KR100929580B1 - Leakage Tester for Low Temperature Valve - Google Patents

Abstract

The present invention provides a test vessel filled with cryogenic liquid to maintain a test valve in a cryogenic state, a test fluid tank connected to a suction port of the test valve and a first line to supply a test fluid into the valve, and A flow meter connected to the discharge port and connected to the second line to check whether the valve is leaking, a sealing member mounted sealably around the pipe connecting portion of the test valve, and a sealing member to vacuum the inside of the sealing member. It consists of a vacuum pump connected to the inside and the third line, and the fourth line connecting the flow meter and the sealing member to check the external leakage of the pipe connection portion, the internal leakage test of the cryogenic valve and the outside with one test device Leakage test device of cryogenic valve can be installed to reduce cost and shorten test time by performing leak test simultaneously. The.

Valve, low temperature valve, leak tester

Description

Leakage Testing Equipment for Low Temperature Valves {LEAKAGE TESTING SYSTEM FOR CRYOGENIC VALVE}

1 is a block diagram of a leak test apparatus for a low temperature valve according to the prior art.

Figure 2 is a block diagram of a leak test apparatus for a low temperature valve according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: test valve 12: test container

14: valve body 16: piping

18: pipe connection 24: the first temperature sensor

26: second temperature sensor 30: first line

32: test fluid tank 34: second line

36: flow meter 38: tank opening and closing valve

48: third line 62: fourth line

66: fifth line 70: base line

The present invention relates to a device for testing the leakage of the low-temperature valve, and more particularly, a low-temperature valve that can test whether the gas leaks to the outside of the valve while testing the airtightness of the valve in the cryogenic state. Relates to a leak testing apparatus.

Cryogenic valves are generally used in storage devices that store cryogenic fluids, such as liquefied natural gas (LNG). Cryogenic tests are performed to test whether they are normally opened and closed while maintaining airtightness in cryogenic conditions.

1 is a block diagram of a leak test apparatus for a cryogenic valve according to the prior art.

The leak test apparatus of the cryogenic valve according to the prior art includes a test container 102 filled with liquid nitrogen such that the valve 100 is immersed in liquid nitrogen at -196 ° C, the suction side of the valve 100 and the first pipe ( 104 is connected to the helium tank 106 to supply the helium gas to the suction side of the valve 100, the discharge side of the valve 100 and the second pipe 108 is connected to the naked eye whether the valve 100 Alcohol bubbler 110 to be confirmed as, and the flow meter 112 is connected to the alcohol bubbler 110 to display the flow rate of leakage.

The test vessel 102 is covered with a heat insulating cover 116 and continuously supplying liquid nitrogen to maintain a certain amount of liquid nitrogen inside the test vessel 102.

The first pipe 104 is provided with a cooling coil 120 in a portion immersed in liquid nitrogen, a pressure gauge 122 for measuring the pressure of the helium gas, a pressure control valve for adjusting the pressure of helium gas 116 is installed. In addition, a first opening / closing valve 124 for opening and closing the helium tank 106 is installed at an inlet side of the helium tank 106.

The second pipe 108 is provided with a second opening and closing valve 126 to open and close the second pipe 108.

The alcohol bubbler 110 is a container in which a certain amount of alcohol is stored and is inserted to allow the end of the second pipe 108 to be immersed in alcohol, and a flowmeter 112 is connected thereto.

Looking at the operation of the cryogenic valve leakage test apparatus according to the prior art configured as described above, the valve 100 is immersed in the test container 102 filled with liquid nitrogen, and the valve 100 is cooled and tested. When the cryogenic environment is provided, the first opening / closing valve 124 is operated to supply helium gas stored in the helium tank 106 to the valve 100 through the first pipe 104.

Then, the alcohol bubbler 110 is visually checked to determine whether bubbles are generated and the leakage flow rate displayed on the flowmeter 112.

However, the leak test apparatus of the cryogenic valve according to the related art can test whether the cryogenic valve is internally leaked, but there is a problem in that it is not possible to determine whether leakage occurs to the outside of the cryogenic valve.

That is, when the valve is closed, it is possible to determine whether leakage occurs in the interior of the valve, but there is a problem in that it is not possible to determine whether leakage occurs to the outside at the part where the valve and the pipe are connected.

In addition, in order to test the external leakage of the cryogenic valve, a separate test apparatus is required, resulting in an increase in cost and a long test time.

The present invention was created to solve the above problems of the prior art, an object of the present invention can be carried out at the same time the internal leakage test and the external leakage test of the cryogenic valve with one test device can reduce the cost and test The present invention provides a leak test apparatus for a cryogenic valve that can shorten time.

Leakage test apparatus for cryogenic valves according to the present invention for realizing the above object is a test vessel filled with cryogenic liquid to maintain the test valve in a cryogenic state, connected to the inlet and the first line of the test valve inside the valve A test fluid tank for supplying a test fluid to the furnace, a flow meter connected to the discharge port of the test valve and a second line to check whether the valve is leaking internally, and a sealing member mounted sealably around the pipe connection part of the test valve. And a vacuum pump connected to the sealing member and a third line so as to vacuum the inside of the sealing member, and a fourth line connecting the flowmeter and the sealing member to check whether there is an external leakage of the pipe connection part. It is characterized by.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a block diagram of a leak test apparatus for a cryogenic valve according to the present invention.

The leak test apparatus of the cryogenic valve according to the present invention includes a test container (12) filled with cryogenic liquid so that the test valve (10) is stored and the test valve (10) is kept in a cryogenic state, and the suction of the test valve (10). In the internal leakage test device connected to the side and the discharge side to check the internal leakage of the test valve 10, and the pipe connection portion 18 is connected to the valve body 14 and the pipe 16 of the test valve 10 It consists of an external leak tester to determine whether an external leak occurs.

The cryogenic liquid is preferably liquid nitrogen at -196 ° C. In addition, the liquid nitrogen supply pipe 22 is connected to the upper side of the test container 10 to continuously supply the test container 10 sufficiently in consideration of the amount of vaporized liquid nitrogen.

The test valve 12 has a valve body 14 having a suction port formed at one side and a discharge port formed at the other side thereof, and having a valve plate that opens and closes therein, and is mounted on an upper portion of the valve body 14. It consists of a pipe 16 through which an operation rod for operating a plate passes, and an operation lever 20 provided above the pipe 16 and connected to the operation rod for operation by a user. Here, since the test valve 12 is to open and close the cryogenic fluid, the pipe 16 has a certain length because the length between the operating lever 20 and the valve body 14 must be secured.

The valve body 14 and the pipe 16 are connected by a pipe connection part 18, and the pipe connection part 18 maintains a sealable state to prevent leakage of gas.

Cryogenic liquid is filled in the test vessel 12 so as to immerse the pipe connection portion 18 so as to sufficiently cool the valve body 14 and the pipe connection portion 18.

The first temperature sensor 24 for measuring the temperature of the valve body 14 and the second temperature sensor 26 for measuring the temperature of the pipe connection 18 are mounted inside the test vessel 12. The test is carried out once the temperature of the body 14 and the temperature of the pipe connection 18 have reached the set temperature.

The internal leakage test apparatus is connected to the inlet port of the test valve 10 and the first line 30 to supply a test fluid to the inside of the valve at a constant pressure, and the test valve 10 of the test valve 10 It is composed of a flow meter (36) connected to the outlet and the second line (internal leakage test, 34) to check the internal leakage of the valve.

As the test fluid, helium (He) gas is preferably used.

The inlet side of the test fluid tank 32 is equipped with a tank opening and closing valve 38 for opening and closing the tank 32, the test line is connected between the first line 30 and the test fluid tank 32 A pressure gauge 40 for measuring the pressure of the fluid and a bleed valve 42 for discharging a predetermined amount to the outside when the pressure of the test fluid is equal to or greater than the set pressure are mounted to the rear of the bleed valve 42. The pressure gauge 44 which measures the pressure of the test fluid whose pressure was adjusted by the bleed valve 42 is mounted. In addition, the first line 30 is equipped with a first valve 44 that opens and closes the first line 30.

The second line 34 is equipped with a second valve 46 which opens and closes the second line 34, and is connected to the second line 34 and is provided with a flow meter 36. 48 is equipped with a third valve (50) for opening and closing the third line, the flow meter 36 is a pair of flow meters are used for different display of the measured value in order to measure the leakage flow more accurately It is preferable. The end of the third line 48 is equipped with a vent valve 52 for discharging the leakage flow to the outside.

The external leakage test apparatus is sealed to the outside of the pipe connection 18, the sealing member 60 to have a predetermined space around the pipe connection 18, and the fourth line to the sealing member 60 The test fluid is discharged when a leak occurs in the pipe connection part 18 connected to the vacuum pump 64 connected to the 62 to make the interior of the sealing member 60 into a vacuum state and the other side of the sealing member 60. It consists of the fifth line (external leakage test furnace 66).

The fifth line 66 is connected to the third line 48 on which the flowmeter 36 is mounted by the base line 70.

Each of the lines described above is connected to the base line 70, respectively, a plurality of valves (80a, 80b, 80c, 80d) is mounted on the base line 70, the combination of the test apparatus is different depending on the installation site Do it.

The fourth line 62 is equipped with a fourth valve 74 that opens and closes the fourth line 62, and the fourth line 62 is connected to the vacuum pump 64 via the base line 70. Connected.

On the line to which the vacuum pump 64 is connected, a vacuum on / off valve 76 for opening and closing the line is mounted, and a vacuum gauge 78 for indicating the vacuum pressure is mounted.

The sealing member 60 is mounted on the outer circumferential surface of the pipe 16 so that its upper end is sealable, and the lower end thereof is mounted on the outer circumferential surface of the extension part of the valve body 14 so as to seal around the pipe connecting part 18. To keep.

The operation of the cryogenic valve leakage test apparatus according to the present invention configured as described above will be described below.

First, the cryogenic liquid is filled into the test vessel 12 and the test valve 10 is immersed in the cryogenic liquid. At this time, the valve body 14 and the pipe connection 18 may be immersed in the cryogenic liquid. At this time, the test fluid is continuously supplied to maintain a constant flow rate inside the test vessel.

Then, while the test valve 10 is cooled, the temperature of the valve body 14 and the pipe connecting portion 18 are checked using the first and second temperature sensors 24 and 26 while discharging foreign matters inside the valve. .

When the temperature of the valve body 14 and the pipe connection 18 is cooled to the set temperature, the internal leakage test of the valve is first performed.

When the internal leakage test of the valve is described in detail, the test fluid stored at a constant pressure in the test fluid tank 32 by opening the first valve 44 and the tank opening / closing valve 38 is opened through the first line 30. Supply to (10). When the test fluid in the first line 30 is filled, the first valve and the tank open / close valve 38 are closed.

Then, the second valve is installed in the second line and the third valve 50 is installed in the third line 48, respectively.

In this state, after a predetermined time has passed, check the flow meter 36 to check whether the test valve 10 is leaking inside. That is, if an internal leak occurs in the valve 10, the test fluid flowing into the inlet of the test valve 10 leaks to the discharge port of the test valve 10, and the leaked test fluid is the second line 34. And it passes through the flow meter 36 through the third line 48, it is possible to know whether or not leakage by checking the flow meter (36).

The following describes the external leakage test method of the test valve in detail.

First, when the valve 80d and the vacuum on / off valve 76 installed in the fourth valve 74 and the base line 70 are opened and the vacuum pump 64 is operated, the vacuum pressure generated by the vacuum pump 64 is increased. The inside of the sealing member 60 is supplied through the fourth line 62 to make the inside of the sealing member 60 in a vacuum state.

When the set vacuum pressure is obtained by checking the vibration gauge 78, the fourth valve 74, the valve 80d, and the vacuum on / off valve 76 are closed. Then the inside of the sealing member 60 maintains the vibration state.

In this state, the first valve 44 and the tank open / close valve 38 are opened to allow the test fluid to be supplied into the valve body 14. At this time, the valve plate of the test valve 10 is maintained in a certain open state. Then, the test fluid introduced into the valve body 14 flows into the pipe 16.

After a certain time has elapsed in this state, check the flow meter 36 to check whether the test valve 10 is leaking. That is, if external leakage occurs in the pipe connection part 18, the test fluid is leaked to the outside of the pipe connection part 18 and filled in the sealing member 60, and the test fluid filled in the sealing member 60 is removed. It is discharged through 5 lines 66, is supplied to the third line 48 via the base line 70, passes through the flow meter 36, and if the flow meter 36 is checked, whether the pipe connection 18 is leaked or not. You can check.

The cryogenic fluid leakage test apparatus according to the present invention constructed and operated as described above tests whether the internal leakage of the valve occurs in one test apparatus and at the same time, the external leakage at the pipe connection portion where the valve body and the pipe are connected. This can be tested to see if this occurs, which can reduce costs and shorten the test time.

Claims (8)

A test container in which a test valve is positioned and the cryogenic liquid is filled to maintain the test valve in a cryogenic state; A test fluid tank connected to the inlet of the test valve and supplying a test fluid to the inside of the test valve; A sealing member mounted in a sealable manner around a pipe connection part provided at one side of the test valve; Connection paths including an internal leakage test path connected to the discharge port of the test valve and an external leakage test path connected to the inside of the sealing member; And Respectively connected to the internal leakage test path and the external leakage test path, and the internal leakage flow rate of the test valve and the external leakage flow rate leaking from the pipe connection part, respectively, as the internal leakage test path and the external leakage test path are selectively opened. Leakage test device for cryogenic valves including flow meter to measure. The method of claim 1, The sealing member of the cryogenic valve leakage test apparatus, characterized in that the vacuum pump for connecting the inside of the sealing member to a vacuum state is connected to the fourth line. The method of claim 1, The cryogenic liquid is a test device for cryogenic valve leakage, characterized in that filled in the test container to the height that can be locked to the valve body and the pipe connection of the test valve. The method of claim 1, The inside of the test vessel is a cryogenic valve leakage test apparatus, characterized in that the first temperature sensor for measuring the temperature of the valve body of the test valve, and the second temperature sensor for measuring the temperature of the pipe connection portion is mounted. The method of claim 1, A tank on / off valve for opening and closing the tank is mounted at the inlet side of the test fluid tank, and a pressure gauge for measuring the pressure of the test fluid is mounted at a line connected to the test fluid tank. Device. The method of claim 1, The internal leakage test path is equipped with a second valve that opens and closes the internal leakage test path, and the flow meter uses a pair of flowmeters different from each other in displaying the measured values in order to more accurately measure the leakage flow rate. Cryogenic valve leak tester. The method of claim 1, The sealing member is mounted on the outer circumferential surface of the pipe sealant upper end, the lower end of the sealing member is mounted on the outer circumferential surface of the extension portion of the valve to maintain the sealing portion around the pipe connection portion cryogenic valve, characterized in that . The method of claim 2, The fourth line is equipped with a fourth valve for opening and closing the fourth line, the line connected to the vacuum tank is equipped with a vacuum gauge for indicating the vacuum pressure and the vacuum on-off valve, characterized in that the leakage test of the cryogenic valve Device.

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