KR20170024571A - Apparatus for winding electrode assembly - Google Patents

Abstract

The present invention relates to a winding device for electrode assemblies, which comprises: a first electrode supply roller supplying a first electrode; a second electrode supply roller supplying a second electrode; a first separation film supply roller supply a first separation film between the first electrode and the second electrode; a second separation film supply roller supplying a second separation film to a lower portion of the second electrode; a winding roller winding up and stacking the first electrode, the first separation film, the second electrode, and the second separation film in order; and a first magnetic absorber provided between the first electrode supply roller and the winding roller and eliminating metal foreign substances on a surface of the first electrode by adsorbing the metal foreign substances with magnetic force.

Description

[0001] Apparatus for winding electrode assembly [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a winding apparatus for an electrode assembly, and more particularly, to a winding apparatus for an electrode assembly that adsorbs and removes metal foreign substances in an electrode by magnetic force during winding of an electrode assembly.

Generally, a secondary battery is a battery capable of charging and discharging unlike a primary battery which can not be charged. Such a secondary battery is widely used in high-tech electronic devices such as a phone, a notebook computer, and a camcorder.

Patent Registration No. 10-0958649

The secondary battery includes an electrode assembly and a can that accommodates the electrode assembly, and the electrode assembly is manufactured by sequentially stacking and winding the anode, the separator, and the cathode.

In this case, the electrode assembly has a problem that metallic foreign substances flow into the surface of the anode when the anode, the separator, and the cathode are stacked. The foreign matter flowing into the surface of the anode gradually moves to the cathode through the separator, There has been a problem that a short circuit is caused to be connected.

It is an object of the present invention to provide a winding device for an electrode assembly that removes metal foreign substances introduced into the surface of an anode by magnetic force when winding the anode, the separator, and the cathode.

According to an aspect of the present invention, there is provided a winding apparatus for an electrode assembly, including: a first electrode supply roller for supplying a first electrode; A second electrode supply roller for supplying a second electrode; A first separation membrane feed roller for feeding a separation membrane between the first and second electrodes; A second separation membrane supply roller for supplying a separation membrane to a lower portion of the second electrode; A winding roller for laminating and winding the first electrode, the separation membrane, the second electrode, and the separation membrane in order; And a first magnetic force absorber provided between the first electrode feed roller and the takeup roller to attract and remove metallic foreign substances on the surface of the first electrode by a magnetic force.

The first magnetic attraction unit may be provided in the longitudinal direction of the first electrode.

The first magnetic force absorber may be provided on both surfaces of the first electrode.

And a second magnetic force absorber provided between the second electrode feed roller and the winding roller to adsorb and remove metal foreign substances on the surface of the second electrode by a magnetic force.

The second magnetic force absorber may be provided in two or more in the longitudinal direction of the second electrode.

And the second magnetic force absorber may be provided on both surfaces of the second electrode.

The first electrode may be an anode and the second electrode may be a cathode.

The first magnetic force absorber or the second magnetic force absorber may be a permanent magnet.

The first magnetic force absorber may be formed of a plurality of first magnet members having a magnetic force, and the plurality of first magnet members may be disposed in a width direction of the first electrode.

The plurality of first magnet members may be integrated while being attached in the width direction of the first electrode by a magnetic force.

The first magnet member may include a first permanent magnet and a first case into which the first permanent magnet is inserted.

A coupling protrusion may be formed at one side of the first case and a coupling groove may be formed at the other side of the first case for coupling the coupling protrusion.

The second magnetic force absorber may be formed of a plurality of second magnet members having a magnetic force, and the plurality of second magnet members may be disposed in a width direction of the second electrode.

The second magnet member may include a second permanent magnet and a second case into which the second permanent magnet is inserted.

One of the mutually corresponding second cases may have a coupling protrusion formed in one second case and a coupling groove in which the coupling protrusion is coupled to the second case.

The present invention has the following effects.

First, by providing a winding device for the electrode assembly, it is possible to effectively remove metal foreign substances introduced into the surface of the anode when the electrode assembly is wound, and to prevent short-circuit or skipping of the electrode due to metal foreign substances.

Secondly, by providing a plurality of first magnetic force absorbers in the winding device for the electrode assembly, metal foreign substances introduced into the surface of the anode can be absorbed through a plurality of times, thereby completely removing metal foreign substances.

Third: By further providing the second magnetic force absorber in the winding device for the electrode assembly, metal foreign substances introduced into the surface of the negative electrode can be attracted and removed by the magnetic force.

1 is a view showing a winding device for an electrode assembly according to the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a winding apparatus for an electrode assembly.
3 is a perspective view showing a first magnetic force absorber according to the present invention.
Fig. 4 is a sectional view of Fig. 3; Fig.
5 is a perspective view showing a second magnetic force absorber according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

As shown in Fig. 1, the winding apparatus for an electrode assembly according to the present invention includes a first electrode supply roller 110 for supplying a wound first electrode 10, a second electrode supplying roller 110 for supplying a wound second electrode 20 A first separator feed roller 130 for feeding the first separator 30 wound between the first and second electrodes 10 and 20 and a second separator feed roller 130 for feeding the second separator 30 between the first and second electrodes 10 and 20, The first electrode 10, the first separator 30, the second electrode 20 and the second separator 40, which supply the second separator 40 wound on the first separator 40, And a take-up roller 150 for laminating and winding up as shown in Fig.

That is, the winding device for the electrode assembly according to the present invention is supplied from the first electrode supply roller 110, the first separation film supply roller 130, the second electrode supply roller 120 and the second separation film supply roller 140 The electrode assembly is manufactured by sequentially laminating and winding the first electrode 10, the first separator 30, the second electrode 20, and the second separator 40 in this order.

The first electrode 10 is an anode and the second electrode 20 is a cathode. However, the present invention is not limited thereto.

In the winding device for an electrode assembly according to the present invention, metal foreign matter may flow into the surface of the first electrode 10 in the winding process. That is, in the course of manufacturing the first electrode by cutting the first electrode, the metal foreign matter may flow into the first electrode 10, or fine metal foreign substances generated due to the friction of the mechanical device during the winding process may be introduced.

As described above, the foreign matter of the first electrode 10 is gradually moved to the second electrode 20 through the first separator 30 due to the potential difference when the electrode assembly is charged / discharged, The first electrode 10 and the second electrode 20 are connected to each other by a metal foreign substance, resulting in a short circuit.

In order to solve such a problem, the winding device for an electrode assembly according to the present invention is provided between a first electrode supply roller 110 and a winding roller 150 to adsorb a metal foreign substance on the surface of the first electrode 10 by a magnetic force And a first magnetic force absorber 160 for removing the magnetic force.

That is, the first magnetic force absorber 160 has a magnetic force and is disposed close to the upper surface of the first electrode 10 and is connected to the first electrode (not shown) moving from the first electrode feed roller 110 to the take- 10) is magnetically attracted and removed.

On the other hand, the first magnetic force absorber 160 uses a permanent magnet, and can absorb metallic foreign substances with a simple and stable magnetic force.

Here, at least two first magnetic force absorbers 160 are provided in the longitudinal direction of the first electrode 10, and the first magnetic force absorber 160 can completely remove metal foreign substances on the first electrode 10 through a plurality of times.

2, the first magnetic force absorber 160 is provided on both surfaces of the first electrode 10, that is, on the upper and lower surfaces of the first electrode 10, The attached metal foreign matter can also be adsorbed and removed by magnetic force.

Therefore, the winding apparatus for an electrode assembly according to the present invention removes metal foreign substances introduced into the first electrode 10 through the first magnetic attraction unit 160 before the first electrode 10 is wound, It is possible to prevent a short circuit or a short circuit.

Referring to FIG. 1, the winding apparatus for an electrode assembly according to the present invention further includes a second magnetic attraction unit 170 for magnetically attracting and removing metal foreign substances on the surface of the second electrode 20.

That is, the surface of the second electrode 20, which is the cathode, may be smaller than the first electrode, but metal foreign matter may flow into the second electrode 20. In order to remove metal foreign substances in the second electrode 20, .

The second magnetic attraction unit 170 is provided with the same permanent magnet as the first magnetic attraction unit 160 and is provided between the second electrode supply roller 120 and the winding roller 150 and wound around the second electrode supply roller 120 The metallic foreign substance in the second electrode 20 moving to the roller 150 is attracted and removed by the magnetic force.

Here, at least two second magnetic force absorbers 170 are provided in the longitudinal direction of the second electrode 20, and the metal foreign substances in the first electrode 10 can be completely removed by adsorption twice or more.

On the other hand, the second magnetic force absorber 170 is provided on both surfaces of the second electrode 20, that is, on the upper and lower surfaces as seen in FIG. 1, and not only the upper surface of the second electrode 20, Can be completely removed.

Therefore, the winding device for the electrode assembly according to the present invention can completely remove the metal foreign substances in the electrode by further providing the second magnetic force absorber 170 together with the first magnetic force absorber 160.

The first electrode 10 or the second electrode 20 may have various widths depending on the size of the rechargeable battery and may have different sizes depending on the first electrode 10 or the second electrode 10 having various widths. There is a problem that the first magnetic force absorber 160 or the second magnetic force absorber 170 must be prepared.

In order to solve such a problem, the first magnetic attraction unit 160 or the second magnetic attraction unit 170 of the winding apparatus for an electrode assembly according to the present invention may have a structure in which the width of the first electrode 10 or the second electrode 20 It is adjustable in length and can reduce compatibility and cost.

3 and 4, the first magnetic attraction unit 160 is formed of a plurality of first magnet members 161 having a magnetic force, and the plurality of first magnet members 161 are formed of a first Are arranged in the width direction of the electrode (10). Accordingly, the first magnetic force absorber 160 can easily adjust the length of the first magnetic force absorber 160 by arranging two or more first magnet members 161 according to the width of the first electrode 10, .

The plurality of first magnet members 161 arranged in the width direction of the first electrode 10 are integrated by being attached to each other by a magnetic force so that a plurality of first magnet members 161 are combined .

In particular, the plurality of first magnet members 161 arranged in the width direction of the first electrode 10 may have different sizes. That is, when the first magnetic attraction unit 160 is applied to the arc-shaped first electrode 160, the plurality of first magnet members 161 are applied in a different size so that the gap between the first electrode and the first magnetic attraction unit 160 Can be constantly adjusted.

Meanwhile, the first magnet member 161 may include a first permanent magnet 161a and a first case 161b into which the first permanent magnet 161a is inserted. That is, the first magnet member 161 includes the first case 161 to surround the outer circumferential surface of the first permanent magnet 161a, thereby stably protecting the first permanent magnet 161a from an external impact. Here, the first case 161b is formed of a synthetic resin material.

A coupling protrusion 161c is formed in the first case 161b and a coupling groove 161d is formed in the first case 161b and the coupling protrusion 161c is coupled to the first case 161b. . That is, the coupling between the plurality of first magnet members 161 can be increased through the coupling of the coupling protrusions 161c and the coupling grooves 161d, and can be positioned on the same axis.

On the other hand, the second magnetic force absorber 170 has the same structure as the first magnetic force absorber 160. 5, the second magnetic force absorber 170 is formed of a plurality of second magnet members 171 having a magnetic force, and the plurality of second magnet members 171 are formed of a second electrode 20 As shown in Fig. Accordingly, the length of the second magnetic force absorber 170 can be adjusted according to the length of the second electrode 20 in the width direction.

The second magnet member 171 includes a second permanent magnet 171a and a second case 171b into which the second permanent magnet 171 is inserted. That is, the second magnet member 171 can stably protect the first permanent magnet 161a from an external impact.

A coupling protrusion 171c is formed on one side second case 171b of the second case 171b corresponding to each other and an engagement groove 171d is formed on the other second case 171b by a coupling protrusion 171c The coupling between the plurality of second magnet members 161 can be enhanced through the coupling between the coupling protrusions 171c and the coupling grooves 171d.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not to be limited to the details thereof and that various changes and modifications will be apparent to those skilled in the art. And various modifications and variations are possible within the scope of the appended claims.

110: first electrode feed roller
120: second electrode feed roller
130: first separation membrane feed roller
140: Second separation membrane feed roller
150: take-up roller
160: First magnetic force absorber
161: first magnet member
161a: first permanent magnet
161b: the first case
170: second magnetic attraction machine
171: second magnet member
171a: first permanent magnet
171b: the second case

Claims (15)

A first electrode supply roller for supplying a first electrode;
A second electrode supply roller for supplying a second electrode;
A first separation membrane feed roller for feeding a first separation membrane between the first and second electrodes;
A second separation membrane supply roller for supplying a second separation membrane to a lower portion of the second electrode;
A winding roller for laminating and winding the first electrode, the first separator, the second electrode, and the second separator in this order; And
And a first magnetic force absorber provided between the first electrode feed roller and the winding roller to attract and remove metallic foreign substances on the surface of the first electrode by a magnetic force. The method according to claim 1,
Wherein at least two of the first magnetic force absorbers are provided in the longitudinal direction of the first electrode. The method of claim 2,
Wherein the first magnetic force absorber is provided on the upper surface and the lower surface of the first electrode, respectively. The method according to claim 1,
Further comprising a second magnetic force absorber provided between the second electrode feed roller and the winding roller to remove a metal foreign substance on the surface of the second electrode by a magnetic force to remove the metal foreign substance. The method of claim 4,
Wherein at least two of the second magnetic attraction units are provided in the longitudinal direction of the second electrode. The method of claim 5,
And the second magnetic force absorber is provided on the upper surface and the lower surface of the second electrode, respectively. The method according to claim 1,
Wherein the first electrode is an anode and the second electrode is a cathode. The method of claim 4,
Wherein the first magnetic force absorber or the second magnetic force absorber is a permanent magnet. The method according to claim 1,
Wherein the first magnetic force absorber is formed of a plurality of first magnet members having a magnetic force,
Wherein the plurality of first magnet members are arranged in a width direction of the first electrode. The method of claim 9,
Wherein the plurality of first magnet members are integrated in a width direction of the first electrode by magnetic force. The method of claim 9,
Wherein the first magnet member includes a first permanent magnet and a first case into which the first permanent magnet is inserted. The method of claim 11,
Wherein a coupling protrusion is formed on one side of the first case and a coupling groove on which the coupling protrusion is coupled is formed on the other side of the first case. The method of claim 4,
Wherein the second magnetic force absorber is formed of a plurality of second magnet members having a magnetic force,
Wherein the plurality of second magnet members are disposed in a width direction of the second electrode. 14. The method of claim 13,
Wherein the second magnet member includes a second permanent magnet and a second case into which the second permanent magnet is inserted. 15. The method of claim 14,
Wherein a coupling protrusion is formed on one side second case of the mutually corresponding second case and a coupling groove on which the coupling protrusion is coupled is formed on the second side case.

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