KR20130079138A - Collection member and battery including the same - Google Patents

Abstract

PURPOSE: A current collecting member is provided to suppress deformation while suppressing the cost increase of a battery. CONSTITUTION: A current collecting member includes first and second electrode connection parts and a main body part. The main body part includes corner parts corresponding to each part of the electrode. The main body part comprises a first part which is arranged on one side of the each part and has the first and second electrode connection parts arranged in a row electrically connected to the first part; and a second part where a positive electrode terminal is electrically connected. The width of the direction that the first and the second electrode connection parts are aligned toward the each part becomes narrower.

Description

A battery having a current collecting member and a current collecting member {COLLECTION MEMBER AND BATTERY INCLUDING THE SAME}

The present invention relates to a current collector member electrically connected to an electrode and a terminal to form an electrical path from the electrode to the terminal. Another invention relates to a battery having the current collector member.

An electrode formed by winding a stack of a sheet-shaped positive electrode, a negative electrode, and a separator; a positive electrode current collecting member for electrically connecting the positive electrode terminal and the negative electrode terminal exposed to the outside; and the negative electrode; Batteries including a negative electrode current collector member for electrically connecting the negative electrode terminals are known.

The current collector member is described by taking the positive electrode current collector member as an example, and includes a plurality of rod-shaped electrode part connection parts electrically connected to the positive electrode, and a plurality of electrode part side connection parts, and a main body part electrically connected to the positive electrode terminal. Doing.

The electrode portion side connecting portion is arranged along one direction perpendicular to the axial direction of the electrode. The main body has a width to which a plurality of electrode portion side connecting portions arranged in a line can be connected. That is, the main body portion has a shape having a surface extending in the direction in which the plurality of electrode portion side connecting portions are arranged. (See Patent Document 1, for example.)

Patent Publication No. 2005-339926

On the other hand, the electrode of the battery has a structure in which a sheet-shaped positive electrode and a sheet-shaped negative electrode are laminated in multiple layers by being wound as described above, and thus have sufficient strength against load from the outside and are difficult to deform.

However, when a large load is input to the battery, for example, when a corner portion collides with the battery, this load deforms the electrode and is transmitted to the current collecting member. If the load transmitted to the current collecting member has a size sufficient to deform the current collecting member, the current collecting member is deformed.

As described above, the current collecting member has a surface extending in the direction in which the plurality of electrode portion side connecting portions are arranged. As the current collector member is deformed, the edge of the surface and the periphery thereof are deformed to be recessed toward the electrode side.

For this reason, it is necessary to devise sufficient rigidity for the current collector member or increase the strength of the housing for accommodating the electrode and the current collector member so that the current collector member is not deformed as described above. However, this devise increases the cost of the battery.

For this reason, an object of this invention is to provide the collector member which can suppress a deformation, suppressing the increase of the cost of a battery. An object of the present invention is to provide a battery which can suppress deformation of a current collector member while suppressing increase in cost.

The current collector member according to one embodiment of the present invention extends from one side to the other with the electrode portion having at least one electrode bundle and the terminal electrically connected to each other, with the respective portions of the electrode portion interposed therebetween. The said current collector member is equipped with the some electrode part side connection part arrange | positioned at the said one side, and electrically connected to the said electrode part, and a main body part.

The main body portion has an angle portion that bends corresponding to the respective portions of the electrode portion and extends from the one side of the electrode portion to the other side. The main body part is disposed on the one side with each part of the main body part interposed therebetween, and a plurality of electrode part side connection parts are arranged in a line at one end and electrically connected to each other. It is arrange | positioned at the other side and has a 2nd part to which the said terminal is electrically connected. The said 1st part becomes narrow along the direction which the said electrode part side connection part arranges toward each part of the said main body part.

According to another embodiment of the present invention, a battery includes an electrode member, a terminal, a current collector member extending from one side to the other with each electrode portion interposed between the electrode portion and the terminal. Equipped. The said current collector member is equipped with the some electrode part side connection part arrange | positioned at the said one side, and electrically connected to the said electrode part, and a main body part.

The main body portion has an angle portion that bends corresponding to the respective portions of the electrode portion and extends from the one side of the electrode portion to the other side. The main body part is disposed on the one side with each part of the main body part interposed therebetween, and a plurality of electrode part side connection parts are arranged in a line at one end and electrically connected to each other. It is arrange | positioned at the other side and has a 2nd part to which the said terminal is electrically connected. The said 1st part becomes narrow along the direction which the said electrode part side connection part arranges toward each part of the said main body part.

According to the present invention, deformation of the current collector member can be suppressed while suppressing increase in cost of the battery.

1 is a perspective view illustrating a battery according to an embodiment of the present invention.
2 is an exploded perspective view showing the battery.
3 is a perspective view comparing the positive electrode current collector member of the battery and another positive electrode current collector member having a constant width in a direction in which the first and second electrode portion side connecting portions are arranged.
4 is a perspective view showing the inside of the battery.

A battery according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. 1 is a perspective view showing a battery 10 of the present embodiment. The battery 10 is a rechargeable secondary battery as an example, and is a lithium ion battery as an example. 2 is an exploded perspective view showing the battery 10.

1 to 3, the battery 10 includes a case 20, an electrode portion 30, a positive electrode terminal 40, a negative electrode terminal 50, and a positive electrode current collector member 60. And a negative electrode current collector member 70.

As shown in FIG. 1, the case 20 includes a bottomed box-shaped body member 22 having an opening 21, and a lid member 23 covering the opening 21. In addition, the cover member 23 is abbreviate | omitted in FIG.

As shown in FIG. 2, the electrode part 30 has one electrode bundle 31 as an example in this embodiment. The electrode bundle 31 is provided with a sheet-shaped positive electrode 32, a sheet-shaped negative electrode 33, and a sheet-shaped separator 34. The positive electrode 32 and the negative electrode 33 are in a state where the separator 34 is sandwiched between them so that one end 32a of the positive electrode 32 and one end 33a of the negative electrode 33 are not overlapped with each other. They overlap each other.

The overlapping of the positive electrode 32, the negative electrode 33, and the separator 34 is wound in a flat shape. For this reason, as shown in FIG. 2, the positive electrode 32 is exposed at one end of the electrode bundle 31, and the negative electrode 33 is exposed at the other end.

In addition, since the electrode bundle 31 is formed by being wound as mentioned above, an external appearance becomes substantially rectangular parallelepiped shape. For this reason, the electrode bundle 31 has an external appearance and has one end 35, the other end 36, and a circumferential surface 37 connecting the one end 35 and the other end 36.

The part which becomes the boundary of the one end 35 and the circumferential surface 37 becomes the corner part 38, and becomes the part bent toward the circumferential surface 37 from the one end 35. As shown in FIG. Similarly, the part which becomes the boundary of the other end 36 and the circumferential surface 37 becomes a corner part 39, and becomes the part bent toward the circumferential surface 37 from the other end 36. As shown in FIG.

The electrode portion 30 is a portion having the positive electrode 32 and the negative electrode 33 stacked in the battery 10. For this reason, in this embodiment, the electrode part 30 is equipped with one electrode bundle 31 as an example. As another example, the structure may be provided with the several electrode bundle 31, such as three or four, for example.

Or as another example of the electrode part 30, one sheet-like positive electrode and one sheet-shaped negative electrode do not overlap and are wound in a flat shape, but the plurality of sheet-shaped positive electrodes and the plurality of sheet-shaped negative electrodes The structure may be laminated.

4 is a perspective view showing the inside of the battery 10. In FIG. 4, the case 20 is shown with a dashed-dotted line. As shown in FIG. 4, the positive electrode current collector member 60 is electrically connected to the positive electrode 32 of the electrode bundle 31 and the positive electrode terminal 40 described later, that is, the positive electrode 32 and the positive electrode terminal ( 40 is electrically connected. The negative electrode current collector member 70 is electrically connected to the negative electrode 33 of the electrode bundle 31 and the negative electrode terminal 50 described later, that is, the negative electrode 33 and the negative electrode terminal 50 are electrically connected. .

The positive electrode current collector member 60 is formed of a conductive material. The material having conductivity is a metal as an example. As shown in FIG. 4, the positive electrode current collector member 60 extends from the one end side to the circumferential surface side with the respective portions 38 interposed therebetween in the electrode bundle 31.

The positive electrode current collector member 60 includes a first electrode portion side connecting portion 61, a second electrode portion side connecting portion 62, and a main body portion 63. The 1st electrode part side connection part 61 is arrange | positioned in the electrode bundle 31 near the one end part along the direction A in which the part which opposes the positive electrode 32 in the edge of the opening 21 is extended. Moreover, the 1st electrode part side connection part 61 extends along the direction B along the positive electrode 32 among the directions perpendicular | vertical with respect to the direction A. As shown in FIG.

The 1st electrode part side connection part 61 is electrically connected to the positive electrode 32 of the electrode bundle 31. In this embodiment, as an example, it is electrically connected through the clip 64, for example.

The 2nd electrode part side connection part 62 is arrange | positioned near the other end part along the direction A in the electrode bundle 31, and extends along the direction B. As shown in FIG. The second electrode portion side connecting portion 62 is electrically connected to the positive electrode 32 of the electrode bundle 31. In this embodiment, it is electrically connected using the clip similar to the clip 64 as an example.

The main body portion 63 extends from the one end side of the electrode bundle 31 to the circumferential surface side of the electrode bundle 31 with the corner portion 38 interposed therebetween, and the corner portion 65 bent in correspondence with the corner portion 38. Have In the main body portion 63, the one end side of the electrode bundle 31 is disposed as the first portion 66 with the corner portion 65 interposed therebetween, and the portion of the electrode bundle 31 is disposed with the corner portion 65 interposed therebetween. The part on the circumferential surface side is referred to as the second part 67.

The first electrode portion side connecting portion 61 is connected to one end of the direction A in the first portion 66. The second electrode portion side connecting portion 62 is connected to the other end of the direction A in the first portion 66. In addition, in this embodiment, the positive electrode current collector member 60 is formed of one plate-shaped member, and the first and second electrode part side connection parts 61 and 62 and the main body part 63 are formed of the same member. have. For this reason, in other words, the 1st and 2nd electrode part side connection parts 61 and 62 protrude from the one end of the 1st part 66. As shown in FIG. Moreover, as another example, the 1st and 2nd electrode part side connection parts 61 and 62 are members separate from the main body part 63, and may be a structure connected to the main body part 63. As shown in FIG.

The first portion 66 has a shape in which the width of the direction A gradually narrows in the direction in which the first and second electrode portion side connecting portions 61 and 62 are arranged toward the corner portion 65. The direction along which the 1st and 2nd electrode part side connection parts 61 and 62 are arranged in the 2nd part 67, In this embodiment, the width along the direction A is the width along the direction A of the each part 65. In FIG. Is keeping.

The positive electrode current collector member 60 is located inside the case 20 than the lid member 23 in a state where the lid member 23 covers the opening 21 of the main body member 22. The positive electrode terminal 40 is electrically connected to the second portion 67 of the current collecting member 60 for the positive electrode.

As shown in FIG. 2, the negative electrode current collector member 70 is formed of a conductive material. The material having conductivity is a metal as an example. As shown in FIG. 4, the negative electrode current collector member 70 extends from the other end side to the circumferential surface side with the respective portions 39 interposed in the electrode bundle 31. In addition, in this embodiment, the shape of the negative electrode current collector member 70 is the same as that of the positive electrode current collector member 60.

The negative electrode current collector member 70 includes a first electrode portion side connecting portion 71, a second electrode portion side connecting portion 72, and a main body portion 73. The 1st electrode part side connection part 71 is arrange | positioned in the electrode bundle 31 near the one end part along the direction C in which the part which opposes the negative electrode 33 in the edge of the opening 21 extends. . Direction C is parallel to direction A. Moreover, the 1st electrode part side connection part 71 extends along the direction D. As shown in FIG. The direction D is a direction along the negative electrode 33 among the directions perpendicular to the direction C. As shown in FIG. The direction D is parallel to the direction B.

The first electrode portion side connecting portion 71 is electrically connected to the negative electrode 33 of the electrode bundle 31. In this embodiment, as an example, it is electrically connected through the clip similar to the clip 64, for example.

The 2nd electrode part side connection part 72 is arrange | positioned in the vicinity of the other end part along the direction C in the electrode bundle 31, and extends along the direction D. As shown in FIG. The second electrode portion side connecting portion 72 is electrically connected to the negative electrode 33 of the electrode bundle 31. In this embodiment, it is electrically connected using the clip similar to the clip 64 as an example.

The main body portion 73 extends from the other end side of the electrode bundle 31 to the circumferential surface side of the electrode bundle 31 with the corner portion 39 interposed therebetween, and the corner portion 75 bent in correspondence with the corner portion 39. Have In the main body portion 73, the other end portion of the electrode bundle 31 as the first portion 76 with the corner portion 75 interposed therebetween, and the portion of the electrode bundle 31 with the corner portion 75 interposed therebetween. The part on the circumferential surface side is referred to as the second part 77.

The first electrode portion side connecting portion 71 is connected to one end of the direction C in the first portion 76. The second electrode portion side connecting portion 72 is connected to the other end of the direction C in the first portion 76. In the present embodiment, the negative electrode current collector member 70 is formed of one plate-shaped member, and the first and second electrode part side connection portions 71 and 72 and the main body portion 73 are formed of the same member. have. For this reason, in other words, the 1st and 2nd electrode part side connection parts 71 and 72 protrude from the one end of the 1st part 76. As shown in FIG.

Moreover, as another example, the 1st and 2nd electrode part side connection parts 71 and 72 are members separate from the main body part 73, and may be the structure connected to the main body part 73. As shown in FIG.

The first portion 76 has a shape in which the width of the direction C gradually narrows in the direction in which the first and second electrode portion side connecting portions 71 and 72 are arranged toward the corner portion 75. The direction along which the 1st and 2nd electrode part side connection parts 71 and 72 are arrange | positioned in the 2nd part 77, In this embodiment, the width along the direction C is the width along the direction C of the each part 75. In FIG. Is keeping.

The negative electrode current collector member 70 is located inside the case 20 than the lid member 23 in a state where the lid member 23 covers the opening 21 of the main body member 22. The negative electrode terminal 50 is electrically connected to the second portion 77 of the current collecting member 70 for negative electrode.

In the battery 10 configured as described above, the positive electrode current collector member 60 and the negative electrode current collector member 70 are connected to the first and second electrode part side connection portions 61, 62, in the first portions 66, 76. Since the width | variety along the directions A and C by which 71 and 72 are arrange | positioned becomes narrow gradually toward the corner parts 65 and 75, the direction (of the positive electrode current collector member 60 and the negative electrode collector member 70) The width along A and C) can be made small.

This point will be described in detail with reference to FIG. 3. FIG. 3: is a figure explaining that the width | variety along the directions A and C of the positive electrode electrical power collector member 60 and the negative electrode electrical power collector member 70 becomes small. In addition, the positive electrode current collector member 60 and the negative electrode current collector member 70 have the same shape. For this reason, it demonstrates on behalf of the positive electrode current collector member 60. As shown in FIG.

3 is a perspective view showing the current collector member 60 for the positive electrode of this embodiment. 3 shows a current collector member 100 different from the current collector member 60 for the positive electrode. The current collector member 100 has a shape substantially the same as that of the positive electrode current collector member 60, and includes first and second electrode side connection portions 101 and 102 and a main body portion 103. The main body portion 103 has a corner portion 104 similar to the corner portion 75, and is bent at the corner portion 104.

The difference from the current collector member 60 for the positive electrode in the current collector member 100 is that the length in the direction in which the first and second electrode side connection portions 101 and 102 are arranged in the main body portion 103 is constant. to be. That is, in the main body part 103, the length of the direction in which the 1st and 2nd electrode part side connection parts 101 and 102 are arrange | positioned is constant without becoming narrow as it goes to the each part 104. As shown in FIG.

In the current collector member 100 on the left side of FIG. 3, the current collector member 60 for the positive electrode of the present embodiment is indicated by a dotted line. As described above, the positive electrode current collector member 60 of the present embodiment can narrow the width along the direction in which the first and second electrode portion side connecting portions 61 and 62 are arranged with respect to the current collector member 100 as a whole.

As shown in the left side of FIG. 3, the positive electrode electrical power collecting member 60 cut | disconnects the board member with the constant width along the direction A at the place shown by the dotted line, and is created by bending at the corner part 65. FIG. Can be. This point also applies to the current collector member 70 for negative electrodes. In addition, the positive electrode current collector member 60 and the negative electrode current collector member 70 are not limited to those formed by cutting the current collector member 100 with dotted lines. It may be formed by bending the plate members having the outlines of the main body portions 63 and 73 of the positive electrode current collector member 60 and the negative electrode current collector member 70 at the corner portions 65 and 75.

As the width along the direction A of the positive electrode current collector member 60 decreases and the width along the direction C of the negative electrode current collector member 70 decreases, the short circuit of the battery 10 can be suppressed. Can be. This point is explained concretely. The positive electrode current collector member 60 and the negative electrode collector member 70 are shaped such that the widths along the directions A and C in the first portions 66 and 76 do not become narrow toward the respective sections 65 and 75. In this case, the width along the directions A and C is kept wide.

When a load is input to the battery 10 from the outside, this load is transmitted to the electrode portion 30. If the positive electrode current collector member 60 and the negative electrode current collector member 70 have a wide shape along the directions A and C as described above, the positive electrode current collector member 60 and the negative electrode current collector member 70 It is easy to transmit the load.

If the load transmitted to the positive electrode current collector member 60 and the negative electrode current collector member 70 has a size sufficient to deform the positive electrode current collector member 60 and the negative electrode current collector member 70, the current collector member for the positive electrode 60 and the negative electrode current collector member 70 are deformed.

As a modification of the positive electrode current collector member 60 and the negative electrode current collector member 70, deformation may occur in which the edge portion thereof is recessed into the electrode bundle 31. When deformed in this way, it is considered that the battery 10 is short-circuited because the sheet-shaped positive electrode 32 and the sheet-shaped negative electrode 33 are damaged.

However, in the battery 10 of the present embodiment, the positive electrode current collector member 60 and the negative electrode current collector member 70 have widths along the directions A and C of the first portions 66 and 76. It gradually narrows toward (65, 75). In addition, the width | variety along the directions A and C of each part 65 and 75 is the width | variety along the directions A and C of the 2nd parts 67 and 77. That is, the width | variety along the directions A and C in the 2nd parts 67 and 77 is maintained.

For this reason, even if a load is transmitted to the battery 10 from the outside, it is difficult to transmit this load to the positive electrode current collector member 60 and the negative electrode current collector member 70. That is, since the positive electrode current collector member 60 and the negative electrode current collector member 70 are less likely to be deformed, the battery 10 is short-circuited due to deformation of the positive electrode current collector member 60 and the negative electrode current collector member 70. Is suppressed.

As described above, by narrowing the widths of the positive electrode current collector member 60 and the negative electrode current collector member 70, the deformation of the positive electrode current collector member 60 and the negative electrode current collector member 70 can be suppressed. In order to prevent the member 60 and the negative electrode current collector member 70 from being deformed, a reinforcement structure is unnecessary to enhance the rigidity or strength of the case 20, or the reinforcement structure need not be firmly established. It is possible to suppress the increase in cost.

The present invention is not limited to the above-described embodiment itself, and the embodiment can be embodied by modifying the components within a range not departing from the gist of the embodiment. In addition, various inventions can be formed by appropriate combinations of a plurality of components disclosed in the above-described embodiments. For example, several components may be deleted from all the components presented in the above-described embodiment.

31 electrode bundle
38, 39: parts
60: current collector member for positive electrode (current collector member)
61: 1st electrode part side connection part (electrode part side connection part)
62: 2nd electrode part side connection part (electrode part side connection part)
63: main body
65: parts
66: first part
67: second part
70: current collector member for current collector (current collector member)
71: first electrode portion connection portion (electrode portion side connection portion)
72: 2nd electrode part side connection part (electrode part side connection part)
73: main body
75: parts
76: first part
77: second part

Claims (2)

In the current collector member which electrically connects an electrode part provided with at least 1 electrode bundle, and a terminal, and extends from one side to another through each part of the said electrode part,
A plurality of electrode portion side connecting portions disposed on the one side and electrically connected to the electrode portion;
A main body portion having an angle portion corresponding to the respective portions of the electrode portion and extending from the one side of the electrode portion to the other side, the main body portion being disposed on the one side with each of the main body portions interposed therebetween and the plurality of electrodes at one end; A main part having a first part arranged in a row and electrically connected to each other, and a second part arranged on the other side with the respective parts of the main body part interposed therebetween,
And the first portion is narrow in width along the direction in which the electrode portion side connecting portion is arranged toward the respective portions of the main body portion. An electrode portion,
With terminals,
And a current collector member which electrically connects the electrode portion and the terminal and extends from one side to the other with each portion of the electrode portion interposed therebetween,
The current collector member,
A plurality of electrode part side connection parts disposed on the one side and electrically connected to the electrode part;
A main body portion having an angle portion corresponding to the respective portions of the electrode portion and extending from the one side of the electrode portion to the other side, the main body portion being disposed on the one side with each of the main body portions interposed therebetween and the plurality of electrodes at one end; A main part having a first part arranged in a row and electrically connected to each other, and a second part arranged on the other side with each part of the main body part interposed therebetween, and the terminal being electrically connected thereto,
And the first portion is narrow in width along the direction in which the electrode portion side connecting portion is arranged toward the respective portions of the main body portion.

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