KR102259556B1 - Test equipment for checking solenoid valve - Google Patents

Abstract

Provided is test equipment for checking the soundness of a solenoid valve installed in an air intake filter cleaning facility operated in a gas turbine power generation and complex cycle plant. According to an embodiment of the present invention, the test equipment comprises: a valve kit unit which, when a solenoid valve, which is placed on a cleaning facility of an air intake filter apparatus of a gas turbine power generation or complex thermal power generation plant, is separated from the cleaning facility, includes a kit body, on which the separated solenoid valve is placed, an air inlet, through which the air is injected into the placed solenoid valve, and an air output end through which the air passing through the solenoid valve is outputted; and a test control unit which supplies the air into the air inlet of the valve kit unit, and determines whether the air leaks or not from the placed solenoid valve. Accordingly, the present invention is able to check for air leaks from the solenoid valve with a facility operation situation represented, determine the presence or absence of a disorder in the solenoid valve before operating the facility, and prevent an accident. In addition, the present invention is able to reduce the time required for and improve the work efficiency of checking on the solenoid valve placed in the cleaning facility.

Description

Test equipment for checking solenoid valve

The present invention relates to a valve inspection test equipment, and more particularly, to a test equipment for checking the integrity of a solenoid valve provided in an air intake filter cleaning facility operated in a gas turbine power generation and combined cycle plant.

In general, a cleaning facility of an air intake filter device (Air Intake) of a gas turbine power plant or combined cycle power plant is provided with hundreds or more solenoid valves depending on the size of the facility and operates individually.

Since such a solenoid valve is difficult to dismantle the pipeline, which is an air transport path connected to the solenoid valve, during individual inspection, conventionally, the solenoid valve is visually inspected, or air leakage is determined through sound during operation. .

Therefore, it is required to find a way to accurately check whether the solenoid valve is leaking air.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide an air transfer line to a solenoid valve separated from a cleaning facility of an air intake filter device of a gas turbine power plant or combined cycle power plant. It is to provide a test equipment that can check whether the air leakage of the solenoid valve is in a state in which the facility operation condition is reproduced.

According to an embodiment of the present invention for achieving the above object, the test equipment is a solenoid valve provided in the cleaning equipment of the air intake filter device (Air Intake) of the gas turbine power generation or combined cycle power plant is separated from the cleaning equipment In case, the kit body provided so that the separated solenoid valve can be seated, an air inlet for injecting air into the seated solenoid valve, and an air output terminal through which air passing through the solenoid valve is output; and a test control unit that allows air to be supplied to the air inlet of the valve kit unit and determines whether air leakage is present in the seated solenoid valve.

And the solenoid valve, the valve body; and a solenoid for operation provided on the upper side of the valve body.

In addition, the solenoid valve, a first diaphragm (Diaphragm) provided between the solenoid for operation and the valve body; and a first spring providing an elastic force to the first diaphragm.

And the valve body, the upper cover; a valve body provided under the upper cover; a second diaphragm provided between the upper cover and the valve body; and a second spring providing an elastic force to the second diaphragm.

In addition, the test controller may determine whether to supply power to the solenoid for operation, and control the first diaphragm and the second diaphragm to be in a closed state or an open state.

And, the test control unit, when power is not supplied to the solenoid for operation, the air supplied through the air inlet is charged, and when the first diaphragm and the second diaphragm are in a closed state, in the valve body or the solenoid for operation It is possible to determine whether there is an air leak.

In addition, when power is supplied to the solenoid for operation and the first diaphragm and the second diaphragm are in an open state, the test control unit determines whether air is normally output through the air output terminal and whether the air is outputted to the valve body or It can be determined whether there is an air leak in the solenoid for operation.

And the test control unit, the input sensor for measuring the pressure of the air supplied to the air inlet; an output end sensor that measures the pressure of air output through the air output end; and a processor that determines whether or not air is leaking based on the measured input value of the input end sensor and the output measured value of the output end sensor.

In addition, when power is not supplied to the solenoid for operation, when a change is detected in the input measurement value, the processor determines that air leakage has occurred in the valve body or the solenoid for operation, and power is supplied to the solenoid for operation In this case, when an error between the input measured value and the output measured value is greater than or equal to a threshold, it may be determined that air leakage has occurred in the valve body or the solenoid for operation.

On the other hand, the test method of the solenoid valve according to another embodiment of the present invention, the step of separating the solenoid valve provided in the cleaning equipment of the air intake filter device (Air Intake) of the gas turbine power plant or combined cycle power plant from the cleaning equipment ; Seating the separated solenoid valve in the valve kit part comprising a kit body provided so that the solenoid valve can be seated, an air inlet for air to be injected into the seated solenoid valve, and an air output terminal through which air passing through the solenoid valve is output ; through the test control unit connected to the valve kit unit, allowing air to be supplied to the air inlet of the valve kit unit; and using the test control unit to determine whether the solenoid valve is leaking air.

As described above, according to the embodiments of the present invention, it is possible to determine whether the solenoid valve is abnormal before operating the facility by checking whether the air leak of the solenoid valve is in a state in which the facility operation situation is reproduced. Safety accidents can be prevented.

In addition, according to embodiments of the present invention, it is possible to improve the inspection time and inspection work efficiency of the solenoid valve provided in the cleaning facility.

1 is a block diagram provided for the description of a test equipment for checking a solenoid valve according to an embodiment of the present invention;
2 is a view illustrating a solenoid valve seated in a valve kit part of a test equipment for checking a solenoid valve according to an embodiment of the present invention;
3 is a view provided in the configuration description of the solenoid valve and the valve kit part illustrated in FIG. 2;
4 is a view provided for explaining the operation of a test equipment for checking a solenoid valve according to an embodiment of the present invention;
5 is a view provided for explaining the configuration of a test control unit according to an embodiment of the present invention, and
6 is a flowchart provided for explaining a test method of a solenoid valve using a test equipment for checking a solenoid valve according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a block diagram provided for the description of a test equipment (hereinafter, collectively referred to as 'test equipment') for checking a solenoid valve 100 according to an embodiment of the present invention, and FIG. It is a view illustrating the solenoid valve 100 seated on the valve kit part 200 of the test equipment according to an embodiment.

The test equipment according to this embodiment connects the air transfer line to the solenoid valve 100 separated from the cleaning equipment of the air intake filter device (Air Intake) of the gas turbine power generation or combined cycle power plant plant, and the facility operation situation is reproduced It is provided to check whether the air leakage of the solenoid valve 100 in the state of

To this end, the test equipment may be composed of a solenoid valve 100 , a valve kit unit 200 , and a test control unit 300 .

The solenoid valve 100 is provided in the cleaning facility of the air intake filter device (Air Intake) of the gas turbine power generation or combined cycle power plant, and is separated from the cleaning facility to check the air leakage with the facility operation condition reproduced. and may be seated on the valve kit part 200 .

The valve kit part 200 is provided so that the separated solenoid valve 100 can be seated.

Specifically, the valve kit part 200 is provided so that the separated solenoid valve 100 can be seated, so that air is injected into the seated solenoid valve 100, and the air passing through the solenoid valve 100 is output As much as possible, the facility operation situation can be reproduced.

The test control unit 300 allows air to be supplied to the valve kit unit 200 through a separately provided air compressor, etc., measures the air that has passed through the solenoid valve 100, and the seated solenoid valve ( 100), it is possible to determine whether there is an air leak.

3 is a view provided for explaining the configuration of the solenoid valve 100 and the valve kit part 200 illustrated in FIG. 2 .

Referring to FIG. 3 , the solenoid valve 100 may include an operation solenoid 110 , a first diaphragm 120 , a first spring (not shown), and a valve body 130 .

The operation solenoid 110 may be provided on the upper side of the valve body 130 to determine whether to open or close the solenoid valve 100 according to power supply.

That is, the operation solenoid 110, when power is not supplied, so that the solenoid valve 100 is in a closed state, and when power is supplied, the solenoid valve 100 is in an open state. can

The first diaphragm 120 is provided between the solenoid for operation and the valve body 130 , and when power is not supplied to the operation solenoid 110 , it is closed by the operation solenoid 110 and operates When power is supplied to the solenoid 110, it may be in an open state.

A first spring (not shown) may be coupled to the first diaphragm 120 to provide an elastic force to the first diaphragm 120 .

The valve body 130 is provided to provide an air transport path, and whether to open or close is determined by the operation solenoid 110 .

Specifically, the valve body 130 includes an upper cover 131 provided on the upper portion, a second diaphragm provided between the upper cover 131 and the valve body 132, and a second diaphragm providing elastic force to the second diaphragm. It may be composed of two springs (not shown).

The second diaphragm is provided between the upper cover 131 and the valve body 132, and is closed by the operation solenoid 110 when power is not supplied to the operation solenoid 110, and the operation solenoid ( 110), when power is supplied, it may be in an open state.

A second spring (not shown) may be coupled to the second diaphragm 133 to provide an elastic force to the second diaphragm 133 .

The valve kit unit 200 may include a kit body 210 , an air inlet 220 , and an air output terminal 230 .

Specifically, the valve kit unit 200 includes the kit body 210 provided so that the separated solenoid valve 100 can be seated, and an air inlet 220 that allows air to be injected into the seated solenoid valve 100 and a solenoid. It may include an air output terminal 230 through which air passing through the valve 100 is output.

The kit body 210 may be provided with a seating groove (not shown) for seating the valve body 130 of the solenoid valve 100 separated in the upper center.

In addition, the kit body 210, in order to improve the airtightness between the seated valve body 130 and the seating groove, an O-ring (not shown) inserted into the inner periphery of the seating groove may be additionally provided.

4 is a diagram provided to explain the operation of the test equipment according to an embodiment of the present invention, and FIG. 5 is a diagram provided to explain the configuration of the test control unit 300 according to an embodiment of the present invention.

As described above, the test control unit 300 according to the present embodiment causes the air to be supplied to the valve kit unit 200, measures the air passing through the solenoid valve 100, and the seated solenoid valve 100. It is possible to determine whether there is an air leak.

Specifically, the test control unit 300, when the solenoid valve 100 is seated in the valve kit unit 200, allows air to be supplied to the air inlet 220, and determines whether to supply power to the solenoid for operation, The first diaphragm and the second diaphragm may be controlled to be in a closed state or an open state.

For example, when power is not supplied to the solenoid for operation, the test control unit 300 is charged with the air supplied through the air inlet 220, and when the first diaphragm and the second diaphragm are in a closed state , it is possible to determine whether air leakage from the valve body 130 or the solenoid for operation.

And when power is supplied to the solenoid for operation and the first diaphragm and the second diaphragm are in an open state, the test control unit 300 determines whether air is normally output through the air output terminal 230 and whether the air is output. In the process, it may be determined whether air leaks from the valve body 130 or the solenoid for operation.

To this end, the test control unit 300 includes an input end sensor 310 for measuring the pressure of air supplied to the air inlet 220 , and an output end sensor 320 for measuring the pressure of air output through the air output end 230 . and a processor 330 that determines whether air leaks based on an input measurement value of the input end sensor 310 and an output measurement value of the output end sensor 320 .

Specifically, when power is not supplied to the solenoid for operation, when a change is detected in the input measurement value, the processor 330 may determine that air leakage has occurred in the valve body 130 or the solenoid for operation. .

And the processor 330, when power is supplied to the solenoid for operation, when an error between the input measured value and the output measured value is greater than or equal to a threshold, it is determined that air leakage has occurred in the valve body 130 or the solenoid for operation can do.

Through this, by checking whether the air leakage of the solenoid valve 100 in a state in which the facility operation situation is reproduced, it is possible to determine whether the solenoid valve 100 is abnormal before operating the facility, thereby preventing a safety accident can

6 is a flowchart provided for the description of the test method of the solenoid valve 100 using the test equipment according to an embodiment of the present invention.

Referring to FIG. 6 , the operator cleans the solenoid valve 100 to check the health of the solenoid valve 100 provided in the cleaning facility of the air intake filter device of the gas turbine power generation or combined cycle power plant. separated from (S610), and the separated solenoid valve 100 may be seated in the valve kit (S620).

And the operator, using the test control unit 300, so that air is supplied to the air inlet 220 of the valve kit unit 200 (S630), it is possible to determine whether the air leakage of the solenoid valve 100 ( S640).

Specifically, the test control unit 300, when power is not supplied to the solenoid for operation, when a change is detected in the input measurement value, it is determined that air leakage has occurred in the valve body 130 or the solenoid for operation, When power is supplied to the solenoid for operation, when an error between the input measured value and the output measured value is greater than or equal to a threshold, it may be determined that air leakage has occurred in the valve body 130 or the solenoid for operation.

The operator may check whether the air leaks in the solenoid valve 100 during the health check according to the determination result of the test control unit 300 .

Through this, by checking the solenoid valve 100 provided in the cleaning facility for air leakage in a state in which the facility operation condition is reproduced, the inspection accuracy can be improved, and the inspection time and inspection work efficiency can be improved.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and the present invention is generally in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Various modifications are possible by those skilled in the art of course, and these modifications should not be individually understood from the technical idea or perspective of the present invention.

100: solenoid valve
110: operation solenoid
120: first diaphragm (Diaphragm)
130: valve body
131: upper cover
132: valve body
133: second diaphragm
200: valve kit part
210: kit body
220: air inlet
230: air output stage
300: test control
310: input stage sensor
320: output stage sensor
330: processor

Claims (10)

When the solenoid valve provided in the cleaning facility of the air intake filter of a gas turbine power plant or combined cycle power plant is separated from the cleaning facility, the kit body provided so that the separated solenoid valve can be seated and the seated solenoid valve a valve kit unit including an air inlet through which air is injected and an air output terminal through which air passing through the solenoid valve is output; and
Including; and a test control unit that allows air to be supplied to the air inlet of the valve kit part and determines whether the air leaks in the seated solenoid valve.
solenoid valve,
valve body; and
Includes; solenoid for operation provided on the upper side of the valve body;
solenoid valve,
a first diaphragm provided between the solenoid for operation and the valve body; and
Further comprising; a first spring providing an elastic force to the first diaphragm;
The valve body is
top cover;
a valve body provided under the upper cover;
a second diaphragm provided between the upper cover and the valve body; and
Including; a second spring that provides an elastic force to the second diaphragm;
The test control unit is
Controls whether to supply power to the solenoid for operation, so that the first diaphragm and the second diaphragm are in a closed state or an open state,
The test control unit is
If power is not supplied to the solenoid for operation, the air supplied through the air inlet is charged, but when the first diaphragm and the second diaphragm are in the closed state, it is determined whether air leaks from the valve body or the solenoid for operation and,
The test control unit is
When power is supplied to the operation solenoid and the first diaphragm and the second diaphragm are in an open state, it is determined whether air is normally output through the air output terminal and air from the valve body or the operation solenoid during the air output process. to determine whether there is a leak,
The test control unit is
an input sensor for measuring the pressure of air supplied to the air inlet;
an output end sensor that measures the pressure of air output through the air output end; and
A processor for determining whether air leakage is based on the input measurement value of the input end sensor and the output measurement value of the output end sensor;
The processor is
If power is not supplied to the solenoid for operation and a change is detected in the input measured value, it is determined that air leakage has occurred in the valve body or the solenoid for operation,
When power is supplied to the solenoid for operation, if an error between the input measured value and the output measured value exceeds a threshold, it is determined that air leakage has occurred in the valve body or the solenoid for operation test equipment.
delete delete delete delete delete delete delete delete separating a solenoid valve provided in a cleaning facility of an air intake filter device of a gas turbine power plant or combined cycle power plant from the cleaning facility;
Seating the separated solenoid valve in the valve kit part comprising a kit body provided so that the solenoid valve can be seated, an air inlet for air to be injected into the seated solenoid valve, and an air output terminal through which air passing through the solenoid valve is output ;
through the test control unit connected to the valve kit unit, allowing air to be supplied to the air inlet of the valve kit unit; and
Determining whether the solenoid valve is leaking air by using the test control unit;
solenoid valve,
valve body; and
Includes; solenoid for operation provided on the upper side of the valve body;
solenoid valve,
a first diaphragm provided between the solenoid for operation and the valve body; and
Further comprising; a first spring providing an elastic force to the first diaphragm;
The valve body is
top cover;
a valve body provided under the upper cover;
a second diaphragm provided between the upper cover and the valve body; and
Including; a second spring that provides an elastic force to the second diaphragm;
The test control unit is
Controls whether to supply power to the solenoid for operation, so that the first diaphragm and the second diaphragm are in a closed state or an open state,
The judging step is
When power is not supplied to the solenoid for operation, the air supplied through the air inlet is charged, but when the first and second diaphragms are in the closed state, the test control unit controls the valve body or the air from the operation solenoid to determine whether there is a leak,
The judging step is
When power is supplied to the solenoid for operation and the first diaphragm and the second diaphragm are in an open state, the test control unit determines whether air is normally output through the air output terminal, and whether the air is outputted through the valve body or for operation Determining whether there is an air leak in the solenoid,
The test control unit is
an input sensor for measuring the pressure of air supplied to the air inlet;
an output end sensor that measures the pressure of air output through the air output end; and
A processor for determining whether air leakage is based on the input measurement value of the input end sensor and the output measurement value of the output end sensor;
The processor is
If power is not supplied to the solenoid for operation and a change is detected in the input measured value, it is determined that air leakage has occurred in the valve body or the solenoid for operation,
When power is supplied to the solenoid for operation, if an error between the input measurement value and the output measurement value exceeds a threshold, it is determined that air leakage has occurred in the valve body or the operation solenoid. .

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