KR101385110B1 - Test Block for Non-Control Hydraulic Actuator - Google Patents

Abstract

A test block for a non-control type hydraulic actuator of a turbine valve in a power plant is mounted on the non-control type hydraulic actuator of the turbine valve in the power plant and measures the leakage flow of a servo valve. The test block for the non-control type hydraulic actuator according to the present invention includes a pressure port connecting port (110), a supply port connecting port (120), a drain port (130), and a pilot supply port connecting port (140). The test block for the non-control type hydraulic actuator of the turbine valve in the power plant according to the present invention is mounted between a sub valve and a lower end cap of the hydraulic actuator, accurately measures the leakage flow of a servo valve, and diagnoses the performance of the servo valve.

Description

Test Block for Non-Control Type Hydraulic Actuator {.}

The present invention is equipped with a sub-valve for controlling the hydraulic pressure in the non-control hydraulic actuator of the power plant turbine valve, and is installed between the sub-valve and the lower end cap of the hydraulic actuator to reduce the leakage flow rate of the servovalve A test block for a non-control hydraulic actuator for measuring.

The test block for the non-control hydraulic actuator according to the present invention is applied to a non-control power plant turbine valve hydraulic actuator, and is applied to a non-control hydraulic actuator instead of a solenoid valve that opens and closes the supplied hydraulic pressure. It is installed between the controlling sub valve and the lower end cap of the hydraulic actuator to measure the leakage flow rate of the servo valve and to diagnose the performance of the servo valve.

Turbine output control of the power plant is achieved by the turbine steam valve to adjust the amount of steam flowing into the turbine, the hydraulic valve is responsible for the adjustment of the turbine valve. In this regard, the operation of the non-control hydraulic actuator is as shown in Figure 1, the hydraulic pressure is acting on the lower part of the cylinder of the hydraulic actuator, normally the opening and closing adjustment of the hydraulic actuator is mounted on the lower end cap of the hydraulic actuator The solenoid valve is made by supplying the flow rate into the cylinder of the hydraulic actuator according to the input signal. In FIG. 1, FAS (Fluid Actuator Supply) is a flow rate supplied to the actuator, which acts on the lower part of the piston to add or decrease the expansion force of the piston, and ETS (Fluid Emergency Trip Supply) is supplied to the bottom of a disk dump valve. When the abnormal signal of the turbine control occurs, the ETS pipe is shut off and the internal flow rate is drained to automatically cut off the ETS flow rate entering the actuator to distribute the flow rate inside the hydraulic actuator to the oil discharge unit FCD.

For reference, FIG. 2 is a reference diagram of a lower end cap of a non-control hydraulic actuator of a power plant turbine valve, and FIG. 3 is a diagram illustrating a port configuration of a servo valve mounted to a lower end cap of a non-control hydraulic actuator of a power plant turbine valve. to be. As shown in FIG. 2, the lower end cap port of the non-control hydraulic actuator of the power plant turbine valve is a pressure port (P, P ′) through which the hydraulic pressure flows from the pump, and is introduced through the pressure port. It includes a supply port (Port 1) (A) for supplying the hydraulic pressure into the cylinder through the servo valve, and a return port (T) for draining (draining) the hydraulic oil to the oil discharge part (FCD), As shown in Fig. 3, the ports 110 ', 120' and 130 'of the servovalve mounted on the lower end cap of the control type hydraulic actuator of the power plant turbine valve may correspond to the port of the lower end cap of the hydraulic actuator. In addition, the pilot supply port (140 ') for generating the movement of the servo valve spool through the flow path and the remaining port not used because it does not correspond to the port of the lower end cap (Port 2 )(One 50 ').

On the other hand, in order to check the reliability of the hydraulic actuator, the internal leakage of the hydraulic actuator should be measured. In the non-control type hydraulic actuator of the power plant turbine valve, the hydraulic oil being drained when the hydraulic actuator is stopped, as well as the direction in which the hydraulic actuator is closed. Since the hydraulic oil drained through the servo valve when discharged is also discharged to the oil discharge part FCD, there is a problem that the internal leakage of the hydraulic actuator cannot be accurately measured. Moreover, the non-control hydraulic actuator of the power plant turbine valve was equipped with a solenoid valve capable of only opening and closing adjustment, which had limitations in the reliability test of the hydraulic actuator.

Accordingly, the present invention has been invented to solve the problems of the non-control hydraulic actuator of the conventional power plant turbine valve as described above, and instead of the solenoid valve to open and close the supplied hydraulic pressure, the sub-valve applied to the non-control hydraulic actuator and It is an object of the present invention to provide a test block for a non-control hydraulic actuator mounted between the lower end cap of the hydraulic actuator and measuring the leakage flow rate of the servovalve.

It is also an object of the present invention to provide a test block for a non-control hydraulic actuator that can verify the performance of a flow meter for measuring the flow rate.

In order to achieve the above object, a test block for a non-control hydraulic actuator of a power plant turbine valve according to the present invention is mounted on a non-control hydraulic actuator of a power plant turbine valve to provide a servo valve. It is for measuring the leakage flow rate.The four corners of the upper and lower surfaces are generally rectangular parallelepipeds, and are provided with threaded holes corresponding to the through holes for mounting on the lower end cap of the hydraulic actuator and the through holes of the sub valve for mounting the sub valve. ,

Pressure port connection port for connecting a pressure port through which the hydraulic pressure flows from the pump between the upper and lower surfaces of the test block, and a supply port for supplying the hydraulic pressure flowing through the pressure port to the inside of the cylinder through a servo valve. 1) Supply port connecting port for connecting, drain port for draining the return port to the outside, not the drainage part while blocking the return port for draining (draining) the hydraulic oil to the FCD, the pressure For non-control type hydraulic actuator of power plant turbine valve with pilot supply port connection port for connecting pilot supply port to generate servo valve spool movement through the processed flow path connected to part of port connection port In the test block,

The drain port is a sub-valve connecting pipe connected to the sub-valve, an external pipe connected to the outside, located between the sub-valve connecting pipe and the external pipe and connected to each other, and an intermediate pipe having both ends drilled outward, and the external pipe. Bushing Spool Assembly (BSA) for adjusting the opening and closing of the pipe line between the intermediate pipe, characterized in that the plug (Plug) plug for blocking the outside is adopted at both ends of the intermediate pipe is opened.

The test block for the non-control type hydraulic actuator of the power plant turbine valve according to the present invention is applied to the lower end of the sub-valve and the hydraulic actuator when the sub-valve is applied to control the supplied hydraulic pressure instead of the solenoid valve to open and close the supplied hydraulic pressure. It is installed between the caps to accurately measure the leakage flow rate of the servovalve and to diagnose the performance of the servovalve.

In addition, the performance of the flow meter for measuring the flow rate to the outlet of the test block drain port can be verified.

1 is a schematic diagram illustrating a flow path of a non-control hydraulic actuator of a power plant turbine valve.
2 is a port reference diagram of a lower end cap of a non-control hydraulic actuator of a power plant turbine valve.
3 is a port configuration diagram of a servo valve mounted to a lower end cap of a control type hydraulic actuator of a power plant turbine valve
4 is a plan perspective view of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention;
5 is an exploded cross-sectional view and a side view of a bushing spool assembly of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention;
FIG. 6 is a partial cutaway view of a test block for a non-control hydraulic actuator of a power plant turbine valve according to one embodiment of the present invention (AA cutting, BB cutting of FIG. 4)
7 is a front view of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention.
8 is a partial bottom perspective view of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention;
9 is a schematic diagram illustrating the operation of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a test block for a non-control hydraulic actuator according to the present invention.

4 is a plan perspective view of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention. As shown in Figure 4, the test block for the non-control hydraulic actuator of the power plant turbine valve according to an embodiment of the present invention, is a rectangular parallelepiped in the four corners of the upper surface and the lower surface is mounted to the lower end cap of the hydraulic actuator And a threaded hole h1 corresponding to the through-hole h2 for mounting and the through-hole of the sub-valve for mounting the sub-valve,

Pressure port connection port 110 connecting the pressure port (Pressure Port) in which the hydraulic pressure flows from the pump between the upper and lower surfaces of the test block, the supply for supplying the hydraulic pressure flowing through the pressure port into the cylinder through the servo valve Supply port connection port 120 connecting the port (Port 1), blocking the return port for draining (draining) the hydraulic oil to the oil discharge part (FCD) while draining the return port to the outside rather than the oil distribution part Pilot supply port connection port for connecting the pilot supply port for generating the movement of the servo valve spool through the processed flow path is connected to the drain port 130, a portion of the pressure port connecting port 110 ( In the test block for the non-control hydraulic actuator of the power plant turbine valve having a 140),

The drain port 130 is located between the sub-valve connecting pipe 131 connected to the sub-valve, the outer pipe 133 connected to the outside, the sub-valve connecting pipe 131 and the outer pipe 133 are interconnected Intermediate pipe 132, both ends of which are drilled to the outside, and between the outer pipe 133 and the intermediate pipe 132 includes a bushing spool assembly (BSA) for adjusting the opening and closing of the pipe, Both ends of the 132 are characterized in that the plug (P) plug (P, P ') for blocking the outside is employed.

In addition, the outlet of the drain port 130 is preferably provided with a flow rate sensor for measuring the leakage amount.

In addition, the end of each connection port of the test block is mounted on the lower end cap of the hydraulic actuator so that the O-ring can be mounted by spot facing processing. Do.

5 is an exploded cross-sectional view and side view of a bushing spool assembly of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an exemplary embodiment of the present invention. As shown in Figure 5, the test block for the non-control hydraulic actuator of the power plant turbine valve according to an embodiment of the present invention bushing for adjusting the opening and closing of the conduit between the outer conduit 133 and the intermediate conduit 132 It includes a spool assembly (BSA), which incorporates a spool inside the bushing and allows the spool to operate by gravity and hydraulic pressure. That is, the bushing spool assembly (BSA) is a hydraulic pressure introduced through the sub-valve connecting pipe 131, when a predetermined hydraulic pressure is not applied, the spool is lowered by gravity, and when the predetermined hydraulic pressure is applied, the spool is Let gravity rise up. On the other hand, it is preferable to use a check valve having a one-way shut-off function by a spring in place of the bushing spool assembly (BSA).

FIG. 6 is a partial cutaway view of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention (A-A cutting and B-B cutting in FIG. 4). As shown in FIG. 6, a test block for a non-control type hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention includes a return port for draining (draining) hydraulic oil to an oil discharge part FCD. While blocking the drain port 130 for draining the return port to the outside, not the drainage portion, the drain port 130 is a sub-valve connecting pipe 131 is connected to the sub-valve, the external pipe connected to the outside ( 133, located between the sub-valve connecting pipe 131 and the outer pipe 133 and connected to each other and the intermediate pipe 132, both ends of which are bored to the outside, between the outer pipe 133 and the intermediate pipe 132 It includes a bushing spool assembly (BSA) for adjusting the opening and closing of the conduit. For reference, Figure 6 is a cross-sectional view taken by the AA cutting line, BB cutting line in FIG.

On the other hand, both ends of the intermediate pipe 132 of the drain port 130 that is bored to the outside employs plug plugs (P, P ') to block the outside, and the drain pipe (130) of the outer pipe (133) The outlet D is preferably subjected to a pipe thread processing.

In addition, one side of the intermediate pipe 132 of the drain port 130 is further formed with a return port connecting pipe 134 which is connected to the return port (T) of the lower end cap, and the flow rate that is drained from the actuator by the opening and closing of the It is preferable to enable the operation mode in which the flow rate drained from the servovalve meets and the test mode in which only the flow rate drained from the servovalve is separately discharged. On the other hand, it can be seen that the non-control type hydraulic actuator can be used as a control type hydraulic actuator when the return port connecting pipe 134 of the test block for the non-control type hydraulic actuator is opened and applied in the operation mode. No. 846314)

For reference, FIG. 7 is a front view of a test block for a non-control type hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention, and FIG. 8 is a non-control type hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention. Partial perspective view of the bottom of the test block.

9 is a schematic diagram illustrating the operation of a test block for a non-control hydraulic actuator of a power plant turbine valve according to an embodiment of the present invention. As shown in FIG. 9, the test block for the non-control hydraulic actuator of the power plant turbine valve according to an embodiment of the present invention includes draining hydraulic oil from the non-control hydraulic actuator of the power plant turbine valve to the oil discharge part FCD. The outlet D of the drain port 130 is blocked by blocking the flow path of the return port T for draining and replacing the return port with the flow path of the drain port 130 for draining to the outside instead of the draining part. It is possible to accurately measure the leakage flow rate of the servo valve, which is coming out at), and to diagnose the performance of the servovalve. Further, when the flow meter is installed in the oil distribution part when the test block for the non-control hydraulic actuator according to the present invention is applied, the internal leakage of the hydraulic actuator can also be measured. Therefore, a detailed description thereof is omitted. do.

In addition, the test block for the non-control hydraulic actuator of the power plant turbine valve according to the present invention, it is possible to adjust the opening and closing of the pipeline between the outer conduit 133 and the intermediate conduit 132 by the bushing spool assembly (BSA). The drain port 130 is closed by the bushing spool assembly (BSA) and the drain port 130 which is drilled to the outside is discharged by measuring the flow rate by releasing the plug plug P at one end of the intermediate pipe 132. It is also possible to verify the performance of the flow meter to measure the flow rate to the outlet (D) of 130).

That is, the test block for the non-control hydraulic actuator of the power plant turbine valve according to the present invention, which is necessary for the hydraulic actuator characteristic test, applies a bushing spool assembly (BSA) to increase the accuracy of the internal leakage flow rate. When the stopper P is closed, the spool S of the bushing spool assembly is opened by hydraulic pressure, and oil flows to the outlet D of the drain port 130 through the bushing spool assembly to return to the hydraulic supply device through the flowmeter. On the other hand, if the plug plug (P) of the one end is dismantled and open, the spool (S) of the bushing spool assembly is lowered down by its own weight and closed to block the flow path toward the outlet (D) of the drain port 130 , The oil is drained through the hole in which the plug plug P is dismantled so that the flow rate can be measured in real time. Performance can also be verified.

The configuration and operation as described above are not limited to the claims of the present invention as an embodiment, and various changes and modifications are possible within the scope of not changing the technical spirit of the present invention. It is obvious to those who are engaged.

100: test block 110: pressure port connection port
120: supply port connection port 130: drain port
140: pilot supply port connection port
D: Drain port outlet P, P ': Plug plug
BSA Bushing Spool Assembly B Bushing
S: Spool

Claims (5)

Pressure port connection port 110 connecting the pressure port (Pressure Port) in which the hydraulic pressure flows from the pump between the upper and lower surfaces of the test block, the supply for supplying the hydraulic pressure flowing through the pressure port into the cylinder through the servo valve Supply port connection port 120 connecting the port (Port 1), blocking the return port for draining (draining) the hydraulic oil to the oil discharge part (FCD) while draining the return port to the outside rather than the oil distribution part Pilot supply port connection port for connecting the pilot supply port for generating the movement of the servo valve spool through the processed flow path is connected to the drain port 130, a portion of the pressure port connecting port 110 ( In the test block for the non-control hydraulic actuator of the power plant turbine valve having a 140),
The drain port 130 is located between the sub-valve connecting pipe 131 connected to the sub-valve, the outer pipe 133 connected to the outside, the sub-valve connecting pipe 131 and the outer pipe 133 are interconnected Intermediate pipe 132, both ends of which are drilled to the outside, and between the outer pipe 133 and the intermediate pipe 132 includes a bushing spool assembly (BSA) for adjusting the opening and closing of the pipe, Test block for a non-control hydraulic actuator of a power plant turbine valve, characterized in that the plug plugs (P, P ') for blocking the outside is adopted at both ends of the (132). The method according to claim 1,
Test block for the non-control hydraulic actuator of the power plant turbine valve, characterized in that the outlet of the drain port 130 is provided with a flow rate sensor for measuring the leakage amount The method according to claim 1,
The bushing spool assembly (BSA) is a test block for a non-control hydraulic actuator of a power plant turbine valve, characterized in that the spool is operated by gravity and hydraulic pressure. The method according to claim 1,
Test block for non-control type hydraulic actuator of power plant turbine valve, characterized in that for using the check valve having a one-way shut-off function by a spring in place of the bushing spool assembly (BSA) The method according to claim 1,
On one side of the intermediate pipe 132 of the drain port 130, the test port for the non-control hydraulic actuator of the power plant turbine valve, characterized in that further forming a return port connecting pipe 134 connected to the return port of the lower end cap block

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