KR20100092320A - A butterfly valve testing device - Google Patents

Abstract

PURPOSE: A butterfly valve inspection apparatus is provided to ensure a quality verified butterfly valve by easily testing stable control of high temperature and high pressure fluid. CONSTITUTION: A butterfly valve inspection apparatus comprises a pipe body(20), a temperature sensor(30), a pressure sensor(40), a heater(50), a pump(60), and a controller(70). The pipe body is equipped with a valve on one end and blocked on the other. The temperature sensor measures the internal temperature of the pipe body. The pressure sensor measures the internal pressure of the pipe body. The pump provides pressure to increase the internal pressure of the pipe body. The controller controls the pressure sensor and the temperature sensor.

Description

Butterfly Valve Testing Device

The present invention relates to a butterfly valve inspection device, and more particularly to a butterfly valve inspection device that can inspect whether the airtight between the disc and the disk seat is maintained even at high pressure and high temperature.

The butterfly valve is composed of a body (2) of the tubular body seat body is installed, and a disk (4) is pivotally pivoted on the body (2), the disk seat is installed on the circumferential surface. The disk seat is detachably fixed to the circumferential end of the disk 4, and has a structure in which the disk seat is hermetically contacted with the body metal sheet. The disk sheet is structured to be firmly fixed to the disk by bolts or the like.

However, the above-described prior art has the following problems.

As described above, the butterfly valve is to control the fluid by the operation of the disk, it is necessary to check whether the fluid can be stably controlled when the fluid at high temperature and high pressure, but there is no device to test it There was a difficulty.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide a butterfly valve inspection apparatus capable of determining whether the butterfly valve can stably control the fluid. .

According to a feature of the present invention for achieving the object as described above, the inspection device of the butterfly valve of the present invention, the one end is blocked by the valve, the other end is a shielded pipe body, and measures the temperature inside the pipe body Temperature sensor; And, it may be configured to include a pressure sensor that can measure the pressure inside the pipe body.

Another embodiment of the butterfly valve inspection apparatus according to the present invention, the first pipe body is closed one end by the valve, the other end is shielded, the second pipe body is closed one end by the valve, the other A temperature sensor installed on at least one of the first pipe body and the second pipe body; And, it may be configured to include a pressure sensor which is installed on at least one of the first pipe body and the second pipe body.

It may be configured to further include a heater for providing heat to the inside of the pipe body is provided with the temperature sensor to a high temperature.

The pressure sensor may be configured to further include a pump for providing a pressure to the inside of the pipe body is provided with a high pressure.

The butterfly valve inspection apparatus of the present invention may further comprise a control unit.

In the inspection device of the butterfly valve according to the present invention has the following effects.

It is possible to simply check whether the butterfly valve reliably intercepts the high temperature and high pressure fluid, thereby providing a proven butterfly valve.

Hereinafter, a preferred embodiment of a butterfly valve inspection apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 2, the inspection device of the butterfly valve according to the present invention, one end is blocked by the valve 10, the other end is a shielded pipe body 20, the inside of the pipe body 20 It may be configured to include a temperature sensor 30 that can measure the temperature, and a pressure sensor 40 that can measure the pressure in the pipe body (20).

First, the butterfly valve inspection apparatus of the present invention is provided with a butterfly valve (10). The butterfly valve 10 is as shown in Figures 2 to 3 as the object for the butterfly valve inspection device of the present invention to substantially inspect.

A pipe body 20 is provided in the inspection device for inspecting the butterfly valve. The pipe body 20 is formed in the shape of a pipe, as shown in Figures 2 to 4, one end is blocked by the valve 10, the other end is configured to be shielded. That is, the pipe body 20 forms a predetermined space by the butterfly valve 10 to provide a space for forming an environment suitable for the experimental conditions.

The pipe body 10 is provided with a temperature sensor 30. The temperature sensor 30 serves to determine whether or not the temperature to be measured so that the butterfly valve 20 to be inspected can withstand high temperatures.

In addition, the pipe body 20 is provided with a pressure sensor 40. The pressure sensor 40 serves to determine whether or not the pressure to be measured so that the butterfly valve 20 to be inspected can withstand high pressure.

The pipe body 20 is provided with a heater 50. The heater 50 serves to provide heat to the pipe body 20 in the temperature state of the high temperature at which the butterfly valve 20 to be inspected is measured. The heater 50 may be provided inside the pipe body 20, and may be provided as a hot air blower (not shown) outside to allow heat to flow into the pipe body 20.

In addition, the pipe body 20 is provided with a pump (60). The pump 60 serves to provide pressure to the pipe body 20 in a state of high pressure at which the butterfly valve 10 to be inspected is measured.

In addition, the pressure sensor 40, the temperature sensor 30 and the heater 50 and the pump 60 is provided with a control unit 70 that the operator can control. The control unit 70 may be provided with a monitor (not shown) to know the situation inside the pipe body.

Next, another embodiment of the inspection device of the butterfly valve of the present invention will be described.

As shown in Figure 3, the inspection device of the butterfly valve, one end is blocked by the valve 10, the other end is shielded first pipe body (20a) and one end by the valve 10 A second pipe body 20b that is blocked and the other end is shielded, and temperature sensors 30a and 30b installed on at least one of the first pipe body 20a and the second pipe body 20b, and the second pipe body 20b. It may be configured to include a pressure sensor (40a, 40b) installed in any one or more of the first pipe body (20a) and the second pipe body (20b).

As in the first embodiment described above, the butterfly valve inspection device is provided with a butterfly valve 10. The butterfly valve 10 is as shown in Figure 1 as a subject for the butterfly valve inspection device of the present invention to substantially inspect.

In the inspection apparatus for inspecting the butterfly valve 10, pipe bodies 20a and 20b are provided at both sides of the butterfly valve 10, as shown in FIG. The pipe bodies 20a and 20b are divided into a first pipe body 20a and a second pipe body 20b, respectively, with the butterfly valve 10 at the center, and each other end is configured to be shielded.

That is, each of the first pipe body 20a and the second pipe body 20b forms a predetermined space by the butterfly valve 10 so that an environment suitable for an experimental condition can be formed. To provide.

In addition, temperature sensors 30a and 30b are provided on the first pipe body 20a and the second pipe body 20b. Is provided at one side of the space inside the first pipe body (20a) and the second pipe body (20b), the temperature to be measured so that the butterfly valve 10 can withstand high temperature Make sure you know. Of course, temperature sensors 30a and 30b may be provided in the first pipe body 20a and the second pipe body 20b, respectively.

In addition, the first pipe body 20a and the second pipe body 20b are provided with pressure sensors 40a and 40b. Is provided at any one of the space inside the first pipe body (20a) and the second pipe body (20b), the pressure to be measured to measure whether the butterfly valve 10 can withstand high pressure Make sure you know. Of course, pressure sensors 40a and 40b may be provided in the first pipe body 20a and the second pipe body 20b, respectively.

And, the pipe body (20a, 20b) is provided with a heater (50). The heater 50 serves to provide heat to the pipe bodies 20a and 20b in a state of high temperature at which the butterfly valve 10 as the inspection target is to be measured. The heater 50 may be provided inside the pipe bodies 20a and 20b, and may be provided as a hot air blower (not shown) to allow heat to flow into the pipe bodies 20a and 20b.

In addition, the pipe body (20a, 20b) is provided with a pump (60). The pump 60 serves to provide pressure to the pipe bodies 20a and 20b in a state of high pressure at which the butterfly valve 10 as the inspection target is to be measured.

In addition, the pressure sensor 40a, 40b, the temperature sensor (30a, 30b) and the control unit 70 that can control the operator 50 and the pump 60 is provided. The control unit 70 may be further provided with a monitor (not shown) so as to know the situation inside the pipe bodies 20a and 20b.

Hereinafter, the operation of the inspection device of the butterfly valve according to the present invention having the configuration as described above in detail.

First, with reference to the bar shown in Figure 2, the operation of the first embodiment of the inspection device of the butterfly valve of the present invention will be described.

Assemble the butterfly valve 10 to be inspected on the pipe body 20. The butterfly valve 10 is closed. Then, the controller 70 is operated to adjust the inside of the pipe body 20 so as to meet the condition of inspecting the butterfly valve 10.

In detail, power is applied to the heater 50 to apply heat to the pipe body 20. Then, the inside of the pipe body 20 is formed at a high temperature suitable for the experimental conditions of the butterfly valve (10). Whether the temperature inside the pipe body 20 is formed at a high temperature, the operator can know by the temperature sensor 30.

The operator can check whether the butterfly valve 10 can withstand in the high temperature situation.

In addition, the operator operates the control unit 70 to apply power to the pump 60. When power is applied to the pump 60, pressure is applied to the inside of the pipe body 20. Then, the inside of the pipe body 20 is formed at a high pressure to suit the experimental conditions of the butterfly valve (10). This situation, the operator can know by the pressure sensor 40.

As a result, the operator can check whether the butterfly valve 10 can withstand the situation of the high pressure.

Next, with reference to the bar shown in Figure 3, the operation of the second embodiment of the inspection device of the butterfly valve of the present invention will be described.

The butterfly valve 10 to be inspected is assembled between the first pipe body 20a and the second pipe body 20b. Then, the butterfly valve 10 is locked. After the butterfly valve 10 is locked, the controller 70 is operated to adjust the inside of each of the pipe bodies 20a and 20b so as to meet the conditions for inspecting the butterfly valve 10.

Specifically, the power is applied to the heater 50 to apply heat to the pipe body (20a, 20b) inside. Then, the inside of the pipe body (20a, 20b) connected to the heater 50 is formed at a high temperature suitable for the experimental conditions of the butterfly valve (10). This situation, the operator can be known by the temperature sensor (30a, 30b).

The operator can check whether the butterfly valve 10 can withstand in the high temperature situation.

In addition, the operator operates the control unit 70 to apply power to the pump 60. When power is applied to the pump 60, pressure is applied to the pipe bodies 20a and 20b connected to the pump 60. Then, the inside of the pipe body (20a, 20b) is formed at a high pressure to suit the experimental conditions of the butterfly valve (10). This situation, the operator can be known by the pressure sensor (40).

In addition, assuming that the pipe body in which the pump 60 is connected to a high pressure is the first pipe body 20a, the butterfly valve passes through the butterfly valve by the pressure sensors 40a and 40b in the second pipe body 20b. It is possible to know whether the pressure leaks.

As a result, the operator can check whether the butterfly valve 10 can withstand the situation of the high pressure.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

1 is a perspective view showing the configuration of a general butterfly valve.

Figure 2 is a block diagram showing a first embodiment of the configuration of the inspection device of the butterfly valve according to the present invention.

Figure 3 is a block diagram showing a second embodiment of the configuration of the inspection device of the butterfly valve according to the present invention.

Figure 4 is a perspective view showing the configuration of the inspection device of the butterfly valve according to the present invention.

Explanation of symbols on the main parts of the drawings

10: butterfly valve 20: pipe body

30: temperature sensor 40: pressure sensor

50: heater 60: pump

70: control unit

Claims (5)

One end is blocked by the valve, the other end is shielded pipe body; A temperature sensor capable of measuring a temperature inside the pipe body; And, And a pressure sensor capable of measuring the pressure inside the pipe body. One end is blocked by the valve, the other end is shielded first pipe body; A second pipe body whose one end is blocked by the valve and the tarden is shielded; A temperature sensor installed on at least one of the first pipe body and the second pipe body; And, And a pressure sensor installed on at least one of the first pipe body and the second pipe body. The method according to claim 1 or 2, Inspection device of the butterfly valve further comprises a heater for providing heat to the inside of the pipe body is provided with the temperature sensor is a high temperature. The method according to claim 1 or 2, Inspection device of the butterfly valve further comprises a pump for providing a pressure so that the inside of the pipe body is provided with the pressure sensor to a high pressure. The method of claim 1, Inspection device of the butterfly valve further comprises a control unit for controlling the pressure sensor and the temperature sensor.

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