KR20100122616A - A valve test flange - Google Patents

Abstract

PURPOSE: A test flange for valve performance test is provided to implement a performance test immediately in the field without moving the valve, thereby improving the workability and test accuracy. CONSTITUTION: A flange body(10) has a disc shape. A handle part(11) is projected to both side of the flange body. A fluid supply line(12) passes through the flange body. An O-ring(13) is included to the upper surface of the flange body as a shape covering round the outlet of the pressure supply line. A bolt fixing holes(14) is penetrated along the edge side and penetrates a stud bolt which combines the vale inlet side flange and pipe side flange.

Description

Test flange for valve performance test {A VALVE TEST FLANGE}

The present invention relates to a test flange for valve testing, and more particularly, to a test flange structure for more effectively performing a performance test of a safety valve using a gas or a relief valve using a fluid.

Typically, power plant equipment includes a number of valves to regulate and shut off the amount of fluid. The valves used in power plants are gate valves and glove valves that block and release the flow of fluids by reducing or widening the cross-sectional area of the pipes. Check Check valve, a valve that limits the maximum pressure. When the pressure exceeds the set pressure, the safety valve or circuit pressure prevents damage to equipment or piping by discharging or returning the fluid and lowering it below the set pressure. When this set pressure is reached, a relief valve, a pressure control valve that discharges part or all of the fluid to maintain the pressure in the circuit below the set pressure, is installed in a system having both safety and relief functions. Safety & Relief Valve that discharges fluid after discharging gas such as water It includes.

In particular, safety valves and relief valves are used to prevent damage to the equipment and piping due to excessive pressure in equipment including hydraulic equipment, pneumatic equipment and steam equipment and are referred to as safety valves.

These valves must be periodically tested for maximum pressure regulation and performance to ensure correct operation during plant operation. Currently, the pressure setting can be checked on a safety valve test bench that separates the valve from the power plant and tests the safety valve. Leak test is in progress.

However, in the case of a small valve of 3 inches or less, such separation and maintenance is effective, but the valve of 3 inches or more is heavy weight and narrow moving space, there is a problem that the risk of equipment damage or safety accident when moving after taking out.

In addition, in the case of a relief valve using a fluid, an air pocket is formed inside the valve part when performing a general test method, so that the test may fail due to an incorrect leakage of the valve due to the fluid and other gas characteristics during the test. do.

The present invention has been proposed to improve the above problems in the prior art, and to improve the workability and test accuracy by providing a test flange device that can perform the performance test in the field immediately without the need for the valve movement. There is a purpose.

The present invention for achieving the above object, the test flange structure is inserted between the inlet flange and the system pipe side flange of the valve to guide the movement of the fluid, the flange body forming a disc shape; A handle part provided on both sides of the flange body; A fluid supply line formed through the inside of the flange body, the inlet part being formed on the side wall of the flange body, and the outlet part being formed in the center of the upper surface of the flange body; An o-ring provided on an upper surface of the flange body to surround an outlet of the pressure supply line; The bolt inlet hole is formed through a plurality of intervals along the rim side for coupling with the valve inlet flange and the system pipe flange, characterized in that the configuration comprising a.

Such a test flange of the present invention, since it is possible to quickly insert and install between the inlet flange of the valve and the flange of the system pipe during the inspection for the performance test of the safety valve or relief valve, hassle to move the valve off This can be improved.

In particular, in the case of a relief valve using a liquid fluid, air pockets due to the air remaining inside the initial pressure supply are removed quickly, so that more accurate results can be obtained in the field.

In addition, it is possible to prevent equipment damage and safety accidents caused by the movement of the valve in advance.

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

First, a test flange structure for a safety valve test using a gas according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2, and handle portions 11 are formed at both sides of a flange body 10 forming a disc shape. A fluid supply line 12 is formed through the test flange side so that the air pressure for the test can be supplied to the valve side, and the upper surface of the flange body 10 is airtight with the bottom surface of the valve inlet flange 20. O-ring 13 is configured for state maintenance, and a plurality of bolt fastening holes 14 are formed through the peripheral edges at regular intervals.

In particular, the fluid supply line 12 can be seen that the inlet portion 12a is formed on the side wall surface of the flange body 10, the outlet portion 12b is formed extending to the center of the upper surface of the flange body (10). have.

On the other hand, the inlet portion 12a of the fluid supply line 12 is connected to the pressure supply pipe 16 for supplying the air pressure required for the test, the filling for opening and closing the flow path on the pressure supply pipe 16 The valve 16a, the pressure regulating valve 16b for adjusting the air pressure to be charged, and the high pressure tank 16c for supplying the gas of high pressure are sequentially configured.

The safety valve performance test process using the present invention test flange constituting such a configuration will be described.

First, after removing the stud bolts and nuts installed on the inlet flange and the system pipe flange of the safety valve in the field, and the test flange of the present invention as shown in Figure 3 and 4 and the valve inlet flange 20 of the valve inlet side Insert and fasten between the system piping flanges (30).

Thereafter, the pressure supply valve 16a of the pressure supply pipe 16 line connected to one side is opened, and then the pressure control valve 16b is adjusted to gradually control the air pressure supply amount from the high pressure tank 16c. Whether the valve is opened or closed by the air pressure by testing the flow of the stem 23 elastically supported by the spring 25 in the inside and the disk 21 configured to open and close the valve flow path Will be tested.

In the drawings, reference numeral 22 denotes a valve outlet, and 24 denotes a spring upper plate, respectively.

Therefore, it can be seen that a quick and easy test operation can be made by connecting the pressure supply pipe 16 to one side of the test flange body 10 that is directly connected to the valve in the field.

5 and 6 illustrate a test flange structure for a relief valve test installed in a system using a liquid fluid (water, oil, etc.) according to another embodiment of the present invention.

That is, as shown in the flange body 10 has a separate bantrain 15 is formed through the fluid supply line 12 to allow the internal air to be discharged, the inlet ( 15a is formed on the upper surface of the flange body 10, and the outlet portion 15b of the bantrain 15 is formed on the side wall surface of the flange body 10.

In addition, a separate gas vent connector 18 is provided at the inlet portion 15a of the vent line 15. The gas vent connector 18 is made of a flexible synthetic resin material that can be easily bent to minimize the insertion space when the test flange is inserted into the space between the valve inlet flange 20 and the system piping side flange 30. It is desirable to.

In addition, a vent pipe 17 is connected to the outlet portion 15b of the ban line 15, and a gas vent valve 17a for opening and closing the vent pipe 17 is configured, and the pressure supply line ( A pressure supply pipe 16 for supplying a fluid is connected to the inlet portion 12a of 12. The water supply pipe 16 is configured with a water pump 16d for supplying a liquid fluid.

The test flange of the present invention constituting such a configuration is also inserted and tightened after removing the stud bolt and the nut installed in the valve inlet flange 20 and the system pipe flange 30 in the same manner.

When water is supplied from the water pump 16d through the pressure supply pipe 16 in this fastened state, the air in the initial supply pipe 16 and the air in the space below the disk 21 in the valve The water supplied by the water pump 16d is pushed around the disk 21 to form an air pocket therein.

At this time, when the vent pipe 17 is opened by opening the gas vent valve 17a, the internal air is rapidly passed through the gas vent connector 18, the vent line 15, and the vent pipe 17, which are provided at a predetermined height. Can be removed.

Subsequently, when the gas vent valve 17a is shut off, the disk 21 flow is checked by the pressure of the fluid continuously supplied through the pressure supply pipe 16 and the pressure supply line 12 to test the performance of the relief valve. This will be possible.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the test flange structure of the present invention may be variously modified and implemented by those skilled in the art.

For example, although not shown in the above embodiment, a separate pressure gauge may be connected to the pressure supply pipe 16 line to visually check the supply pressure.

Therefore, it should be understood that such modified embodiments should not be understood individually from the technical spirit and scope of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

1 is a perspective view of a test flange for a safety valve according to an embodiment of the present invention.

Figure 2 is a partial cutaway structural view of the test flange for the safety valve of the present invention.

Figure 3 is a cut-away view of the installation state of the test flange for the safety valve of the present invention.

Figure 4 is an installation side view of the test flange for the safety valve of the present invention.

5 is an external perspective view of a test flange for a relief valve according to another embodiment of the present invention.

Figure 6 is a partial cutaway structural view of the test flange for the relief valve of the present invention.

Figure 7 is a cut-away view of the installation of the test flange for the relief valve of the present invention.

Figure 8 is a side view of the installation state of the test flange for the relief valve of the present invention.

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

10: flange body 11: handle portion

12: fluid supply line 13: O-Ring

14: bolt fastener 15: bantra

16: pressure supply piping 16a: pressure filling valve

16b: Pressure regulating valve 16c: High pressure tank

16d: water pump 17: vent pipe

17a: gas vent valve 18: gas vent connector

20 valve inlet flange 21 disk

22 valve outlet 23 stem

24: spring upper plate 25: spring

30: system piping side flange

Claims (5)

The test flange structure which can be inserted and installed between the valve inlet flange 20 configured at the inlet side of the valve for guiding fluid movement for the valve performance test and the system pipe side flange 30 installed at one end of the system pipe, A flange body 10 forming a disc shape; A handle portion 11 protruding from both sides of the flange body 10; Is formed through the inside of the flange body 10 so that the test fluid can be supplied to the valve side, the inlet portion 12a is formed on the side wall surface of the flange body and the outlet portion 12b is formed in the center of the flange body upper surface A fluid supply line 12; An o-ring (13) provided on an upper surface of the flange body (10) in a form surrounding the outlet (12b) of the pressure supply line (12); A bolt fastening hole 14 formed through a plurality of intervals along the rim side for coupling by the stud bolt between the valve inlet flange 20 and the system pipe flange 30; Test flange for valve performance test, characterized in that the configuration including The method according to claim 1, The flange body 10 is further provided with a ban line 15 penetrating the inside so that air can be discharged, the inlet portion 15a of the ban line 15 is formed on the upper surface of the flange body 10 And, the outlet portion 15b of the bantrain 15 is a test flange for valve performance test, characterized in that formed on the side wall surface of the flange body 10 The method according to claim 2, The inlet portion 15a of the ban line 15 is connected to the gas vent connecting pipe 18 having a certain height, the gas vent connecting pipe 18 is characterized in that the valve performance is provided with a flexible material Test flange for testing. The method according to claim 2 or 3, A gas vent valve 17a for opening and closing a flow path is connected to the outlet part 15b of the ban line 15, and a pressure supply pipe for supplying a fluid to the inlet part 12a of the pressure supply line 12. (16) is connected and installed, the pressure supply pipe (16) is a test flange for valve performance test, characterized in that the water pump (16d) is configured. The method according to claim 1, A pressure supply pipe 16 is connected to the inlet 12a of the fluid supply line 12, and the pressure supply pipe 16 has a pressure filling valve 16a for opening and closing a flow path, and for adjusting the filling amount. A test flange for valve performance test, characterized in that the pressure control valve (16b) and the high pressure tank (16c) for supplying a high pressure gas is connected.

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