KR100601563B1 - Cylindrical lithium ion secondary battery - Google Patents

Abstract

The present invention relates to a cylindrical lithium ion secondary battery, and more particularly to a cylindrical lithium ion secondary battery having a conductive jelly roll cover surrounding the electrode jelly roll. The present invention relates to a cylindrical secondary battery comprising an electrode jelly roll including a positive electrode plate and a negative electrode plate, and a separator interposed therebetween, and a can housing the electrode jelly roll, wherein the conductive secondary battery has a conductive surface surrounding an outer peripheral surface of the electrode jelly roll. Jelly roll cover is provided, the jelly roll cover provides a cylindrical lithium ion secondary battery, characterized in that in contact with the inner wall of the can.

Cylindrical Secondary Battery, Electrode Jelly Roll, Cover

Description

Cylindrical lithium ion secondary battery

1 is a longitudinal sectional view showing a conventional cylindrical secondary battery.

Figure 2 is a longitudinal sectional view showing a cylindrical secondary battery having a jelly roll cover according to an embodiment of the present invention.

3 is a development view showing a jelly roll cover according to the present invention.

Figure 4 is a side view showing a state in which the jelly roll cover according to the present invention is coupled.

<Brief description of symbols for the main parts of the drawings>

10 ... can 12 ... cap assembly

14 Insulation plate 16 Anode tab

20 ... electrode jelly roll 30 ... anode plate

40.cathode plate 50 ... separator

60 ... Jelly Roll Cover

The present invention relates to a cylindrical lithium ion secondary battery, and more particularly to a cylindrical lithium ion secondary battery having a conductive jelly roll cover surrounding the electrode jelly roll.

In general, a secondary battery refers to a battery that can be charged and discharged unlike a primary battery that cannot be charged, and is widely used in the field of advanced electronic devices such as a cellular phone, a notebook computer, a camcorder, and the like. In particular, the lithium secondary battery has an operating voltage of 3.6 V or more, 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 devices, and is rapidly expanded in terms of high energy density per unit weight. There is a trend.

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.

1 is a longitudinal sectional view showing a structure of a conventional cylindrical secondary battery. Referring to FIG. 1, an electrode jelly roll 20 in which a positive electrode plate 30 and a negative electrode plate 40, and a separator 50 that prevents electrical contact therebetween is wound inside a can 10. The electrode jelly roll 20 is formed by sequentially laminating the separator 50, the positive electrode plate 30, the separator 50, and the negative electrode plate 40 in a roll shape. The positive electrode plate 30 and the negative electrode plate 40 are coated with active materials made of lithium metal oxide, carbon, or carbon composite material on both sides of each electrode plate. A positive electrode tab 16 and a negative electrode tab 17 are drawn out from each of the positive electrode plates 30 and the negative electrode plates 40, and the positive electrode tab 34 is upwardly drawn to seal the can 10. Electrically connected to the 12, the negative electrode tab 17 is drawn downward and is electrically connected to the projection 18 formed in the bottom of the can 10. Accordingly, the cap assembly 12 to which the positive electrode tab 16 is connected becomes the positive electrode, and the can 10 to which the negative electrode tab 17 is connected becomes the negative electrode as a whole. An insulating plate 14 is interposed between the top and bottom surfaces of the electrode jelly roll 12 to prevent a short circuit between the cap assembly 12 and the can 10.

In order to structurally stabilize the electrode jelly roll, the separator 52 constituting the outermost turn of the separator 50 wound along the outermost portion of the electrode jelly roll 20, that is, the outer circumferential surface of the electrode jelly roll is wound once more. . In addition, the outer circumferential surface of the separator 52 is wound and fixed with an adhesive tape (not shown) to prevent the extra wound separator 52 from being unwound and to be wound more tightly.

However, the electrode jelly roll of the structure described above may be scratched when inserted into the can, the process of wrapping the outer surface of the electrode jelly roll, the extra separator is wound with an adhesive tape, and attaching the negative electrode tab to the negative electrode plate Due to this, the process efficiency during manufacturing the secondary battery is lowered, and thus there is a problem in that productivity is lowered. In addition, since the negative electrode tab is a portion in which charge is transferred to the outside, the risk of battery shortening is increased due to the concentration of charge and heat generation in the negative electrode tab portion.

The present invention has been made to solve the above problems, by having a conductive jelly roll cover surrounding the outer peripheral surface of the electrode jelly roll, there is no need to wrap the outer peripheral surface of the electrode jelly roll with an extra separator and adhesive tape, the jelly Since the roll cover is in contact with the inner wall of the can, there is no need for a separate negative electrode tab. Accordingly, an object of the present invention is to provide a cylindrical secondary battery that can improve process efficiency and productivity and reduce battery short circuit risk.

In order to achieve the above object, the present invention provides a cylindrical lithium ion secondary battery comprising an electrode jelly roll wound together with a positive electrode plate and a negative electrode plate and a separator interposed therebetween, and a can containing the electrode jelly roll, A conductive jelly roll cover surrounding the outer circumferential surface of the electrode jelly roll is provided, and the jelly roll cover provides a cylindrical lithium ion secondary battery which is in contact with an inner wall of the can.

According to another feature of the present invention, the jelly roll cover may have a structure in which complementary uneven portions are formed along both edges, and corresponding uneven portions of both edges are engaged with each other.

According to another feature of the invention, the uneven parts may be formed in a predetermined width at intervals along the both edges.

According to another feature of the invention, the uneven parts may be formed in a predetermined width on the upper and lower edges on both sides.

According to another feature of the invention, the jelly roll cover may be provided with a plurality of electrolyte flow port.

According to another feature of the invention, the electrolyte flow port may be formed in a circular or elliptical.

According to another feature of the invention, the adhesive tape of a predetermined width may be attached to the end of the negative electrode plate forming the outer peripheral surface of the electrode jelly roll.

According to another feature of the invention, the jelly roll cover may be formed of a conductive sheet selected from the group consisting of nickel, copper, aluminum, and alloys thereof.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. In the present specification, as a preferred embodiment of the present invention, a cylindrical battery having the jelly roll cover of the present invention will be described. However, this is not limited to a cylindrical battery, but a battery which can have the same jelly roll cover as the present embodiment. Any form may be applicable.

Figure 2 is a longitudinal cross-sectional view showing a cylindrical secondary battery having a jelly roll cover according to an embodiment of the present invention.

The separator 50, the positive electrode plate 30, the separator 50, and the negative electrode plate 40 are sequentially stacked, and the electrode jelly roll 20 wound up in a roll is housed in the can 10.

The positive electrode plate 30 is mixed with a binder and a conductive additive in the powder for the positive electrode active material to form a slurry active material layer, and then uniformly coated to a predetermined thickness on a conductive plate, for example, an aluminum plate used as a current collector. Are manufactured. Lithium metal oxides such as LiCoO ₂ , LiMnO ₂ , LiNiO ₂ , LiCrO ₂ , or LiMn ₂ O ₄ may be used as the cathode active material.

The negative electrode plate 40 is prepared by mixing a binder, an additive, and the like with a powder for a negative electrode active material to prepare an active material layer in the form of a slurry and coating it on a current collector such as a copper plate. The negative electrode active material is preferably made of a carbon material composed of natural graphite, artificial graphite, graphite carbon, non-graphitizable carbon, or a combination thereof as a main material.

The separator 50 is used to separate the negative electrode plate and the positive electrode plate and provide a passage for lithium ions. The polyethylene separator, the polypropylene separator, the polyvinylidene fluoride separator, the vinylidene fluoride and the hexafluoropropylene copolymer Polyolefin separators or fluorinated polyolefin separators such as a separator, a two-layer separator of polyethylene / polypropylene, a three-layer separator of polypropylene / polyethylene / polypropylene, or a three-layer separator of polyethylene / polypropylene / polyethylene can be used.

In the electrode jelly roll 20, in the past, an extra separator was wound around the outer circumferential surface of the electrode jelly roll 20, and the adhesive tape was again wound and fixed. However, in the present invention, the electrode jelly roll 20 is a conductive jelly roll cover. 60, the conductive jelly roll cover 60 is in contact with the inner wall of the can 10.

In this embodiment, since the negative electrode plate 40 is electrically connected to the can 10 through the conductive jelly roll cover 60 at the outermost portion of the electrode jelly roll, a separate negative electrode tab is not required.

In addition, since the jelly roll cover 60 structurally stably surrounds the electrode jelly roll 20, there is no need to wind a separate separator and an adhesive tape on the jelly roll cover 60, and the electrode jelly roll 20 The outer surface of the electrode jelly roll 20 may be prevented from being scratched when the is inserted into the can 10.

However, in order to maintain the shape of the jelly roll, an adhesive tape having a predetermined width is attached to a portion of the outermost end of the electrode jelly roll 20, and then the jelly roll cover 60 is covered.

The positive electrode tab 16 is connected to the cap assembly 12 which seals the can 10 upwardly from the positive electrode plate in the center of the electrode jelly roll 20. As the material of the positive electrode tab 16, a conductive metal plate, for example, nickel, copper, aluminum, or the like may be used. An insulating plate 14 is interposed between the top and bottom surfaces of the electrode jelly roll 20 to prevent a short circuit between the cap assembly 12 and the can 10.

3 is a development view showing a jelly roll cover 60 according to the present invention, Figure 4 is a side view showing a state in which the jelly roll cover 60 is coupled.

3 and 4, the jelly roll cover 60 is made of a conductive sheet, and the uneven parts 62a and 62b are formed along both edges thereof. Concave-convex portions formed at the edge of one side may be complementarily formed with the corresponding concave-convex portions formed at the opposite side edge to be engaged with each other.

Preferably, nickel, copper, aluminum, or an alloy thereof may be used as the conductive material of the jelly roll cover 60.

When the jelly roll cover 60 surrounds the electrode jelly roll 20, the corresponding uneven parts 62a and 62b formed on both side edges are engaged with each other and fastened, so that the electrode jelly does not need to be attached to an adhesive tape. The roll 20 can be wrapped tightly.

The uneven parts 62a and 62b may be formed to have a predetermined width at intervals along the both edges, and may be formed only to both upper and lower edge portions thereof. The gap between the uneven parts 62a and 62b and the width of the part where the uneven part is formed may be arbitrarily adjusted.

The jelly roll cover 60 is provided with a plurality of electrolyte flow holes 64 so that the electrolyte flows into the electrode jelly roll 20, and the electrolyte flow holes 64 may be formed in a circular or elliptical shape. have.

As described above, the cylindrical lithium ion secondary battery having the jelly roll cover according to the present invention can prevent the outer surface of the electrode jelly roll from being scratched when the electrode jelly roll is inserted into the can, and attaching a separate negative electrode tab; The process of enclosing the outer surface of the electrode jelly roll with an adhesive tape can be omitted, thereby improving process efficiency and productivity. In addition, since a separate negative electrode tab is not required, a risk of short circuit of the battery due to heat generation of the negative electrode tab is prevented.

Although the present invention has been described with reference to the above embodiments, it is merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. . Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (8)

A cylindrical lithium ion secondary battery comprising an electrode jelly roll wound together with a positive electrode plate and a negative electrode plate and a separator interposed therebetween, and a can containing the electrode jelly roll, A conductive jelly roll cover surrounding an outer circumferential surface of the electrode jelly roll is provided, and the negative electrode plate is electrically connected to the jelly roll cover at the outermost portion of the electrode jelly roll, so that the jelly roll cover serves as a negative electrode tab. Jelly roll cover is a cylindrical lithium ion secondary battery, characterized in that in contact with the inner wall of the can. The cylindrical roll of claim 1, wherein when the jelly roll cover is unfolded, complementary irregularities are formed on both sides of the jelly roll cover, and the corresponding irregularities on both edges are engaged with each other. Lithium-ion secondary battery. The cylindrical lithium ion secondary battery of claim 2, wherein the uneven parts are formed to have a predetermined width at intervals along both edges thereof. The cylindrical lithium ion secondary battery of claim 2, wherein the uneven parts are formed at predetermined widths at upper and lower edges on both sides thereof. The cylindrical lithium ion secondary battery of claim 1, wherein the jelly roll cover includes a plurality of electrolyte flow ports. The cylindrical lithium ion secondary battery of claim 5, wherein the electrolyte flow port is formed in a circular or elliptical shape. The cylindrical lithium ion secondary battery of claim 1, wherein an adhesive tape having a predetermined width is attached to an end of a negative electrode plate forming an outer circumferential surface of the electrode jelly roll. The cylindrical lithium ion secondary battery of claim 1, wherein the jelly roll cover is formed of a conductive sheet selected from the group consisting of nickel, copper, aluminum, and alloys thereof.

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