KR102112693B1 - Secondary battery - Google Patents

Abstract

The present invention relates to a secondary battery capable of preventing deformation by empty space inside the pouch after removing the gas inside the pouch.
In addition, the present invention includes a plurality of electrode assemblies and a pouch accommodating the electrode assembly, and the pouch is characterized in that it includes a recessed part recessed toward the inner empty space.

Description

Secondary battery {SECONDARY BATTERY}

The present invention relates to a secondary battery, and more particularly, to a secondary battery capable of preventing deformation due to an empty space inside the pouch after removing the gas inside the pouch.

Cells (cells) that generate electric energy through physical reactions or chemical reactions of materials and supply power to the outside are unable to obtain AC power supplied to buildings depending on the living environment surrounded by various electric and electronic devices. It is used in case or DC power is needed.

Among these batteries, primary and secondary batteries, which are chemical batteries using chemical reactions, are generally used, and primary batteries are commonly referred to as batteries, and are consumable batteries. In addition, the secondary battery is a rechargeable battery that is manufactured using a material in which many redox processes between a current and a material are repeated. When a reduction reaction is performed on a material by a current, the power is charged and the oxidation reaction on the material is performed. When performed, the power is discharged. As such charging-discharging is repeatedly performed, electricity is generated.

On the other hand, the lithium ion battery of the secondary battery is coated with an active material on a positive electrode conductive foil and a negative electrode conductive foil, respectively, with a constant thickness, and a separation membrane is interposed between the two conductive foils to form a number of jelly rolls or a plurality of cylinders. The electrode assembly produced by winding is stored in a cylindrical or square can, pouch, etc. and sealed.

Korean Patent Publication No. 10-2010-0080414 discloses a conventional secondary battery.

1 is an exploded perspective view showing an electrode assembly that is accommodated therein by opening a pouch of a conventional pouch type secondary battery.

As shown in FIG. 1, a conventional pouch-type secondary battery forms a V farming portion in which the electrode tab 50 of the electrode assembly 30 accommodated therein is bent in a V shape.

2. Description of the Related Art In recent years, a large capacity secondary battery has been developed in accordance with the demand for a large capacity secondary battery for use in an electric vehicle while using the secondary battery in various fields.

However, in the case of a large-capacity secondary battery, the size of the secondary battery becomes large, but the larger secondary battery has an empty space formed by the V-forming part inside, and then a degas process inside the pouch, followed by an empty space inside the pouch. There is a problem in that the shape of the pouch is deformed or a deformatiion phenomenon such as the position of the electrode assembly moves.

Therefore, the present invention was devised to solve the above problems, and the problem of the present invention is to prevent the deformation phenomenon by removing the empty space formed by the V-forming part of the electrode assembly accommodated in the two cavity pouch type secondary battery. It is to provide a secondary battery.

The secondary battery according to an embodiment of the present invention includes a plurality of electrode assemblies and a pouch accommodating the electrode assembly, and the pouch includes a recessed portion recessed toward an inner empty space.
That is, the secondary battery according to an embodiment of the present invention includes a plurality of electrode assemblies (1); And a pouch 100 accommodating the electrode assembly 1; It includes, the electrode tab (3) provided in the electrode assembly (1); And an electrode lead 5 electrically connected to the electrode tab 3 and having a distal end penetrating the pouch 100, a plurality of electrode assemblies 1 are provided in two, and the pouch 100 is provided. The first pouch part 100a accommodating one electrode assembly 1a therein and the second pouch part 100b accommodating the other electrode assembly 1b therein, wherein the first pouch The part 100a and the second pouch part 100b are coupled to each other in a state in which the spaces in which the electrode assemblies 1a and 1b are accommodated are connected, and the electrode tabs 3 are respectively provided in two electrode assemblies 2 It is provided as a dog, one electrode tab is vertically bent from the end of the extension portion (3b) and the extension portion (3b) provided to extend in the longitudinal direction to one electrode assembly (1a) and vertically bent of the electrode lead It includes a bent portion (3c) connected to the portion, the other electrode tab is the other electrode group A second pouch part of the pouch 100 including a v-forming part 3a which is bent inclined toward the bent part from the sieve 1b to be connected to the bent part 3c, and wherein the v-forming part 3a is located. One side of the (100b) is a recess (111) recessed toward the inner empty space (s) side; Including, the recess 111 is recessed in the shape of a “b” toward one inside of the second pouch part 100b, the recess 111 located at the innermost side of the second pouch part 100b The edge of the can be located on the slope of the V-forming part when viewed from the side of the second pouch part.

An electrode lead electrically connected to the electrode tab of the electrode assembly penetrates the pouch, and the electrode tab forms a bent V-forming part, wherein the empty space is not located between the electrode assembly and the pouch. It may be a space.

The V-forming part may be biased toward one side inside the pouch.

The pouch may include a first pouch part accommodating one electrode assembly therein and a second pouch part accommodating the other electrode assembly therein and sealing the first pouch part by combining with the first pouch part. .

The recessed portion may be formed in any one of the first pouch portion and the second pouch portion.

The first pouch part and the second pouch part may have different sizes.

The recessed portion formed among the first pouch portion and the second pouch portion may have a smaller size.

The one electrode assembly and the other electrode assembly may have different sizes from each other.

The first pouch portion may be formed to correspond to the size of the one electrode assembly, and the second pouch portion may be formed to correspond to the size of the other electrode assembly.

According to the present invention, there is an effect of preventing the deformation of the secondary battery after the degas process by removing the empty space inside the pouch generated by the V-forming part.

According to the present invention, there is an effect of minimizing the volume by removing the empty space inside the pouch.

According to the present invention, there is an effect capable of assembling the pouch corresponding to the shape or size of the electrode assembly accommodated in the two cavity pouch.

According to the present invention, the size of the first pouch portion and the second pouch portion of the two-cavity pouch are different from each other, thereby making it possible to manufacture a secondary battery having various shapes.

1 is an exploded perspective view showing an electrode assembly that is accommodated therein by opening a pouch of a conventional pouch type secondary battery.
Figure 2 is a side perspective view showing from the side so that the inside of the secondary battery according to an embodiment of the present invention can be seen.
3 is a side perspective view showing the empty space removed in FIG. 2 with a dotted line.
4 is a side perspective view showing from the side so that the inside of the secondary battery according to another embodiment of the present invention can be seen.

Hereinafter, a secondary battery according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The terms or words used in the specification and claims should not be interpreted as being limited to ordinary or lexical meanings, and the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. Based on the principle that it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention. It should be understood that there may be equivalents.

In the drawings, the size of each component or a specific portion constituting the component is exaggerated, omitted, or schematically illustrated for convenience and clarity. Therefore, the size of each component does not entirely reflect the actual size. When it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the description will be omitted.

Figure 2 is a side perspective view showing from the side so that the inside of the secondary battery according to an embodiment of the present invention can be seen.

As illustrated in FIG. 2, a secondary battery according to an embodiment of the present invention includes a plurality of electrode assemblies 1 and a pouch part 100 accommodating the electrode assemblies 1, and the pouch 100 ) Includes a depression 111 recessed toward the inner empty space s.

The electrode assembly 1 may be manufactured by laminating a separator interposed between a positive electrode coated with a positive electrode active material and a negative electrode coated with a negative electrode active material and a positive electrode and a negative electrode multiple times.

In addition, the electrode assembly 1 may be manufactured by winding a laminate in which a positive electrode, a separator, and a negative electrode are stacked in the form of a jelly roll.

The positive electrode may be an aluminum plate, and may include a positive electrode holding portion coated with a positive electrode active material and a positive electrode uncoated portion without a positive electrode active material.

The positive electrode active material may be a lithium-containing transition metal oxide such as LiCoO2, LiNiO2, LiMnO2, or LiMnO4 or a lithium chalcogenide compound.

The positive electrode holding portion is formed, for example, by applying a positive electrode active material to a portion of at least one surface of the aluminum plate, and the remaining portion of the aluminum plate without the positive electrode active material may be a positive electrode uncoated portion.

An anode electrode tab may be attached to the anode uncoated portion.

The negative electrode may be a copper plate, and may include a negative electrode holding portion coated with a negative electrode active material and a negative electrode uncoated portion without a negative electrode active material.

A negative electrode tab may be attached to the negative electrode non-coated portion.

The negative electrode active material may be crystalline carbon, amorphous carbon, carbon composite, carbon material such as carbon fiber, lithium metal or lithium alloy, and the like.

The negative electrode holding portion is formed by applying a negative electrode active material to a portion of at least one surface of the copper plate, for example, and the remaining portion of the copper plate without the negative electrode active material may be a negative electrode non-coated portion.

The separator is any substrate selected from the group consisting of, for example, polyethylene (PE), polystyrene (PS), polypropylene (PP), and a copolymer of polyethylene (PE) and polypropylene (PP). It can be prepared by coating a polyvinylidene flowride-hexafluoropropylene copolymer (PVDF-HFP co-polymer).

And the electrode tab 3 of the cathode or anode is connected to the electrode lead 5, the electrode lead 5 is electrically connected to the electrode tab 3 and penetrates the pouch 100 to the outside of the pouch 100 Can be extended.

Here, the electrode tab 3 connecting the electrode assembly 1 and the electrode lead 5 forms a V-forming part 3a that is bent to prevent damage such as breakage.

However, the secondary battery of the present invention may have a shape of a 2 cavity pouch in which two electrode assemblies 1 are accommodated in one secondary battery to secure a large capacity, and the pouch 100 also has one electrode assembly ( The first pouch part 100a and the second pouch part 100b are formed by a first pouch part 100a accommodating 1a) and a second pouch part 100b accommodating one electrode assembly 1b. It can be sealed by combining with each other.

As described above, a two-cavity pouch type secondary battery in which two electrode assemblies 1 are accommodated in one secondary battery has a space between the electrode lead 5 and the electrode assembly 1 in the pouch 100. The electrode tab 3 forming the V-forming part 3a may be biased toward one side because it is wider than the existing secondary battery in which one electrode assembly is accommodated.

Accordingly, a space in which the V-poim portion 3a is not formed in the space between the electrode lead 5 and the electrode assembly 1 in the pouch 100 may form an empty space s.

However, this empty space (s) is located in the empty space (s) area when the pressure inside the pouch 100 decreases after the degas process to remove the gas inside the pouch 100 during the manufacturing process of the secondary battery Deformation phenomenon such as deformation of the shape of the pouch 100, such as a portion of the pouch 100 being distorted, or the electrode assembly 1 accommodated in the pouch 100 moving toward the empty space s This can happen.

3 is a side perspective view showing the empty space removed in FIG. 2 with a dotted line.

As illustrated in FIG. 3, in the secondary battery according to an embodiment of the present invention, the V-forming part 3a is not located inside any one of the first pouch part 100a and the second pouch part 100b. The recessed portion 111, which is recessed by the size of the empty space s, is formed so as to reduce the size of the pouch.

In FIG. 3, for convenience of explanation, although the recessed portion 111 is formed in the second pouch portion 100b, the size of the second pouch portion 100b is smaller than that of the first pouch portion 100a. If the V-forming part 3a is located on the second pouch part 100b side and the V-forming part 3a is not located inside the first pouch part 100a, a depression is formed in the first pouch part 100a. 2 The size of the first pouch part 100a may be smaller than that of the pouch part 100b.

As described above, the present invention has an effect of preventing deformation of the shape of the pouch 100 after the degas process and removing the flow of the electrode assembly 1 as the empty space inside the pouch portion 100 is removed.

4 is a side perspective view showing from the side so that the inside of the secondary battery according to another embodiment of the present invention can be seen.

As illustrated in FIG. 4, according to another embodiment of the present invention, the two electrode assemblies 1 accommodated in the pouch 100 may have different sizes from each other.

The first pouch part 100a and the second pouch part 100b are first and second pouch parts 100a in proportion to the size of the electrode assembly 1 accommodated therein corresponding to the size of the electrode assembly 1. 2 The size of the pouch portion 100b may be formed differently.

At this time, the V-forming part 3a of the electrode tab 3 may be located on the side of the larger pouch part among the first pouch part 100a and the second pouch part 100b. Due to this structure, the secondary battery space can be utilized very efficiently.

As described above, according to the present invention, there is an effect of preventing the deformation of the secondary battery after the degas process by removing the empty space inside the pouch generated by the V-forming part.

In addition, according to the present invention, there is an effect of minimizing the volume by removing the empty space inside the pouch.

In addition, according to the present invention, there is an effect capable of assembling the pouch corresponding to the shape or size of the electrode assembly accommodated in the two cavity pouch.

In addition, according to the present invention, it is possible to produce secondary batteries of various shapes by different sizes of the first and second pouch portions of the two cavity pouch.

As described above, the secondary battery according to the present invention has been described with reference to the exemplified drawings, but the present invention is not limited by the above-described embodiments and drawings, and is generally within the technical field to which the present invention belongs within the scope of the claims. Various implementations are possible by those with knowledge of

1: Electrode assembly
1a: One electrode assembly
1b: Another electrode assembly
3: electrode tab
3a: V-forming part
5: electrode lead
30: electrode assembly
50: electrode tab
100: pouch
100a: first pouch part
100b: second pouch part
111: depression

Claims (9)

A plurality of electrode assemblies 1; And
A pouch 100 accommodating the electrode assembly 1; Including,
An electrode tab 3 provided in the electrode assembly 1; And
The electrode tab (3) is electrically connected, the tip includes an electrode lead (5) passing through the pouch (100),
A plurality of electrode assembly (1) is provided in two,
The pouch 100 includes a first pouch part 100a accommodating one electrode assembly 1a therein, and a second pouch part 100b accommodating the other electrode assembly 1b therein. , The first pouch part 100a and the second pouch part 100b are coupled to each other in a state in which the spaces in which the electrode assemblies 1a and 1b are accommodated are connected,
The electrode tab 3 is provided in two so as to be provided in each of the two electrode assemblies,
One electrode tab is vertically bent from the end portion of the extension portion 3b and the extension portion 3b provided to extend in the longitudinal direction to one electrode assembly 1a and connected to a vertically bent portion of the electrode lead. It includes a bent portion (3c),
The other electrode tab includes a V-forming part 3a which is bent inclined toward the bent part so as to be connected to the bent part 3c from the other electrode assembly 1b,
One side of the second pouch portion 100b of the pouch 100 in which the V-forming portion 3a is located has a depression 111 that is recessed toward the inside empty space s; Including,
The recess 111 is recessed toward the inside of one side of the second pouch part 100b in a “b” shape, but the edge of the recess 111 located at the innermost side of the second pouch part 100b is made of 2 A secondary battery, characterized in that it is located on the inclined surface of the V-forming part when viewed from the side of the pouch. delete delete delete delete The method according to claim 1,
The first pouch portion (100a) and the second pouch portion (100b) is a secondary battery, characterized in that different sizes. The method according to claim 1,
The secondary battery, characterized in that the smaller the size of the depression 111 formed in the first pouch portion 100a and the second pouch portion 100b. The method according to claim 1,
The secondary battery according to claim 1, wherein the electrode assembly 1a and the other electrode assembly 1b have different sizes. The method according to claim 8,
The first pouch part 100a is formed to correspond to the size of the one electrode assembly 1a, and the second pouch part 100b is formed to correspond to the size of the other electrode assembly 1b. Secondary battery, characterized in that.

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