KR20120015070A - Motor operated valve virtual test apparatus and method - Google Patents

Abstract

PURPOSE: An MOV(Motor Operated Valve) virtual test apparatus and method are provided to prevent a troublesome post correction process by inspecting the normal operation of a MOV even during construction or maintenance of a generation facility. CONSTITUTION: An MOV virtual test apparatus(100) comprises a MOV test part(120), a display, and a controller(130). The MOV test block virtually tests a MOV(10). The controller grasps the state of the MOV based on the virtual test result of the MOV test block and displays the state of the MOV on the display. The MOV test block creates a virtual test signal for virtually testing the MOV and applies the virtual test signal to the MOV.

Description

MOO virtual valve apparatus and method

The present invention relates to a motor operated valve (MOV) test apparatus and method, and more particularly, to a MOV test apparatus and method for checking whether or not the MOV is normally operated in connection with the MOV.

A large number of MOVs are installed and operated in power generation facilities. Currently, there is no equipment for MOV inspection, and it relies only on simple checks to verify that the valves are operating normally by manual operation.

On the other hand, the MOV is controlled and operated in a remote control system, it is not possible to check whether the MOV remote control through the remote control system is normally performed only by the above manual inspection.

In addition, there is no way to determine whether the MOV does not operate normally due to a failure of the MOV or a malfunction of the remote control system.

In addition, there is no way to check the normal operation of the MOV other than manual inspection during construction or maintenance of power generation facilities. Therefore, after construction or maintenance is finished, if it is found that the MOV does not operate normally, it is necessary to carry out work for finding and correcting the cause, which is very cumbersome.

The present invention has been made to solve the above problems, an object of the present invention is to provide a MOV virtual test apparatus and method that can provide a test result and test the MOV even during the construction or maintenance of power generation facilities In providing.

Another object of the present invention is to provide a MOV virtual test apparatus and method capable of performing a virtual test on whether or not the MOV control is normally performed by the remote control system in a situation where the remote control system is not connected. .

According to the present invention for achieving the above object, MOV virtual test apparatus, MOV test unit for virtually testing the MOV; display; And a controller configured to determine a state of the MOV based on a virtual test result of the MOV test unit and to display the identified state of the MOV on the display.

The MOV test unit generates a virtual test signal for virtually testing the MOV, applies the virtual test signal to the MOV, and applies a virtual test result of the MOV using the virtual test signal to the controller, and the virtual test signal. It is preferable that the same as the remote control signal applied to the MOV in the system for controlling the MOV remotely.

The MOV virtual test apparatus may further include a communication unit connected to communicate with an external device, wherein the control unit obtains the remote control signal through the communication unit and refers to the obtained remote control signal. It is desirable to generate a virtual test signal.

The MOV virtual test apparatus further includes a power supply unit for converting power applied from the outside into a rated power of the MOV and applying the power to the MOV test unit, wherein the MOV test unit supplies the power applied from the power supply unit. It can be delivered to the MOV.

The MOV test unit may simulate at least one of the open, close, open torque, close torque, limit position contact, and fault alarm of the MOV. You can test with

On the other hand, MOV virtual test method according to the invention, the step of virtually testing the MOV; Determining a state of the MOV based on a virtual test result; And displaying the identified state of the MOV.

The test step may include generating a virtual test signal for virtually testing the MOV and applying the same to the MOV to test the MOV virtually, wherein the virtual test signal is used to remotely control the MOV. It is preferable that the same as the remote control signal applied to the MOV.

As described above, according to the present invention, even though the situation is not connected to the remote control system, it is possible to perform a virtual test whether the MOV control by the remote control system is normally performed.

In addition, it is possible to determine whether the MOV does not operate normally due to a failure of the MOV or a remote control system.

In addition, it is possible to check the normal operation of the MOV during the construction or maintenance of the power plant, so that troublesome later corrective process work can be prevented.

1 is a block diagram of a MOV virtual test apparatus according to an embodiment of the present invention, and
FIG. 2 is a flowchart provided to explain a process of performing a MOV virtual test by the MOV virtual test apparatus illustrated in FIG. 1.

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

1 is a block diagram of a MOV virtual test apparatus according to an embodiment of the present invention. In the virtual test of the performance of the MOV 10, the MOV virtual test apparatus 100 according to the present embodiment virtually tests whether the MOV 10 can be normally controlled through a remote control system (not shown). .

As shown in FIG. 1, the MOV virtual test apparatus 100 that performs such a function may include a power supply unit 110, a MOV test unit 120, a controller 130, a communication unit 140, and a touch-LCD ( 150).

The power supply unit 110 receives power from the outside and applies the power to the MOV test unit 120 and the controller 130 to be described later. To this end, the power supply unit 110, 1) converts the external power to the rated power used in the MOV (10) to apply to the MOV test unit 120, 2) the external power is used in the control unit 130 Converted to a rated power and applied to the control unit 130.

The MOV test unit 120 is a module for virtually testing the MOV 10, and is connected to the MOV 10, which is a virtual test target, through a cable.

In detail, the MOV test unit 120 includes an open, close, open torque, close torque, limit position contact, and fault alarm of the MOV 10. Virtually test whether the lamp is normally performed by the remote control system.

To this end, the MOV test unit 120 transfers the power applied from the power supply unit 110 to the MOV 10. In addition, the MOV test unit 120 1) generates a virtual test signal, drives the MOV 10 with the generated virtual test signal to test the MOV 10 virtually, and 2) virtualizes the MOV 10. The test result is detected and applied to the controller 130.

At this time, the virtual test signal applied to the MOV 10 from the MOV test unit 120 to generate the virtual test of the MOV 10 is generated under the control of the controller 130 to be described later.

The touch-LCD 150 functions not only as an input means for receiving a user command, but also as a display means for displaying visual information.

The communication unit 140 is connected to communicate with an external device, and provides a communication interface between the controller 130 and the external device, which will be described later. Here, the external device connected to the communication unit 140 is a remote control system and a USB memory.

The controller 130 has a built-in memory (not shown), and executes the MTS (MOV Test Software) program installed in the internal memory to perform functions to be described later.

First, the controller 130 determines the state of the MOV 10 based on a virtual test result applied from the MOV test unit 120. The controller 130 displays the determined state of the MOV 10 on the touch-LCD 150 together with the test item. Through the touch-LCD 150, a user may recognize the state of the MOV 10 based on the test item and the virtual test result thereof.

For the virtual test, the MOV test unit 120 generates a virtual test signal and drives the MOV 10 with the generated virtual test signal, which has been described above under the control of the controller 130. .

This means that the control unit 130 controls the virtual test signal generation operation of the MOV test unit 120. Specifically, the control unit 130 generates the virtual test signal identical to the remote control signal of the remote control system. The test unit 120 is controlled.

To this end, the control unit 130 needs to be aware of the remote control signal of the remote control system, which is possible by receiving the remote control signal directly from the remote control system through the communication unit 140 and storing it in the built-in memory.

The controller 130 controls the MOV test unit 120 to generate a virtual test signal identical to the remote control signal by referring to the remote control signal stored in the built-in memory.

If there is a USB memory in which the remote control signal of the remote control system is stored, the controller 130 may receive the remote control signal through the USB memory connected to the communication unit 140 to obtain it.

Accordingly, the virtual test signal generated by the MOV test unit 120 and applied to the MOV 10 is the same as the remote control signal applied by the remote control system to control the MOV 10.

Hereinafter, a process of performing the MOV virtual test by the MOV virtual test apparatus illustrated in FIG. 1 will be described in detail with reference to FIG. 2. 2 is a flowchart provided to explain a MOV virtual test method according to another embodiment of the present invention.

For the MOV virtual test, first, the controller 130 obtains a remote control signal for controlling the MOV 10 by the remote control system that remotely controls the MOV 10 through the communication unit 140 (S210).

In addition, the controller 130 stores the remote control signal acquired in step S210 in the built-in memory (S220). Acquisition and storage of step S210 is performed for all remote control signals to be a virtual test target.

Thereafter, the controller 130 determines whether a test item is input from the user through the touch-LCD 150 (S230). Here, the test item is a kind of virtual test to be performed on the MOV 10, and includes the open, closed, open torque, closed torque, limit position contact, fault alarm, and the like.

When the test item is input from the user through the touch-LCD 150 in step S230 (S230-Y), the control unit 130 generates a virtual test signal for virtually testing the test item input through step S230 to generate a MOV. The MOV test unit 120 is controlled to be applied to 10 (S240).

Accordingly, the virtual test signal for virtually testing the test item input through the step S230 is applied from the MOV test unit 120 to the MOV 10. In this case, the virtual test signal generated / applied in step S240 is the same as the remote control signal for controlling the MOV 10 with the content corresponding to the test item by the remote control system.

For example, the 'virtual open test signal' generated by the MOV test unit 120 is the same as the 'remote open control signal' generated by the remote control system.

As a result of step S240, the MOV test unit 120 detects the virtual test result of the MOV 10, and applies the detection result to the control unit 130 (S250).

Then, the controller 130 determines the state of the MOV 10 based on the virtual test result applied through step S250 (S260), and displays the determined state on the touch-LCD 150 together with the test item (S260). S270).

As a result, the user can recognize the test item and the state of the MOV 10 which is a virtual test result thereof.

In addition, while the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, but the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Of course, various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

100: MOV virtual test device
110: power supply
120: MOV test unit
130: control unit
140: communication unit
150: touch-LCD

Claims (7)

A MOV test unit for virtually testing the MOV;
display; And
And a controller configured to determine a state of the MOV based on a virtual test result of the MOV test unit and to display the identified state of the MOV on the display.
The method of claim 1,
The MOV test unit,
Generating and applying a virtual test signal for virtually testing the MOV to the MOV, and applying a virtual test result of the MOV using the virtual test signal to the controller,
The virtual test signal,
MOV virtual test device, characterized in that the same as the remote control signal applied to the MOV in the system for controlling the MOV remotely.
The method of claim 1,
Further comprising: a communication unit connected to communicate with the external device,
The control unit,
And obtaining the remote control signal through the communication unit, and generating the virtual test signal by referring to the obtained remote control signal.
The method of claim 1,
And a power supply unit converting the power applied from the outside into the rated power of the MOV and applying it to the MOV test unit.
The MOV test unit, the MOV virtual test device, characterized in that for transmitting the power applied from the power supply to the MOV.
The method of claim 1,
The MOV test unit,
Virtually testing at least one of the MOV, Open, Close, Open Torque, Close Torque, Limit Position Contact, and Fault Alarm. MOV virtual test device.
Virtually testing the MOV;
Determining a state of the MOV based on a virtual test result; And
And displaying the identified state of the MOV.
The method of claim 1,
The test step,
Generating a virtual test signal for virtually testing the MOV and applying the same to the MOV to test the MOV virtually,
The virtual test signal,
MOV virtual test method characterized in that the same as the remote control signal applied to the MOV in the system for controlling the MOV remotely.

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