KR20170063134A - Coin cell - Google Patents

Abstract

The present invention relates to a coin cell, and more particularly, to a coin cell comprising a lower case having a receiving groove on an upper surface thereof, an upper case provided on an upper surface of the lower case, and a gasket for inserting the lower case and the upper case in a state insulated from each other. An electrode assembly accommodated in the receiving groove; And a pressing assembly for pressing the upper surface of the electrode assembly to fix the electrode assembly to the bottom surface of the receiving groove without moving.

Description

Coin Cell {COIN CELL}

The present invention relates to a coin cell, and more particularly to a coin cell that prevents movement of a first electrode, a separator, and a second electrode.

Generally, a secondary battery is a battery capable of charging and discharging unlike a primary battery which can not be charged. Such a secondary battery is widely used in high-tech electronic devices such as a phone, a notebook computer, and a camcorder.

Meanwhile, the secondary battery includes a coin cell having a high energy density, a high output, and a long life and stability. That is, the coin cell has a high voltage characteristic, an output characteristic and a high energy density.

Patent Registration No. 10-0958649

The coin cell according to the related art includes an upper case and a lower case coupled to each other, a first electrode accommodated in the upper case and a lower case, a separator, and a second electrode.

However, the coin cell according to the related art has a problem that the first electrode, the separator and the second electrode move inside the upper case and the lower case due to external shock and vibration. Particularly, when the first electrode and the second electrode move If contact is made, short-circuiting may occur.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to prevent the movement of the first electrode, the separation membrane and the second electrode housed in the upper case and the lower case, And a coin cell.

According to an aspect of the present invention, there is provided a coin cell including a lower case having a receiving groove formed on an upper surface thereof, an upper case provided on an upper surface of the lower case, A case assembly provided with a gasket; An electrode assembly accommodated in the receiving groove; And a pressing assembly for pressing the upper surface of the electrode assembly to fix the electrode assembly to the bottom surface of the receiving groove without moving.

The pressing assembly includes a rotating body coupled to a screw hole formed on an upper surface of the upper case and rotating along the threaded hole while being lowered, a lower plate coupled to a lower end of the rotating body, As shown in Fig.

The rotating body may be provided with a bolt portion coupled to the screw hole and coupled with the pressing body at a lower end thereof, and a head portion provided in the bolt portion disposed on the upper case and rotating the bolt portion.

An upper surface of the upper case is formed with an insertion groove into which the head is inserted, and the screw hole is formed on a bottom surface of the insertion groove.

The insertion groove and the head portion can be welded and sealed.

The pressing assembly may include a coupling body that rotatably couples the pressing body to the lower end of the rotating body.

The coupling body may include a cylindrical coupling portion coupled to the lower end of the rotary body through the bottom surface of the pressing body, and a support portion supported on the bottom surface of the pressing body.

The pressing assembly may be formed of a metallic material having conductivity.

The electrode assembly may include a first electrode, a separation membrane, and a second electrode.

The pressing assembly may electrically connect the upper case and the second electrode disposed at the uppermost end of the electrode assembly.

First, since the coin cell according to the present invention includes the pressing assembly, the cohesive force between the first electrode, the separation membrane, and the second electrode housed in the case assembly can be increased, thereby improving battery performance.

Secondly, the pressing assembly according to the present invention is provided with a rotating body and a pressing body, so that the first electrode, the separating membrane, and the second electrode can be stably pressed and brought into close contact with each other.

Thirdly, the rotating body according to the present invention is provided with a bolt part and a head part, and the head part can be inserted into an insertion groove formed in the case assembly, thereby preventing the thickness from increasing.

Fourthly, the sealing property between the rotating body and the insertion groove can be improved by welding between the rotating body and the insertion groove according to the present invention.

Fifth: The pressing body according to the present invention is freely rotatably coupled to the lower end of the rotating body. When the rotating body rotates, the pressing body keeps the first electrode, the separating membrane, and the second electrode pressed to prevent the electrode from being damaged can do.

1 is an exploded perspective view of a coin cell according to the present invention;
2 is a sectional view showing a coin cell according to the present invention;
3 is a cross-sectional view of a rotating body according to the present invention.
4 is a sectional view showing a defect body according to the present invention.
5 and 6 are views showing a state of use of the coin cell according to the present invention, FIG. 5 is a view showing a state before pressurization of a pressurization assembly, and FIG. 6 is a view showing a state after pressurization of a pressurization assembly.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

1 and 2, a coin cell 100 according to the present invention includes a case assembly 110, an electrode assembly 120 accommodated in the case assembly 110, and an electrode assembly 120, And a pressing assembly 130 for immovably holding the electrode assembly 120 pressing against the inner bottom surface of the assembly 110. The case assembly 110 receives the electrolyte solution (not shown) together with the electrode assembly 120.

On the other hand, the coin cell 100 is also referred to as a leuben battery, an RM battery, and a mercury battery. Since such a coin cell can be made compact, it is widely used in hearing aids, portable ridos, wireless microphones, cameras, and watches. Zinc is used for the cathode electrode, mercury oxide is used for the cathode electrode, and zinc oxide and potassium hydroxide are used for the electrolytic solution.

The case assembly 110 includes a lower case 111 having a receiving groove formed on an upper surface thereof, an upper case 112 provided on an upper surface of the lower case 111, and a lower case 111, And a gasket 113 having a ring shape that engages with the gasket 113.

That is, the case assembly 110 inserts the upper case 112 into the receiving groove of the lower case 111, and inserts the gasket 112 between the upper case 112 and the lower case 111. In this state, the upper case 112 and the lower case 111 are simultaneously press-fitted and assembled.

Here, the outer circumferential surface of the gasket 113 and the inner circumferential surface of the receiving groove of the lower case 111 can be screwed together. The inner circumferential surface of the gasket 113 and the outer circumferential surface of the upper case 112 can be screwed together. That is, the gasket 113, the lower case 111, the gasket 113, and the upper case 112 are screwed together, so that the coupling of the case assembly 110 can be enhanced.

The electrode assembly 120 is accommodated in the receiving groove of the lower case 111 and has a three-layer structure including a first electrode 121, a separation membrane 122, and a second electrode 123. That is, the electrode assembly 120 includes a first electrode 121 disposed on the bottom of the receiving groove of the lower case 111, a separation membrane 122 stacked on the upper surface of the first electrode 121, And a second electrode 123 stacked on the second electrode 123.

Here, the separation membrane 122 is formed to be larger than the first electrode 121 and the second electrode 123, thereby preventing the first electrode 121 and the second electrode 123 from being grounded, thereby preventing an accident caused by a short circuit. do.

On the other hand, the first electrode 121 is a cathode and the second electrode 123 is a cathode. The lower case 111 has a negative electrode while the second electrode 123 is connected to the upper case 122 and the upper case 122 is connected to the lower case 111, Has an anode.

The three-layer structure including the first electrode 121, the separation membrane 122, and the second electrode 123 is described as one embodiment in the present invention. However, according to the coin cell, Layer structure including a first electrode, a separation membrane, a second electrode, a separation membrane, and a first electrode may be provided.

Meanwhile, the electrode assembly 120 may move inside the case assembly 110 due to external impact or external vibration. At this time, the upper case 112 and the first electrode 121 of the electrode assembly 120 are in contact with each other or the lower case 111 and the second electrode 123 of the electrode assembly 120 are in contact with each other, If the first electrode 121 and the second electrode 123 are in contact with each other, ignition due to a short circuit may occur.

In order to solve such a problem, the coin cell 100 according to the present invention includes a pressing assembly 130 for immovably fixing the electrode assembly 120.

Referring to FIG. 2, the pressing assembly 130 presses the upper surface of the electrode assembly 120 received in the receiving groove to fix the electrode assembly 120 to the bottom surface of the receiving groove. Particularly, the pressing assembly 130 presses the upper surface of the second electrode 123 to increase the adhesion between the first electrode 121, the separation membrane 122 and the second electrode 123, and the performance of the electrode assembly 120 Can be improved.

That is, the pressing assembly 130 includes a rotating body 131 coupled to a threaded hole 112b formed on the upper surface of the upper case 112 and rotated downward along the threaded hole 112b, And a pressing body 132 that is coupled to the lower end of the second electrode 123 and presses the upper surface of the second electrode 123 while descending together with the rotating body 131.

When the rotating body 131 rotates, the rotating body 131 descends along the threaded hole 112b. When the rotating body 131 is interlocked with the rotating body 131, the pressing body 132 The separator 122 and the second electrode 123 can be fixed while the lower surface of the lower case 111 is lowered while pressing the upper surface of the electrode assembly 120 accommodated in the lower case 111. [

3, the rotating body 131 includes a bolt portion 131a coupled to the screw hole 112b and having a lower end coupled to the pressing body 132, And a head part 131b for rotating the bolt part 131a while being supported on the outer peripheral surface of the screw hole 112b to prevent the bolt part 131a from being detached from the screw hole 112b.

In other words, the rotating body 131 can be provided with the bolt portion 131a and the head portion 131b, thereby increasing the fixing force of the rotating body 131 in the longitudinal direction. Particularly, it is possible to finely adjust the falling length of the bolt portion 131a The pressing force of the second electrode 123 through the pressing body 132 can be finely adjusted.

A screw hole 112b is formed on the bottom surface of the insertion groove 112a to receive the bolt 131a. So that the head 131a is prevented from being exposed to the upper portion of the upper case 112, thereby preventing the thickness of the coin cell 100 from being increased.

On the other hand, when the coin cell 100 is assembled, the sealing portion 140 is formed by welding between the head portion 131b and the insertion groove 112a. That is, the sealing portion 140 prevents the electrolyte from leaking between the head portion 131b and the insertion groove 112a.

Meanwhile, the pressing body 132 may be formed in a disk shape to stably press the electrode assembly 12, and may have a size smaller than that of the second electrode 123.

Here, the pressing body 132 may be freely rotatably coupled to the bottom surface of the bolt portion 131a. That is, the pressing body 132 rotates together with the rotating body 131 together with the pressing body 132 while pressing the electrode assembly 120, and the upper surface of the electrode assembly 120 is worn out, There is a problem.

Therefore, the pressing body 132 can be stably pressed against the electrode assembly 120 by preventing the rotation of the rotating body 131, thereby preventing the electrode assembly 120 from being damaged.

The pressing body 132 is freely rotatably coupled to the lower end of the rotating body 131 by the coupling body 133 and the coupling body 133 is rotatably supported on the lower end of the rotating body 131 via the bottom surface of the pressing body 132. [ A cylindrical coupling portion 133a coupled to the lower end and a support portion 133b supported on the bottom surface of the pressing member 132. [ The pressing body 132 can freely rotate left or right around the engaging portion 133a.

Meanwhile, the pressing assembly 130 may be formed of a metallic material having conductivity. That is, the pressing assembly 130 electrically connects the second electrode 123 and the upper case 112 while pressing the second electrode 123.

Hereinafter, the use state of the coin cell according to the present invention having such a structure will be described.

First, as shown in FIG. 5, the electrode assembly 120 is manufactured by sequentially laminating the first electrode 121, the separation membrane 122, and the second electrode 123.

The bolt portion 131a of the rotating body 131 is engaged with the screw hole 112b of the upper case 112 and the bolt portion 131a of the rotating body 131 passing through the bottom surface of the upper case 112 The pressing body 132 is coupled to the pressing body 130 freely rotatably using a coupling body 133 to assemble the pressing assembly 130. [

Then, the gasket 113 is inserted into the receiving groove of the lower case 111, and the electrode assembly 120 is received. Then, the upper case 112 is inserted into the upper part of the lower case 111, ).

Here, the electrolyte solution may be injected between the lower case 111 and the upper case 112 before assembling the case assembly 110, or the electrolyte may be injected through the holes provided separately after assembling the case assembly 110. In addition, The holes are welded and sealed.

The coin cell 100 is completed when the injection of the electrolyte solution is completed and the completed coin cell 100 is inserted into the case assembly 110 using the pressing assembly 130, The assembly 120 is pressed and fixed in place.

That is, when the rotating body 131 is rotated, the rotating body 131 gradually descends along the threaded hole 112b, and the rotating body 131 gradually lowers the pressing body 132, The electrode assembly 120 is fixed to the bottom surface of the lower case 111 while being pressurized. The second electrode 123, the separation membrane 122 and the first electrode 121 included in the electrode assembly 120 are pressed by the pressing force of the pressing body 132 to improve the adhesion, Can be improved.

Therefore, the coin cell 100 according to the present invention can securely fix the electrode assembly 120 provided with the second electrode 123, the separation membrane 122, and the first electrode 121, thereby enhancing safety.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: coin cell
110: Case assembly
111: Lower case
112: upper case
113: Gasket
120: electrode assembly
121: first electrode
122: Membrane
123: second electrode
130:
131: rotating body
132:
133: Coupling

Claims (10)

A case assembly comprising a lower case having a receiving groove on an upper surface thereof, an upper case provided on an upper surface of the lower case, and a gasket insulated from the lower case and the upper case.
An electrode assembly accommodated in the receiving groove;
And a pressing assembly for pressing the upper surface of the electrode assembly to fix the electrode assembly to the bottom surface of the receiving groove without moving. The method according to claim 1,
The pressing assembly includes a rotating body coupled to a screw hole formed on an upper surface of the upper case and rotating along the threaded hole while being lowered, a lower plate coupled to a lower end of the rotating body, Is provided as a pressurizing member for pressurizing the coin cell. The method of claim 2,
Wherein the rotating body is provided with a bolt portion coupled to the screw hole and coupled to the pressing member at a lower end thereof and a head portion provided at the bolt portion located at the upper surface of the upper case and rotating the bolt portion. The method of claim 3,
Wherein an upper surface of the upper case has an insertion groove into which the head is inserted, and the screw hole is formed on a bottom surface of the insertion groove. The method of claim 4,
Wherein the insertion groove and the head portion are welded and sealed. The method of claim 2,
Wherein the pressing assembly includes a coupling body for freely rotatably coupling the pressing body to a lower end of the rotating body. The method of claim 6,
Wherein the coupling body includes a cylindrical coupling portion coupled to a lower end of the rotating body through a bottom surface of the pressing body, and a support portion supported on a bottom surface of the pressing body. The method according to claim 1,
Wherein the pressing assembly is made of a metallic material having conductivity. The method according to claim 1,
Wherein the electrode assembly is provided as a first electrode, a separation membrane, and a second electrode. The method of claim 9,
Wherein the pressing assembly electrically connects the upper case to the second electrode disposed at the uppermost end of the electrode assembly.

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