KR101335286B1 - Cap Assembly of Improved Structure and Secondary Battery Containing the Same - Google Patents

Abstract

The present invention is a top cap coupled to the open top of the battery case in which the electrode assembly; A protruding terminal connected to an electrode of the electrode assembly and protruding outward; An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap; A conductive plate on which an electrode tab of the electrode assembly is welded; And a lower gasket interposed between the conductive plate and the top cap so as to maintain electrical insulation with respect to the top cap, wherein the conductive plate is rotated in the process of rolling the lower end of the protruding terminal. In order to prevent contact with the case, a lower surface of the top cap is provided with a cap assembly, characterized in that the indentation is formed at a size including at least a portion to which the conductive plate and the lower gasket is mounted.

Description

Cap Assembly of Improved Structure and Secondary Battery Containing the Same}

The present invention relates to a cap assembly having an improved structure, and more particularly, a top cap coupled to an open upper end of a battery case in which an electrode assembly is embedded, a protruding terminal connected to an electrode of the electrode assembly, and protruding to the outside. An upper gasket interposed at the interface with the cap, a conductive plate on which the electrode tabs of the electrode assembly are welded, and a lower gasket interposed at the interface with the top cap, and the conductive plate in the process of rolling the lower end of the protruding terminal. In order to prevent rotation and contact with the top cap or the battery case, the lower surface of the top cap relates to a cap assembly is formed to a size including at least a portion where the conductive plate and the lower gasket is mounted.

As technology development and demand for mobile devices have increased, the demand for secondary batteries as energy sources has been rapidly increasing. Many researches have been conducted on lithium secondary batteries with high energy density and discharge voltage among such secondary batteries. .

The secondary battery is classified into a cylindrical battery and a prismatic battery in which the electrode assembly is housed in a cylindrical or rectangular metal can according to the shape of the battery case, and a pouch-shaped battery in which the electrode assembly is housed in a pouch-shaped case of an aluminum laminate sheet .

In addition, the electrode assembly incorporated in the battery case is a chargeable / dischargeable power generation device formed of a lamination structure of a positive electrode / separator / negative electrode. The electrode assembly is a jelly-roll type electrode assembly in which a separator is interposed between a positive electrode and a negative electrode coated with an active material, And a stacked type in which a plurality of positive electrodes and negative electrodes of a predetermined size are sequentially stacked in a state interposed in the separator.

The general structure of a prismatic battery among these is shown in Fig.

1, the prismatic battery 50 includes a jelly-roll type electrode assembly 10 housed in a rectangular metal case 20 and having a protruding electrode terminal (for example, And a top cap 30 on which a cap 32 is formed.

The negative electrode of the electrode assembly 10 is electrically connected to the lower end of the negative electrode terminal 32 on the top cap 30 through the negative electrode tab 12. The negative electrode terminal 32 is electrically connected to the top cap 30 by the insulating member 34, (30). On the other hand, another electrode (for example, an anode) of the electrode assembly 10 is electrically connected to the top cap 30 whose anode tab 14 is made of a conductive material such as aluminum, stainless steel, And forms a bipolar terminal by itself.

In order to ensure the electrical insulation between the electrode assembly 10 and the top cap 30 except for the electrode tabs 12 and 14, a sheet-like insulating member 40 The top cap 30 and the case 20 are joined together by welding along the contact surface between the top cap 30 and the case 20. Then, an electrolyte is injected through the electrolyte injection port 43, and then the battery is sealed by welding and applying a welding portion with epoxy or the like to manufacture a battery.

FIG. 2 is a vertical cross-sectional view showing a structure of a cap assembly disclosed in Korean Patent Application Laid-Open No. 2001-8860 as one method of constructing the cap assembly in FIG.

2, the cap assembly includes a protrusion terminal 32 inserted into a connecting groove formed at the center of a metallic top cap 30 via gaskets 34 and 36, A conductive plate 38 for welding a negative electrode tab of an electrode assembly (not shown) is coupled to the lower end of the protruding terminal 32 in a state of being insulated by a gasket 36.

Looking at the assembly process of the cap assembly of this structure, after inserting the rivet for the protruding terminal 32 from the top of the top cap 30 to penetrate the upper gasket 34 to reach the conductive plate 38, the bottom of the rivet It is subjected to the process of rolling by bonding.

However, in the process of rolling the lower end of the rivet as described above, there is a problem of contacting the battery case or the top cap 30 while one end of the conductive plate 38 protrudes downward and rotates.

As a specific example, the conductive plate 38 is connected to the negative electrode of the electrode assembly to have a negative polarity, and the battery case and the top cap 30 are electrically connected to the positive electrode of the electrode assembly to have a positive polarity. Therefore, when the conductive plate 38 contacts the battery case or the top cap 30, a short circuit occurs.

Therefore, there is a high need for a technology that can fundamentally solve these problems.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-described problems of the prior art and the technical problems required from the past.

The inventors have conducted various experiments and in-depth studies, and at the bottom of the top cap, when the indentation is formed to have a size including at least a portion on which the conductive plate and the lower gasket are mounted, the inventors are conductive in the process of rolling the lower end of the protruding terminal. It has been found that the plate can be rotated to prevent contact with the top cap or the battery case, thereby improving the safety of the battery.

Accordingly, the cap assembly according to the present invention includes a top cap coupled to an open top of a battery case in which an electrode assembly is embedded;

A protruding terminal connected to an electrode of the electrode assembly and protruding outward;

An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;

A conductive plate on which an electrode tab of the electrode assembly is welded; And

A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;

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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. It consists of being formed in size.

In general, in the manufacturing process of the battery, when the lower end of the protruding terminal is rotated and pressed for rolling, first, the opposite end of the conductive plate is lifted relatively high by the pressing force. The opposite end of the plate may contact the top cap or battery case. On the other hand, according to the present invention, since the indentation is formed on the lower surface of the top cap to at least include a portion on which the conductive plate and the lower gasket are mounted, a portion of the conductive plate is lifted up during the rolling of the lower end of the protruding terminal. Rotation (protrusion and rotation) can be prevented from being shorted by contact with the top cap or the battery case.

The cap assembly of the present invention can be used more preferably, especially when the battery case is a metal can.

The indentation is not particularly limited as long as it is a structure capable of preventing the conductive plate from rotating in the process of rolling the lower end of the protruding terminal. For example, the indentation may have a stepped structure.

In another example, a blocking wall is formed on at least one side of the lower surface of the top cap in the rotational direction of the conductive plate with the protrusion terminal as an axis, so that the conductive plate rotates during the rolling of the lower end of the protrusion terminal. Contact with the case can be prevented.

In the above structure, the barrier wall preferably protrudes downward in the direction in which the electrode assembly is located.

The height of the barrier wall preferably has a size of 10% to 50% based on the height of the top cap, to prevent the rotation of the desired conductive plate when the height of the barrier wall is less than 10% based on the height of the top cap. It is difficult and undesirable to exceed 50% as the overall cap assembly increases in size.

The length of the barrier wall may preferably be a structure having a size corresponding to the length of the indentation.

In some cases, in the rotational direction of the conductive plate around the protrusion terminal, protrusions protrude downward on at least one side of the bottom surface of the top cap, so that the conductive plate rotates in the process of rolling the lower end of the protrusion terminal. Contact with the case can be effectively prevented.

The height of the protrusions preferably has a size of 10% to 50% based on the height of the top cap, it is difficult to prevent the rotation of the desired conductive plate when the height of the protrusions is less than 10% based on the height of the top cap, If it exceeds 50%, the size of the overall cap assembly increases, which is undesirable.

On the other hand, the depth of the indentation is preferably having a size of 10% to 90% based on the height of the top cap, the process of rolling the bottom of the protruding terminal if the depth of the indentation is less than 10% based on the height of the top cap It is not easy to prevent the rotation of the desired conductive plate, and if it exceeds 90%, the mechanical strength of the cap assembly is lowered, which is not preferable.

The upper gasket and the lower gasket have the other end where the protruding terminal is not formed is inserted into the connection groove of the top cap, and thus deformed according to the shape of the protruding terminal when the rivet is rolled. Therefore, as the material of the upper gasket and the lower gasket, a plastic resin having electrical insulation and resistance to electrolyte and causing plastic deformation or elastic deformation is preferable. Examples of such plastic resins include, but are not limited to, polyethylene, polypropylene, polybutylene, synthetic rubber, natural rubber, polyethylene terephthalate, polyamide, polyimide, and the like.

The lower end of the protruding terminal of the cap assembly, ie the head of the rivet, is preferably welded to the electrode tab of the electrode assembly. Such electrode tab may preferably be a negative electrode tab.

The present invention also provides a secondary battery having a structure in which the cap assembly is coupled to the open top of the battery case.

The battery case may be made of various structures and materials, and particularly preferably a rectangular case made of metal. The manner of coupling the cap assembly to such a square metal case may also vary, preferably by welding.

The invention also provides a method of making the cap assembly.

Specifically, the manufacturing method,

(a) inserting and mounting the upper gasket into the connection groove from the top of the top cap;

(b) inserting the rivets for protruding terminals from the top of the top cap through the upper gasket to reach the conductive plate with the lower gasket and the conductive plate positioned on the bottom surface of the top cap; And

(c) rolling the bottom of the rivet to bond;

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As described above, the cap assembly according to the present invention, by forming an indentation in a size including at least the portion on which the conductive plate and the lower gasket is mounted on the lower surface of the top cap, the conductive plate in the process of rolling the lower end of the protruding terminal Protrudes and rotates to prevent contact with the top cap or the battery case by the indentation of the top cap can greatly improve the safety of the battery.

1 is a partial schematic view of a conventional prismatic battery incorporating a jelly-roll type electrode assembly;
2 is a vertical cross-sectional view of a conventional cap assembly;
3 is a vertical cross-sectional view of a cap assembly according to one embodiment of the present invention;
4 is a schematic diagram of a top cap according to another embodiment of the present invention;
5 is a partial bottom view of the cap assembly including the top cap of FIG. 4;
6 is a schematic view of a top cap according to another embodiment of the present invention;
7 is a partial bottom view of the cap assembly including the top cap of FIG. 6;
8 are schematic diagrams of a top cap according to another embodiment of the present invention;
9 is a partial bottom view of the cap assembly including the top cap of FIG. 8;
10 is a schematic diagram of a top cap according to another embodiment of the present invention;
FIG. 11 is a partial bottom view of the cap assembly including the top cap of FIG. 10.

Hereinafter, a cap assembly according to an embodiment of the present invention will be described with reference to the drawings, but this is for easier understanding of the present invention, and the scope of the present invention is not limited thereto.

3 is a vertical cross-sectional view of the cap assembly according to one embodiment of the present invention.

Referring to FIG. 3 together with FIG. 1, the cap assembly includes a top cap 30a, a protruding terminal 32, an upper gasket 34 and a lower gasket 36, and a conductive plate 38.

The top cap 30a is coupled to an open upper end of the battery case 20 in which the electrode assembly 10 is embedded, and the protruding terminal 32 is connected to the cathode of the electrode assembly 10 to protrude outward.

The upper gasket 34 is interposed at the interface with the top cap 30a so that the protruding terminal 32 can maintain electrical insulation with respect to the top cap 30a, and the conductive plate 38 is formed of the electrode assembly 10. It is welded with the negative electrode tab 12.

In addition, the lower gasket 36 is interposed at the interface between the conductive plate 38 and the top cap 30a, so that the conductive plate 38 can maintain electrical insulation with respect to the top cap 30a.

Furthermore, the indentation portion 31 is formed on the lower surface of the top cap 30a to include a portion on which the conductive plate 38 and the lower gasket 36 are mounted, thereby rolling the lower end of the protruding terminal 32. In the process, the conductive plate 38 is rotated to prevent contact with the top cap 30a or the battery case 20.

In addition, the cap assembly of Figure 3, (a) inserting and mounting the upper gasket 34 from the top of the top cap (30a) into the connection groove; (b) With the lower gasket 36 and the conductive plate 38 positioned on the bottom surface of the top cap 30a, the rivets for projecting terminals penetrate the upper gasket 34 to reach the conductive plate 38. Inserting from the top of the top cap 30a; And (c) it can be produced by the step of rolling by bonding the bottom of the rivet.

4 is a schematic view of a top cap according to another embodiment of the present invention, and FIG. 5 is a partial bottom view of a cap assembly including the top cap of FIG. 4. For reference, (a) and (b) of Figure 4 is a side view and a bottom view of the top cap as viewed from the top cap.

Referring to these drawings, the indentation portion 33 of the top cap 30b has a stepped structure, and the top cap 30b is formed in the rotational direction (arrow) of the conductive plate 38 around the projecting terminal 32. The blocking wall 35 is formed on one side of the lower surface of the.

The blocking wall 35 protrudes downward (A), and the height of the blocking wall 35 has a size of approximately 30% based on the height H of the top cap 30b.

In addition, the length 1 of the barrier wall 35 has a size corresponding to the length L of the indentation 33.

FIG. 6 is a schematic view of a top cap according to another embodiment of the present invention, and FIG. 7 schematically illustrates a partial bottom view of a cap assembly including the top cap of FIG. 6. For reference, (a) and (b) of FIG. 6 are side views and bottom views of the top cap, respectively, as viewed from below.

Referring to these figures, the top cap 30c of FIG. 6 and the cap assembly of FIG. 7 are indented 37 having a stepped structure instead of the barrier wall 35 in the top cap 30b of FIG. 4 and the cap assembly of FIG. 5. Except), the same as the top cap 30b of FIG. 4 and the cap assembly of FIG. 5 will be omitted.

On the other hand, the depth of the indentation 37 has a size of approximately 20% based on the height H of the top cap 30c.

FIG. 8 is a schematic view of a top cap according to another embodiment of the present invention, and FIG. 9 is a partial bottom view of a cap assembly including the top cap of FIG. 8. For reference, FIGS. 8A and 8B are side views and bottom views of the top cap, respectively, as viewed from below.

Referring to these drawings, the indentation portion 33 of the top cap 30d has a stepped structure, and the top cap 30d is formed in the rotation direction (arrow) of the conductive plate 38 with the protruding terminal 32 as an axis. ), A barrier wall 35a protruding downwardly (A) is formed on both sides of the lower surface of the bottom surface.

Accordingly, the structure of the barrier wall 35a protruding downward on both sides of the lower surface of the top cap 30d as described above is the barrier wall protruding downward on one side of the lower surface of the top cap 30b as shown in FIGS. 4 and 5. The rotation of the conductive plate is more effectively prevented than the structure of 35).

FIG. 10 is a schematic view of a top cap according to still another embodiment of the present invention, and FIG. 11 is a partial bottom view of a cap assembly including the top cap of FIG. 10. For reference, FIGS. 10A and 10B are side views and bottom views of the top cap, respectively, as viewed from below.

Referring to these drawings, the top cap 30e protrudes downward (A) on both sides of the lower surface of the top cap 30e in the rotational direction (arrow) of the conductive plate 38 around the protruding terminal 32. Eight projections 37a are formed respectively.

The height of the protrusions 37a has a size of approximately 30% based on the height H of the top cap 30e.

Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

Claims (20)

A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. Formed in size,
And the electrode tab is a negative electrode tab. The cap assembly of claim 1, wherein the indentation has a stepped structure. The cap assembly according to claim 1, wherein a blocking wall is formed on at least one side of a lower surface of the top cap in a rotational direction of the conductive plate with the protruding terminal as an axis. The cap assembly of claim 3, wherein the barrier wall protrudes downward. 4. The cap assembly of claim 3, wherein the height of the barrier wall has a size of 10% to 50% based on the height of the top cap. 4. The cap assembly of claim 3, wherein the length of the barrier wall has a size corresponding to the length of the indent. The cap assembly of claim 1, wherein protrusions protrude downward from at least one side of a bottom surface of the top cap in a rotational direction of the conductive plate around the protrusion terminal. 8. The cap assembly of claim 7, wherein the height of the protrusions has a size of 10% to 50% based on the height of the top cap. The cap assembly of claim 1, wherein the depth of the indentation has a size of 10% to 90% based on the height of the top cap. The cap assembly as claimed in claim 1, wherein the upper gasket and the lower gasket are made of a plastic resin which is electrically insulative and resistant to electrolyte, and causes plastic deformation or elastic deformation. delete A secondary battery having a structure in which the cap assembly according to any one of claims 1 to 10 is coupled to an open upper end of the battery case. The secondary battery of claim 12, wherein the battery case is a metal rectangular case, and coupling of the cap assembly to the case is accomplished by welding. A method of manufacturing a cap assembly according to claim 1,
(a) inserting and mounting the upper gasket into the connection groove from the top of the top cap;
(b) inserting the rivets for protruding terminals from the top of the top cap through the upper gasket to reach the conductive plate with the lower gasket and the conductive plate positioned on the bottom surface of the top cap; And
(c) rolling the bottom of the rivet to bond;
Cap assembly manufacturing method characterized in that consisting of. A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. Formed in size,
Cap assembly, characterized in that the blocking wall is formed on at least one side of the lower surface of the top cap in the rotational direction of the conductive plate around the projecting terminal. A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. Formed in size,
Cap assembly, characterized in that the projections protrude downward on at least one side of the lower surface of the top cap in the rotational direction of the conductive plate around the projecting terminal. A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. Formed in size,
Cap depth of the indent is characterized in that the cap has a size of 10% to 90% based on the height of the top cap. A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. Formed in size,
Cap material, characterized in that the upper gasket and the lower gasket material is made of a plastic resin that has electrical insulation and resistance to the electrolyte while causing plastic deformation or elastic deformation. A secondary battery having a cap assembly coupled to an open top of a battery case,
The secondary battery,
A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. A secondary battery, characterized in that formed in size. A method of manufacturing a cap assembly,
The cap assembly,
A top cap coupled to an open upper end of a battery case having an electrode assembly therein;
A protruding terminal connected to an electrode of the electrode assembly and protruding outward;
An upper gasket interposed at an interface with the top cap so that the projecting terminal can maintain electrical insulation with respect to the top cap;
A conductive plate on which an electrode tab of the electrode assembly is welded; And
A lower gasket interposed at an interface with the top cap so that the conductive plate maintains electrical insulation with respect to the top cap;
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In order to prevent the conductive plate from rotating in contact with the top cap or the battery case during the rolling of the lower end of the protruding terminal, the bottom surface of the top cap includes at least a portion where the conductive plate and the lower gasket are mounted. Formed in size,
In the above manufacturing method,
(a) inserting and mounting the upper gasket into the connection groove from the top of the top cap;
(b) inserting the rivets for protruding terminals from the top of the top cap through the upper gasket to reach the conductive plate with the lower gasket and the conductive plate positioned on the bottom surface of the top cap; And
(c) rolling the bottom of the rivet to bond;
Cap assembly manufacturing method characterized in that consisting of.

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