KR102104966B1 - Battery Cell Having Sealing Protrusion Between Electrode Terminals - Google Patents

Abstract

The present invention relates to a battery cell including a heat-sealed protrusion between electrode terminals, and more specifically, an electrode assembly having a separator interposed between an anode and a cathode; A battery case composed of a first case and a second case whose outer peripheries are mutually coupled by heat fusion for sealing, and a storage part for mounting an electrode assembly is formed in at least one of the first case and the second case; And a first electrode terminal and a second electrode terminal coupled to an anode tab and a cathode tab respectively formed on one side of the electrode assembly, wherein the first electrode terminal and the second electrode terminal protrude from each other. On the outer periphery, between the first electrode terminal and the second electrode terminal, a heat-sealed projection extending outward from the outer periphery of the heat-sealed portion is formed, and an inside of the heat-sealed projection is configured to accommodate gas generated in the storage. It provides a battery cell characterized in that the sealed gas pocket is located.

Description

Battery Cell Having Sealing Protrusion Between Electrode Terminals}

The present invention relates to a battery cell including a heat-sealed protrusion between electrode terminals.

Recently, rechargeable secondary batteries have been widely used as an energy source for wireless mobile devices. In addition, the secondary battery is also attracting attention as an energy source for electric vehicles, hybrid electric vehicles, and the like, which have been proposed as solutions for air pollution, such as existing gasoline vehicles and diesel vehicles using fossil fuels. Therefore, the types of applications using secondary batteries are very diversified due to the advantages of secondary batteries, and it is expected that secondary batteries will be applied to more fields and products than now.

These secondary batteries may be classified into lithium ion batteries, lithium ion polymer batteries, lithium polymer batteries, etc., depending on the configuration of the electrode and electrolyte. Among them, the possibility of leakage of the electrolyte is low, and the usage of lithium ion polymer batteries that are easy to manufacture is Is increasing. In general, the secondary battery, depending on the shape of the battery case, the electrode assembly is a cylindrical battery or a rectangular battery embedded in a metal can of a cylindrical or square, and the electrode assembly is a pouch-shaped battery embedded in a pouch-shaped case of an aluminum laminate sheet It is classified as.

Among them, due to the high capacity of the battery, a large area of the case and processing of a thin material have attracted much attention, and accordingly, a structure in which a stacked or stacked / folded electrode assembly is embedded in a pouch-shaped battery case of an aluminum laminate sheet The use amount of the pouch type battery is gradually increasing due to low production cost, small weight, and easy shape modification.

1 is a schematic diagram of a pouch-type secondary battery including a conventional electrode assembly.

Referring to Figure 1, the pouch-type secondary battery 10, the pouch-shaped battery case 20, the positive electrode, the negative electrode and the electrode assembly 30 made of a separator disposed therebetween, its positive and negative tabs ( 31, 32) and two electrode leads 40, 41 that are electrically connected to the outside are made of a sealed structure.

The battery case 20 consists of a case body 21 including a concave shape receiving portion 23 on which the electrode assembly 30 can be seated and a cover 22 integrally connected to the body 21. have.

The battery case 20 is made of a laminate sheet, and is composed of an outermost resin layer 20A forming an outermost layer, a barrier metal layer 20B preventing material from penetrating, and an inner resin layer 20C for sealing. .

In the stacked electrode assembly 30, a plurality of positive electrode tabs 31 and a plurality of negative electrode tabs 32 are fused to each other and are coupled to the electrode leads 40 and 41 together. In addition, when the upper end portion 24 of the case body 21 and the upper end portion of the cover 22 are heat-sealed by a heat fusion machine, a short circuit between the heat fusion machine and the electrode leads 40, 41 is prevented and the electrode lead ( 40, 41), and the insulating film 50 is attached to the upper and lower surfaces of the electrode leads 40, 41 in order to secure sealing properties between the battery case 20.

The secondary battery is widely used as an energy source for various mobile devices as well as various electronic products. However, since various combustible materials are embedded, there is a risk of heat generation and explosion due to overcharge, overcurrent, and other physical external shocks.

When the battery cells are overcharged or overdischarged, a large amount of gas is generated due to decomposition of the electrolyte solution, and a so-called swelling phenomenon in which the case swells appears. The swelling phenomenon may cause high pressure inside the sealed case, and further accelerate the decomposition of the electrolyte, resulting in an explosion. Moreover, an abnormal operation such as a case in which the electrical connection part of some battery cells is ruptured may cause a chain reaction in a battery pack or a battery module using a plurality of battery cells, and the resulting ignition and explosion may cause a major accident. You can.

In addition, the internal pressure of the battery cell is increased by the gas generated inside the battery cell, and the capacity is increased by reducing the pouch sealing width, such as reducing the sealing terrace width, side and bottom space of the battery cell according to the increase in capacity per volume. If this is done, the sealing strength of the battery case of the battery cell is lowered, thereby causing an internal gas vent problem.

As described above, the conventional battery cell is a problem due to the low sealing force of the battery case accommodating the electrode assembly and the safety and quality deteriorated by the gas generated therein.

The present invention aims to solve the problems of the prior art as described above and the technical problems requested from the past.

Specifically, the object of the present invention is to increase the internal pressure of the battery cell by the gas generated inside the battery cell, and decrease the width of the sealing portion according to the increase in capacity per volume of the battery cell, thereby reducing the battery case of the battery cell. To solve the problem of deteriorating the safety of the battery cell by lowering the sealing strength, a heat-sealed protrusion extending outward from the outer periphery of the heat-sealed protrusion between the first electrode terminal and the second electrode terminal of the battery cell is formed. It is to provide a battery cell having improved safety and quality by a structure in which an unsealed gas pocket for accommodating gas generated in the storage portion is located inside the heat fusion protrusion.

A battery cell comprising a heat-sealed protrusion between electrode terminals according to the present invention for achieving this object,

An electrode assembly having a structure in which a separator is interposed between the anode and the cathode;

A battery case composed of a first case and a second case whose outer peripheries are mutually coupled by heat fusion for sealing, and a storage part for mounting an electrode assembly is formed in at least one of the first case and the second case; And

A first electrode terminal and a second electrode terminal coupled to an anode tab and a cathode tab formed on one side of the electrode assembly, respectively;

It contains,

In the heat-sealed outer periphery where the first electrode terminal and the second electrode terminal protrude, between the first electrode terminal and the second electrode terminal, a heat-sealed protrusion extending outward from the outer periphery of the heat-seal is formed,

Inside the heat-sealed projection, an unsealed gas pocket for accommodating gas generated in the storage is located.

That is, the battery cell including a heat-sealed protrusion between the electrode terminals according to the present invention can improve the safety of the battery cells by improving the strength of the electrode terminals and the sealing portion by utilizing the space between the electrode terminals. .

According to the present invention, the battery case may be made of a pouch-shaped battery case of a laminate sheet comprising a resin layer and a metal layer.

In one specific example, the first case and the second case may be made of individual members independent of each other.

As another example, the first case and the second case may be formed of one unit member having one side connected to each other.

In this structure, one side where the first case and the second case are interconnected may be opposite sides to a direction in which the first electrode terminal and the second electrode terminal protrude.

In one specific example, the outwardly extending length of the heat-sealed protrusion may range from 50% to 95% of the length of the electrode terminals protruding from the end of the battery case.

According to the present invention, the heat-sealed protrusion may be a structure separated from the transition electrode terminals facing the electrode terminals.

In this structure, the first electrode terminal and the second electrode terminal may be interposed with electrically insulating insulating tapes attached to electrode terminals and portions of the side portions of the heat-sealed protrusions, respectively.

In this case, the width of the heat-sealed protrusion may range from 50% to 95% of the width between the first electrode terminal and the second electrode terminal.

For another example, the heat-sealed protrusion may be a structure connected to a transition electrode terminal facing the electrode terminal.

In this structure, the heat-sealed protrusion may be a structure that covers one side of the first electrode terminal and the second electrode terminal.

In this case, the first electrode terminal and the second electrode terminal and the heat-sealable protrusion may be further interposed with an electrically insulating integral insulating tape.

Further, the integral insulating tape may have a structure in which a portion corresponding to a gas pocket is cut out.

According to the present invention, the length of the gas pocket may range from 50% to 90% of the length of the heat-sealed protrusion, and the width of the gas pocket may range from 50% to 95% of the width of the heat-sealed protrusion.

The present invention provides a battery pack including a battery cell.

The present invention also provides a device including a battery pack as a power source.

The device may include a computer, a mobile phone, a wearable electronic device, a power tool, an electric vehicle (EV), a hybrid electric vehicle, a plug-in hybrid electric vehicle, an electric motorcycle, an electric golf cart, or a system for power storage. It may be selected from the like.

Since the structure and manufacturing method of such a device are known in the art, detailed description thereof is omitted in this specification.

As described above, the battery cell including a heat-sealed protrusion between the electrode terminals according to the present invention can enhance the safety of the battery cell by strengthening sealing in the space between the electrode terminals.

In addition, an unsealed gas pocket for accommodating the gas generated in the storage portion is located inside the heat-sealed protrusion to solve the vent problem caused by the gas generated therein, thereby improving the performance and quality of the battery cell and securing safety. Provides the effect.

1 is a schematic view of a pouch type secondary battery including a conventional electrode assembly;
2 is a schematic view of a battery cell including a heat-sealed protrusion between electrode terminals according to an embodiment of the present invention;
3 is an enlarged view of a portion of a battery cell including a heat-sealed protrusion between electrode terminals according to the embodiment of the present invention in FIG. 2;
4 is a schematic view of a modified battery cell according to the embodiment of the present invention in FIG. 2;
5 is a schematic view of a battery cell including a heat-sealed projection between electrode terminals according to another embodiment of the present invention;
6 is an enlarged view of a portion of a battery cell including a heat-sealed protrusion between electrode terminals according to another embodiment of the present invention of FIG. 5.

Hereinafter, with reference to the drawings according to an embodiment of the present invention, it is for easier understanding of the present invention, and the scope of the present invention is not limited thereto.

FIG. 2 is a schematic view of a battery cell including a heat-sealed protrusion between electrode terminals according to an embodiment of the present invention, and FIG. 3 is a partially enlarged view of the battery cell according to FIG. 2. .

Referring to FIGS. 2 and 3 together, the battery cell 100 includes an electrode assembly (not shown), a battery case 120 in which a storage unit 123 for mounting the electrode assembly is formed, and a first electrode terminal. And second electrode terminals 140 and 141.

In the heat-sealed outer periphery 124 where the first electrode terminals and the second electrode terminals 140 and 141 are protruded, the heat-sealed outer periphery 124 is between the first electrode terminal and the second electrode terminals 140 and 141. A heat fusion protrusion 160 extending outward from is formed.

The heat fusion protrusion 160 is separated from the transition electrode terminals 140 and 141 facing the electrode terminals 140 and 141. The outwardly extending length L ₂ of the heat fusion protrusion 160 is 90% of the length L ₁ where the electrode terminals 140 and 141 protrude from the end of the battery case 120, and the heat fusion protrusion 160 ), The width W ₂ is formed to be 85% of the width W ₁ between the first electrode terminals and the second electrode terminals 140 and 141.

An unsealed gas pocket 170 for accommodating gas generated in the storage unit 123 is located inside the heat-sealed protrusion 160. The gas generated in the storage unit 123 moves in the direction of the arrow to the unsealed gas pocket 170 to improve the sealing strength of the battery case of the battery cell while also solving the safety problem caused by the gas generated therein. .

The length (L ₄ ) of the gas pocket 170 is 75% of the length (L ₃ ) of the heat fusion protrusion 170, and the width (W ₃ ) of the gas pocket 170 is the width (of the heat fusion protrusion 160) W ₂ ).

Electrically insulating insulating tapes 150 and 151 are respectively attached to the first electrode terminal and the second electrode terminals 140 and 141 and portions of the side surfaces of the heat-sealed protrusions 160, respectively.

4 is a schematic diagram of a modified battery cell according to one embodiment of the present invention of FIG. 2.

Referring to FIG. 4, the battery cell 200 has a heat-sealed outer periphery 224 between the electrode terminals 240 and 241 in the heat-sealed outer periphery 224 where the electrode terminals 240 and 241 protrude. Heat-sealed protrusions 260 extending outwardly are formed, and electrically insulating insulating tapes 250 and 251 are attached to the electrode terminals 240 and 241 and a part of the sides of the heat-sealed protrusions 260, respectively. This is interposed.

When the battery cell of Figure 4 except for the width (W ₄₎ to the width (W ₅₎ relatively large that the degree than the battery cells of the second of the gas pocket 270 of the welded protrusions 260 architecture of Figure 3 and Since it is the same, redundant description is omitted.

5 is a schematic view of a battery cell including a heat-sealed protrusion between electrode terminals according to another embodiment of the present invention, and FIG. 6 is a partially enlarged view of the battery cell according to FIG. 5. have.

Referring to FIGS. 5 and 6 together, the battery cell 300 includes a battery case 320 and a first electrode terminal and a second electrode terminal 340 in which a storage unit 323 for mounting the electrode assembly is formed. 341).

The heat-sealed protrusions 360 extending outward from the heat-sealed outer periphery 324 are connected to the transition electrode terminals 340 and 341 facing the electrode terminals 340 and 341, so that the electrode terminals 340 without spaced apart , 341).

The electrode terminals 340 and 341 and the heat-sealing protrusions 360 are interposed with an electrically insulating integral insulating tape 350, and the integral insulating tape 350 is cut out of a portion corresponding to the gas pocket 370. .

The battery cell 300 of FIG. 5 is the same as the structure of FIG. 3 except for the fact that the side facing the electrode terminals 340 and 341 is connected to the heat-sealed protrusion 360, so a duplicate description is omitted.

Those skilled in the art to which the present invention pertains will be able to make various applications and modifications within the scope of the present invention based on the above.

Claims (16)

An electrode assembly having a structure in which a separator is interposed between the anode and the cathode;
A battery case composed of a first case and a second case whose outer peripheries are mutually coupled by heat fusion for sealing, and a storage part for mounting an electrode assembly is formed in at least one of the first case and the second case; And
A first electrode terminal and a second electrode terminal coupled to an anode tab and a cathode tab formed on one side of the electrode assembly, respectively;
It contains,
The first electrode terminal and the second electrode terminal are present on the same side,
In the heat-sealed outer periphery where the first electrode terminal and the second electrode terminal protrude, between the first electrode terminal and the second electrode terminal, a heat-sealed protrusion extending outward from the outer periphery of the heat-seal is formed,
The heat-sealed protrusion is connected to the electrode terminal with the side facing the electrode terminal, covering one side of the first electrode terminal and the second electrode terminal,
A battery cell, characterized in that an unsealed gas pocket for accommodating gas generated in the storage portion is located inside the heat-sealed protrusion. The battery cell according to claim 1, wherein the battery case comprises a pouch-shaped battery case of a laminate sheet comprising a resin layer and a metal layer. The battery cell according to claim 1, wherein the first case and the second case are made of individual members independent of each other. The method of claim 1, wherein the first case and the second case is a battery cell, characterized in that one side is made of a member of one unit interconnected. The battery cell according to claim 4, wherein one side of the first case and the second case connected to each other is an opposite side to a direction in which the first electrode terminal and the second electrode terminal protrude. The battery cell according to claim 1, wherein the outwardly extending length of the heat-sealed protrusion is in the range of 50% to 95% of the length of the electrode terminals protruding from the end of the battery case. delete delete delete delete delete The battery cell according to claim 1 , wherein the first electrode terminal and the second electrode terminal and the heat-sealing protrusion are further interposed with an electrically insulating integral insulating tape. The battery cell according to claim 12, wherein the integral insulating tape has a portion corresponding to a gas pocket cut out. The battery cell according to claim 1, wherein the length of the gas pocket is in the range of 50% to 90% of the length of the heat-sealed protrusion, and the width of the gas pocket is in the range of 50% to 95% of the width of the heat-sealed protrusion. . A battery pack comprising the battery cells according to any one of claims 1 to 6 and 12 to 14. A device comprising the battery pack according to claim 15 as a power source.

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