KR102396063B1 - Internal cleaning block for major valve actuators in main turbine - Google Patents

Abstract

Provided is an internal cleaning block, which performs the functions of a servo valve, a fast-acting valve and a test valve, and can be used to perform an internal cleaning process of a core hydraulic valve line. To this end, the internal cleaning block according to one embodiment of the present invention comprises: a body in which a plurality of inner flow paths are disposed to perform the functions of a servo valve, a fast-acting valve or a test valve; and a manual handle connected to the body and disposed to determine an internal flow path to be used among a plurality of internal flow paths. Therefore, the present invention may perform the functions of a servo valve, a fast-acting valve and a test valve while performing the internal cleaning process of the core hydraulic valve line, so as to effectively remove debris introduced into an actuator, thereby preventing the generation of a failure in the operation of a solenoid valve.

Description

Internal cleaning block for major valve actuators in main turbine

The present invention relates to a valve block installed in a core hydraulic valve line of a main turbine and performing a valve role, and more particularly, to a valve block installed in a core hydraulic valve line of a main turbine, a servo valve, a fast-acting valve (Fast Acting Valve) or to a valve block performing the role of a test valve (Test Valve).

In general, a power plant may use several types of solenoid valves for driving and adjusting a key hydraulic valve (Major Valve) used for high temperature and high pressure fluid transfer and adjustment.

For example, for driving and adjusting a key hydraulic valve (Major Valve), a servo valve, a fast acting valve, and a test solenoid valve (Test Valve) may be used.

Here, the servo valve is an electrically operated solenoid valve that controls how hydraulic fluid is delivered to the major valve, and the fast-acting valve is a solenoid valve that induces quick close by rapidly draining the hydraulic fluid inside the major valve actuator in an emergency. . And the test solenoid valve is a solenoid valve used when performing a forced operation test for a certain period to prevent the major valve from sticking.

Conventionally, during maintenance of the core hydraulic valve line, after separating these various types of solenoid valves, flushing of the hydraulic system piping has been performed except for the inside of the actuator provided in the core hydraulic valve.

However, despite the maintenance work of the core hydraulic valve line, the internal cleaning work of the core hydraulic valve line is not smoothly performed, and there may be a problem that the solenoid valve malfunctions due to foreign substances introduced into the actuator. .

Korean Patent No. 10-1618331 (Title of Invention: Flushing System of Power Plant Turbine Hydraulic Actuator)

The present invention has been devised to solve the above problems, and an object of the present invention is to serve as a servo valve, a fast acting valve, and a test valve, and can be used to perform internal cleaning of a core hydraulic valve line. To provide a mechanical internal cleaning block.

According to an embodiment of the present invention for achieving the above object, the internal cleaning block includes a plurality of servo valves, fast acting valves, or test valves to serve as a body provided with an internal flow path; and a manual handle connected to the body and provided to determine an internal flow path to be used among a plurality of internal flow paths.

And the body, but performs any one of the role of the servo valve (Servo Valve) role, the fast acting valve (Fast Acting Valve) role, and the role of the test valve (Test Valve), depending on the role to be performed, The shape of the attachment surface to be attached to the valve) line can be determined.

In addition, the plurality of internal flow paths, when the body is opened, the first internal flow path used to supply oil from the oil pump, when the body is closed, blocks the oil supply from the oil pump, and operates the actuator. It may include a second internal flow path used to discharge the oil of the core hydraulic valve line including the oil to the oil tank, and a third internal flow path used when performing internal cleaning of the core hydraulic valve line.

And in the core hydraulic valve line, the oil supply from the oil pump is blocked and the operator supplies oil to the actuator in a neutral state where the oil discharge from the core hydraulic valve line is blocked, and the supplied oil is discharged together with the internal foreign substances By inducing it to be possible, the internal cleaning operation can be effectively performed.

On the other hand, according to another embodiment of the present invention, the internal cleaning method of the main hydraulic valve actuator of the main turbine is a servo valve, a fast acting valve, or a test in a main hydraulic valve line. When the internal cleaning block including a manual handle which is connected to the body and the body in which a plurality of internal flow paths are provided to perform the role of a valve (Test Valve) and is provided to determine an internal flow path to be used among the plurality of internal flow paths is installed , through manipulation of the manual handle of the internal cleaning block, an internal flow path to be used among the plurality of internal flow paths, and an internal flow path used when performing an internal flushing operation of a core hydraulic valve line is determined; allowing oil to be supplied to the actuator through the determined internal flow path; and, after the oil supply is finished, allowing the supplied oil to be discharged together with the internal foreign material through the determined internal flow path.

In addition, the internal flow path used when performing the internal cleaning operation may be an internal flow path in which the oil supply from the oil pump is blocked and the oil discharge from the core hydraulic valve line is blocked in a neutral state.

As described above, according to the embodiments of the present invention, it serves as a servo valve, a fast acting valve, and a test valve, and can perform an internal cleaning operation of a core hydraulic valve line, effectively removing foreign substances introduced into the actuator It is possible to prevent malfunction of the solenoid valve by removing it.

1 is a view illustrating an actuator of a key hydraulic valve of a main turbine in an open state;
2 is a view illustrating a state in which the actuator of the key hydraulic valve of the main turbine is in a closed state;
3 to 4 are views showing an internal cleaning block serving as a servo valve according to an embodiment of the present invention;
5 to 6 are views showing an internal cleaning block serving as a fast-acting valve according to an embodiment of the present invention;
7 is a view showing an internal cleaning block serving as a test (solenoid) valve according to an embodiment of the present invention;
8 is a view provided for the description of the internal flow path;
9 is a view provided for the description of the handwheel;
10 is a flowchart provided in the description of a method of performing an interior cleaning operation using an interior cleaning block;
11 is a view exemplifying a state in which an internal cleaning block is installed.

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

1 is a view illustrating an actuator 10 of a core hydraulic valve of the main turbine in an open state, and FIG. 2 is a diagram illustrating a state in which the actuator 10 of a core hydraulic valve of the main turbine is in a closed state am.

When the actuator 10 of the core hydraulic valve of the main turbine is in an open state, oil is supplied from the oil pump to the core hydraulic valve line, and when the actuator 10 of the core hydraulic valve is closed, the inside of the core hydraulic valve line The oil is drained and discharged to the oil tank.

At this time, the conventional servo valve can control the actuator 10 of the core hydraulic valve to be in any one of an open state and a closed state, so that a cleaning operation to remove foreign substances, etc. introduced into the actuator 10 was difficult to perform.

That is, in order to effectively perform a cleaning operation to remove foreign substances introduced into the actuator 10 , the supply of oil from the oil pump to the core hydraulic valve line is blocked and oil flows from the core hydraulic valve line to the oil tank. Emissions need to be blocked.

To this end, the internal cleaning block according to the present embodiment is installed in a position where the existing servo valve is removed, and not only serves as a servo valve, but also blocks the supply of oil from the oil pump to the core hydraulic valve line. , to prevent oil from draining from the core hydraulic valve line to the oil tank, the actuator 10 can be changed to a neutral state.

3 to 4 are diagrams illustrating an internal cleaning block serving as a servo valve according to an embodiment of the present invention, and FIGS. 5 to 6 are a fast-acting valve according to an embodiment of the present invention. It is a view showing an internal cleaning block to perform, and FIG. 7 is a diagram showing an internal cleaning block serving as a test (solenoid) valve according to an embodiment of the present invention.

The internal cleaning block according to this embodiment is installed in a place where the existing installed solenoid valve (ex. servo valve, fast-acting valve, or test valve) is removed, serves as a solenoid valve, and is a key hydraulic valve line in the oil pump By changing the actuator 10 to a neutral state in order to block the supply of oil to the main hydraulic valve line and to block the discharge of oil from the key hydraulic valve line to the oil tank, the internal cleaning of the core hydraulic valve line is effectively performed. can contribute

To this end, the present internal cleaning block is connected to the body 110 and the body 110 in which a plurality of internal flow paths are provided to serve as a servo valve, a fast-acting valve, or a test valve, to be used among the plurality of internal flow paths. It may include a manual handle 120 provided to determine the internal flow path.

The body 110 serves as any one of a servo valve role, a fast acting valve role, and a test valve role, but the shape of the first attachment surface 110a to be attached to the core hydraulic valve line according to the role to be performed This can be decided. In this case, the second attachment surface 110b to which the manual handle 120 is to be attached may be formed in the same shape regardless of a role to be performed.

That is, the body 110 that can serve as a servo valve may be formed in a shape as illustrated in FIGS. 3 to 4 , and the body 110 that can serve as a fast-acting valve is shown in FIG. 5 . to 6 may be formed.

And the body 110 that can serve as a test valve may be formed as illustrated in FIG. 7 .

FIG. 8 is a view provided for explanation of the internal flow path, and FIG. 9 is a view provided for explanation of the manual handle 120 .

Referring to FIG. 8 , the internal flow path provided inside the body 110 includes a first internal flow path 111 used to supply oil from the oil pump when the body 110 is opened, and the body 110 . ) is closed, the oil supply from the oil pump is cut off, and the oil of the core hydraulic valve line including the actuator 10 is discharged to the oil tank. The second internal flow path 112 and the core hydraulic valve line are used It may be composed of a third internal flow path 113 used when performing an internal flushing operation.

And the manual handle 120 is modularized in a block shape and connected to the body 110 , and any one of the first internal flow path 111 , the second internal flow path 112 , and the third internal flow path 113 . can be determined as the internal flow path to be used.

That is, the internal cleaning block is a flow path to be used by manipulating the manual handle 120 , and when the first internal flow path 111 is determined, oil is supplied from the oil pump to the core hydraulic valve line, and the actuator 10 is When the open state is reached and the second internal flow path 112 is determined by the operation of the manual handle 120, oil is discharged from the core hydraulic valve line to the oil tank, and the actuator 10 can be in a closed state. Therefore, the first internal flow path 111 or the second internal flow path 112 may be used while performing the role of the servo valve.

And in the internal cleaning block, when the third internal flow path 113 is determined, the oil supply from the oil pump is blocked and the oil discharge from the core hydraulic valve line is blocked, so that the actuator 10 can be in a neutral state. there is.

FIG. 10 is a flowchart provided for explaining a method of performing an internal cleaning operation using the internal cleaning block, and FIG. 11 is a diagram exemplifying a state in which the internal cleaning block is installed.

10 to 11 , the operator operates the manual handle 120 so that the third internal flow path 113 is determined (S1010), and the third internal flow path 113 is determined, and in the oil pump At the same time, when the oil supply is blocked and the oil discharge from the core hydraulic valve line is in a neutral state, oil is supplied to the core hydraulic valve line through the third internal flow path 113, and the oil is supplied to the actuator 10. to be supplied (S1020), and when the oil supply is finished, the oil supplied to the actuator 10 through the third internal flow path 113 is induced to be discharged together with the internal foreign substances (S1030), internal cleaning of the core hydraulic valve line work can be done.

At this time, the process of supplying oil to the actuator 10 and allowing the supplied oil to be discharged is preferably repeated several times until the discharged oil does not contain foreign substances.

Through this, it is possible to effectively remove foreign substances introduced into the actuator 10, thereby preventing malfunction of the solenoid valve from occurring.

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 it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications are possible by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

10: actuator
110: body
110a: first attachment surface
110b: second attachment surface
111: first internal flow path
112: second internal flow path
113: third inner flow path
120: manual handle

Claims (6)

a body in which a plurality of internal flow paths are provided to serve as a servo valve, a fast acting valve, or a test valve; and
A manual handle connected to the body and provided to determine an internal flow path to be used among the plurality of internal flow paths;
body,
Serves any one of the role of a servo valve, a fast acting valve, and a test valve, but depending on the role to be performed, the key hydraulic valve (Major Valve) line The shape of the first attachment surface to be attached is determined,
A plurality of internal flow paths,
When the body is opened, the first internal flow path used to supply oil from the oil pump. When the body is closed, the oil supply from the oil pump is cut off, and the oil in the core hydraulic valve line including the actuator a second internal flow path used to be discharged to the oil tank and a third internal flow path used when performing internal flushing of the core hydraulic valve line;
The internal cleaning block is
When the first internal flow path is determined as the flow path to be used by the operation of the manual handle, oil is supplied from the oil pump to the core hydraulic valve line so that the actuator is in an open state,
When the second internal flow path is determined as the flow path to be used by the operation of the manual handle, oil is discharged from the key hydraulic valve line to the oil tank, causing the actuator to be in a closed state,
When the third internal flow path is determined as the flow path to be used by the operation of the manual handle, the oil supply from the oil pump is cut off, and the oil discharge from the key hydraulic valve line is blocked so that the actuator is in a neutral state,
The core hydraulic valve line is,
At the same time, the oil supply from the oil pump is cut off, and the operator supplies oil to the actuator in a neutral state where the oil discharge from the key hydraulic valve line is blocked so that the internal cleaning operation is performed effectively, and the supplied oil is Internal cleaning block, characterized in that inducing it to be discharged. delete delete delete delete delete

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