KR100997713B1 - Inspection device of secondary battery case - Google Patents

Abstract

The present invention relates to an inspection apparatus of a secondary battery case made of rubber, synthetic rubber or synthetic resin having elasticity, a through hole 310 is formed in the center and the gas supply pipe is connected to the through hole 310, the test on the upper side A pad 300 to which an open surface of the secondary battery case 40 contacts; A pressing part 100 installed on the upper part of the pad 300 to move upward and downward, and having a lower side contacting the upper side of the secondary battery case 40; The pressure unit 100 is moved downward to press the upper side of the secondary battery case 40 to close the edge of the open surface of the secondary battery case 40 to the pad 300 so that the internal high pressure gas is external. To prevent leakage, and to pressurize the secondary battery case 40 to continuously apply pressure to the secondary battery case 40 in response to the height change of the secondary battery case 40 generated during the inspection. (200); and even if the case is deformed by the pressure does not leak the high-pressure gas has the effect that the accurate test is possible.

Secondary battery case high pressure gas inspection safety destruction

Description

Testing appartus for case of secondary cell}

The present invention relates to an inspection apparatus for a secondary battery case, and more particularly, a secondary portion of the secondary battery case is moved while the pressing unit moves in response to deformation of the secondary battery case generated by a high-pressure gas supplied therein. The present invention relates to an inspection apparatus for a secondary battery case which presses a battery case from an upper side to a lower side to fix the secondary battery case and prevents gas from flowing out.

As mobile phones, laptops, multimedia devices, and the like have been widely used in recent years, the demand for rechargeable rechargeable batteries used in such devices has increased rapidly.

Recently, secondary batteries mostly use lithium ion batteries. This is because lithium-ion batteries have the advantages of being smaller, lighter, and longer than the nickel-metal hydride batteries used in the past. In general, the lithium ion secondary battery is formed by forming aluminum into a container shape in which one side is open, and filling an electrolyte therein and then sealing the open side by combining other members.

However, the lithium ion battery has a problem in that it is weak to high temperature or impact. In other words, when the internal membrane is damaged due to an increase in the external temperature or an impact, and an internal reaction occurs, the internal pressure rapidly increases as the temperature inside the lithium ion battery increases during overcharging.

When the pressure inside the increased case is greater than the pressure that the secondary battery case can withstand, it explodes.

In order to prevent this, various safety devices are laid, but above all, the strength of the rechargeable lithium battery case is important. In other words, if the secondary battery case is able to withstand high pressure enough, other safety devices are activated first to reduce the pressure inside the secondary battery case, thereby preventing explosion. An explosion occurs when the entire battery case is broken.

Therefore, it is very important to inspect the strength of the produced secondary battery case due to the internal pressure.

As described above, in order to inspect the breakdown pressure of the secondary battery case, the pressure inside the secondary battery case should be increased.

However, there are many problems in a method of manufacturing a secondary battery case and then inspecting the sealed surface of the secondary case with another member.

In general, it is difficult to seal the secondary battery case in a company that manufactures a secondary battery case because a company forming a secondary battery case by molding aluminum and a company that produces a secondary battery using the secondary battery case are different. Because.

Therefore, companies producing secondary battery cases should perform inspection with one side of the secondary battery case opened.

To this end, conventionally, as shown in FIG. 1, an edge of an open surface of the secondary battery case is pressed against the pad by pressing the pad 30 made of an elastic material on the bottom and the secondary battery case mounted on the upper side of the pad. A device including a lever 10 having a pressing portion 20 and fixing the pressing portion 20 is used. The device is positioned on the pad so that the open side of the secondary battery case faces downward, the secondary battery case is fixed by the pressurizing unit 20, and the gas is continuously supplied into the secondary battery case until the case is destroyed and the pressure gauge A device for checking the pressure at breakage was used.

By the way, the pressing unit 20 is made of a structure that can no longer move to the lower side in the state of fixing the secondary battery case is difficult to accurately test.

This is because the secondary battery case is deformed as shown in FIG. 2 when the pressure inside the secondary battery case increases.

In the secondary battery case before the test illustrated in FIG. 2A, as the test proceeds, the secondary battery case expands and expands as the pressure increases, and the height decreases.

However, since the height of the pressing unit 20 of the device is fixed constantly, when the height of the secondary battery case 40 decreases, the secondary battery case gradually increases upward due to the elasticity of the pad 30 during the test. As it moves and continues to increase, it is difficult to seal between the pad 20 and the rechargeable battery case 40 as shown in FIG. There is a problem that is difficult.

The present invention is to solve the above problems and to provide an inspection apparatus for a secondary battery case that can prevent the leakage of gas even if the deformation of the secondary battery case occurs during the test is possible.

Another object of the present invention is to provide an inspection apparatus for a secondary battery case that can also inspect secondary battery cases having different heights.

In order to achieve the above object, the present invention provides a secondary battery case which seals an open surface of a secondary battery case in which one side is opened, and then injects a high-pressure gas into the secondary battery case to check the pressure at which the secondary battery case is destroyed. In the inspection apparatus, made of rubber, synthetic rubber or synthetic resin having elasticity, a through-hole is formed in the center, the gas supply pipe is connected to the through-hole, the pad that the open side of the secondary battery case to be tested on the upper side Wow; A pressing part installed on the upper part of the pad to move upward and downward, and having a lower side contacting the upper side of the secondary battery case; The pressurizing unit is moved to the lower side to press the upper side of the secondary battery case to close the edge of the open surface of the secondary battery case to the pad to prevent leakage of the internal high-pressure gas to the outside, the 2 generated during the inspection According to a technical gist of a secondary battery case inspecting apparatus, the apparatus may further include a pressurizing means for moving the pressurizing part corresponding to a height change of the battery case to continuously apply pressure to the secondary battery case.

According to a preferred embodiment, the pressurizing means comprises a pneumatic cylinder and a piston, wherein the pressurized portion coupled to the end of the piston is configured to pressurize the secondary battery case while gas is supplied into the secondary battery case.

According to a preferred embodiment the pressing means is characterized in that the weight is movable up and down to move the pressing portion downward by gravity.

According to a preferred embodiment the pressing means is characterized in that the spring to move the pressing portion downward by the elastic force.

According to the inspection apparatus of the secondary battery case of the present invention, since the pressurizing portion moves downward in response to the deformation of the secondary battery case during the test, it is possible to prevent the leakage of gas and thus to perform the accurate inspection. have.

In addition, since the pressing portion can move up and down, the secondary battery cases having different heights can be inspected by the same device, which is convenient.

Hereinafter, an inspection apparatus of a secondary battery case according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First Embodiment

3 is a side view showing a simplified structure of an inspection apparatus of a secondary battery case according to a first embodiment of the present invention.

Referring to Figure 3 it can be seen that the inspection device of the secondary battery case according to the first embodiment of the present invention includes a pad 300, the pressing portion 100 and the pressing means 200.

First, the pad 300 will be described. The pad 300 is made of one of synthetic resins having elasticity, such as rubber, synthetic rubber, polyurethane, etc., and an upper side thereof forms a flat plate shape.

Here, in order to be coupled to the open surface of the secondary battery case 40 on the upper side of the pad 300, it is also considered to form a protrusion protruding upward to correspond to the internal shape of the secondary battery case 40. Worth seeing When the protrusion is formed as described above, the secondary battery case 40 may be inserted into the protrusion, and thus the secondary battery case 40 may be easily positioned at the inspection position during the inspection.

A through hole 310 is formed at the center of the pad 300. The gas supply pipe 320 is connected to the lower side of the through hole 310 so that the gas supplied from the air pump 330 through the gas supply pipe 320 during the test is transferred to the secondary battery case 40 through the through hole 310. To be supplied.

Next, the pressing unit 100 will be described. The pressing unit 100 is located above the pad 300 and is installed to be movable up and down, and the lower side of the pressing unit 100 is in contact with the upper side of the secondary battery case 40.

Next, the pressing means 200 will be described. The pressing means 200 moves the pressing part 100 downward.

Here, the pressurizing means 200 is configured to move the lower side of the pressurizing part 100 to a position lower than the height at which the secondary battery case 40 is deformed and lowered, and the force is continuously applied to the pressurizing part 100 during the test. It is configured to apply. When the secondary battery case 40 is deformed and the height is lowered, the secondary battery case 40 is lowered along the pressing unit 100 so that the pressing unit 100 keeps contacting the secondary battery case 40 while applying pressure to the secondary battery case. This is to close the 40 and the pad 300 to prevent the leakage of gas.

The pressurizing means 200 according to the first embodiment of the present invention is composed of a pneumatic cylinder 210 and a piston 220. The pressurizing part 100 is coupled to the end of the piston 220, so that when the fluid is supplied into the cylinder 210, the piston 220 moves downward, so that the pressurizing part 100 is the secondary battery case 40. To pressurize.

At this time, during the test, when the pressure of the fluid is continuously applied to the inside of the cylinder 210, and the height of the secondary battery case 40 decreases, the piston 220 moves downward to pressurize the secondary battery case 40 downward. Do it.

Hereinafter, the operation and effect of the inspection apparatus of the secondary battery case according to the first embodiment of the present invention will be described.

First, as shown in FIG. 4, the pressurizing means 200 is operated to move the pressurizing part 100 upward so that the opening surface of the secondary battery case 40 is positioned downward and positioned on the pad 300.

Here, in order to position the case 40 in the correct position of the pad, it is also conceivable to form a protrusion corresponding to the lower shape of the secondary battery case to the pad and to configure the case to be fitted to the protrusion.

Thereafter, the hydraulic pump is operated to supply the fluid into the cylinder 210 to lower the piston 220. Accordingly, the pressing unit 100 presses the upper side of the secondary battery case 40 as shown in FIG. 5. Accordingly, the lower edge of the secondary battery case 40 is pressed to seal the pad 300.

Thereafter, when gas is supplied into the secondary battery case 40 through the gas supply pipe 320, the secondary battery case 40 is deformed as shown in FIG. By moving downward, the secondary battery case 40 is continuously pressed downward.

When gas continues to be supplied into the secondary battery case 40 to increase the pressure, the secondary battery case 40 is finally destroyed as shown in FIG. 7, and the pressure at this time is displayed on the pressure gauge.

As described above, even if the secondary battery case 40 is deformed during the test, no leakage of gas occurs, so that accurate testing is possible.

Second Embodiment

8 is a view showing a simplified structure of an inspection apparatus of a secondary battery case according to a second embodiment of the present invention.

In the second embodiment of the present invention, the heavy material 230 is used as the pressing means 200. The heavy material 230 is installed on the upper side of the pressing unit 100 or combined with the pressing unit 100 by a rod or rope, etc., as the weight 230 moves downward by gravity, the pressing unit 100 is moved. Configured to move downward.

According to the second embodiment of the present invention, the heavy material 230 is configured to move up and down along a vertically formed guide rail, and the pressurizing part 100 is disposed on the lower side thereof, and the upper side of the secondary battery case 40 is lowered. It is configured to apply pressure.

However, instead of the weight 230, the pressing unit 100 to move up and down along the guide rail and put the weight 230 on the upper side or configured to combine the pressing unit 100 and the weight 230 with a rod or rope It is okay.

Here, the weight of the weight 230 is appropriately adjusted according to the pressure of the gas to be applied inside the secondary battery case 40. That is, when the weight of the heavy material 230 is light, gas may leak, and when it is too heavy, it is difficult to handle it, so it is necessary to use an appropriate weight.

In this case, when the weight of the heavy material 230 is too heavy to be difficult to move by attraction, it may be provided with a separate device for lifting the heavy weight 230.

Third Embodiment

9 is a view showing a brief configuration of the inspection apparatus of the secondary battery case according to a third embodiment of the present invention.

Referring to FIG. 8, it can be seen that the compression spring 240 is used as the pressing means 200 in the third embodiment of the present invention.

In the third embodiment of the present invention, the upper side of the compression spring 240 is fixed, and the pressing portion 100 is coupled to the lower side to press the secondary battery case 40 by the elastic force of the compression spring 240.

Here, the guide rail is installed vertically to allow the pressing unit 100 to move only up and down, and the pressing unit 100 is coupled to the guide rail.

Here, instead of using the compression spring 240, it may be used to combine the tension spring on the lower side of the pressing portion (100).

1 is a side view of a conventional secondary battery case inspection device

2 is a view showing the change of the case with the increase in pressure

Figure 3: Schematic configuration diagram of a secondary battery case inspection apparatus according to an embodiment of the present invention

4 to 7 illustrate a process of inspecting a secondary battery case according to an embodiment of the present invention.

8: a secondary battery case inspection device according to another embodiment

9: Secondary battery case inspection apparatus according to another embodiment

<Description of Symbols Used in Main Parts of Drawing>

10: lever 20: pressing part

30: pad 40: case

100: pressurizing unit 200: pressurizing means

210: cylinder 220: piston

230: weight 240: spring

300: pad 310: through hole

320: gas supply pipe

Claims (4)

After sealing the open surface of the secondary battery case 40 with one side open to the inspection device of the secondary battery case for inspecting the pressure that the secondary battery case 40 is destroyed by injecting a high-pressure gas into the inside In It is made of rubber, synthetic rubber or synthetic resin having elasticity, the through hole 310 is formed in the center and the gas supply pipe is connected to the through hole 310, the open side of the secondary battery case 40 to be tested on the upper side A pad 300 to be in contact; A pressing part 100 installed on the upper part of the pad 300 to move upward and downward, and having a lower side contacting the upper side of the secondary battery case 40; The pressure unit 100 is moved downward to press the upper side of the secondary battery case 40 to close the edge of the open surface of the secondary battery case 40 to the pad 300 so that the internal high pressure gas is external. To prevent leakage, and to pressurize the secondary battery case 40 to continuously apply pressure to the secondary battery case 40 in response to the height change of the secondary battery case 40 generated during the inspection. Inspection device for a secondary battery case, characterized in that it further comprises; The method of claim 1, wherein the pressing means 200 The pressurization unit 100 coupled to the distal end of the piston 220 is provided with a hydraulic cylinder 210 and a piston 220, and the gas is supplied into the secondary battery case 40. Inspection device for a secondary battery case, characterized in that configured to pressurize. The method of claim 1, wherein the pressing means 200 Inspection device for a secondary battery case, characterized in that the weight is moved up and down (230) for moving the pressing portion 100 to the lower side by gravity. The method of claim 1, wherein the pressing means 200, Inspection device for a secondary battery case, characterized in that the spring 240 for moving the pressing portion 100 by the elastic force to the lower side.

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