KR101504596B1 - Leakage test device and Leakage test method using thereof - Google Patents

Abstract

The present invention relates to a leakage testing apparatus and a leakage testing method using the same, and a leakage testing apparatus according to an embodiment of the present invention includes a first housing on which a component to be leak tested is mounted; And a second housing coupled to the first housing while receiving the component therein, wherein a first enclosure is formed between the first housing and the component while the component is mounted on the first housing, 2, a second closed space is formed between the second housing and the first housing while the first housing is mounted on the housing, and a fluid supply unit for supplying a fluid having a predetermined pressure to the first closed space or the second closed space, Device; And a pressure measuring device for measuring the pressure of the first closed space or the second closed space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leak test apparatus and a leakage test method using the same,

The present invention relates to a leakage testing apparatus and a leakage testing method using the leakage testing apparatus, and more particularly, to a leakage testing apparatus capable of testing waterproof performance of a component or an end product unit with respect to a terminal device and a device having waterproof performance, Leakage test method.

In order to realize the waterproof performance of a terminal or a waterproof product that implements a waterproof performance, each component (component) must be waterproof. However, the waterproof performance of such a part or product is not visually confirmed, and a device capable of comparing and verifying the waterproof performance quantitatively in the part / product unit was required.

1 is a view schematically showing a leakage test apparatus 1 according to the prior art. The conventional leak test apparatus 1 includes a support 10 for supporting a product or a component T to form a closed space, And a pressing portion 20 for fixing the pressing portion 20. The leakage test apparatus 1 according to the prior art seats the product or part on the support 10 for leakage testing and presses the press part 20 to form a closed space.

A gas supply valve 30 leading to the closed space and a pressure measuring device 40 measuring the pressure of the closed space are formed in the support portion 10. Accordingly, the air pressure is increased in the sealed space when the product or part is sealed, and the supply valve 30 is shut off to maintain the pressure in the sealed space.

Then, the pressure of the closed space was measured using the pressure measuring device 40, and the leakage amount of the gas was checked to compare the standard leakage amount with the actual leakage amount, thereby quantitatively comparing water leakage performance.

In the case of the prior art, a sealed space is formed between the inside of the part or the product and the leakage test apparatus to increase the air pressure to judge whether or not the leakage occurs. However, since the actual leakage is caused by the inflow of air or water from the outside to the inside of the product, the direction of the air pressure to be tested in the leak testing apparatus is opposite to the direction in which the actual fluid is introduced. As a result, there is a possibility that a product which does not implement the waterproof performance depending on the structure of the product or part may be judged to be good, and the product in which the waterproof performance is realized is also determined to be defective.

Further, since the gas supply valve 30 and the pressure measurement device 40 are on the same flow path, there is a problem that only one component or a waterproof performance of the product can be measured by one test equipment.

The present invention solves the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems by providing a method of testing a waterproofing performance by matching the direction of a fluid pressure applied for a test with a direction in which actual leakage pressure is applied, And a leak test method using the same.

Another object of the present invention is to provide a leakage test apparatus capable of simultaneously measuring a plurality of products or leak points by disposing the fluid supply device and the pressure measurement device on different sealed spaces, and a leakage test method using the same.

According to an aspect of the present invention, there is provided a leakage testing apparatus including: a first housing on which a component to be leak tested is mounted; And a second housing coupled to the first housing while receiving the component therein, wherein a first enclosure is formed between the first housing and the component while the component is mounted on the first housing, 2, a second closed space is formed between the second housing and the first housing while the first housing is mounted on the housing, and a fluid supply unit for supplying a fluid having a predetermined pressure to the first closed space or the second closed space, Device; And a pressure measuring device for measuring the pressure of the first closed space or the second closed space.

The fluid supply device is connected to the first closed space and the second closed space, respectively, and each of the fluid supply devices can supply a predetermined pressure fluid to the first closed space and the second closed space.

The pressure measuring device is connected to the first closed space and the second closed space, respectively, and each pressure measuring device can measure the pressure of the first closed space and the second closed space.

The pressure measuring device may be constituted by a pressure measuring sensor.

The second housing may be mounted to press the first housing and the part mounted thereon.

The second housing is pressed by a pressurizing cylinder so that the first housing or the part can also be pressed.

The second housing may be connected to the pressure cylinder.

The second housing may perform a planar movement, a vertical movement, or a planar and vertical movement to form a closed space with the first housing.

One or more parts may be mounted on the first housing to form at least one first closed space.

A first elastic body or a second elastic body may be disposed in a contact area between the first housing and the second housing or the component.

The leakage test apparatus may further include a sealing structure for sealing the opening formed in the component.

According to another aspect of the present invention, there is provided a leakage testing apparatus including: a first housing on which a terminal to which a waterproof adhesive is applied is mounted; And a second housing coupled to the first housing while receiving the terminal therein, wherein a first enclosure is formed between the first housing and the terminal while the terminal is mounted on the first housing, 2, a second closed space is formed between the second housing and the first housing while the first housing is mounted on the housing, and a fluid supply unit for supplying a fluid having a predetermined pressure to the first closed space or the second closed space, Device; And a pressure measuring device for measuring the pressure of the first closed space or the second closed space.

According to an aspect of the present invention, there is provided a leakage testing method comprising: providing a first housing and a second housing capable of being coupled to the first housing; Mounting a component on the first housing to form a first closed space between the first housing and the component; Mounting the second housing on the first housing to form a second closed space between the first housing and the second housing; Supplying a fluid to the first closed space or the second closed space; And measuring the pressure of the first closed space or the second closed space.

The leakage test method may further include comparing the measured pressure of the first closed space or the second closed space with a reference leakage pressure.

The leakage test method may further include calculating a gas amount through the measured pressure of the first closed space or the second closed space to calculate a leakage ratio (%) which is a ratio of the amount of the leaked gas to the initial gas amount .

The step of measuring the pressure of the first closed space or the second closed space may be performed at least once at a predetermined time interval.

In mounting the component in the first housing, at least one component is mounted on the first housing, and at least one first closed space may be formed between the first housing and the component.

The leakage test method may further include sealing the opening formed in the component with a sealing structure before or after the step of mounting the component in the first housing.

In the step of mounting the second housing, the second housing may perform a planar movement, a vertical movement, or a planar and vertical movement to form a closed space with the first housing.

In the step of mounting the second housing, the second housing can press the first housing and the parts mounted thereon.

The leakage testing method may further include disposing a first elastic body or a second elastic body in a contact area between the first housing and the second housing or the component.

The step of supplying fluid to the first enclosed space or the second enclosed space may include supplying fluid to the first enclosed space and the second enclosed space, respectively.

The step of measuring the pressure of the first closed space or the second closed space may include measuring the pressure of the first closed space and the pressure of the second closed space, respectively.

In the actual product or finished product condition, the leakage occurs due to the transfer of pressure from the outside to the inside. According to various embodiments of the present invention, the leakage test can be performed by applying pressure in the same direction. Accordingly, it is possible to provide a leak test apparatus and a leakage test method capable of improving the accuracy of the leak test.

However, according to the embodiment of the present invention, it is possible to provide a closed space for generating leakage pressure and a plurality of closed spaces for measuring leakage, The leakage test of the parts can be carried out at the same time. Accordingly, leakage tests of a plurality of parts or multiple parts can be performed at the same time, thereby providing a leak test apparatus and a leakage test method that can more efficiently perform a leak test.

According to various embodiments of the present invention, it is possible to provide a leak test apparatus and a leak test method capable of conducting a leak test at a desired time interval and a desired number of times so that more reliable, highly flexible, and efficient leak test can be performed have.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a leakage test apparatus according to the prior art; FIG.
2 is a view schematically showing a leakage test apparatus according to an embodiment of the present invention.
3 is a view schematically showing a leakage test apparatus according to another embodiment of the present invention.
4A to 4C are process flow charts illustrating a leakage test method according to an embodiment of the present invention.
5A to 5E are views schematically showing a leakage test apparatus according to another embodiment of the present invention.
6 is a block diagram illustrating a leakage testing method in accordance with an embodiment of the present invention.
7 is a block diagram showing a leakage test method according to another embodiment of the present invention.

Hereinafter, a leakage test apparatus according to various embodiments of the present invention and a leakage test method using the same will be described in detail with reference to FIGS. 2 to 7.

2 is a view schematically showing a leakage test apparatus according to an embodiment of the present invention.

Referring to FIG. 2, the leakage testing apparatus 2 according to an embodiment of the present invention includes a first housing 100 and a second housing 110, which are coupled to each other to form a closed space, A fluid supply device 130 and a pressure measurement device 140 are connected.

According to the leakage test apparatus 2 according to the embodiment of the present invention, the component T or the product is mounted between the first housing 100 and the second housing 110, A second closed space S ₂ to be connected and a first closed space S ₁ to be connected to the pressure measurement device 140 are formed.

The first housing 100 is formed to be coupled with the second housing 110 and the component T to be tested to form a closed space. More specifically, the first housing 100 and the second housing 110 are combined to form a second closed space S ₂ , and the first housing and the component T are coupled to each other to form a first closed space S ₁ ) can be formed.

Further, to the first housing 100 it is provided with a second closed space (S ₂₎ to be formed such that the fluid supply device 130 is connected, the first closed space (S _1), a pressure measuring device 140 connected to the .

Accordingly, the leakage test apparatus 2 according to the embodiment of the present invention supplies the fluid pressure to the second closed space S ₂ , and supplies the fluid pressure to the first sealed space S ₂ formed between the component T and the first housing 100. And is configured to measure the pressure in the closed space S ₁ .

In other words, in consideration of the fact that the actual leakage pressure is applied to the first closed space S ₁ , the leakage test apparatus 2 according to the embodiment of the present invention has the first into the closed space (S ₁₎ (i.e., a second closed space (S ₂₎ into the first closed space (S ₁₎ in a) applying a fluid pressure may be carried out a leak test. Accordingly, the error of the leakage test can be reduced.

The second housing 110 may be formed to press the first housing 100 and the component T mounted thereon and the second housing 110 may be configured to press the first housing 100 and the second housing 100, can be formed (S ₂₎ and to press the first sealing space (S ₁₎ between the second housing 110, part (T) and the first housing 100 by.

According to an embodiment of the present invention, the second housing 110 may be formed to move in various directions to press the second housing 110 and the component T. If necessary, a leak test of the side sealed space or bottom sealed space of the product should be performed, and therefore, it may be formed to perform a plane movement, a vertical movement, or a planar and vertical movement depending on the position of the closed space of the product.

According to an embodiment of the present invention, the second housing 110 may be connected to the pressurizing cylinder 120. Accordingly, it is possible to perform a planar movement, a vertical movement or a planar and vertical movement by the pressurizing cylinder 120 and be formed to press the first housing 100 or the component T. [

According to an embodiment of the present invention, the component T may be a component T or a component T, which may be a target for testing whether the waterproof performance of the component T or the finished product unit is implemented, I can belong. The component T may be mounted on the first housing 100 to form a first enclosed space S ₁ between the first enclosure 100 and the first enclosure 100 and the pressure of the first enclosed space S ₁ Leakage test can be done through measurement.

The first elastic body 115 or the second elastic body 105 is disposed in the contact area of the second housing 110 or the component T coupled to the first housing 100 .

The first and second elastic members 115 and 105 are formed to be compressed by a force transmitted directly or indirectly from the second housing 110. The first and second elastic spaces 115 and 105 are formed in the first and second closed spaces S ₁ and S ₂ , . According to an embodiment of the present invention, a compression seal may be used for the first and second elastic members 115 and 105, although not limited thereto.

Referring to FIG. 4B, according to an embodiment of the present invention, an opening H may be formed in the component T for various purposes. Accordingly, the leakage testing apparatus according to an embodiment of the present invention may further include a sealing structure 117 for sealing an opening formed in the component T for an effective leakage test. For example, the sealing structure 117 may be formed in the shape of a cap made of a material having elasticity.

Although not shown in the drawing, the sealing structure 117 may be connected to the first housing 100 or the second housing 110, but is not limited thereto. The sealing structure 117 may seal the opening H of the component T before or after mounting the component T on the first housing 100. [

According to an embodiment of the present invention, a fluid supply device 130 connected to the first housing 100 by the second closed space S ₂ may be formed. According to one embodiment of the invention the fluid supply 130 may be a fluid valve that can control the flow of fluid supplied to the second closed space (S _2).

According to an embodiment of the present invention, the fluid supplied to the first closed space S ₁ for the leakage test may be various types of fluids such as gas or liquid. Preferably, a gas capable of indirectly testing for leakage without damaging the product may be used, and a gas supply and shutoff valve may be used as the fluid supply device 130.

In addition, a pressure measuring device 140 connected to the first housing 100 in the first closed space S ₁ may be formed. By measuring the pressure in the first closed space S ₁ , it is possible to measure whether or not the leakage occurs in accordance with the pressure applied in the same direction as the direction in which the actual leakage pressure is applied. Thereby allowing a more accurate leak test to be performed.

3 is a schematic view of a leakage test apparatus 3 according to another embodiment of the present invention.

According to another embodiment of the present invention, the leakage test apparatus 3 may be provided with at least one first closed space S _1a , S _1b , S _1c . One or more pressure measuring devices 141, 142 and 143 connected to the respective first closed spaces S _1a , S _1b and S _1c may be formed in the first housing 100 have.

Each of the first closed spaces S _1a , S _1b and S _1c is formed by one or more products T ₁ , T ₂ and T ₃ which are respectively engaged with the first housing 100, 100) a second closed space (S ₂₎ and each of the first closed space _{(S 1a, S 1b, S} 1c and the formed by the second housing 110) are adjacent to each other. Accordingly, when the fluid is supplied to the second closed space S ₂ , the same amount of pressure in the same direction as the leakage pressure is applied to each of the first closed spaces S _1a , S _1b , and S _1c . Therefore, by measuring the pressures of the respective first closed spaces S _1a , S _1b and S _1c , it becomes possible to simultaneously carry out the leakage test of one or more products T ₁ , T ₂ and T ₃ .

Accordingly, the leakage test apparatus 3 according to the embodiment of the present invention can perform leak test of one or more products through one leak test. That is, it is possible to shorten the leakage test time, and it is possible to increase the test efficiency by performing the test of several products together in one test.

In the embodiment of FIG. 3, a plurality of products form a plurality of first closed spaces S _1a , S _1b , and S _1c . However, the present invention is not limited thereto, and a plurality of components T It is of course possible to form the first closed space of the first embodiment.

4A to 4C are process flow charts illustrating a leakage test method according to an embodiment of the present invention.

4A, a leakage testing method according to another embodiment of the present invention includes a first housing 100 connected to a fluid supply device 130 and a pressure measurement device 140, and a second housing 110 coupled to the first housing 100 And a leak test apparatus including the leak test apparatus.

Since the fluid supply device 130 and the pressure measurement device 140 are supplied as separate flow paths and are supplied to the separate closed spaces as described above, The leakage test can be performed by applying pressure in the same direction as the losing direction.

4B, a leakage test method according to an exemplary embodiment of the present invention includes mounting a component T on the first housing 100 to press the component T between the first housing 100 and the component T, And forming a first closed space S ₁ connected to the measuring device 140.

When the opening T is formed in the component T as described above, the step of sealing the component T with the sealing structure 117 before or after the component T is mounted on the first housing 100 .

In the step of mounting the component T on the first housing 100, at least one component T is mounted on the first housing 100 and the component T is mounted between the first housing 100 and the component T. At least one first closed space S ₁ connected to the pressure measuring device 140 may be formed.

Accordingly, it is possible to measure the leakage of one or more parts T through one leakage test, and to perform a more efficient and reliable leakage test.

4C, a leakage testing method according to an embodiment of the present invention includes mounting the second housing 110 on the first housing 100 and mounting the second housing 110 on the first housing 100 and the second housing 100 between 110) and forming a second closed space (S ₂₎ coupled to the fluid supply device 130.

In the step of mounting the second housing 110, the second housing 110 can press the first housing 100 and the component T mounted thereon. The second housing 110 is connected to the pressurizing cylinder 120 and is configured to press the first housing 100 or the component T. The second housing 110 is connected to the pressurizing cylinder 120, In the vertical direction, in the horizontal direction, or in the vertical and horizontal directions, thereby forming a closed space.

Accordingly, it is possible to provide a sealed space formed in a direction perpendicular to the component T, a leak test apparatus capable of testing leakage of a closed space formed in a horizontal direction, or a leakage test method.

According to an embodiment of the present invention, a first elastic body 115 or a second elastic body 105 (see FIG. 2 (a)) is provided in a contact area between the first housing 100 and the second housing 110 or the component T, (Refer to FIG. That is, the second elastic body 105 can be disposed in advance in the first housing 100 before the component T is mounted to further reinforce the seal between the component T and the first housing 100, The sealing of the first housing 100 and the second housing 110 can be further reinforced by arranging the first elastic body 115 in advance in the first housing 100 before the housing 110 is mounted.

Thereafter, a step of supplying fluid to the second closed space S ₂ and measuring a pressure of the first closed space S ₁ are included.

The second closed space (S ₂₎ has a predetermined amount of fluid can be supplied. The second is the amount of fluid can be supplied pre-set to the closed space to form the desired degree of pressure to the (S _2). That is, the user may adjust the leakage test pressure by controlling the amount of fluid that is introduced into the second closed space (S _2). As a result, testing can be performed under various leakage conditions.

It was added to the second pressure in the closed space (S ₂₎ to supply the fluid components in the same direction as the direction to be applied to the leakage pressure (T) may be carried out a leak test. The test is performed in the same direction as the direction in which the leakage pressure is applied in the case of the present invention as compared with the conventional technique in which the test is conducted in the direction opposite to the direction in which the leakage pressure is applied.

According to one embodiment of the present invention, the fluid may be a liquid or a gas, but preferably a gas which may be less damaging to the product may be used and is not necessarily limited thereto.

The step of measuring the pressure of the first closed space (S ₁ ) may be performed at least once at the set time. The user can set the desired set time and proceed with the leak test, and can perform the leak test for the desired number of times.

According to an embodiment of the present invention, the leakage test can be performed twice by setting the initial set time and the late set time. That is, since a vortex can be formed around the component T immediately after the fluid is introduced into the second closed space S ₂ , the initial leak test can proceed after a predetermined set time (initial set time) has elapsed. In order to check whether leakage occurs after a relatively long time, a later leak test may be performed after a predetermined time (late setting time) has elapsed. Accordingly, it becomes possible to perform a leakage test under various conditions.

And comparing the measured pressure of the first closed space S ₁ with a predetermined reference leakage pressure. The reference leak pressure data corresponding to the initial set pressure can be secured in advance as the reference leak pressure for the leak test. According to the embodiment of the present invention, the reference leakage pressure data according to the time with respect to the initial set pressure can be secured and used in advance.

Thereby, it is possible to compare the reference leak pressure data with the actual measured pressure data according to the elapsed time. For example, when the actual measured pressure data is smaller than the reference leaked pressure data, the leakage does not occur and the normal part or product can be determined. If the actual measured pressure data is larger than the reference leaked pressure data, leakage occurs, Or a product.

According to an embodiment of the present invention, the amount of gas can be calculated through the measured pressure of the first closed space S ₁ and compared with the leak rate (%) which is the ratio of the amount of the leaked gas to the initial amount of gas . For example, the amount of gas is calculated using the measured pressure and the volume value in the first closed space S ₁ , and the amount of leaked gas in accordance with the leaked pressure with respect to the initial amount of gas is calculated to calculate the leak rate (%) It is also possible to quantify the degree of leakage of the component (T) or the product.

According to one embodiment of the invention, and mubang pressure measuring device 140 it is not necessarily connected to the first housing 100, a first closed space (S ₁₎ and / or the second closed space (S ₂₎ Any form capable of measuring pressure can be used, for example, a pressure measuring sensor. These modified embodiments will be described below with reference to the drawings.

5A to 5E are views schematically showing a leakage test apparatus according to another embodiment of the present invention.

The leakage test apparatus shown in Figs. 5A to 5D differs from the leakage test apparatus shown in Fig. 4C in that the connection position or the number of the fluid supply apparatus 130 and the pressure measurement apparatus 140 are different, Will be mainly described.

First Referring to Figure 5a, the fluid supply device 130 to the group provides a fluid of predetermined pressure in the first enclosed space (S _1), pressure measuring device 140 has a second pressure change in the closed space (S ₂₎ . Since the internal environmental conditions of the first closed space S ₁ and the second closed space S ₂ are in a controlled state, the pressure in the second closed space S ₂ can be calculated in advance or can be measured. Accordingly, a pressure change in the second closed space (S ₂₎ the pressure information based on the first closed space due to the pressure preset provided by (S ₁₎ the fluid a second closed space (S ₂₎ to know in advance As a result of measurement, it is possible to confirm whether or not the component T has leaked. That is, when a leak occurs in the part (T), a second closed space (S _2), because the pressure change occurs can be confirmed whether or not the leakage of the component (T) and senses the pressure in the measuring apparatus 140. The

Next, referring to FIG. 5B, both the fluid supply device 130 and the pressure measurement device 140 are connected to the first closed space S ₁ . In this case, it is possible to minimize the change in the external environment of the component T which is subjected to the leakage test due to the second closed space S ₂ formed by the second housing 110, so that the pressure inside the component T The measurement reliability of the pressure measuring device 140 for measuring the change can be improved.

Next, referring to FIG. 5C, both the fluid supply device 130 and the pressure measurement device 140 are connected to the second closed space S ₁ . Since the internal environmental conditions of the first closed space S ₁ and the second closed space S ₂ are in a controlled state, the pressure in the second closed space S ₂ can be calculated in advance or can be measured. Accordingly, a pressure change in the second closed space (S ₂₎ on the basis of the pressure information, the second closed space (S ₂₎ caused by the group of fluid pressure is set that is provided in the second closed space (S ₂₎ to know in advance As a result of measurement, it is possible to confirm whether or not the component T has leaked. In this case, the leakage test apparatus can confirm whether or not the component T leaks from the outside to the inside.

5d, the fluid supply devices 130a and 130b and the pressure measurement devices 140a and 140b are connected to both the first closed space S ₁ and the second closed space S ₂ . In this case, since the pressure changes of the inside and outside of the component T can be sensed through the pressure measuring devices 140a and 140b, the measured values of the pressure measuring devices 140a and 140b are compared with each other, Precision can be improved. Since the fluid supply devices 130a and 130b are disposed both inside and outside the component T, it is possible to perform a leakage test for various pressure conditions that may occur during actual use of the component T, T) and the leakage test from the outside to the inside of the component (T) can be carried out.

Next, Fig. 5E differs from Fig. 4C in that the pressurizing cylinder 120 and the second housing 110 are not connected. The second housing 110 may not necessarily be connected to the pressurizing cylinder 120. The pressurizing cylinder 120 may serve only as a press against the second housing 110 and the user may directly adjust the position of the second housing 120 . ≪ / RTI >

6 and 7, a leakage test method according to various embodiments of the present invention will now be described.

6 is a block diagram illustrating a leakage testing method in accordance with an embodiment of the present invention.

According to an embodiment of the present invention, after the leakage test apparatuses 2 and 3 as described above are provided, the first enclosed space S ₁ is formed by mounting the component T on the first housing 100 (S10). According to one embodiment of the present invention, the component T can be sealed with a sealing structure before or after the component T is mounted on the first housing 100. [

Further, the it is possible to form a second closed space (S ₂₎ to mount a second housing 110 to the first housing (100) (S11). Thereafter, fluid may be supplied to the first closed space S ₁ and / or the second closed space S ₂ to form a predetermined leak pressure (S12). Then, the pressure of the first closed space S ₁ and / or the second closed space S ₂ can be measured (S13). If one or more parts T are mounted on the first housing 100, the pressure of the first closed space S ₁ can be measured for each component, You can proceed at the same time.

After measuring the pressure in the first enclosed space S ₁ and / or the second enclosed space S ₂ , the measured pressure may be compared with a pre-established reference leak pressure (S 14). If the measured pressure is equal to or lower than the reference leakage pressure, it is determined to be a normal product (S20). However, if the measured pressure exceeds the reference leakage pressure, it is determined to be a defective part (S21) and discarded.

7 is a block diagram illustrating a leakage test method according to another embodiment of the present invention.

According to another embodiment of the present invention, after the leakage test apparatuses 2 and 3 as described above are provided, the first enclosure space S ₁ is formed by mounting the component T on the first housing 100 (S10). Further, the it is possible to form a second closed space (S ₂₎ to mount a second housing 110 to the first housing (100) (S11). Thereafter, fluid may be supplied to the first closed space S ₁ and / or the second closed space S ₂ to form a predetermined leak pressure (S12).

According to another embodiment of the present invention, one or more leakage tests can be performed at predetermined time intervals.

Specifically, according to an embodiment of the present invention, the pressure of the first closed space S ₁ and / or the second closed space S ₂ can be measured at a first set time (S13 ₁ ). Then, the pressure of the measured first closed space S ₁ and / or the second closed space S ₂ is compared with the reference leakage pressure (S14 ₁ ), and if it is determined that the product is normal, the test can be continued If it is determined that the product is defective, the product may be discarded (S21).

If it is determined that the product is a normal product, the pressure of the first closed space (S ₁ ) and / or the second closed space (S ₂ ) is measured at a predetermined time interval to determine whether the product is defective .

For example, by measuring the pressure of the first closed space S ₁ and / or the second closed space S ₂ at the n-th set time in the n-th test, S13n), the first enclosed space (S ₁₎ and / or the second closed space (S ₂₎ to the measured pressure and a reference leak pressure comparison (S14n) to normalcy (S20), and are not defective (S21) of the product of It is possible to distinguish the normal product.

The user can set the desired number of times and the desired time to proceed with the test, thereby providing a leak testing method with high application flexibility and high reliability.

100: first housing
110: second housing
120: pressure cylinder
130: fluid supply device
140: Pressure measuring device
S ₁ : first closed space
S ₂ : the second sealed space
T: Parts

Claims (23)

A first housing on which a component to be leak tested is mounted; And
And a second housing which houses the part inside and engages with the first housing,
A first enclosure is formed between the first housing and the component while the component is mounted on the first housing,
A second housing space is formed between the second housing and the first housing while the first housing is mounted on the second housing,
A fluid supply device for supplying a fluid having a predetermined pressure to the second closed space; And
Further comprising a pressure measuring device for measuring the pressure of the first closed space,
Characterized in that the fluid supply device is connected to the first enclosed space and the second enclosed space, respectively, and each of the fluid supply devices supplies a fluid having a predetermined pressure to the first enclosed space and the second enclosed space Test device. delete The method according to claim 1,
Wherein the pressure measuring device is connected to the first enclosed space and the second enclosed space, respectively, and each pressure measuring device measures the pressure of the first enclosed space and the second enclosed space. The method according to claim 1,
Wherein the pressure measuring device is a pressure measuring sensor. The method according to claim 1,
And said second housing is mounted to press said first housing and said part mounted thereon. The method according to claim 1,
Wherein the second housing is pressed by a pressurizing cylinder so that the first housing or the component is also pressurized. The method according to claim 6,
And said second housing is connected to said pressure cylinder. The method according to claim 1,
Wherein the second housing forms a closed space between the first housing and the first housing by performing a planar movement, a vertical movement, or a planar and vertical movement. The method according to claim 1,
And one or more parts are mounted on the first housing to form at least one first closed space. The method according to claim 1,
Wherein a first elastic body or a second elastic body is disposed in a contact area between the first housing and the second housing or the component. The method according to claim 1,
Further comprising a sealing structure for sealing the opening formed in the component. A first housing on which a terminal to which a waterproof adhesive is applied is mounted; And
And a second housing which houses the terminal inside and engages with the first housing,
A first enclosure is formed between the first housing and the terminal while the terminal is mounted on the first housing,
A second housing space is formed between the second housing and the first housing while the first housing is mounted on the second housing,
A fluid supply device for supplying a fluid having a predetermined pressure to the second closed space; And
Further comprising a pressure measuring device for measuring the pressure of the first closed space,
Characterized in that the fluid supply device is connected to the first enclosed space and the second enclosed space, respectively, and each of the fluid supply devices supplies a fluid having a predetermined pressure to the first enclosed space and the second enclosed space Test device. Providing a first housing and a second housing engageable with the first housing;
Mounting a component on the first housing to form a first closed space between the first housing and the component;
Mounting the second housing on the first housing to form a second closed space between the first housing and the second housing;
Supplying a fluid to the first closed space or the second closed space; And
Measuring a pressure of the first enclosed space or the second enclosed space,
Further comprising the step of calculating a gas amount through the measured pressure of the first closed space or the second closed space to calculate a leakage ratio (%) which is a ratio of the amount of the leaked gas to the initial gas amount Way. 14. The method of claim 13,
And comparing the measured pressure of the first enclosed space or the second enclosed space with a reference leakage pressure. delete 14. The method of claim 13,
Wherein measuring the pressure of the first closed space or the second closed space comprises:
Wherein the leakage test is performed at least once at predetermined time intervals. 14. The method of claim 13,
In mounting the component in the first housing,
Wherein at least one component is mounted on the first housing, and at least one first enclosed space is formed between the first housing and the component. 14. The method of claim 13,
Before or after the step of mounting the component in the first housing,
Further comprising the step of sealing the opening formed in said part with a sealing structure. 14. The method of claim 13,
In mounting the second housing,
Wherein the second housing forms a closed space between the first housing and the first housing by a plane movement, a vertical movement, or a plane and vertical movement. 14. The method of claim 13,
In mounting the second housing,
And the second housing presses the first housing and the component mounted thereon. 14. The method of claim 13,
Further comprising the step of disposing a first elastic body or a second elastic body in a contact area between the first housing and the second housing or the component. 14. The method of claim 13,
Wherein supplying the fluid to the first enclosed space or the second enclosed space includes supplying fluid to each of the first enclosed space and the second enclosed space. 14. The method of claim 13,
Wherein the step of measuring the pressure of the first closed space or the second closed space includes measuring the pressure of the first closed space and the pressure of the second closed space, respectively.

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