KR101513461B1 - Valve Test Appartus - Google Patents

Abstract

The present invention relates to a low pressure and negative pressure safety valve testing apparatus. The low pressure and negative pressure safety valve testing apparatus includes: a test flange (20) having a through-hole; a detachable means (30) enabling a low pressure valve or a negative pressure valve to be attached and detached; a positive pressure generator (40) generating positive pressure; a vacuum generator (50) generating negative pressure; a manometer (70) which is capable of measuring pressure; and a connection pipe (80). The positive pressure generator (40) and the vacuum generator (50) include a pressure generator (100) including: a cylinder main body (110) where a threads part (111) is formed on one side and a cylinder part (112) is formed on the other side; and a driving screw rod (130) rotationally coupled to the threads part (111).

Description

[0001] Valve Test Appartus [0002]

The present invention relates to a test apparatus for a low-pressure and a negative-pressure safety valve, comprising: a test flange (20) provided with a through hole communicating with an outlet of a negative pressure or low-pressure valve to be mounted; And a vacuum generator (50) for generating a negative pressure; and a controller for controlling the operation of the vacuum cleaner when the liquid is received in the U- A manometer (70) capable of measuring a pressure through a difference in water level between both sides of the pipe due to a positive pressure generated by the generator (40) or a negative pressure generated by the vacuum generator (50) The manometer 70 is connected to the positive pressure generator 40 and the vacuum generator 50 and the test flange 20 so that the manometer 70, the positive pressure generator, the vacuum generator, and the test flange communicate with the negative or low- To be And a connection pipe 80. The positive pressure generator 40 and the vacuum generator 50 have threaded portions 111 formed on one side thereof and a positive pressure or negative pressure on the other side thereof through a pressure outlet 113 A handle 120 is provided at an outer end of the cylinder body 110 and a cylinder 120 is provided at an inner end of the cylinder body 112 And a driving screw rod 130 to which a piston 140 inserted in the driving screw rod 130 is coupled.

The spring-type safety valve, which is installed most in nuclear power plants and general industry, is designed so that the system pressure exceeded by the mechanical spring compression force in the system where the normal operating pressure and the maximum permissible operating pressure are reflected in the design, The fluid in the system is safely discharged while pushing out, and the discharged fluid is collected in a collecting room or a tank or the like.

In this case, when negative pressure (vacuum pressure) is formed in the system due to damage of system piping and suspension of fluid transportation in the system due to failure or breakage of equipment during normal system operation, Outside air flows into the system through the valve body while pushing down the spring force, and maintains the piping pressure in the system at atmospheric pressure to prevent damages to system equipment and piping by negative pressure (vacuum pressure).

[0003] As a conventional invention for such a valve inspection, a jig flange on which a breather valve to be inspected is fixed is provided in a hollow drum (see Japanese Patent No. 10-0808062) An air compressor connected to one side of the drum body through a main pipe to generate compressed air, and a main pipe connected to the main body between the drum body and the air compressor, A transmeter connected to one side of the drum body for outputting an electrical signal corresponding to a measurement pressure inside the drum body; And a data processing unit for generating a database for the result.

On the other hand, when the test pressure to be applied to the valve is low (3 psig or less), negative pressure (-3 psig) or less during the verification test performed after periodic soundness test of the safety valve installed in the system piping and after the safety valve malfunction or decomposition check by internal leakage .

In this way, the integrity verification test of the low-pressure and negative-pressure (vacuum pressure) safety valves installed in a nuclear power plant is generally carried out through the following procedure.

A) Install the safety valve to be tested on the test flange.

B) Confirm the integrity of mercury manometer pressure gauge for confirmation of low pressure and negative pressure (vacuum pressure).

C) Install a pressure reducing valve for low pressure, a vacuum pump for generating negative pressure (vacuum), and a flow control valve on the pressurization line.

D) If the set pressure of the safety valve is 3 psig, press it slowly with a pressure reducing valve of 2.7 psig and hold it for more than 1 minute to check the leakage.

E) Negative pressure (vacuum pressure) The safety valve is set to -2.7 psig when the set pressure is -3 psig and -0.18 psig when the set pressure is -0.2 psig using the vacuum pump and the flow control valve for negative pressure (vacuum) And then hold it for at least 1 minute to check for leakage.

F) If the leakage test result of the safety valve is satisfied, check the set pressure by continuing to pressurize the low pressure and negative pressure (vacuum pressure), set the stabilization time of the device for at least 10 minutes after one test, Safety valve setting pressure).

G) If the safety valve setting pressure is unsatisfactory, adjust the set pressure using the spring compression adjusting bolt with the test pressure fully depressurized, and check the integrity again through two tests.

A) Finally, to confirm the integrity of the safety valve seal, slowly press it to the leak test pressure according to the set pressure and hold it for at least 1 minute to check the leakage.

However, these conventional methods have the following problems.

A) The mercury manometer pressure gauge is a very expensive equipment that can confirm the correct pressure when checking the low pressure and negative pressure (vacuum pressure). However, it is difficult to use the mercury, toxic materials handling method and pressure conversion easily, The error of confirming the incorrect indication pressure is repeated frequently, which lowers the reliability and accuracy of the safety valve test.

B) When the pressure is relieved by the low pressure pressure reducing valve to check the leakage and the set pressure of the safety valve, the pressure is reduced by the test pressure of the valve. Excessive pressure caused by the deterioration of the function causes frequent operation of the safety valve under test, which causes damage to the internal parts.

C) For negative pressure (vacuum pressure) safety valve, pressure must be formed by using a separate vacuum pump. To check the leak test and set pressure of the valve, test it by using a flow control valve. Inexperienced tests are frequently performed due to human errors (inexperienced operation of test equipment) during use by a complicated and unskilled person, resulting in damage of internal parts due to the operation of the valve.

D) If negative pressure (vacuum pressure) is not generated due to malfunction or failure of the vacuum pump and flow control valve, change the prescribed test procedure applied at the power plant (apply the normal test pressure of the valve manufacturer) In the case of 3 psig, -0.2 psig, the test is performed by pressurizing at a low pressure of 0.2 psig, thereby lowering the reliability of the test.

E) Improper low pressure and negative pressure (vacuum pressure) caused by the use of equipment in the body of the safety valve body damage and damage due to unnecessary valve maintenance time is added to the test time is delayed, and incorrect safety valve The integrity test reduces the safety of the nuclear power plant and the safety of the equipment.

Patent Document 1: Korean Patent No. 10-0808062

The present invention solves the above-mentioned problems of the conventional invention and makes it possible to secure the reliability and quality of the safety check test method for the safety valve for the low pressure and the negative pressure (vacuum pressure) from the technical viewpoint and to improve the safety of the operation of the nuclear power plant, And to provide a test apparatus for a low-pressure and a negative-pressure safety valve capable of preventing a delay in performing a valve test during a period of time.

Another object of the present invention is to provide a test apparatus for a low-pressure and a negative-pressure safety valve capable of easily testing even an unskilled person and capable of carrying out a health confirmation test independently and preventing damage to important parts with safety valves built in by an accurate test method .

In order to achieve the above object, the present invention provides a test apparatus comprising: a test flange (20) having a through hole communicating with a negative pressure or an outlet of a low-

Detachment means (30) for detachably mounting a negative pressure or low pressure valve mounted on the test flange (20)

A positive pressure generator 40 for generating a positive pressure,

A vacuum generator 50 for generating negative pressure,

A pressure sensor can measure the pressure through the difference in the water level on both sides of the pipe due to the static pressure generated by the positive pressure generator (40) or the negative pressure generated by the vacuum generator (50) (70)

And is connected to the manometer 70, the positive pressure generator 40, the vacuum generator 50 and the test flange 20 so as to be connected to the manometer 70, the positive pressure generator 40, 50 and the test flange 20 are in communication with the negative pressure or low pressure valve,

The positive pressure generator (40) and the vacuum generator (50)

A cylinder body 110 having a threaded portion 111 formed at one side thereof and a cylinder portion 112 for supplying a positive pressure or a negative pressure through a pressure outlet 113 to the other side;

A driving screw rod 130 rotatably coupled to the threaded portion 111 and having a handle 120 at its outer end and a piston 140 inserted into the cylindrical portion 112 at its inner end; And a pressure generator (100) configured to include the pressure generator (100).

Further, the attaching / detaching means (30)

At least two guide slots (31) radially formed in the test flange;

A guide block (32) installed to be reciprocally movable in the guide slot;

A fixing bolt 33 installed on the upper surface of the guide block;

A fixing block (34) provided with a hole for receiving the fixing bolt and having a lower surface mounted on one side of the negative pressure or low pressure valve;

An auxiliary block (35) which is seated on the test flange and has a plurality of stepped ends formed on one surface thereof to support the fixing block horizontally; And

And a fixing nut (36) fastened to the fixing bolt and fastening the fixing block to press and fix the negative pressure or the low pressure valve.

Further, a charge / discharge pipe (74) provided with a first manual valve (73) on the lower side so that bubbles are not generated in the liquid filled in the manometer (70) in a downward direction is further provided .

According to the present invention, it is possible to secure the reliability and quality of the safety confirmation test method for the safety valve for the low pressure and the negative pressure (vacuum pressure) from the technical point of view, to improve the safety of the operation of the nuclear power plant, It is possible to prevent delay.

In addition, even unskilled persons can test easily, and can carry out soundness test alone, and it is possible to prevent damage of important parts with built-in safety valve by accurate test method.

Figure 1: Fluid flow during operation of low pressure safety valve
Figure 2: Fluid flow during operation of the negative pressure relief valve
3 is a view showing a configuration of a low-pressure and a negative-pressure safety valve testing apparatus according to an embodiment of the present invention;
4 is a view showing the operation of the low-pressure and negative-pressure safety valve testing apparatus according to the embodiment of the present invention at the time of low-pressure test.
Fig. 5 is a view showing the operation of the low-pressure and negative-pressure safety valve testing apparatus in the negative pressure test according to the embodiment of the present invention. Fig.
6 is a view showing a configuration of a pressure generator of a low- and low-pressure safety valve testing apparatus according to an embodiment of the present invention;
7 is a view showing a configuration of a detachment means of a low-pressure and a negative-pressure safety valve testing apparatus according to an embodiment of the present invention;

Hereinafter, an apparatus for testing a low-pressure and a negative-pressure safety valve according to an embodiment of the present invention will be described.

3, the test apparatus for a low-pressure and a negative-pressure safety valve according to an embodiment of the present invention includes a test flange 20, a detachment means 30, a constant-pressure generator 40, a vacuum generator 50, And a connection pipe 80. The positive pressure generator 40 and the vacuum generator 50 are integrated into one pressure generator 100. [

First, the test flange 20 will be described. As shown in FIG. 3, the test flange 20 is provided with a through hole communicating with the negative pressure or the outlet of the low-pressure valve to be mounted. As shown in Fig. 3, the test flange 20 is equipped with a detachable means 30 for detachably attaching a negative pressure or a low-pressure valve.

In this case, a great variety of embodiments are possible for implementing the detachment means 30. As shown in FIG. 7, the detachment means 30 may include a detachable means A guide bolt (33) provided on the upper surface of the guide block, and a fixing bolt (33) provided on the upper surface of the guide block, A fixing block 34 mounted on one side of the lower surface so as to extend over one side of the negative pressure or the low pressure valve and a plurality of stepped portions formed on one side of the test flange, And a fixing nut (36) fastened to the fixing bolt and fastening the fixing block so that the fixing block presses and holds the negative pressure or the low pressure valve .

Next, the positive pressure generator 40 and the vacuum generator 50 will be described. The positive pressure generator (40) and the vacuum generator (50) each have a function of generating a positive pressure and a function of generating a negative pressure.

6, the positive pressure generator 40 and the vacuum generator 50 may be replaced with a vacuum generator 40 and a vacuum generator 50. In this case, the positive pressure generator 40 and the vacuum generator 50 may be implemented in various embodiments. The generator 50 has a threaded portion 111 formed at one side thereof and a cylinder body 110 formed with a cylinder portion 112 for supplying a positive pressure or a negative pressure through the pressure outlet 113 to the other side, And a driving screw rod 130 coupled to the piston 140 to be inserted into the cylinder portion 112 is provided at an inner end of the driving rod 130. The driving rod 130 is rotatably coupled to the cylinder portion 111, And a pressure generator 100 for generating a pressure. That is, in the initial state, when the piston 140 is operated to compress the air in the cylinder portion 112 while the piston 140 is in the expanded position, the positive pressure generator is operated by the positive pressure generator, And operates as a negative pressure generator when it is operated to expand the air in the chamber 112.

In this case, since the pressure of the positive / negative pressure that can be supplied when the piston 140 moves from the maximum expansion position to the maximum compression position is determined to be constant according to the standard of the cylinder portion 112, It becomes possible to supply a positive pressure or a negative pressure. In addition, since the piston 140 is driven while the driving screw rod 130 is operated according to the driving of the handle 120, it is possible to generate a high pressure with a relatively small force.

Since the positive pressure generator 40 and the vacuum generator 50 are embodied by the pressure generator 100 as described above, it is possible to use the vacuum generator 50 by anyone who is unskilled by a very simple configuration, and there is no fear of malfunction .

Next, the manometer 70 will be described. As shown in FIG. 3, the manometer 70 includes a tube (not shown) which is accommodated in a "U" -shaped tube and has a positive pressure generated by the positive pressure generator 40 or a negative pressure generated by the vacuum generator 50 It has the function to measure the pressure through the difference of water level on both sides.

3, in order to prevent bubbles from being generated in the liquid filled in the manometer 70, the manometer 70 is provided with a first manual valve 73, / Drain pipe 74 is further provided.

Next, the connection pipe 80 will be described. 3, the connection pipe 80 is connected to the manometer 70, the positive pressure generator 40, the vacuum generator 50, and the test flange 20, The pressure generator 70, the positive pressure generator 40, the vacuum generator 50 and the test flange 20 are communicated with the negative or low pressure valve.

Hereinafter, the operation of the low-pressure and negative-pressure safety valve testing apparatus according to one embodiment of the present invention will be described.

First, the test subject safety valve (V) is mounted on the test flange (20) using the detachment means (30).

Thereafter, the flow path of the charge / discharge pipe 74 is opened by operating the first manual valve 73 provided at one side of the charge / discharge pipe 74 of the manometer 70, and then the liquid (water) The first manual valve 73 is operated to close the flow path.

Next, the handle 120 of the pressure generator 100 is operated to check the abnormality, and the manual operation handle is rotated to the test pressure generation start position to be tested to fix the piston rod in the proper position.

Thereafter, the pressure discharge port 113 of the pressure generator 100 is connected to the connection pipe 80, the handle 120 is slowly rotated to adjust the safety valve leakage test pressure (negative pressure or low pressure) (V) is leaked to the inside (check if the height of the two tubes of the pressure gauge is equal to each other).

That is, when a positive pressure is applied to the connection pipe by the positive pressure generator in a state where the low-pressure valve as the test subject safety valve (V) is closed, the level of the liquid contained in one pipe of the manometer connected to the connection pipe becomes low, If there is no change, the negative pressure or the low-pressure valve is in a state of not leaking, and when the water level rises,

On the other hand, if a negative pressure is applied to the connection pipe by the vacuum generator on the negative pressure valve which is the test subject safety valve (V), the level of the liquid contained in the one side pipe of the manometer connected to the connection pipe becomes high and the set negative pressure If the elevated water level is not lowered when a negative pressure is applied to the connection pipe, the negative pressure valve does not operate again. If the increased water level is lowered, the operator can confirm that the negative pressure valve is normally operating.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

20: Test flange
30: detachment means
40: constant pressure generator
50: Vacuum generator
70: Manometer
80: Connector
100: Pressure generator
110: cylinder body
111: threaded portion 112: cylinder portion
113: Pressure outlet
120: Handle
130: driven screw rod
140: Piston

Claims (3)

A test flange (20) provided with a through hole communicating with an outlet of a negative pressure or low pressure valve to be mounted;
Detachment means (30) for detachably mounting a negative pressure or low pressure valve mounted on the test flange (20);
A constant pressure generator 40 for generating a static pressure;
A vacuum generator 50 generating negative pressure;
A pressure sensor can measure the pressure through the difference in the water level on both sides of the pipe due to the static pressure generated by the positive pressure generator (40) or the negative pressure generated by the vacuum generator (50) (70);
And is connected to the manometer 70, the positive pressure generator 40, the vacuum generator 50 and the test flange 20 so as to be connected to the manometer 70, the positive pressure generator 40, 50 and the test flange 20 are in communication with the negative pressure or low pressure valve,
The positive pressure generator (40) and the vacuum generator (50)
A cylinder body 110 having a threaded portion 111 formed at one side thereof and a cylinder portion 112 for supplying a positive pressure or a negative pressure through a pressure outlet 113 to the other side;
A driving screw rod 130 rotatably coupled to the threaded portion 111 and having a handle 120 at its outer end and a piston 140 inserted into the cylindrical portion 112 at its inner end; And a pressure generator (100) configured to include the pressure sensor (100).
The method according to claim 1,
The detachment means (30)
At least two guide slots (31) radially formed in the test flange;
A guide block (32) installed to be reciprocally movable in the guide slot;
A fixing bolt 33 installed on the upper surface of the guide block;
A fixing block (34) provided with a hole for receiving the fixing bolt and having a lower surface mounted on one side of the negative pressure or low pressure valve;
An auxiliary block (35) which is seated on the test flange and has a plurality of stepped ends formed on one surface thereof to support the fixing block horizontally; And
And a fixing nut (36) fastened to the fixing bolt and fastening the fixing block to press and fix the negative pressure or the low pressure valve. The method according to claim 1 or 2,
And a charge / drain pipe (74) provided with a first manual valve (73) at the lower side so as to be able to be filled in the downward direction so that bubbles are not generated in the liquid filled in the manometer (70) Test equipment for negative pressure safety valve.

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