KR20200067542A - Lithium secondary battery in which short ignition is prevented and a method for manufacturing the same - Google Patents

Abstract

According to an embodiment of the present invention, disclosed are a short ignition prevented lithium secondary battery and a manufacturing method thereof. The disclosed lithium secondary battery comprises a positive electrode tab, a positive electrode including a positive electrode mixture unit, and a negative electrode including a negative electrode mixture unit. An upper end portion of the negative electrode mixture unit is formed higher than the positive electrode mixture unit so as to overlap with the positive electrode tab in the horizontal direction, and is formed to be spaced apart from the positive electrode tab.

Description

Lithium secondary battery in which short ignition is prevented and a method for manufacturing the same}

The present invention relates to a lithium secondary battery that prevents short ignition and a method for manufacturing the same.

Recently, attempts to apply a lithium secondary battery to an electric vehicle have been expanded, and it is important to increase the energy density of the battery in order to improve the mileage of one charge of the electric vehicle. As an attempt to increase the energy density of the battery, a method of minimizing the dimensional tolerance between the separator-cathode and the cathode-anode has been developed, but as a result of making the anode larger than the anode to prevent lithium precipitation during charging, when the cell heats due to overcharging, etc. There is a problem in that short-circuiting occurs between the negative electrode mixture part and the positive electrode tab, which is the most dangerous type of short type of battery due to the shrinkage of the separator.

In order to solve this problem, an insulating tape is attached to the positive electrode non-coated portion that may come into contact with the negative electrode mixture (Special No. 10-2016-0062625) or ceramic coating (Special No. 10-2017-0139463) Although it was intended to prevent a short circuit between the mixture part and the positive electrode tab, there is a problem that additional processing is required or additional materials and time are additionally required.

Particularly, when an insulating tape is attached to the positive electrode uncoated portion (Special No. 10-2016-0062625), a step due to the thickness occurs when the insulating tape is used, and the adhesive strength of the insulating tape is lowered, causing a problem of lifting. . In addition, there is a problem in that the insulating tape itself needs to be newly manufactured when the insulating width needs to be changed according to the positive electrode active material to be coated or as needed.

Therefore, at this time, a new method for preventing a short circuit between the negative electrode mixture part and the positive electrode tab is required.

Korean Patent Publication No. 10-2016-0062625 (Publication date: June 02, 2016)

In order to solve the above-mentioned problems, the present invention is to provide a lithium secondary battery and a method of manufacturing the short ignition prevention between the negative electrode mixture portion-the positive electrode tab.

A lithium secondary battery according to an embodiment of the present invention includes a positive electrode tab, a positive electrode including a positive electrode mixture portion, and a negative electrode including a negative electrode mixture portion, and the upper portion of the negative electrode mixture portion overlaps the positive electrode tab in the horizontal direction so that the positive electrode mixture portion It is formed higher and is spaced apart from the positive electrode tab.

In addition, the upper end portion of the negative electrode mixture portion may be formed 1.5 to 3.0 mm higher than the positive electrode mixture portion.

In addition, the upper end portion of the negative electrode mixture portion may be formed by being spaced at least 1.0 mm from the positive electrode tab.

A method of manufacturing a lithium secondary battery according to an example of the present invention includes forming a positive electrode including a positive electrode tab, a positive electrode mixture part, and forming a negative electrode including a negative electrode mixture part, and the forming of the negative electrode comprises: The upper end of the negative electrode mixture portion is formed higher than the positive electrode mixture portion so as to overlap the positive electrode tab in the horizontal direction, and is formed to be spaced apart from the positive electrode tab.

In addition, the upper end portion of the negative electrode mixture portion may be formed spaced at least 1.0mm from the positive electrode tab.

In addition, forming the negative electrode mixture portion to be spaced apart from the positive electrode tab may include forming a portion of the upper portion of the negative electrode mixture portion to be separated by a notching mold.

According to an example of the present invention, short ignition between the negative electrode mixture portion and the positive electrode tab can be prevented by forming the negative electrode mixture portion to be spaced apart from the positive electrode tab.

1 is a schematic diagram of a lithium secondary battery according to an embodiment of the present invention.
FIG. 2 is an enlarged view of the dotted area (a) of FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described. However, the embodiments of the present invention may be modified in various other forms, and the technical idea of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

Terms used in the present application are only used to describe specific examples. Thus, for example, a singular expression includes a plural expression unless the context clearly indicates that it should be singular. In addition, terms such as “comprise” or “include” as used in the present application are used to clearly indicate the existence of features, steps, functions, elements, or combinations thereof described in the specification, and other features. It should be noted that it is not used to preliminarily exclude the presence of a field or step, function, component, or combination thereof.

On the other hand, unless defined otherwise, all terms used in this specification should be regarded as having the same meaning as generally understood by a person having ordinary skill in the art to which the present invention pertains. Accordingly, unless specifically defined herein, certain terms should not be construed in excessively ideal or formal sense. For example, in this specification, a singular expression includes a plural expression unless the context clearly has an exception.

In addition, "about", "substantially", and the like in the present specification are used in the sense of or close to the value when manufacturing and substance tolerances unique to the stated meaning are presented, and are used to help understand the present invention. Or, an absolute value is used to prevent unscrupulous use of the disclosed content by unscrupulous intruders.

Recently, attempts to apply a lithium secondary battery to an electric vehicle have been expanded, and it is important to increase the energy density of the battery in order to improve the mileage of one charge of the electric vehicle. As an attempt to increase the energy density of the battery, a method of minimizing the dimensional tolerance between the separator-cathode and the cathode-anode has been developed, but as a result of making the anode larger in the direction of the anode tab than the anode to prevent lithium precipitation during charging, as overcharge Due to the shrinkage of the membrane during cell heating, there is a problem of short circuit between the negative electrode mixture part and the positive electrode tab, which is the most dangerous type of battery short circuit.

In order to solve the above-mentioned problems, the present invention is to provide a lithium secondary battery and a method of manufacturing the short ignition prevention between the negative electrode mixture portion-the positive electrode tab.

A lithium secondary battery according to an embodiment of the present invention includes a positive electrode tab, a positive electrode including a positive electrode mixture portion, and a negative electrode including a negative electrode mixture portion, and the upper portion of the negative electrode mixture portion overlaps the positive electrode tab in the horizontal direction so that the positive electrode mixture portion It is formed higher and is spaced apart from the positive electrode tab.

In the present specification, the positive electrode mixture part means a positive electrode portion coated with a positive electrode mixture including a positive electrode active material, a binder, a conductive material, and an additive material. In addition, the negative electrode mixture portion means a negative electrode portion coated with a negative electrode mixture containing a negative electrode active material, a conductive material, an additive, and the like.

The positive electrode active material included in the positive electrode mixture is not particularly limited, but, for example, the positive electrode active material may include a complex oxide of lithium and a metal selected from cobalt, manganese, nickel, and combinations thereof.

Other constitutive binders, conductive materials, additives, and the like are applicable to various design changes by a person skilled in the art based on known matters, and are not particularly limited.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. First, a lithium secondary battery according to an embodiment of the present invention will be described in detail with reference to FIG. 1.

Referring to FIG. 1, a lithium secondary battery according to an example of the present invention includes a positive electrode tab 120, positive electrodes 120 and 130 including a positive electrode mixture part 130, and a negative electrode including a negative electrode mixture part 140. .

Since the present invention is mainly aimed at preventing short ignition that may occur between the negative electrode mixture portion 140 and the positive electrode tab 120 of the lithium secondary battery, hereinafter, an enlarged view of the dotted area (a) in which short ignition may occur This will be described in detail with reference to 2.

The negative electrode material mixture part 240 according to an embodiment of the present invention is preferably the positive electrode material mixture so that the upper end of the negative electrode material material part 240 overlaps the positive electrode tab 220 in a horizontal direction to prevent the precipitation of lithium during charging. It may be formed higher than the portion 230.

The upper end of the negative electrode mixture portion 240 is not particularly limited in constructing the negative electrode mixture portion 240 on the premise that it is formed higher than the positive electrode mixture portion 230. For example, the upper end portion of the negative electrode mixture portion 240 may be formed 1.5 to 3.0 mm higher than the positive electrode mixture portion 230.

At this time, when the negative electrode mixture portion 240 formed higher than the positive electrode mixture portion 230 is formed against the positive electrode tab 220, when the battery heats due to overcharge, the separator shrinks and the negative electrode mixture portion 240-positive electrode tab 220 2) Since short-circuit may occur, referring to FIG. 2, as an example of the present invention, preferably, the upper end of the negative electrode mixture portion 240 formed higher than the positive electrode mixture portion 230 is spaced apart from the positive electrode tab 220. Can be (see dotted area (b)).

In addition, the upper end of the negative electrode mixture portion 240 formed higher than the positive electrode mixture portion 230 may be formed to be spaced farther than the width (W) of the positive electrode tab 220, as shown in FIG.

The present invention shows the upper portion of the negative electrode mixture portion 240 and the positive electrode tab 220 in a region where a short-circuit may occur between the negative electrode mixture portion 240 and the positive electrode tab 220 in the dotted region (b) of FIG. 2. As it is spaced apart as described above, it is possible to prevent short ignition that may occur between the negative electrode mixture portion 240 and the positive electrode tab 220.

The upper end portion of the negative electrode mixture portion 240 and the positive electrode tab 220 are not particularly limited in a distance apart on the premise that they can prevent short ignition, but preferably, the upper portion of the negative electrode mixture portion 240 is a positive electrode tab ( It is preferably formed to be spaced at least 1.0mm from 220).

The upper end of the negative electrode mixture portion 240 is not particularly limited in the method of forming on the premise that it is formed spaced apart from the positive electrode tab 220.

For example, the upper end portion of the negative electrode mixture portion 240 may be formed in contact with the positive electrode tab 220, and then a portion of the upper end portion of the negative electrode mixture portion 240 in contact with the positive electrode tab 220 may be removed by a notching mold to be spaced apart. have.

In the above, an example of a method capable of forming the upper end portion of the negative electrode mixture portion 240 to be spaced apart from the positive electrode tab 220 is listed, but the spirit of the present invention is not limited thereto and is interpreted by those skilled in the art. Design changes can be made as appropriate.

Referring to FIG. 2, the shape of the edge portion of the negative electrode mixture portion 240 in the dotted area (b) forms a right angle, but this is only an example disclosed by the present invention, and in the present invention, the edge portion of the negative electrode mixture portion 240 ) The upper end of the positive electrode tab 220 is spaced apart and can be changed into various shapes. For example, a round shape is also possible.

On the other hand, in the present invention, the edge portion refers to a boundary region between the positive electrode mixture portion 230 exposed by being formed away from the positive electrode tab 220 and the upper portion of the negative electrode mixture portion 240 and the upper portion of the negative electrode mixture portion 240. do.

As described above, according to an example of the present invention, short ignition between the negative electrode mixture portion and the positive electrode tab can be prevented by forming the negative electrode mixture portion to be spaced apart from the positive electrode tab. Hereinafter, the manufacturing method of the present invention will be described.

A method of manufacturing a lithium secondary battery according to an example of the present invention includes forming a positive electrode including a positive electrode tab, a positive electrode mixture part, and forming a negative electrode including a negative electrode mixture part, and the forming of the negative electrode comprises: The upper end of the negative electrode mixture portion is formed higher than the positive electrode mixture portion so as to overlap the positive electrode tab in the horizontal direction, and is formed to be spaced apart from the positive electrode tab.

The upper end of the negative electrode mixture portion and the positive electrode tab are not particularly limited in terms of the distance apart on the premise that short ignition can be prevented. Preferably, the upper portion of the negative electrode mixture portion is preferably formed by being spaced at least 1.0 mm from the positive electrode tab.

The upper end portion of the negative electrode mixture portion is not particularly limited in the method of forming on the premise that it is spaced apart from the positive electrode tab.

For example, the upper end portion of the negative electrode mixture portion may be formed in contact with the positive electrode tab, and then a portion of the upper portion of the negative electrode mixture portion contacting the positive electrode tab may be removed by a notching mold to be spaced apart.

In the above, an example of a method capable of forming the upper end portion of the negative electrode mixture portion so as to be spaced apart from the positive electrode tab is listed, but the spirit of the present invention is not limited thereto, and a person skilled in the art can appropriately change the design from known matters.

In the present specification, the disclosed embodiments have been described with reference to the accompanying drawings as described above. Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be practiced in different forms from the disclosed embodiments without changing the technical spirit or essential features of the present invention. The disclosed embodiments are illustrative and should not be construed as limiting.

110: current collector
120: anode tab
130: anode mixture
140: negative electrode mixture
210: current collector
220: anode tab
230: anode mixture
240: cathode mixture

Claims (6)

It includes a positive electrode tab, a positive electrode including a positive electrode mixture portion and a negative electrode comprising a negative electrode mixture portion,
The upper portion of the negative electrode mixture portion is formed higher than the positive electrode mixture portion so as to overlap the positive electrode tab in the horizontal direction, the lithium secondary battery is formed spaced apart from the positive electrode tab. According to claim 1,
A lithium secondary battery having an upper end portion of the negative electrode mixture portion 1.5 to 3.0 mm higher than the positive electrode mixture portion. According to claim 1,
A lithium secondary battery formed at a distance of 1.0 mm or more from the positive electrode tab at an upper end of the negative electrode mixture. Forming an anode including an anode tab and an anode mixture; And
Forming a negative electrode comprising a negative electrode mixture portion,
The step of forming the cathode,
A method of manufacturing a lithium secondary battery, wherein an upper end portion of the negative electrode mixture portion is formed higher than the positive electrode mixture portion so as to overlap with the positive electrode tab in a horizontal direction, and spaced apart from the positive electrode tab. The method of claim 4,
A method of manufacturing a lithium secondary battery formed by being separated from the anode tab by 1.0 mm or more from the anode tab. The method of claim 4,
Forming the negative electrode mixture to be spaced apart from the positive electrode tab,
A method of manufacturing a lithium secondary battery comprising forming a part of the upper portion of the negative electrode mixture part to be separated by a notching mold.

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