KR200433946Y1 - Leakage tester for a valve - Google Patents

Abstract

The present invention relates to a test apparatus for checking the leakage of the valve, more specifically, the operation block 40 and the fixed block 50 is installed in the water tank 30 to which the valve 100 to be tested is mounted. In addition, the operation block 40 is reciprocated from one side of the water tank 30 so as to be in close contact with one side connecting portion 111 of the valve 100 and also to introduce compressed air into the inside of the connecting portion 111. The furnace 46 is formed, and the fixed block 50 is fixedly installed at the other side of the water tank 30 so that the other side connection part 112 of the valve 100 is in close contact with the compressed air flowing out of the connection part 112. A series of connection passages 56, a space portion 55, and a discharge passage 57 are formed to discharge the water into the water tank 30, and the valve assembly 60, which is operated by compressed air, has the space portion 55. ) To selectively block the air flow between the connecting passage 56 and the space portion 55 By constructing the test apparatus 1 so that the air is generated in the discharge passage 57 of the fixed block 50 by supplying compressed air through the operation block 40 into the valve 100 of the test object in the closed state. It is possible to check whether the inside of the valve 100 according to the presence or absence of, of course, in the state of operating the valve assembly 60, the connecting passage 56 and the space portion 55 in the state that the test valve ( 100 can be opened to check the leakage of the body of the valve 100 depending on whether bubbles are generated in the appearance of the valve 100 submerged in the water tank (30), wider and simpler than the conventional The present invention relates to a leak test apparatus for valves capable of leak inspection.

Valve, Leak, Test, Check, Inspector, Bubble, Diaphragm

Description

Leakage Tester for Valves {LEAKAGE TESTER FOR A VALVE}

1 is a cross-sectional view showing the configuration of a general valve.

Figure 2 is a front view and a plan view showing a leak test device for a valve according to the present invention

Figure 3a is a perspective view showing the operation block of the leak test apparatus according to the present invention

Figure 3b is a front sectional view showing the operation block of the leak test apparatus according to the present invention

Figure 4a is a perspective view showing a fixed block of the leak test apparatus according to the present invention

Figure 4b is a front sectional view showing a fixed block of the leak test apparatus according to the present invention

Figure 4c is a side cross-sectional view showing a fixed block of the leak test apparatus according to the present invention

5 to 8 is a functional state diagram of a leak test apparatus according to the present invention

*** Explanation of symbols for the main parts of the drawing ***

DESCRIPTION OF SYMBOLS 1 Test apparatus 10 Base 20 Pneumatic cylinder 30 Water tank

32: guide bar 40: operation block 45: air supply 46: air passage

50: fixed block 55: space 56: connection passage 57: discharge passage

58: seat member 60: valve assembly 61: upper plate 62: lower plate

63: diaphragm 64: opening and closing 70: cover 71: air chamber

75: air supply 100: valve 110: body 111, 112: connection portion

115: valve seat 120: cap 130: stem 135: valve disc

The present invention relates to a test apparatus for checking the leakage of the valve, and more particularly, the operation block and the fixed block to which the valve to be tested is installed in the water tank, the operation block of the valve An air passage is provided to allow the compressed air to flow into one connection portion, and a series of connection passages, a space portion, and a discharge passage are formed in the fixed block so as to discharge the compressed air flowing out of the other connection portion of the valve. By forming a valve assembly in the part to selectively block the compressed air discharged, as well as the presence of fluid leakage between the valve seat and the valve disk formed inside the valve to be tested to control the flow of the fluid The present invention relates to a leak test apparatus for a valve to check the leakage of the valve body.

As is well known, valves are mechanisms used to control the flow of fluid, and many types of valves are currently in use, such as globe valves, gate valves, ball valves, and the like. The most common type of valve configuration will be described with reference to FIG. 1 below.

In general, the configuration of the valve 100, the valve seat 115, the valve seat (115) in the inner center of the body 110, the connection portion 111, 112 is formed to fasten the pipe (not shown) at both ends And a lower end of the cap 120 having the female threaded portion 123 formed on an inner circumferential surface of the body 110 opened to the upper side of the valve seat 115, and the female threaded portion 123 of the cap 120. A stem 130 having a male screw portion 133 fastened to the outer circumferential surface thereof is formed, and at the lower end of the stem 130, a valve disc 135 for opening and closing the valve seat 115 is formed. A handle 136 is formed at an upper end of the stem 130, and a cover 140 is fastened to an upper end of the cap 120 to configure the valve 100. In the drawing, reference numeral '124' is a seal 124 formed between the cap 120 and the stem 130 so that fluid does not flow out of the valve 100, and '150' is a valve 100. The valve chest (150, valve chest) is shown as the internal space of the.

On the other hand, in the case of the conventional valve including the valve 100 as described above, there was a significant inconvenience in the leakage test of the valve. Looking at this in more detail, the conventional valve leakage test is one side of the valve 100 to be tested After connecting a pipe (not shown) by hand so as to maintain the airtightness to the connecting portion 111, and then immersed in a water tank in a state in which the valve 100 to be tested is closed, the valve 100 The leakage test of the valve 100 was performed by supplying compressed air to a pipe (not shown) connected to one side connection part 111 of the valve 100 to check whether air bubbles leaked to the other side connection part 112 side of the valve 100.

However, in the case of the conventional valve leakage test as described above, the presence or absence of fluid leakage between the valve seat 115 and the valve disc 135 to control the flow of fluid in the valve 100, In the valve 100, there is a problem in which the leakage between the fastening portion between the body 110 and the cap 120 and the screw operating portion between the cap 120 and the stem 130 is not known.

In addition, by manually connecting the pipe (not shown) to one side connection portion 111 of the valve 100, the inspection was very inconvenient, and as a result, the production site performed a leak test on the entire produced valve. However, it was not possible to go beyond the level of sampling by checking any valve.

An object of the present invention for solving the conventional problems as described above, as well as automated leakage check between the valve seat and the valve disk, as well as an external leak check between the body and the cap and between the cap and the stem. By constructing a leak test device, not only a wider leak test is possible, but also a leak test is made easy so that the leak test of the entire production volume of the valve can be carried out. It is installed in the tank, the operation block is to allow the compressed air to flow into one side connection of the valve to be tested and the fixed block to selectively discharge the compressed air flowing out of the other side connection of the valve Construct a leak tester for the valve.

The configuration of the leak test apparatus for a valve according to the present invention for achieving the object as described above, the operation block and the fixed block is installed in the water tank filled with the valve to be the test target, The actuating block reciprocates left and right in the water tank by the operation of the pneumatic cylinder so as to be in close contact with one side connection of the mounted valve and to form an air passage for introducing compressed air into the interior of the connection, In the fixed block in which the other side connection portion of the valve is in close contact, a series of connection passages, a space portion and a discharge passage are formed to discharge compressed air flowing out from the other side connection portion of the valve, and a valve assembly is formed in the space. It is characterized in that to selectively block the compressed air discharged.

Hereinafter, a configuration of a leak test apparatus for a valve (hereinafter, referred to as a "test apparatus") according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 2 to 8, but the same parts as those of FIG. Denoted by the same reference numeral to avoid.

Looking at the configuration of the test apparatus 1 according to the present invention with reference to Figure 2, first, by installing the pneumatic cylinder 20 on one side of the base 10, the rod 21 by the drive of the pneumatic cylinder 20 ) To the left and right reciprocating, and the other side of the base 10 to form a water tank (30, filled with water), the water tank (30) while the rod 21 is maintained in a state of water The insertion hole 31 is formed to penetrate therethrough, and a pair of guide bars 32 are formed on both inner surfaces of the water tank 30, and the rod 21 and the rod 21 are formed at one side of the guide bar 32. The fixed block 50 is fixedly installed on the other side of the guide bar 32 while the operating block 40 is fastened and reciprocated. The operating block 40 and the fixed block 50 are provided with a water tank 30. Immersed in water filled in the).

2 and 3A and 3B, the configuration of the operation block 40 will be described in more detail. In the operation block 40, a guide hole 42 into which the guide bar 32 is inserted is formed to form a pneumatic cylinder 20. In operation, the operation block 40 is guided to the guide bar 32 to reciprocate left and right, and one side of the operation block 40 facing the fixed block 50 of the valve 100 to be tested. A seating groove 43 is formed to mount one side connecting portion 111, and a soft pad 44 is disposed on the contact surface of the operation block 40 in which the end surface of one side connecting portion 111 of the valve 100 is in contact. The inside of the valve 100 is blocked from the outside to maintain airtightness, while the inside of the operation block 40 flows through the air supply 45 from an external compressor (not shown). Compressed air is discharged to the inside of the valve 100 through the one inlet 111 of the mounted valve 100 It may form a (46) so that the air passage.

Subsequently, referring to FIG. 2 and FIGS. 4A to 4C, the configuration of the fixing block 50 is described in more detail. The fixing block 50 forms a guide hole 52 into which the guide bar 32 is inserted and fixed. On one side of the fixed block 50 facing the block 40 to form a seating groove 53 to mount the other side connection portion 112 of the valve 100 to be tested, the valve of the The contact surface of the fixing block 50 in contact with the other end of the connection portion 112 is formed with a soft pad (54) so that the interior of the valve 100 is blocked from the outside to maintain the airtight (氣密).

In addition, the fixed block 50 has a series of connecting passages 56 and a space 55 to allow the compressed air flowing in from the operation block 40 to pass through the interior of the valve 100 to the water tank 30. In addition to forming the discharge passage 57, the space portion 55 forms a valve assembly 60 to selectively block the compressed air flowing out to the water tank 30. Looking at this in more detail, the fixed block ( The upper side of the opening 50 is formed so that the space portion 55 is formed, and the connection passage 56 which discharges the compressed air introduced into the mounted valve 100 into the space portion 55. And a discharge passage 57 for discharging the compressed air introduced into the space part 55 to the water tank 30, but the discharge passage 57 is formed to be inclined downward toward the outside.

On the other hand, the end of the connecting passage 56 communicating with the space portion 55 is formed in a separate sheet member 58 so that the connecting passage 56 via the sheet member 58 to the space portion ( It is preferable to communicate with the bar 55, the installation groove 51 is formed on the bottom of the space portion 55 to insert and install the seat member 58 having the end of the connection passage 56, the sheet member 58 Protruding portion 59 is formed on the upper side of the) to facilitate the closing of the opening and closing port 64 to be described later.

Looking at the configuration of the valve assembly 60 formed in the space 55 of the fixing member 50 to selectively block the compressed air, the valve assembly 60 is the upper side of the space 55 A diaphragm 63 which covers the space part 55 to be sealed, and an upper plate 61 and a lower plate which are integrally connected to the diaphragm 63 in contact with the upper and lower surfaces of the diaphragm 63, respectively. (62) and the opening and closing port (64) formed at the lower end of the lower plate (62) to close the projection (59) of the sheet member (58) to block the connection of the space (55) and the connection passage (56); In order to keep the opening and closing port 64 in an open state, a spring 65 is installed between the lower plate 62 and the bottom of the space part 55, and an air chamber 71 accommodating the upper plate 61. And a diaphragm 63 formed on the upper side of the fixing block 50 to maintain the airtightness of the air chamber 71. The valve assembly 60 is formed by forming an air supply 75 on an upper side of the cover 70 to allow the cover 70 to be fastened and the compressed air of an external compressor (not shown) to flow into the air chamber 71. ).

 In the drawings, reference numeral 25 denotes a joint 25 connecting the cylinder rod of the pneumatic cylinder 20 itself and the rod 21, and the reference numeral 37 may discharge water contained in the water tank 30. It is an outlet 37 to be.

The operation of the leak test apparatus for a valve according to the present invention configured as described above will be described with reference to FIGS. 5 to 8.

First, as shown in FIG. 5, both side connecting portions 111 and 112 of the valve 100 to be tested are seated in the seating grooves 43 and 53 formed in the operation block 40 and the fixed block 50. Next, when the pneumatic cylinder 20 is operated, both side connecting portions 111 and 112 of the valve 100 with respect to the pads 44 and 54 formed on the operation block 40 and the fixed block 50 as shown in FIG. 6. When the compressed air is supplied to the air supply port 45 of the operation block 40 in the above state, the compressed air is introduced into the valve chest 150 through the air passage 46, and the valve (100) The water flowing into the valve chest 150 when installed is a water tank within a short time via the connection passage 56 and the space portion 55 and the discharge passage of the fixed block 50 together with the high-pressure compressed air ( 30).

After sufficient time has elapsed for the water flowing into the valve chest 150 to be discharged into the water tank 30, the valve disk is operated by operating the handle 136 of the valve 100 to be tested as shown in FIG. 7. When the 135 locks the valve 100 to close the valve seat 115, the compressed air flowing out of the operation block 40 stays only at one side of the connecting portion 111 of the valve 100 so that the normal valve 100 is closed. If the compressed air can not flow out to the other side connection portion 112 and the fixed block 50 side, if the bubble is generated in the discharge passage of the fixed block 50, that is, the inside of the valve 100 to be tested, that is, The fluid leak between the valve disc 135 and the valve seat 115 may be checked.

On the other hand, the air in the connection passage 56 and the space 55 of the inside and the fixed block 50 of the other inlet 112 of the valve 100 in the above-described bar bar, fixed block 50 As shown in FIG. 4C, the discharge passage 57 is inclined downward to the outside, so that the water in the water tank 30 passes through the discharge passage 57 to the space 55, the connection passage 56, and the valve ( It does not flow back into the other inlet 112 of 100.

In the above state, when compressed air flows into the air chamber 71 through the air supply port 75 formed in the cover 70 of the fixed block 50 as shown in FIG. 8, rubber constituting the valve assembly is provided. Pressure is transmitted to the diaphragm 63 of the material, and the upper plate 61 and the lower plate 62 are lowered, including the diaphragm 63, and thus the opening and closing port 64 formed at the lower end of the lower plate 62 is seated. The air flow between the connecting passage 56 and the space portion 55 of the fixed block 50 is in close contact with the protrusion of the member 58, and at this time, the handle 136 of the valve 100 to be tested When the valve 100 is opened so that the valve disc 135 is spaced apart from the valve seat 115, the compressed air is supplied from the air passage 46 of the operation block 40 to the whole of the valve chest 150 to be closed. Stay in state.

Therefore, by checking whether bubbles are generated in the appearance of the valve 100 submerged in the water tank 30 in the above state, the fastening portion between the body 110 and the cap 120 of the valve 100 and It is possible to check the presence of fluid leakage for the operating portion between the stem 130 and the cap 120.

According to the leak test apparatus for a valve according to the present invention configured as described above, as well as the leakage check between the valve seat and the valve disc to control the flow of fluid in the valve, the fastening portion and the cap between the body and the cap and Since the leak check of the screw operating part between stems can be performed simultaneously, the leak test of a wider valve is possible.

In addition, it is easy to check the leakage of the valve according to the automation of the leak test device, ultimately to avoid the conventional sampling (sampling) inspection, there is an effect that can check the leakage of the entire production volume of the valve.

Claims (3)

The operation block 40 and the fixed block 50, on which the valve 100 to be tested is mounted, are installed to be immersed in the water tank 30; The operation block 40 is left and right reciprocating from one side of the water tank 30 by the operation of the pneumatic cylinder 20 so as to be in close contact with the one-side connection portion 111 of the mounted valve 100 and the connection portion An air passage 46 is formed to flow compressed air of the external compressor into the interior of the 111; The fixing block 50 is fixedly installed on the other side of the water tank 30 so that the other side connection portion 112 of the valve 100 can be in close contact with each other and flows out of the other side connection portion 112 of the valve 100. A series of connection passages 56, a space portion 55, and a discharge passage 57 are formed to discharge the compressed air to the water tank 30; The valve assembly 60 which is operated by the compressed air of the external compressor is installed in the space part 55 so as to selectively block the air flow between the connection passage 56 and the space part 55. Leakage test device for valve. The method of claim 1; Forming mounting grooves 43 and 53 on which opposite side connecting portions 111 and 112 of the valve to be tested 100 are mounted, respectively, on one side of the operation block 40 and the fixed block 50 facing each other; The pads 44 and 54 are formed on the contact surfaces of the operation block 40 and the fixed block 50, which are connected to both end portions 111 and 112 of the valve 100, respectively. Leakage test device for valve. The method of claim 1 or 2; The space portion 55 is formed by opening the upper side of the fixed block 50, but forms an installation groove 51 in the bottom surface of the space portion 55; The connection passage 56 is configured to communicate between the space portion 55 in the other side connection portion 112 of the mounted valve 100, but the seat member 58 formed with a protrusion 59 on the upper side of the installation It is inserted into the groove 51 so that the end of the connecting passage 56 is formed in the sheet member (58); The discharge passage 57 is to be discharged to the water tank 30 to the compressed air introduced into the space portion 55 while being formed to be inclined downward outside; The valve assembly 60 includes a diaphragm 63 covering the upper side of the space part 55 to be hermetically sealed, and an upper plate 61 which is integrally fastened to the diaphragm 63 in contact with the upper and lower side surfaces of the diaphragm 63. And a lower plate 62 and a lower end of the lower plate 62 so as to be in contact with the protruding portion 59 of the sheet member 58 to block the air flow of the space 55 and the connection passage 56. To accommodate the opening and closing 64, the spring 65, which is installed between the lower plate 62 and the bottom of the space portion 55 so as to maintain the open state of the opening and closing 64, the upper plate 61 The cover 70 is formed on the bottom surface of the air chamber 71 and is fastened together with the diaphragm 63 on the upper side of the fixing block 50 to maintain the airtightness of the air chamber 71 and an external compressor (not shown). Val is characterized in that the air supply port 75 is formed on the upper side of the cover 70 so that the compressed air flows into the air chamber (71) Leak test equipment.

Images