is larger than the diameter of the terminal portion 130 and smaller than the diameter of the body 110.

Therefore, the termination 130 first contacts the separation membrane 52 toward the rim of the jelly-roll structure, and the flat portion 123 expands the separation membrane 52 primarily attached to the rim of the jelly- And can be used to secondarily expand into a circle. The process of reforming the separation membrane 52 using the double centerline structure shown in FIG. 5 will be described with reference to FIG.

6 (a) shows a separation membrane 52 which is formed in the shape of a taekwondo pattern on the inside of the jelly-roll structure before applying the reforming process. The separation membrane 52 between the starting point PS at which the taekwondo pattern starts and the end point PE at which the taekwondo pattern ends is closely contacted in the directions of D1, D2 and D3 by the insertion of the end portion 130. At this time, the entry point at which the end portion 130 advances toward the jelly-roll structure corresponds to P0.

Next, FIG. 6 (b) shows a state where the double bending portion 120 having the center line of the entry point P1 spaced to the right from the entry point P0 enters,

The double bending portion 120 enters the separation membrane 52 with the diameter being longer than the terminating end 130 about the entry point P1.

The double bending portion 120 enters the entry point P1 in the state in which the separation membrane 52 is closely contacted in the directions of D1, D2 and D3 by the end portion 130 which has entered the entry point P0, D2 and D3 toward the edge of the jelly-roll structure so that the separating film 52 corresponding to the S1 region is wound without any breakage. At this time, the entry point P1 is located at the lower right of the entry point P0, which means that the adhesion toward the direction D3 is weakened. Accordingly, the separation membrane 52 corresponding to the S1 region is not bent And curled toward the edge of the jelly-roll structure while forming a natural curved surface.

Thereafter, the centerline of the body 110 enters the entry point P0 and the separation membrane 52 is pushed by the edge of the jelly-roll structure, thus completing the reforming process. At this time, it is preferable that the diameter of the body 110 is larger than the diameter of the flat portion 123 of the double bending portion 120. This further extends the separation membrane 52 expanded by the double bend 120 to allow the separation membrane 52 to be completely in contact with the edge of the jelly-roll structure. In this regard, the final extension by the body 110 may be seen as a tertiary extension of the body 110, followed by a secondary extension of the primary close-to-double bend 120 of the termination 130, The double for car extension can be 80% ~ 90% line. If the diameter of the body 110 is 3.3 mm, the diameter of the flat portion 123 may be 3 mm or less.

Fig. 7 shows a process reference diagram for explaining a remodeling process to which the remodeling fin according to the embodiment is applied.

Figure 7 (a) shows a top view of the jelly-roll structure mounted on the jig. At this time, it can be seen that the separation membrane 52 is fixed by the groove formed at the center of the core 60 in the jelly-roll structure.

Next, Fig. 7 (b) shows the shape of the jelly-roll structure from which the core 60 is removed. Referring to FIG. 7 (b), after the core 60 is removed, the separation membrane 52 is not supported by the core 60 and is in the shape of a taekwondo pattern.

7 (c) and 7 (d), the end portion 130 enters the entry point P0 and the separation membrane 52 is closely contacted in the directions of D1, D2 and D3, The double bending portion 120 connecting to the end portion 130 enters the entry point P1 and expands the separation membrane in the direction D4. At this time, since the entry point P1 is located at the lower right of the entry point P0, the separation membrane 52 is not strongly pressed against the direction D4. Accordingly, the separation membrane 52 is pushed toward the direction D4, It is rolled toward the rim. That is, the separation membrane 52 may be curled toward the rim of the jelly-roll structure while forming a natural curved surface instead of abruptly folding or folding.

In order to reform the separation membrane using such double points, the reforming pin 100 itself has to have double points, and the reforming pin 100 according to the embodiment forms such double points through the double-folding structure. The center line of the terminal end portion 130 and the center line of the double bending portion 120 are differentiated by the double bending structure, and the different entry points share their roles. The end portion 130 firstly contacts the separation membrane 52 in the directions of D1, D2 and D3 around the starting point PS at which the separation membrane 52 forms the taekwondo pattern and the double bending portion 120 closely contacts the entry point So that the remaining region S1 of the separation membrane 52 is extended to the rim of the jelly-roll structure in the direction of the end point PE. However, since the diameter of the double bending portion 120 is smaller than that of the body 110, when the upper end portion, the double bending portion, and the body of the reforming pin according to the embodiment enter the central portion of the jelly- Finally, the body 110 having the largest diameter enters the entry point P0 again and expands the separation membrane 52. As described above, the reforming pin according to the embodiment can improve the completeness of the reforming process by progressing the processes of primary adhesion-secondary expansion-tertiary final expansion sequentially by using one reforming pin, The processing time is shortened when the secondary battery is manufactured because it is processed by using the reform pin.

In addition, as the separation membrane 52 is properly wound toward the rim of the jelly-roll structure, the separation membrane 52 is not easily detached from the jelly-roll structure because the separation membrane 52 is easily unwound from the jelly- It can be prevented from being backed up. When the separation membrane 52 is forcibly wound up forcibly, the forced separation membrane 52 may be unwound or spring-backed to be loosely wound, but the reforming process by the reforming pin 100 according to the embodiment is not so.

In the foregoing detailed description of the present invention, specific examples have been described. However, various modifications are possible within the scope of the present invention. The technical idea of the present invention should not be limited to the embodiments of the present invention but should be determined by the equivalents of the claims and the claims.

110: body 120: double bend
121: first inclined surface 122: second inclined surface
130:

Claims (7)

A reforming pin for pushing a separation membrane located at the center of a jelly-roll with the jelly-roll rim,
The end of the pin body is provided with a terminating portion having an inclined cutting surface,
Between the pin body and the terminal end portion, the terminal body is bent in a first direction and extended by a predetermined length along a longitudinal direction of the pin body to form a flat portion, and then the terminal body is doubly bent in a second direction, Wherein a double bend portion extending from the pin body to the pin body is formed. The method according to claim 1,
The double-
And a second inclined surface connected to the pin body and connected to the end portion in a first inclined plane. 3. The method of claim 2,
Wherein the first inclined surface and the second inclined surface are inclined,
And the inclined surfaces are in the same angle as the flat portions, and the directions of the inclined surfaces are opposite to each other. 3. The method of claim 2,
The end-
Wherein the angle formed between the first inclined surface and the second inclined surface is gradually decreased by a first length in a region connected to the double bent portion. 3. The method of claim 2,
The end-
And a tapered structure having a diameter reduced in a direction from the first inclined surface toward a terminating end. The method according to claim 1,
The diameter of the double-
Is formed to be 80% to 90% of the diameter of the pin body. The method according to claim 1,
The double-
Wherein a diameter of the pin body is smaller than a diameter of the pin body and is larger than a peak of the terminal portion.

Images