KR20150050165A - Electrode notching aparatus for secondary battery and film for electrode manufactured by it - Google Patents

Abstract

The present invention relates to an electrode notching apparatus for a secondary battery comprising: an unwinder unit for releasing an electrode film wound in a roll form; an rewinder unit disposed apart from the unwinder unit, and transporting the electrode film by winding the electrode film unwound by the unwinder unit; an upper notching mold disposed in an upper portion of the transported electrode film to be elevated, and forming a round portion alternately on both sides of the electrode film as the upper notching mold descends; and a lower notching mold disposed in a lower portion of the transported electrode film, and being in contact with the descending upper notching mold. According to the present invention, a round portion formed in each electrode of an electrode film are formed to be positioned alternately on both sides of the electrode film in a longitudinal direction of the electrode film by an upper notching mold and a lower notching mold, such that the electrode film can be prevented from being torn by dispersing a tension applied to the electrode film when transporting the electrode film having the processed round portion in order to perform a lamination process.

Description

TECHNICAL FIELD [0001] The present invention relates to an electrode notching apparatus for a secondary battery,

The present invention relates to an electrode notching apparatus for a secondary battery and an electrode film produced thereby, and more particularly, to a method of manufacturing an electrode notching apparatus for a secondary battery, in which a round portion formed on each electrode of an electrode film is formed by an upper notching mold and a lower notching mold, The electrode films for which the round portions have been processed to perform the lamination process are dispersed in the tension applied to the electrode films during transport to prevent the electrode films from being torn To an electrode notching apparatus of a secondary battery and an electrode film produced thereby.

A battery, which is a device for storing and supplying power, means an apparatus comprising an electrochemical cell and a collection of cells that supply a potential between at least one set of terminals. The terminals of the battery may be electrically connected to, for example, a direct current (DC) load to provide energy or voltage to the load. Batteries include batteries, wet-cells (e.g., lead-acid batteries) and other devices that generally convert chemically available electromotive force into current.

Among such batteries, a secondary battery is manufactured using an electrode assembly having a three-layer structure of a positive electrode plate, a separator and a negative electrode plate, or a multi-layered structure of five or more layers in which a positive electrode plate, a separator, a negative electrode plate, a separator and a positive electrode plate are sequentially stacked. The battery can be recharged after use and its capacity is not infinite but it is possible to repeatedly use the same battery by performing the discharging process in reverse to a certain extent.

As described above, the secondary battery is generally formed by laminating a plurality of separators between a plurality of positive plates and a negative plate. That is, a secondary battery is manufactured by laminating a separator on a positive electrode plate, laminating a negative electrode plate on the separator, laminating a positive electrode plate on the upper surface of the separator on the negative plate, and laminating the separator and the negative electrode plate sequentially. For example, the secondary battery is manufactured by alternately laminating the positive electrode plate and the negative electrode plate at the boundary of the separator.

In order to manufacture the secondary battery by laminating the positive electrode plate, the separator and the negative electrode plate as described above, it is necessary to manufacture the positive electrode plate and the negative electrode plate (hereinafter collectively referred to as "electrode plate").

Such an electrode plate is notched by a notching apparatus while the electrode film wound in a roll shape is fed to process the shape of the electrode plate on the electrode film, and the processed electrode film is cut to produce an individual electrode plate.

The electrode plate is generally formed in a rectangular plate shape, and four corner portions are formed on the electrode plate. When the corner portion of the electrode plate is sharp at an acute angle, charges are concentrated on the corner portion of the electrode plate while the charge is charged, If the charge is concentrated on the corner portion of the tapered portion of the tapered portion, at least one of the corner portions may be formed in a rounded shape.

FIG. 1 shows a film 10 for an electrode on which an electrode plate 11 having at least one corner portion 12 formed in a round shape is formed. The electrode film 10 thus processed is fed by the unwind roller 20 and the rewinding roller 30 as shown in Fig. 2, and a lamination process is performed, and then the film is individually cut And is made of an electrode plate.

Since the conventional processed electrode film 10 is formed so that all of the corner portions formed in a round shape are formed in one direction, the tensile force generated when the film is fed by the unwind roller 20 and the rewinding roller 30 the corner portion of the round shape was often torn by tension. In other words, since the corner portions formed in a round shape are all formed in one direction, the region A of the electrode film 10, which is not formed in a round shape but is connected to each other, can withstand tension, The region B of the unconnected electrode film 10 can not withstand the tension, and the electrode film 10 is torn.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the present invention, and it is an object of the present invention to provide a method of manufacturing an electrode film, in which a round portion formed on each electrode of an electrode film is formed by an upper notching mold and a lower notching mold, The electrode notching device of the secondary battery for preventing the electrode film from tearing by dispersing the tensile force acting on the electrode film during transport of the round electrode processed film for carrying out the lamination process, And to provide an electrode film produced thereby.

According to an aspect of the present invention, there is provided an electrode winding apparatus comprising: an unwinder unit for unwinding a film for an electrode wound in a roll form; A rewinder part disposed apart from the unwinder part to wind the electrode film unwound by the unwinder part to transport the electrode film; An upper notching mold alternately arranged on both sides of the electrode film by being lowered and arranged to be able to move up and down on the electrode film to be transported; And a lower notching mold disposed at a lower portion of the film for electrode to be transported and brought into contact with the lower notching mold that descends.

A first notching punch formed on a lower surface of the upper notching mold so as to be disposed on one side of the electrode film; And a second notching punch formed on the lower surface of the upper notching mold to be disposed on the other upper side of the electrode film and spaced apart from the first notching punch in a conveying direction of the electrode film can do.

A first notching punch groove formed to be recessed in an upper surface of the lower notching mold to correspond to the first notching punch and into which the first notching punch is inserted; And a second notching punch groove formed to be recessed in the upper surface of the lower notching mold to correspond to the second notching punch and into which the second notching punch is inserted.

Here, the first notching punch, the second notching punch, the first notching punch groove, and the second notching punch groove are constituted by one set, and the sets are provided in plural, and the upper notching mold and the lower notching mold, And may be formed in series along the transport direction of the film.

At least one corner of each of the electrodes is formed as a curved round portion. The round portion is alternately positioned at both sides in the longitudinal direction of the electrode film, May be formed on each electrode.

At this time, the round portion may be formed at one corner of the one side of the one electrode, and may be formed at the other corner of the other side of the other electrode connected to the one electrode.

In addition, the round portion may be formed only at both corners of the one electrode and at one corner of both corners of the other electrode formed in the region where the one electrode and the other electrode are coupled to each other.

The round portion formed on the one electrode and the round portion formed on the other electrode may be formed to be positioned diagonally with respect to each other.

The electrode film may include a plurality of the one electrode and the other electrode, and may be alternately connected to each other.

By this, by forming the round portions formed on each electrode of the electrode film so as to alternate on both sides of the electrode film in the longitudinal direction of the electrode film by the upper notching mold and the lower notching mold, There is an effect of preventing the electrode film from tearing by dispersing the tensile force acting on the electrode film at the time of transferring the processed electrode film.

1 is a view showing a conventional film for an electrode.
2 is a view showing that a conventional film for an electrode is transferred for a lamination process.
3 is a perspective view of an electrode notching device of a secondary battery according to the present invention.
4 is a side cross-sectional view of an electrode notching device of a secondary battery according to the present invention.
FIG. 5 is a bottom view of an upper notching mold of an electrode notching device of a secondary battery according to the present invention.
6 is a top view of the lower notching mold of the electrode notching device of the secondary battery according to the present invention.
7 is a view showing an electrode film produced by an electrode notching apparatus of a secondary battery according to the present invention.
8 is a view showing that an electrode film manufactured by an electrode notching apparatus of a secondary battery according to the present invention is transferred for a lamination process.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or preliminary meaning and the inventor shall properly define the concept of the term in order to describe its invention in the best possible way The present invention should be construed in accordance with the spirit and concept of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Hereinafter, an electrode notching apparatus for a secondary battery according to a preferred embodiment of the present invention and an electrode film manufactured thereby will be described with reference to the accompanying drawings.

As shown in FIG. 3, the apparatus for notching an electrode according to the present invention includes an unwinder part 200 for unwinding an electrode film 100 wound in a roll form, A rewinder part 210 arranged to wind the electrode film 100 unwound by the unwinder part 200 to transport the electrode film 100, An upper notching mold 300 alternately forming round portions (120 in Fig. 7) on both sides of the electrode film 100 by lowering the upper notching mold 300, and a lower notching mold 300 disposed at the lower portion of the electrode film 100 to be transported, And a lower notching mold 400 in contact with the lower notching mold 300.

First, the unwinder part 200 and the rewinder part 210 are rollers formed to have a predetermined diameter, and are arranged to be spaced apart from each other. On the outer circumferential surface of the unwinder portion 200, the electrode film 10 is wound in a roll form, and the electrode film 10 wound by the rotation of the unwinder portion 200 is unwound. The electrode film 10 unwound by the rotation of the unwinder 200 as described above is wound on the rewinder portion 210 and is wound on the electrode film 100 between the unwinder portion 200 and the rewinder portion 210. [ Lt; / RTI >

The upper notching mold 300 is a substantially rectangular member having a predetermined thickness, and is disposed on the upper portion of the electrode film 100 to be transported. At this time, an elevating member 310 is connected to the upper portion of the upper notching mold 300, and the upper notching mold 300 is raised or lowered by the operation of the elevating member 310.

3, 4 and 5, a first notching punch 320 and a second notching punch 330 protrude downward from the lower surface of the upper notching mold 300.

The first notching punch 320 is formed on the lower surface of the upper notching mold 300 so as to be disposed on one side of the electrode film 100 (refer to the right side in FIG. The first notching punch 320 is for notching the round portion 120 (see FIG. 7) of the electrode film 100, and a part thereof is formed to have a rounded curved surface. The curved surface is formed so as to face the inner side of the electrode film 100 to form a round portion (120 in FIG. 7) at one side end of the electrode film 100.

The second notching punch 330 is formed on the lower surface of the upper notching mold 300 so as to be disposed on the other side of the electrode film 100 (see left side of FIG. 3, reference numeral 420) 100 are spaced apart from the first notching punch 320 in the conveying direction. The second notching punch 330 described above is also used for notching the round portion (120 'in FIG. 7) of the electrode film 100, and a part thereof is formed to have a rounded curved surface. The curved surface of the second notching punch 330 is also formed so as to face the inner side of the electrode film 100 to form a round portion (120 'in FIG. 7) at the other end of the electrode film 100.

3, 4 and 6, the first notching punch groove 410 and the second notching punch groove 420 are formed on the upper surface of the lower notching mold 400 so as to be recessed therein.

The first notching punch groove 410 is formed to be recessed into the lower notching mold 400 in a shape corresponding to the shape of the first notching punch 320. At this time, the first notching punch groove 410 is formed to be positioned below the first notching punch 320, and when the upper notching mold 300 is lowered, the first notching punch 320 is inserted therein.

The second notching punch 330 is formed to be recessed into the lower notching mold 400 in a shape corresponding to the shape of the second notching punch 330 so that the second notching punch 330 is positioned below the second notching punch 330 And when the upper notching mold 300 is lowered, the second notching punch 320 is inserted therein.

The first and second notching punches 330 and 420 are formed by the first notching punch 320, the second notching punch 330, the first notching punch groove 410 and the second notching punch groove 420 formed as described above. (120 and 120 'in Fig. 7) are formed. The first notching punch 320 and the second notching punch 330 are positioned in the first notching punch groove 410 and the second notching punch 330 in a state where the first notching punch 320 and the second notching punch 330 are in contact with the lower notching mold 400, And the round portions (120 and 120 'in FIG. 7) are formed by notching on both sides of the electrode film 100 by being inserted into the punch grooves 420.

The first notching punch 320, the second notching punch 330, the first notching punch groove 410 and the second notching punch groove 420 are configured to form one set, Along the feeding direction of the electrode film 100 to the lower notching mold 300 and the lower notching mold 400. Therefore, a plurality of round portions (120 and 120 'in FIG. 7) are formed at one time on the electrode film 100 by the upper notching mold 300 and the lower notching mold 400.

In this embodiment, a plurality of first notching punches 320, a second notching punch 330, a first notching punch groove 410, and a second notching punch groove 420 are provided, The first notching punch 320, the second notching punch 330, the first notching punch groove 410, and the second notching punch 330, Only one second notching punch groove 420 may be provided to form a plurality of round portions (120 and 120 'in FIG. 7) by a plurality of operations.

Fig. 7 shows an electrode film produced by the electrode notching device of the above-described secondary battery.

Referring to this figure, the round portion 120 of one electrode 110 among the electrodes of the electrode film 100 is formed by the first notching punch 320 and the first notching punch groove 410, The round portion 120 'of the electrode 110' is formed by the second notching punch 330 and the second notching punch groove 420.

Therefore, the round portions 120 and 120 'of the electrodes 110 and 110' are formed alternately on both sides of the longitudinal direction of the electrode film 100. At this time, the round portion 120 formed on one electrode 110 is formed to be positioned diagonally to the round portion 120 'formed on the other electrode 110'.

One round section 120 is formed at one corner of one side of one electrode 110 and the other round section 120 'is formed at the other corner of both sides of the other electrode 110' .

One of the corner portions of the one electrode 110 and the other corner portion of the other electrode 110 'formed in the area where the one electrode 110 and the other electrode 110' The round portion 120 is formed only at a corner portion of the substrate.

8 is a view showing that the electrode film 100 formed by alternately connecting the one electrode 110 and the other electrode 110 'is transferred.

Referring to this figure, since the regions where the electrodes 110 and 110 'are connected are alternately formed on both sides of the electrode film 100, the tension generated by transferring the electrode film 100 is called the electrode film 100 to prevent the electrode film 100 from being torn.

The electrode notching apparatus of the secondary battery constructed as described above and the electrode film produced therefrom are configured so that the round portions 120 and 120 'formed on the electrodes 110 and 110' of the electrode film 100 are notched By alternately forming the electrodes 300 and the lower notching mold 400 on both sides of the electrode film 100 in the longitudinal direction of the electrode film 100 to form the round portions 120 and 120 The electrode film 100 can be prevented from being torn by dispersing the tension acting on the electrode film 100 when the electrode film 100 is processed.

As described above, the electrode notching apparatus of the secondary battery according to the present invention and the electrode film manufactured thereby have been described with reference to preferred embodiments.

The foregoing embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing detailed description. It is intended that all changes and modifications that come within the meaning and range of equivalency of the claims, as well as all equivalents thereof, be within the scope of the present invention.

10: electrode film 11: electrode plate
12: corner portion 20: unwind roller
30: rewind roller 100: electrode film
110: electrode 120:
200: Unwinder 210: Rewinder part
300: upper notching mold 310: elevating member
320: first notching punch 330: second notching punch
400: lower notching mold 410: first notching punch groove
420: second notching punch groove

Claims (9)

An unwinder unit for unwinding the electrode film wound in a roll form;
A rewinder part disposed apart from the unwinder part to wind the electrode film unwound by the unwinder part to transport the electrode film;
An upper notching mold alternately arranged on both sides of the electrode film by being lowered and arranged to be able to move up and down on the electrode film to be transported; And
And a lower notching mold disposed at a lower portion of the electrode film to be transported and brought into contact with the lower notching mold descending.
The method according to claim 1,
A first notching punch formed on a lower surface of the upper notching mold so as to be disposed on one side of the electrode film; And
And a second notching punch formed on the lower surface of the upper notching mold to be disposed on the other side of the other side of the electrode film and spaced apart from the first notching punch in a conveying direction of the electrode film Electrode notching device of a secondary battery.
3. The method of claim 2,
A first notching punch groove formed to be recessed in an upper surface of the lower notching mold to correspond to the first notching punch and into which the first notching punch is inserted; And
And a second notching punch groove formed to be recessed in the upper surface of the lower notching mold to correspond to the second notching punch and into which the second notching punch is inserted.
The method of claim 3,
The first notching punch, the second notching punch, the first notching punch groove and the second notching punch groove are constituted by one set,
Wherein the plurality of sets are formed in the upper notching mold and the lower notching mold so as to extend along the transport direction of the electrode film.
1. A film for an electrode in which square electrodes are formed in a mutually connected manner,
At least one of the corners of each of the electrodes is formed as a curved round portion,
Wherein the round portions are formed on each electrode so as to be alternately positioned on both sides in the longitudinal direction of the electrode film.
6. The method of claim 5,
In the round section,
A first electrode formed on one corner of one side of the one electrode,
Wherein the electrode film is formed on one of opposite sides of the other electrode adjacent to the one electrode.
The method according to claim 6,
In the round section,
Wherein the electrode film is formed only at one corner of both the corner portions of the one electrode and the opposite corner portions of the other electrode formed in a region where the one electrode and the other electrode are coupled to each other.
8. The method of claim 7,
Wherein the rounded portion formed on one electrode and the rounded portion formed on the other electrode are formed in a diagonal direction relative to each other.
9. The method of claim 8,
The electrode film may be formed,
Wherein the one electrode and the other electrode are formed to be connected to each other in an alternating manner.

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