KR20210079453A - Sealing test device and method for battery case - Google Patents

Abstract

The present invention relates to a technology for inspecting sealing performance through watertight testing of a battery case. The present invention discloses a device and a method for inspecting a battery case sealing, which includes: a water tank filled with water for watertight testing; and a battery case provided inside the water tank and coated with a leak detection agent that changes color when in contact with water on the inner surface, wherein the battery case is provided to be completely submerged in water in the water tank while an inside of the battery case is assembled to be sealed, and the color change of the leak detection agent is checked to detect whether water has entered the battery case in a released state to open the inside of the battery case by removing the water in the water tank.

Description

Battery case sealing inspection device and method {SEALING TEST DEVICE AND METHOD FOR BATTERY CASE}

An object of the present invention is to provide an apparatus and method for sealing a battery case for inspecting sealing performance through a watertight test of the battery case.

In the case of an eco-friendly vehicle such as an electric vehicle, a hybrid vehicle, or a fuel cell vehicle, a high voltage battery is used to drive the vehicle.

Such a high-voltage battery is overheated in high-temperature conditions such as during charging and discharging, and overcooled in low-temperature conditions where the outside temperature is low, thereby failing to properly exhibit performance.

Accordingly, an air-conditioning system is installed to cool the high-voltage battery by air-cooling or water-cooling or to increase the temperature by using a heating device according to the temperature condition of the high-voltage battery, and the temperature of the high-voltage battery is optimally maintained through operation of the air conditioning system.

However, if the battery case having a structure that surrounds the high voltage battery is not properly sealed, the air conditioning efficiency decreases as the temperature of the high voltage battery changes under the influence of the outside temperature, so a method to check the sealing performance of the battery case is required. have.

The matters described as the background art above are only for improving the understanding of the background of the present invention, and should not be taken as acknowledging that they correspond to the prior art already known to those of ordinary skill in the art.

KR 10-2015-0042105 A

The present invention has been devised to solve the above-described problems, and an object of the present invention is to provide an apparatus and method for sealing a battery case for inspecting sealing performance through a watertight test of the battery case.

The configuration of the present invention for achieving the above object is a water tank filled with water for a watertight test; It includes a battery case provided in the water tank and coated with a leak detector that changes color when in contact with water on the inner surface, and is completely submerged in water in the water tank in an assembled state so that the inside of the battery case is sealed. It may be provided, characterized in that it detects whether water has flowed into the battery case by checking the color change of the leak detector in a state in which the inside of the battery case is released by removing the water in the water tank.

The water tank is formed in a housing shape that can accommodate the battery case; A case fixture may be provided in the water tank to fasten the battery case to the bottom surface of the water tank.

a storage tank in which the water supplied to the water tank is stored; A water supply/discharge pump connected between the water tank and the storage tank to supply water from the storage tank to the water tank and to drain the water from the water tank into the storage tank; may further include.

The configuration of the present invention comprises: an application step of applying a leak detection agent that changes color when in contact with water on the inner surface of the battery case; a submersion step of providing to be completely submerged in water in a water tank in an assembled state so that the inside of the battery case is sealed; After removing the water in the water tank, releasing step of releasing the inside of the battery case to be opened; and a detection step of detecting whether water has flowed into the battery case by checking the color change of the leak detection agent applied to the battery case.

In the immersion step, fastening and fixing the battery case to the bottom surface of the water tank using a case fixture provided in the water tank; The battery case may be submerged in the water inside the water tank for a predetermined time or longer.

In the submersion step, the water stored in the storage tank is supplied to the inside of the water tank by using a water pump in a state in which the sealed assembled battery case is provided inside the water tank; In the releasing step, the water filled in the water tank may be drained into the storage tank by using a drain pump.

In the detection step, it is possible to detect whether water is introduced by comparing the image data inside the battery case taken in the application step with the inside of the battery case checked in the releasing step.

Through the above-described problem solving means, the present invention provides air conditioning performance and efficiency of a high voltage battery due to poor sealing of the battery case by examining the sealing performance of the battery case by whether the color of the leak detector changes during the watertight test of the battery case. This has the effect of preventing the deterioration.

1 is a view illustrating a battery case that can be inspected through the sealed inspection device for the battery case of the present invention.
Figure 2 is a three-dimensional view of the sealing inspection device for a battery case of the present invention.
Figure 3 is a view showing a shape viewed from the side of the sealing inspection device for a battery case of the present invention.
Figure 4 is a view showing the shape of the sealing inspection device for a battery case of the present invention viewed from above.
Figure 5 is a block diagram listing the process of the sealing inspection method for a battery case of the present invention.

A preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings as follows.

1 is a view illustrating a battery case 10 that can be inspected through the sealed inspection device for the battery case 10 of the present invention, and FIG. 2 is a three-dimensional view of the sealed inspection device for the battery case 10 of the present invention. It is a drawing.

The present invention is to check for leaks by submerging the battery case 10 in the water tank 20. When described with reference to the drawings, first, the water tank 20 is filled with water for a watertight test, as well as, It is configured so that the water filled inside can be drained.

Here, the water filled in the water tank 20 may be alkaline water for reacting with a leak detection agent to be described later. For example, it may be water in which a basic chemical is mixed with general tap water.

In addition, the battery case 10 is provided inside the water tank 20, and a leak detector that changes color when in contact with water is applied to the inner surface of the battery case 10.

This, the leak detector is a chemical for the water tightness and airtightness test of the battery case 10, for example, when in contact with water (alkaline water), the color changes from yellow to purple.

In addition, the leak detection agent can be applied more carefully to parts where airtightness and watertightness are suspected, such as the overlapping welding part (the part where the plate and the plate overlap, a part where a lot of leakage occurs due to difficulties in welding teaching) and the design weak part. have.

In particular, in the present invention, the battery case 10 is provided to be completely submerged in water in the water tank 20 in the assembled state so that the inside of the battery case 10 is sealed, and then the water in the water tank 20 is removed to remove the battery case 10. ) In the state in which the inside is released to be opened, the color change of the leak detector applied inside the battery case 10 is checked to detect whether water has flowed into the battery case 10 .

For example, a gasket is placed between the upper plate 10a and the lower plate 10b of the battery case 10, and a constant fastening torque is applied to fasten and assemble the upper plate 10a and the lower plate 10b. In addition, by blocking all the open parts of the cooling block connection part, the electrical equipment connection part, the relief valve, etc. provided in the battery case 10, the inside of the battery case 10 is assembled in a sealed state.

For reference, before assembly of the battery case 10 , it can be checked whether welding is performed properly by inspecting the exterior of the battery case 10 and the welding site.

That is, when the color of the leak detector applied in the battery case 10 does not change and there is no trace of water intrusion, it is diagnosed that water has not flowed, and when the color of the leak detector changes or there is a trace of water intrusion, water Diagnosed as imported.

As such, by inspecting and confirming the sealing performance through the watertight test of the battery case 10 , the deterioration of the air conditioning performance and the air conditioning efficiency due to the sealing failure of the battery case 10 is prevented.

In addition, referring to FIG. 2 , the water tank 20 is formed in a rectangular housing shape of an acceptable size in a form in which the battery case 10 is mounted on a vehicle, and the upper part is opened to insert or remove the battery case 10 . be able to

In addition, an inspection window 24 through which the inside of the water tank 20 can be visually confirmed may be provided on a side surface of the water tank 20 .

In addition, a case fixture 22 is provided at the lower end of the water tank 20, and the case fixture 22 is connected to the battery case 10, or by supporting the upper surface of the battery case 10 in the form of a strap, It is possible to fasten the battery case 10 to the bottom surface of the water tank 20 . That is, the battery case 10 provided in the water tank 20 is fixed so as not to float in the water due to buoyancy.

3 is a view showing the shape of the sealing inspection device for the battery case 10 of the present invention viewed from the side, Figure 4 is a view showing the shape of the sealing inspection device for the battery case 10 of the present invention viewed from the side to be.

3 and 4 , a storage tank 30 for storing water may be installed in a position adjacent to the water tank 20 to supply water to the water tank 20 .

In addition, a water supply/discharge pump is connected between the water tank 20 and the storage tank 30 to supply water in the storage tank 30 to the water tank 20 , and the water from the water tank 20 to the storage tank 30 . drained within.

That is, when water supply to the water tank 20 is required, the water stored in the storage tank 30 is supplied to the water tank 20 by operating the water pump 32 , and the water supplied to the water tank 20 needs to be drained. , the drain pump 34 is operated to drain the water supplied to the water tank 20 into the storage tank 30 .

5 is a block diagram listing the process of the sealing inspection method for the battery case 10 of the present invention.

According to FIG. 5, the method for inspecting the battery case 10 in the present invention includes an application step (S10) of applying a leak detector whose color changes when in contact with water on the inner surface of the battery case 10, and the After the immersion step (S20) of being completely submerged in water in the water tank 20 in the assembled state so that the inside of the battery case 10 is sealed, and the water in the water tank 20 is removed, the battery case 10 ) a release step (S30) of releasing so that the inside is opened, and a detection step (S40) of detecting whether water has flowed into the battery case 10 by checking the color change of the leak detection agent applied to the battery case 10 (S40) ) is included.

And, in the submersion step (S20), by fastening and fixing the battery case 10 to the bottom surface of the water tank 20 using the case fixture 22 provided in the water tank 20, the battery case ( 10) is prevented from floating in water.

In addition, by maintaining the battery case 10 immersed in the water inside the water tank 20 for more than a predetermined time, the reliability of the battery case 10 test is increased.

In addition, in the submersion step (S20), the water stored in the storage tank 30 in a state in which the sealed assembled battery case 10 is provided in the water tank 20 is transferred to the water tank 20 using the water supply pump 32. It is supplied to the inside, and in the releasing step (S30), the water filled in the water tank 20 can be drained into the storage tank 30 by using the drain pump 34 .

In addition, in the detecting step (S40), by comparing the image data inside the battery case 10 photographed in the application step with the inside of the battery case 10 confirmed in the releasing step, it is possible to detect whether water is introduced. .

That is, before assembling the battery case 10, the image of the portion coated with the leak detection agent on the inner surface of the upper plate 10a and the lower plate 10b is captured and secured, and after the battery case 10 is submerged in the battery case 10 By comparing the portion to which the leak detection agent is applied after releasing , it is possible to inspect whether water has flowed into the battery case 10 .

On the other hand, when explaining the overall inspection process of the battery case 10 using the present invention by way of example, first, before assembling the battery case 10, the upper plate 10a and the lower plate 10b of the battery case 10 in a place where ventilation is easy. ), apply a leak detection agent to the inner surface of the In this case, the leak detection agent can be applied more precisely to the leak suspicious part such as the weld overlap part and the design weak part.

Then, a photograph is taken centered on the portion where the leak detection agent is applied to the upper plate 10a and the lower plate 10b of the battery case 10 .

Next, a gasket is placed between the upper plate 10a and the lower plate 10b and the upper plate 10a and the lower plate 10b are fastened to the set fastening torque using a tool such as a torque wrench, and the cooling block connection part, the electrical equipment connection part, and the relief valve By blocking all the openings of the back, the battery case 10 is assembled so that the interior is sealed.

Then, the battery case 10 is moved inside the water tank 20 by using a mechanism such as a hoist, and the battery case 10 is fastened to the bottom surface of the water tank 20 using the case fixture 22 .

Then, water (alkaline water) is supplied to the inside of the water tank 20 by operating the water pump 32, and when the height of the water reaches a certain height while the battery case 10 is completely submerged in the water, the water supply is stopped. do.

Then, after maintaining the submerged state for about 30 minutes after the battery case 10 is submerged, the drain pump 34 is operated to drain the water inside the water tank 20 into the storage tank 30 .

Then, when the water in the water tank 20 is completely drained, the water remaining on the surface of the battery case 10 is completely removed using an air gun or the like. This is to prevent the water remaining on the surface of the battery case 10 from flowing into the inside of the battery case 10 when the battery case 10 is released to prevent the color change of the leak detector.

After that, take care not to shake the battery case 10, and disassemble the upper plate 10a and the lower plate 10b, the upper plate 10a and the lower plate 10b are coated with the leak detection agent, and the previously photographed image compare

Accordingly, if the color of the leak detector does not change and there is no trace of water intrusion, it is diagnosed that water inflow has not occurred, and when the color of the leak detector is changed, it is diagnosed that water inflow has occurred.

Preferably, by diagnosing an accurate leak site through a site where water inflow occurs, repair and maintenance for the leak site can be performed. However, if it is difficult to determine the exact location of the leak due to the spread of the leak detection agent due to the large amount of leakage, the location of the leak can be diagnosed by tracking the path of the color change.

As described above, the present invention examines the sealing performance of the battery case 10 according to whether the color of the leak detector changes during the watertight test of the battery case 10, so that the high voltage battery due to the sealing failure of the battery case 10 is It prevents the air conditioning performance and efficiency from being deteriorated.

On the other hand, although the present invention has been described in detail only with respect to the specific examples described above, it is obvious to those skilled in the art that various modifications and variations are possible within the scope of the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims. .

10: battery case
10a: top plate
10b: lower plate
20: water tank
22: case fixture
24: inspection window
30: storage tank
32: water pump
34: drain pump

Claims (7)

water tank filled with water for watertight testing;
A battery case provided inside the water tank and coated with a leak detection agent that changes color when in contact with water on the inner surface;
It is provided to be completely submerged in water in the water tank in the assembled state so that the inside of the battery case is sealed, and the color change of the leak detector is checked in the released state so that the inside of the battery case is opened by removing the water in the water tank. A sealing inspection device for a battery case, characterized in that it detects whether water has flowed into the battery case. The method according to claim 1,
The water tank is formed in a housing shape that can accommodate the battery case;
A sealing inspection device for a battery case, characterized in that a case fixture is provided in the water tank to fasten the battery case to the bottom surface of the water tank. The method according to claim 1,
a storage tank in which water supplied to the water tank is stored;
and a water supply/discharge pump connected between the water tank and the storage tank to supply water from the storage tank to the water tank and to drain the water from the water tank into the storage tank. an application step of applying a leak detection agent that changes color when in contact with water on the inner surface of the battery case;
a submersion step of providing to be completely submerged in water in a water tank in an assembled state so that the inside of the battery case is sealed;
After removing the water in the water tank, releasing step of releasing the inside of the battery case to be opened; and
A sealing inspection method of a battery case comprising a; detecting step of detecting whether water has flowed into the battery case by checking the color change of the leak detection agent applied to the battery case. 5. The method according to claim 4,
In the submersion step,
fastening and fixing the battery case to the bottom surface of the water tank using a case fixture provided in the water tank;
A sealing inspection method of a battery case, characterized in that the battery case is immersed in the water inside the water tank for a predetermined time or more. 5. The method according to claim 4,
In the submersion step, the water stored in the storage tank is supplied to the inside of the water tank by using a water pump in a state in which the sealed assembled battery case is provided inside the water tank;
In the releasing step, the sealing inspection method of the battery case, characterized in that the water filled in the water tank is drained into the storage tank by using a drain pump. 5. The method according to claim 4,
In the detection step,
The sealing inspection method of the battery case, characterized in that by comparing the image data inside the battery case taken in the application step and the inside of the battery case checked in the releasing step to detect whether water is introduced.

Images