KR102131737B1 - Electrode assembly and method for manufacturing the same - Google Patents

Abstract

The present invention relates to an electrode assembly, the electrode; And an electrode tab having an inner surface coupled to the electrode, and an insulating layer provided on the outer surface of the electrode tab.

Description

Electrode assembly and its manufacturing method{ELECTRODE ASSEMBLY AND METHOD FOR MANUFACTURING THE SAME}

The present invention relates to an electrode assembly and a method for manufacturing the same, and more particularly, to an electrode assembly in which the electrode tab and the insulating layer are integrally formed and a method for manufacturing the same.

In general, a secondary battery refers to a battery that can be charged and discharged, unlike a primary battery that cannot be charged. Such secondary batteries are widely used in the fields of high-tech electronic devices such as phones, notebook computers, and camcorders.

Patent registration number 10-0958649

The secondary battery according to the prior art includes an electrode assembly and a case in which the electrode assembly is accommodated, and the electrode assembly has a structure in which a plurality of electrodes are stacked and wound with a separator interposed therebetween. In addition, an electrode tab is coupled to the plurality of electrodes, and an insulating tape is attached to increase insulation between the electrode tab and the electrode.

However, in the electrode assembly according to the prior art, a step is generated at the end of the insulating tape attached to the electrode, and there is a problem in that the separator is damaged due to friction between the step portion and the separator, and short-circuit due to damage to the separator is also caused. there was.

In order to solve such a problem, the electrode assembly according to the present invention provides an electrode assembly which prevents damage to a separator and prevents short circuiting by coating the electrode tab with an insulating layer and integrating it to provide an electrode assembly and a method for manufacturing the same. have.

An electrode assembly according to the present invention for achieving the above object is an electrode; And an electrode tab having an inner surface coupled to the electrode and an insulating layer provided on an outer surface of the electrode tab.

The insulating layer may be integrated while being coated on the outer surface of the electrode tab.

The insulating layer may be coated from the bottom of the electrode tab coupled to the electrode to the boundary between the electrode and the electrode tab.

The insulating layer may be further coated a predetermined distance from the boundary portion to the outside of the electrode tab.

The predetermined interval may correspond to a width extending outside the separator interposed between the electrodes.

The insulating layer may be integrated while being further coated on the side surface of the electrode tab.

The insulating layer may be coated on the inside together with the outside of the boundary between the electrode and the electrode tab.

On the other hand, the method of manufacturing an electrode assembly according to the present invention comprises the steps of manufacturing an electrode tab assembly in which the electrode tab and the insulating layer are integrated by coating an insulating layer on the outer surface of the electrode tab (S10); Bonding the inner surface of the electrode tab of the electrode tab assembly to the electrode (S20); And manufacturing an electrode assembly by interposing a separator between a plurality of electrodes to which the electrode tab assembly is coupled (S30).

In step S10, the insulating layer may be coated from the bottom of the electrode tab to be coupled to the electrode to the boundary between the electrode and the electrode tab.

In step S10, the insulating layer may be coated at a predetermined interval outside the boundary.

The predetermined interval may correspond to the width of the separator extending outward from the electrode.

In step S10, the insulating layer may be further coated on the side surface of the electrode tab.

In step S10, the insulating layer may be further coated inside and outside the boundary between the electrode and the electrode tab.

The present invention has the following effects.

First: By providing the electrode tab assembly including the electrode tab and the insulating layer, damage to the separator and short circuit by the insulating layer can be prevented.

Second: The work efficiency can be improved by integrating the electrode tab and the insulating layer.

Third: By coating the insulating layer to the boundary between the electrode and the electrode tab, and further outside the boundary, there is no need to attach a separate tape to the boundary between the electrode and the electrode tab, thereby simplifying the process and reducing cost.

Fourth: By further coating an insulating layer on the side of the electrode tab, damage to the separator due to the side of the electrode tab can be prevented.

1 is a perspective view showing an electrode assembly according to the present invention.
Figure 2 is a perspective view showing a first electrode tab assembly of the electrode assembly according to the present invention.
Figure 3 is a perspective view showing a second electrode tab assembly of the electrode assembly according to the present invention.
4 is a cross-sectional view taken along line AA shown in FIG. 2.
5 is a cross-sectional view taken along line BB shown in FIG. 3.
Figure 6 is a flow chart showing a method of manufacturing an electrode assembly according to the present invention.
7 to 9 is a view showing a manufacturing process of the electrode assembly manufacturing method according to the invention, Figure 7 is a view showing the electrode tab assembly manufacturing process, Figure 8 is a view showing the electrode tab assembly bonding process, Figure 9 Is a diagram showing the manufacturing process of the electrode assembly.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

The electrode assembly 100 according to the present invention includes a plurality of electrodes, a separator 130 interposed between the plurality of electrodes, and an electrode tab assembly coupled to the electrodes, as shown in FIG. 1.

Referring to FIG. 1, the electrodes are separated into first and second electrodes 110 and 120 having different polarities, and the first electrode 110 includes a first electrode current collector 111 and a first electrode current collector. It is provided with a first electrode active material layer 112 coated on both sides of (111), the second electrode 120 is coated on both sides of the second electrode current collector 121 and the second electrode current collector 121 2 is provided as an electrode active material layer (122).

Here, the electrode tab assembly is coupled to the non-coated portions of the electrode current collectors 111 and 121 in which the electrode active material layers 112 and 122 are not coated.

The separator 130 is interposed between the first and second electrodes 110 and 120 to prevent shorts from occurring between the first and second electrodes 110 and 120.

Here, the separator 130 is formed to have a predetermined width larger than that of the first and second electrodes 110 and 120, thereby significantly preventing shorts between the first and second electrodes 110 and 120.

2 to 5, the electrode tab assembly includes a first electrode tab assembly 140 coupled to the first electrode 110 and a second electrode tab assembly 150 coupled to the second electrode 120. Includes.

That is, referring to FIGS. 2 and 4, the first electrode tab assembly 140 includes a first electrode tab 141 coupled to an inner surface of the first electrode 110 and an outer side of the first electrode tab 141. It includes a first insulating layer 142 provided on the side surface.

In addition, referring to FIGS. 3 and 5, the second electrode tab assembly 150 includes a second electrode tab 151 coupled to an inner surface of the second electrode 120 and an outer side of the second electrode tab 151. It includes a second insulating layer 152 provided on the surface.

As described above, the electrode tab assembly 140 and 150 according to the present invention are provided with insulating layers 142 and 152 only on the outer surface of the electrode tabs 141 and 151, thereby forming a step by the insulating layer on the electrode surface. In this way, it is possible to prevent damage to the separator due to the step difference.

That is, in the prior art, when the insulating tape is attached to the electrode to insulate the electrode tab, a step is generated at the end of the insulating tape, and there is a problem that the separator is damaged due to the step of the insulating tape and the friction of the separator.

In order to solve this problem, the present invention can prevent damage to the separator by providing an insulating layer on the electrode tab.

Here, the insulating layers 142 and 152 are integrated while being coated on the outer surfaces of the electrode tabs 141 and 151.

That is, the electrode tab assembly 140, 150 is provided with the electrode tab 141, 151 and the insulating layer 142, 152 integrally, the electrode tab 141, 151 and the insulating layer 142 The bonding force of 152 can be increased, and in particular, the electrode tab assemblies 140 and 150 can be manufactured as a single product to increase compatibility.

Meanwhile, referring to FIGS. 4 and 5, the insulating layers 142 and 152 are lower (a shown in FIGS. 4 and 5) of the electrode tabs 141 and 151 coupled to the electrodes 110 and 120. From the electrode 110, 120 and the electrode tab (141, 151) is coated up to the boundary (b shown in Figures 4 and 5). That is, shorts frequently occur at the boundary between the electrodes 110 and 120 and the electrode tabs 141 and 151, and thus the insulating layer (up to the boundary between the electrodes 110 and 120 and the electrode tabs 141 and 151) ( 142) (152) is coated to prevent shorting.

Meanwhile, the insulating layers 142 and 152 are outside the electrode tabs 141 and 151 than the boundary portions (b shown in FIGS. 4 and 5) of the electrodes 110 and 120 and the electrode tabs 141 and 151. It is coated with a predetermined gap (the gap between b and c shown in FIGS. 4 and 5). That is, as illustrated in FIGS. 4 and 5, the insulating layers 142 and 152 may be further coated to the outer side'c' rather than the boundary portion'b' to increase insulation.

On the other hand, a predetermined interval (the'b' to'c' intervals shown in FIGS. 4 and 5) corresponds to a width extending outward of the separator 130 interposed between the electrodes 110 and 120. That is, the insulating layers 142 and 152 are coated to a predetermined width of the separator 130 extending outwardly from the electrodes 110 and 120 to increase safety.

Meanwhile, referring to FIGS. 2 and 3, the insulating layers 142 and 152 are integrated while being further coated on the side surfaces of the electrode tabs 141 and 151, thereby improving the insulating properties of the electrode tabs 141 and 151 and the separator. The damage of 130 can be significantly prevented.

Meanwhile, referring to FIGS. 4 and 5, the insulating layers 142 and 152 are coated inside and outside the boundary between the electrodes 110 and 120 and the electrode tabs 141 and 151. That is, the insulating layers 142 and 152 are coated on the inner boundary of the electrode tabs 141 and 151, which are in close contact with the electrodes 110 and 120, thereby increasing insulation, and in particular, there is no need to attach a separate insulating tape. In this way, it is possible to simplify the process and reduce the cost.

Therefore, the electrode assembly 100 according to the present invention can eliminate the step caused by the insulator by providing the electrode tab assembly by integrating the electrode tab and the insulating layer, thereby preventing damage to the separator and short circuit.

A method of manufacturing a secondary battery according to the present invention having such a configuration will be described below.

The method of manufacturing a secondary battery according to the present invention is a step of manufacturing an electrode tab assembly by coating an insulating layer on the outer surface of the electrode tab (S10), the inner surface of the electrode tab of the electrode tab assembly, as shown in FIG. It includes a step (S20) of bonding to the electrode, and a step (S30) of manufacturing an electrode assembly by interposing a separator between a plurality of electrodes to which the electrode tab assembly is coupled.

Step S10 is for manufacturing the electrode tab assembly, as shown in FIG. 7, coating the insulating layers 142 and 152 on the outer surface of the electrode tabs 141 and 151. That is, the first electrode tab assembly 140 is the first electrode tab 141 and the first insulating layer 142 integrated by coating the first insulating layer 142 on the outer surface of the first electrode tab 141 And a second electrode tab assembly integrating the second electrode tab 151 and the second insulating layer 152 by coating the second insulating layer 152 on the outer surface of the second electrode tab 151 ( 150).

Here, the first and second insulating layers 142 and 152 are boundaries between the first and second electrodes 110 and 120 and the first and second electrode tabs 141 and 151 to be combined later (FIGS. 4 and Coating up to b) shown in FIG. 5. That is, the first insulating layer 142 is coated from the bottom of the first electrode tab 141 to be coupled to the first electrode 110 to the boundary between the first electrode 110 and the first electrode tab 141, and 2 The insulating layer 152 is coated from the bottom of the second electrode tab 151 to be coupled to the second electrode 120 to the boundary between the second electrode 120 and the second electrode tab 151.

On the other hand, step S10 further coats the insulating layer 142 and 152 at predetermined intervals outside the boundary between the electrodes 110 and 120 and the electrode tab assembly 140 and 150 (see FIGS. 4 and 5), The predetermined interval corresponds to the width of the separator 130 extending outwardly from the electrodes 110 and 120. That is, the insulators 142 and 152 may be further secured to the width of the separator 130 extending from the electrodes 110 and 120 to increase safety.

Meanwhile, as illustrated in FIG. 8, the step S10 further coats the insulating layers 142 and 152 on both sides of the electrode tabs 141 and 151. That is, it is possible to prevent the separation membrane 130 from being damaged by the side surfaces of the electrode tabs 141 and 151, and to improve safety and insulation.

Meanwhile, as illustrated in FIG. 8, the step S10 further coats the insulating layers 142 and 152 on the inner boundary portion together with the outer boundary portions of the electrodes 110 and 120 and the electrode tabs 141 and 151, In this way, a short circuit between the electrode and the electrode tab interface can be prevented.

Step S20, as shown in Figure 8, the electrode tab assembly (140) 150 manufactured in step S10 is coupled to the electrodes 110, 120, respectively.

Step S30, as shown in Figure 9, the electrode tab assembly 140, 150 is interposed between the electrode 110 and 120 coupled to the separator 130 and wound to prepare the electrode assembly 100. .

Therefore, the method of manufacturing an electrode assembly according to the present invention includes an electrode tab assembly in which the electrode tab and the insulating layer are integrated to simplify the process and prevent damage to the separator and short circuit.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and it should be interpreted that all changes or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. do.

100: electrode assembly
110, 120: electrode
130: separator
140, 150: electrode tab assembly
141, 151: electrode tab
142, 152: insulating layer

Claims (13)

electrode; And
An electrode tab having an inner surface coupled to an electrode and an electrode tab assembly provided with an insulating layer provided on an outer surface of the electrode tab, wherein the insulating layer is a boundary between the electrode and the electrode tab from the bottom of the electrode tab coupled to the electrode. Until coated,
It is further coated a predetermined distance from the boundary to the outside of the electrode tab,
It is integrated while being coated on both sides of the electrode tab,
The inside of the electrode and the electrode tab are coated together with the outside of the boundary to prevent shorting at the boundary,
The predetermined interval is,
Corresponds to the width extending to the outside of the separation membrane interposed between the electrodes,
The insulating layer is coated on the outer surface of the electrode tab,
The electrode tab assembly is an electrode assembly, characterized in that the electrode tab and the insulating layer are integrally provided. delete delete delete delete delete delete As an electrode assembly manufacturing method,
Preparing an electrode tab assembly in which the electrode tab and the insulating layer are integrated by coating an insulating layer on the outer surface of the electrode tab (S10);
Bonding the inner surface of the electrode tab of the electrode tab assembly to the electrode (S20); And
Including a step (S30) for manufacturing an electrode assembly by interposing a separator between a plurality of electrodes are combined electrode tab assembly,
Step S10,
Coating the insulating layer from the bottom of the electrode tab to be coupled to the electrode to the boundary between the electrode and the electrode tab,
The insulating layer is coated a predetermined distance outside the boundary portion,
Further coating an insulating layer on both sides of the electrode tab,
In order to prevent a short circuit between the electrode and the electrode tab, an insulating layer is further coated inside and outside the boundary between the electrode and the electrode tab,
The predetermined interval is,
Corresponds to the width of the separator extending outward from the electrode,
Electrode assembly manufacturing method characterized in that the electrode tab and the insulating layer is provided with an integrated electrode tab assembly. delete delete delete delete delete

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