KR101489789B1 - Leak inspection apparatus using pressure-difference and leak inspection method - Google Patents

Abstract

The present invention relates to a jig for fixing an object to be inspected, a compressed air injection unit for applying compressed air to the inspection area between the jig and the inspection object, And a leakage detecting portion for detecting whether or not the object to be inspected is leaked, characterized by comprising: a differential pressure type leakage inspection device And a control unit is provided to minimize the temperature change at the time of leakage inspection and reduce the air leakage deviation to improve detection reliability and detection accuracy.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a differential pressure leak detector,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a leakage inspection apparatus and a leakage inspection method for checking the presence or absence of leakage of various containers and the like, and more particularly to a differential pressure type leakage inspection apparatus and a leakage inspection method.

BACKGROUND ART [0002] Conventionally, when a product or a part requiring leakage prevention is produced, it is determined whether or not the product is leaking on the production process line to determine whether or not the product is defective. Particularly, sealing in a component using a working fluid is a very important factor in terms of prevention of aging of component parts and failure prevention. For example, when leakage occurs in a finished vehicle to which an automotive component using a working fluid is applied, There arises a problem that the operation itself becomes impossible. Therefore, when a liquid such as water is used for a part of the automobile parts where a working fluid is used, a leakage test is carried out on the production line. In the case of using a liquid such as water, , The leakage test is normally conducted using air. Particularly, as standards for the air leakage allowance have recently been strengthened, for example, in the case of a water pump, the standard that was less than 8 cc / min under the air pressure of 1.5 bar was strengthened to 1 cc / min or less under the same air pressure condition Trend.

On the other hand, the air leakage test for automobile parts uses a flow rate type or a differential pressure type. Since the seal area is wide and the leakable area is many, it is difficult to install the flow meter. do. Fig. 1 shows a block diagram of a differential pressure leak test apparatus currently in use. 1, a differential pressure type leakage test currently used for automobile parts is generally performed by placing a final product on the leakage inspection jig and then inspecting the inspection area (hereinafter referred to as " inspection area ") formed between the final product 22 and the jig 21. [ 23 is injected with compressed air at a pressure of typically 1.5 bar through the compressed air injection unit 10. A pressure difference from the initial pressure is checked after a predetermined time has elapsed through the leakage detection unit 30 while the compressed air in the inspection region 23 is maintained at a predetermined pressure at the start of the inspection, The control unit of the tester converts the air leakage amount through a constant conversion formula. The converted air leakage amount value is compared with a reference value, and if the reference value is greater than or equal to the reference value, it is determined that the air leakage amount is defective.

Meanwhile, in the case of air used in the conventional pressure-type air leakage test, the compressed air is introduced into the inspection region inside the sealed jig by using a compressor. Compressed air is higher than the initial temperature in the compression process, The temperature of the compressed air inside the jig changes according to the external environment such as seasonal factors, and in this case, serious problems occur in detection accuracy and detection reliability. Further, in some cases, a defective product flows out, which causes a rise in quality cost, or a defective product is mistaken as a defective product, thereby raising a loss cost.

And a leakage inspection method and a leakage inspection method that can accurately determine whether or not to leak an object to be inspected so that the reliability of the leakage inspection result can be improved.

In order to investigate the effect of the temperature change of the compressed air inside the jig on the detection result in the differential pressure air leakage test, the inventors of the present invention derive the conversion equation for calculation of the air leakage amount considering the temperature change of the compressed air as follows.

……(1)

... ... (One)

In the equation (1), V ₁ is the volume in the inspection region, γ is the density of the compressed air, T ₁ is the temperature of the compressed air in the inspection region at the start of the inspection, T ₂ is the temperature of the compressed air in the inspection region at the end of the inspection, ₁ is the pressure of the compressed air in the inspection area at the start of the inspection, P ₂ is the pressure of the compressed air in the inspection area at the end of the inspection, and t is the inspection time.

As a result, the inventors of the present invention have made the following conclusions as a method for reducing the leakage amount variation according to the temperature change of the compressed air in the inspection region.

(A) In order to increase the accuracy of the leakage amount calculation, it is necessary to provide a temperature sensor in the inspection area and to provide a temperature holding device so that the air temperature in the inspection area changes within 0.1 deg. In particular, the temperature of the compressed air in the inspection area should be as close as possible to the room temperature around the leak testing device so as to minimize the temperature change of the compressed air in the inspection area.

(B) The temperature within the inspection area must be constantly maintained for the detection time, so that the temperature sensors disposed in the inspection area are arranged on diagonal lines to check whether the temperature distribution is constant within the inspection area.

(C) The volume of the inspection area should be minimized and the inspection time should be maximized so as to minimize the influence of the temperature change.

According to another aspect of the present invention, there is provided a differential pressure leak detector comprising: a jig for fixing an object to be inspected; compression means for applying compressed air to the inspection region between the jig and the object to be inspected; And a leak detecting portion for detecting whether or not the inspected object is leaked, characterized in that a compressed air temperature regulating portion for regulating the temperature of the compressed air is provided between the jig and the compressed air injecting portion .

Preferably, the compressed air temperature regulator further comprises: an air bomb that stores compressed air for a predetermined period of time before transferring the compressed air from the compressed air injection unit into the inspection area of the jig; And a first temperature sensor for measuring the temperature of the compressed air stored in the air cylinder.

Preferably, the differential pressure leak inspection apparatus according to the present invention further comprises a second temperature sensor for measuring the outside air temperature and a third temperature sensor for measuring the temperature of the compressed air in the inspection area do.

Preferably, the third temperature sensor is composed of a plurality of temperature sensors, and each of the temperature sensors is disposed in the jig so as to face each other on a diagonal line.

Preferably, at least one cooling fin is formed on the outer surface of the air cylinder.

Preferably, the air cylinder is provided with at least one thermoelectric element to control the temperature of the compressed air inside the air cylinder.

Preferably, the thermoelectric element further comprises a heat sink and a fan capable of being driven toward the heat sink.

Preferably, the leakage detecting unit includes: a differential pressure sensor that senses a change in pressure of the compressed air filled in the inspection region between the test object and the jig; a change in pressure of the fluid sensed by the differential pressure sensor; And a control unit for determining whether the object to be inspected has leaked according to a temperature change of the compressed air filled therein.

Preferably, the control unit calculates a leakage amount of the subject by the following expression (1), and, when the calculated leakage amount is equal to or larger than the set value, determines that there is leakage in the subject.

……식(1)

... ... Equation (1)

In the equation (1), V ₁ is the volume in the inspection region, γ is the density of the compressed air, T ₁ is the temperature of the compressed air in the inspection region at the start of the inspection, T ₂ is the temperature of the compressed air in the inspection region at the end of the inspection, ₁ is the pressure of the compressed air in the inspection area at the start of the inspection, P ₂ is the pressure of the compressed air in the inspection area at the end of the inspection, and t is the inspection time.

Preferably, the differential pressure leak inspection apparatus according to the present invention is characterized by comprising a compressor for compressing air and a regulator for regulating the pressure of the compressed air.

In order to solve the above problems, the present invention provides a differential pressure leak inspection method, comprising: storing compressed air so that an air pressure inside an air cylinder has a first pressure value; Adjusting the temperature of the compressed air stored in the air cylinder to satisfy a first temperature value; Injecting the compressed air stored in the air cylinder into a test region formed between the jig and the test subject; And detecting a change in the pressure value and the temperature value of the compressed air inside the inspection area to determine whether the inspection object has leaked.

Advantageously, the step of storing compressed air in the air cylinder comprises compressing air using a compressor; Regulating the pressure of the compressed air using a regulator; Transferring the pressurized compressed air to an air bomb, and determining whether the pressure inside the air bomb reaches a first pressure.

Preferably, the step of injecting the compressed air stored in the air cylinder into the inspecting area may include stopping the injection of the compressed air if the pressure of the compressed air inside the inspecting area satisfies the first pressure value And further comprising:

Preferably, the step of determining leakage of the test object includes: measuring a pressure value and a temperature value of compressed air in the inspection area; Measuring a change in pressure and temperature of the compressed air inside the inspection area after a predetermined time has elapsed; Calculating an air leakage amount of the subject using the pressure and temperature change values of the compressed air inside the inspection region; And determining that leakage has occurred in the subject if the calculated air leakage amount is equal to or greater than a set value.

Preferably, the first temperature value is within an error range of ± 1 ° C based on a temperature value inside the space in which the leakage testing device is installed.

Preferably, the step of calculating the air leakage amount of the test subject is characterized by calculating the air leakage amount of the test subject by the following formula (1).

……식(1)

... ... Equation (1)

In the equation (1), V ₁ is the volume in the inspection region, γ is the density of the compressed air, T ₁ is the temperature of the compressed air in the inspection region at the start of the inspection, T ₂ is the temperature of the compressed air in the inspection region at the end of the inspection, ₁ is the pressure of the compressed air in the inspection area at the start of the inspection, P ₂ is the pressure of the compressed air in the inspection area at the end of the inspection, and t is the inspection time.

Preferably, the step of adjusting the temperature of the compressed air stored inside the air cylinder to satisfy the first temperature value may be performed by using natural convection so that the temperature of the compressed air stored inside the air cylinder becomes a first temperature value And a step of allowing the sample to stand for a predetermined period of time so as to satisfy a predetermined condition.

Preferably, the step of adjusting the temperature of the compressed air stored in the air cylinder to satisfy the first temperature value may be performed by using a thermoelectric element provided in the air cylinder so that the temperature of the compressed air stored in the air cylinder And adjusting the temperature of the compressed air so as to satisfy the first temperature value.

According to the differential pressure type air leakage test apparatus and the differential pressure type air leakage test method according to the present invention, the inspection range is minimized and the change in the temperature of the compressed air during the inspection time is minimized to reduce the air leakage deviation, Can be improved. In addition, it has an effect of minimizing the quality cost and reducing the cost by decreasing the error that determines the outflow of the defective part and the defective product.

1 is a block diagram showing a conventional differential pressure leak test apparatus.
FIG. 2 is a block diagram showing a differential pressure type leak auditing apparatus according to the present invention. FIG.
3 is a block diagram showing a differential pressure leak test apparatus according to another embodiment of the present invention.
4 is a flowchart showing a differential pressure leak test method according to the present invention.

Calculation method of air leakage amount considering temperature change

First, a derivation process of the conversion formula used in the leakage inspection method and the leakage inspection apparatus according to the present invention will be described. In the present invention, the compressed air to be used is set as an ideal gas in the inspection region, so that the compressed air in the inspection region satisfies the following ideal gas state equation.

……식(2)

... ... Equation (2)

Where P is the pressure of the gas, V is the volume of the gas, m is the mass of the gas, R is the gas constant, and T is the absolute temperature.

Therefore, the mass m of the gas can be expressed by the following equation (3).

……식(3)

... ... Equation (3)

Here, when the both sides are differentiated with respect to time, the volume in the inspection area is constant with respect to the change of time, and can be expressed as the following equation (4).

……식(4)

... ... Equation (4)

When integrating both sides of the equation (4) with respect to time, the volume in the inspection region is V1, the temperature in the inspection initial jig is T1, the pressure in the inspection initial jig is P1, the temperature in the jig is T2 , The pressure in the jig is P2, the change amount of the pressure when the time t elapses is DELTA P, and the change amount of the temperature is DELTA T, the following expression (5) can be obtained.

……식(5)

... ... Equation (5)

Therefore, the leakage amount per unit time is as follows.

……식(6)

... ... Equation (6)

…식 (7)

... Equation (7)

Table 1 shows the calculation results in the conversion equation that takes into account the temperature change of the compressed air when the allowed air leakage amount is 1 cc / min using the above equation. As shown in Table 1, when the allowable air leakage amount is less than 1 cc / min, the indicated air leakage amount when the test compressed air has risen 5 ° C compared to the case where the temperature of the compressed test air is equal to the jig temperature (Case 3) (Case 4), and when the temperature drops by 5 ° C, the indicated air leakage increases by about 1 cc / min (Case 5).

Exam conditions Case 1 Case 2 Case 3 Case 4 Case 5 Allowed Leakage 8cc / min 1cc / min 1cc / min 1cc / min 1cc / min Inspection volume (V1) 200cc 200cc 200cc 200cc 200cc Test pressure (P1) 1.5 bar 1.5 bar 1.5 bar 1.5 bar 1.5 bar Initial temperature (T1) 298K 298K 298K 298K 298K Detection time (t) 5sec 5sec 5sec 5sec 5sec After detection time is completed pressure 1.3bar 1.475 bar 1.495 bar 1.495 bar 1.495 bar Temperature 298K 298K 298K 303K 293K Leakage 7.77cc / min 0.971cc / min 0.194cc / min -0.767cc / min 1.188cc / min

Therefore, in order to improve the detection accuracy, it is necessary to keep the temperature of the inspection region in the jig constant during the detection time. Hereinafter, a leakage inspection apparatus according to a preferred embodiment of the present invention, which can maintain the temperature of the inspection area in the jig constant during the detection time, will be described.

Leak detector

FIG. 2 illustrates a differential pressure type leak testing apparatus according to a preferred embodiment of the present invention. 2, the differential pressure type leakage inspection apparatus according to the present invention includes a compressed air injection unit including a compressor 11 and a regulator 12, and a compressed air injection unit including an air cylinder 31, a first temperature sensor 33, A pressure sensor 41 for measuring the pressure inside the jig 21, and a control unit 42. The pressure sensor 41 measures the temperature of the compressed air, .

The compressed air injection unit includes a compressor (11) and a regulator (12). The compressor 11 applies pressure to the gas to generate compressed air, and the regulator 12 adjusts the compressed air to the air pressure necessary for the leak test and transfers it to the air cylinder 31. [ In the case of a large compressor used in an operation line, it is preferable to use a separate small compressor when the temperature of the compressed air is likely to change due to excessive air compression.

The compressed air that has passed through the regulator 12 is injected into the air cylinder 31 and the injection of the compressed air proceeds until the pressure inside the air cylinder 31 reaches the air pressure required for the leak test. The air cylinder 31 temporarily stores compressed air therein, and has a temperature controller to control the temperature of the stored compressed air to satisfy a predetermined temperature range.

On the other hand, on the outer surface of the air cylinder 31 shown in Fig. 2, at least one cooling fin 32 is formed. The cooling pin 32 increases the efficiency of thermal conduction between the air cylinder 31 and the outside air to increase the temperature of the compressed air inside the air cylinder 31 by a natural convection within a predetermined range, And so on. Therefore, in the leakage inspection apparatus according to the present invention, the compressed air stored in the air cylinder 31 is left for a predetermined time, so that the temperature of the compressed air can be adjusted to have substantially the same value as the outside air temperature, No complicated thermostats are required to control the temperature. Therefore, the manufacturing cost and the management cost of the inspection apparatus can be reduced.

On the other hand, the air cylinder 31 has a first pressure sensor 35 for measuring the pressure inside the air cylinder 31 and a first temperature sensor 33 for measuring the temperature inside the air cylinder 31, Respectively. The differential pressure leak detector according to the present invention is provided with a second temperature sensor 51 capable of measuring the outside air temperature and detects a difference between a measured value by the first temperature sensor 33 and a measured value by the second temperature sensor 51 It is possible to judge whether or not the temperature inside the air cylinder 31 is within a predetermined range of the outside air temperature, for example, within the range of 占 0.1 占 of the outside air temperature.

Further, the differential pressure type leakage inspection apparatus according to the present invention includes a jig 21 for fixing a subject 22 to be inspected and forming an inspection area 23 therein. The inspection region 23 means a closed space formed between the jig 21 and the subject 22 when the subject 22 is fixed to the jig 21. The compressed air from the air cylinder 31 It is the space to be injected. The jig 21 may have a separate sealing device (not shown) or a clamping device (not shown) for fixing the test object 22 to the jig 21. [ The jig 21 includes a second pressure sensor 41 for measuring the pressure of the inspection area 23 inside the jig 21 and a third temperature sensor 24 for measuring the temperature of the inspection area 23, . The third temperature sensor 24 may be composed of a plurality of temperature sensors. Preferably, the plurality of temperature sensors may be arranged diagonally on the wall portion of the jig 21 in a direction facing each other. In this case, it is possible to determine whether or not the temperature distribution in the inspection region 23 inside the jig 21 is constant by comparing the measured values of the plurality of temperature sensors.

The pipeline connecting between the jig 21 of the leakage test apparatus according to the present invention and the air cylinder 31 is regulated to be opened and closed by the valve 34. [ The valve 34 is kept closed until the temperature inside the air cylinder 31 satisfies a predetermined range. However, if the temperature inside the air cylinder 31 is within a predetermined range, for example, within the range of 0.1 C of the outside air temperature So that compressed air can be delivered from the air cylinder 31 into the inspection area 23 of the jig 21. [ On the other hand, when the pressure inside the inspection area 23 of the jig 21 reaches the pressure required for the leakage inspection, the valve 34 is closed so that the compressed air is not transferred from the air cylinder 31 into the inspection area 21 do.

On the other hand, in the case of a pipeline connecting between the jig 21 and the air cylinder 31, if the length of the pipeline is long, there is a possibility that the temperature change may be increased due to the influence of the outside air in the process of injecting the compressed air. You need to minimize it. The inspection area 23 inside the jig 21 also includes a pipeline connecting between the valve 34 and the jig 21. In order to reduce the loss of compressed air, It is preferable that the valve is arranged as close as possible to the jig 21.

In the differential pressure type leakage inspection apparatus according to the present invention, a change in pressure and temperature in the inspection area 23 inside the jig 21 is measured during the inspection time t to determine whether the air is leaked from the inspection object 22 . Specifically, the initial temperature (T ₁ ) and the initial pressure (P ₁ ) of the inside of the jig 21 at the start of the air leakage inspection are measured, and the temperature inside the jig 21 after the elapse of the predetermined inspection time (T ₂ ) and the pressure (P ₂ ) are measured, and the control unit 42 calculates the air leakage amount based on the above-mentioned conversion formula (6) using the measured values.

FIG. 3 illustrates a differential pressure type air leakage apparatus according to another preferred embodiment of the present invention. The differential pressure type air leakage device shown in FIG. 3 is the same as the configuration of the differential pressure type air leakage device shown in FIG. 2 except for the configuration of the air cylinder 31. FIG.

The air bomb 31 of the differential pressure type air leakage apparatus shown in Fig. 3 is different from the air bomb 31 shown in Fig. 2 in that the cooling fins 32 are not provided on the outer surface thereof and the thermoelectric elements 36 have. The thermoelectric element 36 generates a voltage at both ends of the conductor when a temperature difference is caused by applying heat to one of the junctions in a closed circuit connected with two different kinds of metals. When a DC current is applied to both ends of the conductor, / The principle of thermoelectric development that generates heat by generating heat is used. The thermoelectric element 36 can be operated by applying a predetermined power according to an external control switch. At this time, the thermoelectric element 36 is provided with a heat radiating plate 37 having a sufficient size. Further, the thermoelectric element 36 is provided with a drive fan 38 which is positioned and fixed toward the heat sink 37.

According to the above configuration, when the temperature inside the air cylinder 31 rises above a predetermined temperature, the cooling function of the thermoelectric element 36 is used to correspond to the inside of the air cylinder 31 The temperature can be adjusted to an appropriate level. This enables precise temperature control within a short time.

That is, the function of the thermoelectric element 36 is utilized, and the driving fan 38 is operated to bring the air flow inside the air cylinder 31 into contact with the heat radiating plate 37, The temperature can be adjusted to a temperature range suitable for differential pressure air leak testing.

Leak Inspection Method

4 is a flowchart illustrating a differential pressure leakage test method according to an embodiment of the present invention. Hereinafter, a differential pressure type air leakage inspection method according to the present invention will be described with reference to FIG.

First, air is compressed by using the compressor 11 (S10). At this time, the temperature of the air is increased from the initial temperature in the process of compressing the air using the compressor (11).

Next, using the regulator 12, the pressure of the air compressed by the compressor 11 is adjusted to the pressure necessary for the air leakage test (S20).

Then, the compressed air having passed through the regulator 12 is injected into the air bomb 31 (S30). Then, the inside of the air bomb 31 is filled with compressed air that has passed through the regulator 12. Accordingly, the pressure inside the air cylinder 31 is increased by the injection of the compressed air, so that the pressure inside the air cylinder 31 is measured through the pressure sensor 35, That is, the pressure value required for the air leakage test is satisfied (S40). As a result of the determination, when it is determined that the pressure inside the air cylinder 31 does not satisfy the predetermined pressure value, the injection of the compressed air into the air cylinder 31 is continued (S30) The air pressure is measured again, and the process of determining whether or not the predetermined pressure value is satisfied is performed again (S40).

When it is determined that the pressure inside the air cylinder 31 satisfies the predetermined pressure value, here, the pressure value required for the air leakage test, the injection of the compressed air into the air cylinder 31 is stopped, The internal temperature is measured by the first temperature sensor 33 and it is determined whether or not the temperature inside the air cylinder 31 satisfies a predetermined temperature value range, for example, a range of +/- 0.1 DEG C of the outside air temperature value (S50) do.

If it is determined that the temperature inside the air cylinder 31 does not satisfy the predetermined temperature range, the compressed air temperature control unit adjusts the temperature of the compressed air inside the air cylinder 31 (S60) do

The step S60 of regulating the temperature of the compressed air inside the air cylinder 31 is carried out in such a manner that the compressed air inside the air cylinder 31 flows from the temperature of the outside air The temperature of the compressed air inside the air cylinder 31 may be adjusted to be within a predetermined range by leaving the air cylinder 31 within a predetermined range. In this case, the temperature of the compressed air can be easily adjusted without using a complicated thermostat. On the other hand, a plurality of cooling fins 32 are formed on the outer surface of the air cylinder 31 of the differential pressure type air leakage apparatus according to the present invention shown in FIG. 2, So that heat transfer can be easily performed.

The step S60 of adjusting the temperature of the compressed air in the air cylinder 31 may be carried out in accordance with a preferred embodiment of the present invention shown in FIG. And adjusting the temperature of the compressed air inside the air cylinder 31 by using the function of the air cylinder. According to a preferred embodiment of the present invention, the thermoelectric element 36 is provided with a heat dissipating plate 37 on one side thereof and further includes a drive fan 38 which can be driven toward the heat dissipating plate 37, The compressed air in the heat exchanger 31 can be directly connected to the heat sink 37, so that the cooling efficiency can be further increased. In the case of using the thermoelectric element 36 as in the preferred embodiment of the present invention, precise temperature control is possible in a short time compared with the case where the temperature inside the air cylinder 31 is kept to be within the predetermined temperature range .

When it is determined that the temperature inside the air cylinder 31 satisfies the predetermined temperature range, the valve 34 is opened to supply the compressed air stored in the air cylinder 31 to the jig 21, The compressed air is injected into the inspection area 23 formed between the discharge port 22 and the inspection area 23 (S70).

When the compressed air is injected into the inspection region 23, the pressure inside the inspection region 23 is measured through the pressure sensor 41 so that the pressure inside the inspection region 23 is lower than the pressure required for the leakage inspection, It is determined whether or not the first pressure value has been reached (S80). If it is determined that the pressure inside the inspection area 23 has not reached the pressure value required for the leak inspection, the injection of compressed air (S70) into the inspection area 23 is continued.

When the pressure inside the inspection region 23 is determined to have reached the pressure value necessary for the leakage inspection, the leakage inspection is started and the temperature change and the pressure change inside the inspection region 23 for the predetermined time t are transmitted to the jig 21 (S90) by using the third temperature sensor 24 and the pressure sensor 41 provided in the main body (not shown).

Next, the temperature value (T ₁ ) and the pressure value (P ₁ ) at the start of the leak test and the temperature value (T ₂ ) and the pressure value (P ₂ ) at the end of the leakage test are substituted , And the control unit 42 calculates the air leakage amount of the subject 22 (S100).

...식(8)

... (8)

In equation (8), V ₁ is the volume in the inspection area, γ is the density of the compressed air, T ₁ is the temperature of the compressed air in the inspection area at the start of the test, T ₂ is the temperature of the compressed air in the inspection area at the end of the inspection, ₁ is the pressure of the compressed air in the inspection area at the start of the inspection, P ₂ is the pressure of the compressed air in the inspection area at the end of the inspection, and t is the inspection time.

The control unit 42 determines whether the air leakage amount calculated by the conversion formula is equal to or greater than a set value (S110). If the determination result is larger than the set value, the control unit 42 determines It is determined that leakage is occurring in the first to n-th 22 (S120). If it is determined that the calculated air leakage amount is less than the set value, the control unit 42 determines that there is no leakage in the subject 22 (S130).

10: Compressed air injection part 11: Compressor
12: regulator 21: jig
22: Subject body 23: Inspection area
24: third temperature sensor 30:
31: air cylinder 32: cooling pin
33: first temperature sensor 34: valve
35: first pressure sensor 36: thermoelectric element
37: heat sink 38: drive fan
41: second pressure sensor 42:
51: second temperature sensor

Claims (18)

A jig for fixing the object to be inspected;
A compressed air injection unit for applying compressed air to the inspection area between the jig and the inspection object; And
And a leakage detecting portion for detecting whether or not the object to be inspected has leaked,
And a compressed air temperature regulator for regulating the temperature of the compressed air is provided between the jig and the compressed air injection unit,
The compressed air temperature regulator may include:
An air bomb that stores compressed air for a predetermined period of time before the compressed air is delivered from the compressed air injection unit into the inspection area of the jig, a first pressure sensor that measures pressure of the compressed air inside the air bomb, And a first temperature sensor for measuring the temperature of the compressed air stored in the air cylinder. delete The method according to claim 1,
A second temperature sensor for measuring the outside air temperature, a third temperature sensor for measuring the temperature of the compressed air in the inspection area, and a second pressure sensor for measuring the pressure of the compressed air in the inspection area. Pressure leak detector. The method of claim 3,
Wherein the third temperature sensor comprises a plurality of temperature sensors, and each of the temperature sensors is arranged in the jig so as to face each other on a diagonal line. The method according to claim 1,
And at least one cooling fin is formed on the outer surface of the air cylinder. The method according to claim 1,
Wherein the air cylinder is provided with at least one thermoelectric element to adjust the temperature of the compressed air inside the air cylinder. The method of claim 6,
Wherein the thermoelectric device further comprises a heat sink and a fan capable of being driven toward the heat sink. The method of claim 3,
Wherein the leakage detecting unit comprises a differential pressure sensor for detecting a change in the pressure of the compressed air filled in the inspection region between the subject and the jig and a differential pressure sensor for detecting a change in pressure of the fluid sensed by the differential pressure sensor, And a controller for determining whether the object to be inspected has leaked according to the temperature change of the air. The method of claim 8,
Wherein,

(V _1: I by volume search range, γ: density of the compressed air, T _1: the inspection area within the compressed air temperature at the time of test start, T _2: the temperature of the compressed air in the inspection region of the inspection end, P _1: test P ₂ is the pressure of the compressed air in the inspection area at the end of the inspection, t is the inspection time), and if the calculated leakage amount is equal to or larger than the set value And a determination unit that determines that there is a leak in the object to be inspected. The method according to claim 1,
The compressed air injection unit
A compressor for compressing the air, and a regulator for regulating the pressure of the compressed air. Storing the compressed air such that the air pressure inside the air cylinder has a first pressure value;
Adjusting the temperature of the compressed air stored in the air cylinder to satisfy a first temperature value;
Injecting the compressed air stored in the air cylinder into a test region formed between the jig and the test subject;
And detecting a change in the pressure value and the temperature value of the compressed air in the inspection area to determine whether the inspection object has leaked. The method of claim 11,
Wherein the step of storing compressed air in the air cylinder comprises:
Compressing air using a compressor;
Regulating the pressure of the compressed air using a regulator;
Delivering the pressurized compressed air to an air bomb; and
And determining whether the pressure inside the air cylinder has reached a first pressure. The method of claim 11,
The step of injecting the compressed air stored in the air cylinder into the inspection region may further include stopping the injection of the compressed air if the pressure of the compressed air in the inspection region satisfies the first pressure value Characterized by a differential pressure leak test method. The method of claim 11,
Wherein the step of determining whether the subject to be inspected has leaked comprises:
Measuring a pressure value and a temperature value of compressed air in the inspection area;
Measuring a change in pressure and temperature of the compressed air inside the inspection area after a predetermined time has elapsed;
Calculating an air leakage amount of the subject using the pressure and temperature change values of the compressed air inside the inspection region; And
And determining that leakage has occurred in the test subject if the calculated air leakage amount is equal to or greater than a set value. The method of claim 11,
Wherein the first temperature value belongs to an error range of +/- 1 DEG C based on a temperature value inside a space where the leakage testing apparatus is installed. 15. The method of claim 14,
Wherein the step of calculating the air leakage amount of the object to be inspected comprises:

(V _1: I by volume search range, γ: density of the compressed air, T _1: the inspection area within the compressed air temperature at the time of test start, T _2: the temperature of the compressed air in the inspection region of the inspection end, P _1: test The pressure of the compressed air in the inspection area at the start of the inspection, P ₂ : the pressure of the compressed air in the inspection area at the end of the inspection, and t: the inspection time). Leak test method. The method of claim 11,
Wherein the step of adjusting the temperature of the compressed air stored in the air cylinder to satisfy the first temperature value is performed by using natural convection so that the temperature of the compressed air stored in the air cylinder becomes a predetermined time And a step of allowing the sample to stand for a predetermined period of time. The method of claim 11,
Wherein the step of adjusting the temperature of the compressed air stored in the air cylinder to satisfy the first temperature value is performed by using a thermoelectric element provided in the air cylinder so that the temperature of the compressed air stored in the air cylinder becomes a first temperature value And adjusting the temperature of the compressed air so as to satisfy a predetermined condition.

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