KR100670432B1 - Li Secondary Battery - Google Patents

Abstract

The present invention relates to a lithium secondary battery having a safety vane in a part of a lithium secondary battery case that is broken when the internal pressure increases to ensure the stability and reliability of the battery. The lithium secondary battery of the present invention includes a first electrode plate, A wound electrode assembly having a second electrode plate, a separator interposed between the first electrode plate and the second electrode plate; The upper side is formed in a box shape having a side part which forms a space for accommodating the electrode assembly and a lower part which covers the lower part of the side part, and the side part is formed on four sides of two long sides and two short sides. A case for a lithium secondary battery having at least one safety vent formed therein; And a cap assembly having a terminal portion coupled to the case and sealing the electrode and electrically connected to the electrode assembly, wherein the safety vane is positioned on at least one of two short sides of the side portion.

Lithium Secondary Battery, Case, Safety Band

Description

Lithium Secondary Battery

1 is a view for explaining a modification of a conventional lithium secondary battery.

Figure 2 is an exploded perspective view for explaining a lithium secondary battery according to an embodiment of the present invention.

Figure 3a is a perspective view for explaining a case for a lithium secondary battery according to an embodiment of the present invention.

3B is a cross sectional view along line AA ′ of FIG. 3A;

Figure 4 is a perspective view for explaining a case for a lithium secondary battery according to another embodiment of the present invention.

5 is a perspective view for explaining a case for a lithium secondary battery according to another embodiment of the present invention.

(Explanation of symbols for main parts of drawing)

100; Lithium secondary battery

200, 500, 600; Lithium Secondary Battery Case

210, 510, 610; Side portions 211, 511, 611; Long side

215, 515, 615; Short sides 220, 520, and 620; Bottom part

230, 530, 630; Safety van 300; Electrode assembly

310; A first electrode plate 315; First electrode tab

320; Second electrode plate 325; Second electrode tab

330; Separator 340; Insulation tape

400; Cap assembly 410; Cap plate

411; Terminal through hole 412; Electrolyte inlet

413; Bowl 420; Terminal electrode

430; Gasket 440; Insulation Plate

450; Terminal plate 460; Insulated case

462; Electrolyte injection through hole

The present invention relates to a lithium secondary battery. More particularly, the present invention relates to a lithium secondary battery including a safety band in a part of a lithium secondary battery case that is broken when the internal pressure increases to ensure stability and reliability of the battery.

Recently, compact and lightweight electric / electronic devices such as cellular phones, notebook computers, camcorders, etc. have been actively developed and produced. These portable electric / electronic devices have a battery pack that can be operated in a place where no separate power source is provided. The built-in battery pack includes at least one battery therein for outputting a predetermined level of voltage for driving the portable electric / electronic device for a period of time.

In view of economical aspects, the battery pack employs a secondary battery capable of charging and discharging. Representative secondary batteries include lithium secondary batteries such as nickel-cadmium (Ni-Cd) batteries, nickel-hydrogen (Ni-MH) batteries, lithium (Li) batteries, and lithium ion (Li-ion) batteries.

In particular, the lithium secondary battery has an operating voltage of 3.6 V, which is three times higher than that of a nickel-cadmium battery or a nickel-hydrogen battery, which is widely used as a power source for portable electronic equipment, and is rapidly increasing in terms of high energy density per unit weight. to be.

Such lithium secondary batteries mainly use lithium-based oxides as positive electrode active materials and carbon materials as negative electrode active materials. In general, a battery is classified into a liquid electrolyte battery and a polymer electrolyte battery according to the type of electrolyte, and a battery using a liquid electrolyte is called a lithium ion battery, and a battery using a polymer electrolyte is called a lithium polymer battery. Moreover, although a lithium secondary battery is manufactured in various shapes, typical shapes include cylindrical shape, square shape, and pouch type.

Typically, the lithium secondary battery is positioned between the positive electrode plate coated with a positive electrode active material, the negative electrode plate coated with a negative electrode active material, and between the positive electrode plate and the negative electrode plate to prevent a short and prevent lithium ion (Li-ion). And an electrode assembly in which a separator capable of moving only is wound, a lithium secondary battery case accommodating the electrode assembly, and an electrolyte solution injected into the lithium secondary battery case to enable movement of lithium ions.

The lithium secondary battery is coated with the positive electrode active material, the positive electrode tab is connected to the positive electrode tab, the negative electrode active material is coated, the negative electrode tab is connected to the negative electrode plate and the separator is laminated, and then wound to prepare an electrode assembly. In this case, the positive electrode active material is a composite oxide containing lithium (Li) as a main component, and in general, after mixing lithium carbonate and cobalt oxide in a ratio of 1.2: 1, LiCoO 2 formed by firing at 400 ℃ to 1000 ℃ do.

Then, the electrode assembly is accommodated in the case for the lithium secondary battery, and the cap assembly is assembled on the top of the case for the lithium secondary battery, thereby preventing the electrode assembly from being separated.

After the cap assembly is assembled to the lithium secondary battery case, an electrolyte solution is injected into the lithium secondary battery case and sealed to complete the lithium secondary battery.

On the other hand, when the internal pressure rises excessively during the use of the lithium secondary battery, there is a fear of explosion of the lithium secondary battery.

To solve this, a safety device called a "safety band" has been introduced.

The safety band is generally made to be substantially thinner than the thickness of the substrate, for example, 40% or less of the thickness of the substrate, in the center of the cap plate of the rectangular lithium secondary battery or the side surface of the case for the lithium secondary battery. When the internal pressure rises, it breaks, thereby preventing a risk of explosion or the like.

1 is a view for explaining a modification of a conventional lithium secondary battery.

Referring to FIG. 1, in the conventional lithium secondary battery 10, a swelling phenomenon in which the lithium secondary battery case 11 swells when the internal pressure is increased occurs, and at this time, a rate of deformation due to the swelling occurs. ) Shows that the central part of the long side of the lithium secondary battery case 11 is relatively small. Therefore, when the safety vent 12 is located at the center of the long side of the lithium secondary battery case 11, there is a problem that the operation of the safety vent 12 is late.

In addition, during the manufacturing process of the lithium secondary battery 10, for convenience of the process to fix the jig (jig) or the like for the lithium secondary battery case 11 and to perform the manufacturing process of the lithium secondary battery 10, There arises a problem that the safety vent 12 on the side of the lithium secondary battery case 11 is broken under pressure by the jig.

In addition, when the safety vent 12 is located in a part of the cap plate 13, there is a problem in that a separate process is added to form the safety vent 12. In addition, there is a problem that the manufacturing cost is increased by the addition of a separate process.

An object of the present invention is to solve the above problems of the prior art, the present invention is a lithium secondary battery having a safety band that is broken when the internal pressure increases to ensure the stability and reliability of the battery in a part of the lithium secondary battery case The object is to provide a battery.

The lithium secondary battery of the present invention for achieving the above object comprises a wound electrode assembly having a separator interposed between the first electrode plate, the second electrode plate, the first electrode plate and the second electrode plate; The upper side is formed in a box shape having a side part which forms a space for accommodating the electrode assembly and a lower part which covers the lower part of the side part, and the side part is formed on four sides of two long sides and two short sides. A case for a lithium secondary battery having at least one safety vent formed therein; And a cap assembly having a terminal portion coupled to the case and sealing the electrode and electrically connected to the electrode assembly, wherein the safety vane is positioned on at least one of two short sides of the side portion.

The safety vent may be located near one of the upper and lower edges of the short side portion.

The two short sides may have a curved surface.

The thickness of the safety vent is preferably 10% to 40% of the thickness of the case for the lithium secondary battery.

It is preferable that the said lithium secondary battery case consists of a metal material.

In addition, the lithium secondary battery of the present invention includes a wound electrode assembly having a separator interposed between the first electrode plate, the second electrode plate, the first electrode plate and the second electrode plate; The upper side is formed in a box shape having a side part which forms a space for accommodating the electrode assembly and a lower part which covers the lower part of the side part, and the side part is formed on four sides of two long sides and two short sides. A case for a lithium secondary battery having at least one safety vent formed therein; And a cap assembly having a terminal portion coupled to and sealed to the case and electrically connected to the electrode assembly, wherein the safety vane is positioned near any one of four vertices of the long side portion.

In addition, the lithium secondary battery of the present invention includes a wound electrode assembly having a separator interposed between the first electrode plate, the second electrode plate, the first electrode plate and the second electrode plate; The upper side is formed in a box shape having a side part which forms a space for accommodating the electrode assembly and a lower part which covers the lower part of the side part, and the side part is formed on four sides of two long sides and two short sides. A case for a lithium secondary battery having at least one safety vent formed therein; And a cap assembly having a terminal portion coupled to the case and sealing it and electrically connected to the electrode assembly, wherein the safety vane is located at the lower surface portion.

The safety vane may be located near an edge of the lower surface portion.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

Like reference numerals in the drawings denote like elements.

2 is an exploded perspective view for describing a lithium secondary battery according to an embodiment of the present invention.

2, a lithium secondary battery 100 according to an embodiment of the present invention is a lithium secondary battery case 200 and a jelly-roll type electrode assembly 300 accommodated in the lithium secondary battery case 200. ) And a cap assembly 400 coupled to the upper portion of the lithium secondary battery case 200.

The lithium secondary battery case 200 may be formed of a metal can having a box shape having an upper portion of the lithium secondary battery, and may serve as a terminal. In addition, a safety vent 230 for providing stability to the lithium secondary battery 100 is located in a part of the lithium secondary battery case 200. The safety vent 230 is broken when the internal pressure of the lithium secondary battery 100 rises above a predetermined pressure, thereby providing safety and reliability to the lithium secondary battery 100.

The electrode assembly 300 is attached to any one of the first electrode tab 315 used as the positive electrode tab and the second electrode tab 325 used as the negative electrode tab, for example, the first electrode tab 315. The second electrode plate 320 to which the first electrode plate 310 and the other one of the first electrode tab 315 and the second electrode tab 325 are attached, for example, the second electrode tab 325. And, the separator 330 interposed between the first electrode plate 310 and the second electrode plate 320 is formed in a wound form, it is accommodated in the secondary battery case 210. In order to prevent a short circuit between the first electrode plate 310 and the second electrode plate 320 at the boundary where the first electrode tab 315 and the second electrode tab 325 are drawn out from the electrode assembly 300. Each is insulated by an insulating tape 340.

In addition, the first electrode plate 310 and the second electrode plate 320 have different polarities from each other, and at least one surface of each of the first electrode plate 310 and the second electrode plate 320 may be a positive electrode active material or a negative electrode. The active material is applied. In this case, a chalcogenide compound is used as the cathode active material, and complex metal oxides such as LiCoO 2, LiMn 2 O 4, LiNiO 2, LiNi 1-x Cox O 2 (0 <x <1), and LiMnO 2 are used. As the negative electrode active material, carbon (C) -based materials, Si, Sn, tin oxides, composite tin alloys, transition metal oxides, lithium metal nitrides, or lithium metal oxides are used. In addition, an electrode plate used as a positive electrode plate among the first electrode plate 310 and the second electrode plate 320, for example, the first electrode plate 310 is made of aluminum (Al) and a cathode electrode plate. The electrode plate used as, for example, the second electrode plate 320 is made of a copper (Cu) material, the separator 330 generally uses polyethylene (PE) or polypropylene (PP), but The invention is not limited to the above materials.

The cap assembly 400 is provided with a flat cap plate 410 having a size and shape corresponding to the opening of the secondary battery case 210. A terminal through hole 411 is formed at the center of the cap plate 410, and an electrolyte injection hole 412 for injecting an electrolyte is formed at one side of the cap plate 410, and the electrolyte injection hole 412. ) Is combined with the bowl 413 is sealed. In addition, a first electrode tab 315 drawn from the first electrode plate 310 is welded to a lower surface of the cap plate 410.

An electrode terminal 420, for example, a negative electrode terminal, may be inserted into the terminal throughhole 411. The outer surface of the electrode terminal 420 is provided with a tube-shaped gasket 430 for electrical insulation with the cap plate 410. An insulating plate 440 is disposed on the bottom surface of the cap plate 410. The terminal plate 450 is provided on the bottom surface of the insulating plate 440.

The electrode terminal 420 is inserted through the terminal through hole 411 while the gasket 430 surrounds the outer circumferential surface. The bottom portion of the electrode terminal 420 is electrically connected to the terminal plate 450 in a state of interposing the insulating plate 440.

The second electrode tab 325 drawn from the second electrode plate 320 of the electrode assembly 300 is welded to the terminal plate 450 to be electrically connected to the terminal plate 450. Accordingly, the electrode terminal 420 has the same polarity as the second electrode plate 220 of the electrode assembly 300, for example, a cathode.

In addition, an upper surface of the electrode assembly 300 electrically insulates the electrode assembly 300 and the cap assembly 400, and at the same time, an insulating case 460 that can cover the upper end of the electrode assembly 300. Is installed. The insulating case 460 is provided with an electrolyte injection hole 462 at a position corresponding to the electrolyte injection hole 412 of the cap plate 410, to inject the electrolyte solution. The insulating case 460 is an insulating polymer resin, preferably made of polypropylene, but the material is not limited in the embodiment of the present invention.

On the other hand, although not shown in the drawings, a lithium secondary battery according to an embodiment of the present invention is provided with an electrolyte solution. The electrolyte serves as a moving medium of lithium ions (Li Ion) generated by electrochemical reactions at the positive and negative electrodes inside the battery during charging and discharging. It may be an electrolyte solution. In addition, the electrolyte may be a polymer using a polymer electrolyte, and the type of the electrolyte material is not limited thereto.

3A is a perspective view illustrating a case for a rechargeable lithium battery according to one embodiment of the present invention, and FIG. 3B is a cross-sectional view taken along line AA ′ of FIG. 3A.

3A and 3B, the case for a lithium secondary battery 200 according to an embodiment of the present invention includes a side portion 210 forming a predetermined space so that an electrode assembly can be coupled, and a lower space of the side portion 210. The lower portion 220 to cover the structure and the safety vent 230 is located in a portion of the case for the lithium secondary battery 200.

In more detail, the lithium secondary battery case 200 includes a side portion 210 forming a predetermined space so that the electrode assembly 300 can be coupled, and a lower portion of the side portion 210 under the side portion 210. A lower surface portion 220 is formed to cover the lower space, and the upper portion of the side portion 210 has an opening structure for inserting the electrode assembly 300.

In addition, the side portion 210 of the lithium secondary battery case 200 may be formed of four sides, and the four sides may be divided into two long sides 211 and two short sides 215. In this case, although not shown in the drawing, the lithium secondary battery case 200 may have a curved surface in which two short sides 215 facing each other among four sides of the side part 210 are rounded. That is, the two long sides 211 facing each other of the four sides of the side portion 210 of the lithium secondary battery case 200 form a flat shape, and the two short sides 215 facing each other have a rounded curved surface. Can be done.

In addition, the safety vent 230 is broken when the internal pressure of the lithium secondary battery 100 rises above a predetermined pressure, thereby providing safety and reliability to the lithium secondary battery 100.

The safety vent 230 is located in a part of the lithium secondary battery case 200, and preferably, the safety van 230 is other than a central portion of the long side portion 211 of the lithium secondary battery case 200. It is preferred to be located at the part of. This is because when the internal pressure of the lithium secondary battery 100 rises and a swelling phenomenon occurs, the rate of deformation of the central portion of the long side portion 211 of the lithium secondary battery case 200 is smallest. .

For example, as shown in FIG. 3A, the safety vane 230 may be located in at least one of the two end surfaces 215 of the side portion 210.

More preferably, the safety vent 230 is located near one of the upper and lower edges of the short side portion 215.

In addition, the thickness t of the safety vent 230 is preferably 10% to 40% of the thickness t ′ of the lithium secondary battery case 200. This is to cause the safety vent 230 to break when the internal pressure of the lithium secondary battery 100 rises above a predetermined pressure.

In addition, the lithium secondary battery case 200 may be made of a predetermined metal material, and may be electrically connected to the positive electrode or the negative electrode of the electrode assembly 300 to serve as a terminal electrode.

4 is a perspective view illustrating a case for a lithium secondary battery according to another embodiment of the present invention.

4, the lithium secondary battery case 500 according to another embodiment of the present invention is structurally similar to the lithium secondary battery case 200 as shown in Figures 2, 3A and 3B. However, only the structure in which the safety vent 530 is located near any one of four vertices of the long side of the lithium secondary battery case 500 is different.

In more detail, the lithium secondary battery case 500 includes a side portion 510 that forms a predetermined space so that the electrode assembly 300 can be coupled, and a bottom portion 520 that covers a lower space of the side portion 510. ) To form an open top. In addition, the side portion 510 includes two long sides 511 and two short sides 515, and a safety vent 530 is provided near one of four vertices of the two long sides 511. Located.

FIG. 5 is a perspective view illustrating a case for a lithium secondary battery according to still another embodiment of the present invention, and is viewed from a bottom surface of the case for a lithium secondary battery. FIG.

Referring to FIG. 5, the lithium secondary battery case 600 according to another embodiment of the present invention is structurally similar to the lithium secondary battery case 200 shown in FIGS. 2, 3A, and 3B. However, only the structure in which the safety vent 630 is located on the lower surface portion 620 of the lithium secondary battery case 600 is different.

In more detail, the lithium secondary battery case 600 includes a side portion 610 that forms a predetermined space so that the electrode assembly 300 can be coupled, and a lower surface portion that covers the lower space of the side portion 610. 620 is provided to form an open top. In addition, the safety vent 630 is located at a part of the lower surface part 620, and preferably, the safety vent 630 is located near a corner of the lower surface part 620 of the case for the lithium secondary battery 600. Can be.

As described above, the lithium secondary battery 100 according to the exemplary embodiment of the present invention has a safety vent 230 in a portion of the lithium secondary battery cases 200, 500, and 600 that is less deformed due to swelling when internal pressure rises. , 530, 630 are located, the operation of the safety vanes 230, 530, 630 can occur faster when the internal pressure rises.

In addition, since the safety vents 230, 530, and 630 are located in the lithium secondary battery cases 200, 500, and 600, there is an advantage in that manufacturing costs can be reduced as compared to a case in which a part of the cap plate is located.

As described above, according to the present invention, the present invention can provide a lithium secondary battery including a safety band in a part of the lithium secondary battery case that is broken when the internal pressure increases to ensure the stability and reliability of the battery.

While the foregoing has been described with reference to preferred embodiments of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

Claims (12)

A wound electrode assembly having a first electrode plate, a second electrode plate, a separator interposed between the first electrode plate and the second electrode plate; The upper side is formed in a box shape having a side part which forms a space for accommodating the electrode assembly and a lower part which covers the lower part of the side part, and the side part is formed on four sides of two long sides and two short sides. A case for a lithium secondary battery having at least one safety vent formed therein; A cap assembly coupled to the case to seal the case and having a terminal portion electrically connected to the electrode assembly, The safety vent is a lithium secondary battery, characterized in that located on at least one of the two short sides of the side portion. The method of claim 1, The safety vent is a lithium secondary battery, characterized in that located in the vicinity of any one of the upper and lower edges of the short side. The method of claim 1, The two short sides of the lithium secondary battery, characterized in that the curved surface. The method of claim 1, The thickness of the safety vent is a lithium secondary battery, characterized in that 10% to 40% of the thickness of the case for the lithium secondary battery. The method of claim 1, The lithium secondary battery case is a lithium secondary battery, characterized in that made of a metal material. delete delete delete delete delete delete delete

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