KR100432336B1 - High Pressure 3-way Pilot Valve for use in a Pumping-up Power Plant - Google Patents

Abstract

The present invention relates to a high pressure three-way pilot valve for use in a pumping power plant. The high-pressure three-way pilot valve of the present invention has a valve body having a high pressure water inlet and a high pressure water outlet, and a plurality of frequency holes which are disposed in the valve body and through which the high pressure water introduced through the high pressure water inlet passes. And a diameter of the frequency hole close to the high pressure water inlet is larger than a diameter of the frequency hole far from the high pressure water inlet, and vertically reciprocates in the axial direction of the cylinder in the cylinder to block and open the frequency hole of the cylinder. The note includes a cylindrical plunger. The cylinder further includes a bush attached to a portion of the inner wall which causes friction with the plunger, wherein the bush is made of a metal material having a hardness and frictional force different from that of the cylinder and the plunger. In addition, the lower portion of the plunger is characterized in that it is configured to be inclined in an inverted funnel shape in order to mitigate the impact of the high pressure water flowing through the frequency hole.

Description

High Pressure 3-way Pilot Valve for use in a Pumping-up Power Plant}

TECHNICAL FIELD The present invention relates to a pumping up power plant, and more particularly, to a high pressure three-way pilot valve used for inlet valve control of a pumping power plant.

Power generation energy sources for generating power include potential energy of water, thermal energy of fossil fuels, and nuclear fission energy of nuclear fuels. The power generation methods using such energy can be classified into hydroelectric power, thermal power generation, and nuclear power generation. In Korea, in order to cope with the power demand caused by rapid economic growth, the focus is on the construction of thermal power plants that can build large-scale power plants in a short period of time, and nuclear power plants with relatively low fuel costs. .

As large-scale thermal power plants and nuclear power plants operate as base load power stations operating at all times, it is necessary to secure load facilities that consume late-night power and secure peak power plants. Among the peak load power plants, there are general hydroelectric power generation facilities and pumping power generation facilities. In general, hydropower is limited in terms of available resources, and it is virtually impossible to continue to develop in response to rapidly increasing power demand. On the other hand, the recent power consumption pattern shows a significant gap between day and night, and the operation of thermal and nuclear power plants results in surplus power at midnight and light loads. A positive power generation scheme is used to properly supply the city with the necessary power.

Such pumped power generation is generated by using the pumped water by pumping water from low place to high place by using surplus power among other power plants generated at night or at light load. It is economical in terms of using surplus power, it is possible to increase the capacity of the power generation equipment, and the construction cost is relatively inexpensive, so it is being operated as a peak load power generation facility.

In the pumping power generation facility, a high pressure three-way pilot valve is used to control the flow of high pressure water to the aberration generator for power generation. The high-pressure three-way pilot valve is subject to fluctuating pressures from high water pressure of about 60 Kg / cm2 to low water pressure of 0 Kg / cm2 applied to the inlet valve of the pumping power plant. High quality and high reliability are required because they are frequently started and stopped in order to control them.

Referring to FIG. 1A, there is shown a schematic cross-sectional configuration of a high pressure three-way pilot valve for use in a positive power generation facility. As shown in FIG. 1A, the high pressure three-way pilot valve consists of a valve body 100, a cylinder 110, and a plunger 120.

The valve body 100 is connected to the inlet pipe (not shown) to connect the high pressure water inlet 102 into which the high pressure water from the inlet pipe flows and the high pressure water outlet 104 to the high pressure water discharged to the outlet pipe (not shown). It has a hollow portion 106 that can accommodate a cylinder therein.

The cylinder 110 is inserted into and fixed to the hollow portion 106 of the valve body 100 as a cylindrical structure. In addition, the cylinder 110, as shown in more detail in Figure 1b, six raceway holes having the same diameter through which the high-pressure water flowing through the high-pressure water inlet 102 of the valve body 100 through its outer peripheral surface ( 112 and 114 are arranged at equal intervals.

The plunger 120 vertically reciprocates along the axial direction of the cylinder 110 in the cylinder 110 of the cylindrical structure, and the plunger shaft 124 which reciprocates the plunger body 122 up and down. And a plunger underbody 126 supporting the plunger shaft 124. The connecting portion of the plunger body 122 and the plunger shaft 124 is configured in a funnel shape that gradually narrows from the plunger body 122 to the plunger shaft 124. The plunger lower body 126 is connected to a vertically moving actuator shaft (not shown) to vertically reciprocate the plunger shaft 124 and has a cylindrical shape smaller than the diameter of the plunger body 122 but larger than the diameter of the plunger shaft 124. Consists of. The plunger 120 of this configuration flows under high pressure water by blocking and opening the frequency holes 112 and 114 formed in the cylinder 110 as it descends and moves upward by the up and down actuator shaft inside the cylinder 110. Perform a function to crack down. By the flow interruption function of the high pressure water, a piston interlocked with the high pressure three-way pilot valve is driven, and a valve through which the high pressure water passes is opened and closed by driving the piston. As a result, high-pressure water is supplied to the power generating aberration generator to generate power, and high-pressure water is not supplied to the power generating aberration generator to stop power generation.

In the above, the cylinder 110 and the plunger 120 uses a metal of the same material, for example, made of stainless 316-L. While the metal of such a material has the advantage of excellent corrosion resistance, the adhesion is stronger than necessary. Due to this adhesion force, the plunger 120 may be caught in the cylinder 110, thereby causing a problem in that sliding does not occur smoothly. That is, the cylinder 110 and the plunger 120 may be flawed by fine impurities interspersed in the high pressure water, and the friction part of the cylinder 110 and the plunger 120 of the same material may be adhered by the flaw. Phenomenon often results.

In addition, the sidewalls of the cylinder 110 are formed with the same size of the power holes 112 and 114 through which the high pressure water introduced from the high pressure water inlet 102 of the valve body 100 passes. For this reason, while the flow rate of the high pressure water is high at the inlet of the frequency hole in which the high pressure water is introduced, for example, the high pressure water inlet 102 to which the inlet pipe is connected, the high pressure water inlet 102 and In the frequency hole 114 in the distant place, a flow rate imbalance phenomenon in which the flow rate of the high pressure water is slowed appears. As such, the high-pressure water having a high flow rate generated at the inlet of the water hole 112 near the high pressure water inlet 102 collides with the upper surface of the plunger lower body 126 to cause vibration in the plunger 120. Vibration causes noise in the plunger 120. At this time, the pressure of the high pressure water applied to the plunger lower body 126 is about 60 Kg / cm 2.

As described above, the conventional high pressure three-way pilot valve used in the pumping power generation facility may cause the problem that the pumping facility may be stopped due to the adhesion phenomenon occurring at the frictional portion between the cylinder and the plunger, Due to the vibration of the plunger, there was a problem of causing unwanted noise in the pumping plant.

Therefore, an object of the present invention is to provide a high pressure three-way pilot valve for preventing adhesion phenomenon occurring at the frictional portion between the cylinder and the plunger constituting the high-pressure three-way pilot valve used in the pumping power generation equipment.

Another object of the present invention is to provide a high-pressure three-way pilot valve for preventing vibration caused by the impact of high-pressure water in the plunger constituting the high-pressure three-way pilot valve used in the pumping power generation equipment.

According to the present invention for achieving the above object, the high-pressure three-way pilot valve used in the pumping power generation facility, has a high-pressure water inlet to which the high pressure water pipe is connected and the high pressure water outlet to which the high pressure water pipe is connected. Valve body; It is inserted into and fixed in the valve body, and has a plurality of frequency holes through which the high pressure water flowing through the high pressure water inlet passes through the outer circumferential surface of the high pressure water introduced into the respective frequency holes through the high pressure water inlet. A cylindrical cylinder having a diameter of a frequency hole disposed close to the high pressure water inlet so as to have a uniform flow velocity than a diameter of the frequency hole far from the high pressure water inlet; A cylindrical plunger body which performs a flow control function for blocking and opening a frequency hole of the cylinder by reciprocating up and down in the axial direction of the cylinder in the cylinder, a plunger shaft for reciprocating the plunger body up and down and the plunger shaft And a plunger composed of a plunger underbody, wherein the cylinder and the plunger are made of a metal of the same material, and the cylinder further includes a bush inserted in a portion cut through the inner wall of the cylinder causing friction with the plunger body. The bush may be made of a metal material having hardness and frictional force different from that of the cylinder and the plunger.

According to another embodiment of the invention, the cylinder and the plunger is a metal of stainless material, the bush is characterized in that the metal of the phosphor bronze material.

According to a further embodiment of the present invention, the plunger shaft and the plunger lower body of the plunger lower body in order to reduce the pressure received by the high pressure water flowing through the water hole disposed close to the high pressure water inlet side in the cylinder It characterized in that the connecting portion is inclined in an inverted funnel shape gradually widening from the plunger shaft toward the plunger lower body.

1A is a cross-sectional view of a high pressure three-way pilot valve according to the prior art,

1B is an external view of a cylinder in the high pressure three-way pilot valve shown in FIG. 1A;

Figure 2a is a cross-sectional view of the high pressure three-way pilot valve according to the present invention,

2b is an external view of a cylinder in the high pressure three-way pilot valve shown in FIG.

FIG. 2C is a cross-sectional view of the cylinder in the high pressure three-way pilot valve shown in FIG. 2B;

3A and 3B are diagrams illustrating the construction of a pumping and generating power plant using the high pressure three-way pilot valve according to the present invention, and illustrating the closing and opening operations of the high-pressure three-way pilot valve, respectively.

<Explanation of symbols for the main parts of the drawings>

100, 200: valve body 110, 210, 332, 336: cylinder

112, 114, 212, 214: High pressure water frequency hall 120, 220, 334, 338: Plunger

122, 222: plunger body 126, 226: plunger lower body

300: inlet valve 302: valve trunnion

304: lever 306: high pressure piping

310: hydraulic pipeline 320: server motor

330: high pressure three-way pilot valve 340: hydraulic actuator

350: lever 370: filter

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail as follows.

2A shows in cross section the internal structure of a high pressure three-way pilot valve constructed in accordance with the present invention. As shown in FIG. 2A, the high pressure three-way pilot valve according to the present invention includes a valve body 200, a cylinder 210 and a plunger 220.

The valve body 200 is connected to an inlet pipe (not shown) to connect the high pressure water inlet 202 through which the high pressure water from the inlet pipe flows and a high pressure water outlet 204 connected to the outlet pipe (not shown) to discharge the high pressure water. It has a hollow portion 206 and a fastening groove 208 that can accommodate the cylinder therein.

The cylinder 210 is a cylindrical structure, which is inserted into the hollow portion 206 of the valve body 200 and fixed by the fastening groove 208, and is made of a metal, for example, stainless steel, having excellent corrosion resistance and good adhesion. It is made of L. The cylinder 210 also has a plurality of different diameter high-pressure water pressure holes 212 and 214 formed on its outer circumferential surface, as can be seen from the cylinder outline shown in FIG. 2B. The hollow portion 206 of the valve body 200 into which the cylinder 210 is inserted is slightly larger than the diameter of the cylinder 210, and slightly between the valve body 200 and the cylinder 210 along the outer wall of the cylinder 210. The spaced space 230 of is formed. The high pressure water flowing through the high pressure water inlet 202 of the valve body 200 flows through the separation space 230 into the tap holes 212 and 214.

According to the present invention, the diameter of the dilution hole 212 disposed close to the high pressure water inlet 202 side of the valve body 200 is larger than the diameter of the dilution hole 214 opposite the high pressure water inlet 202. It is larger. As such, the diameters of the dilution hole 212 disposed close to the high pressure water inlet 202 and the dilution hole 214 opposite to the high pressure water inlet 202 are different from each other so as to be disposed at a place close to the high pressure water inlet 202. It is possible to lower the pressure of the high-pressure water flowing through the frequency hole 212, so that the same hydraulic pressure is applied to all the frequency holes (212 and 214).

In addition, the cylinder 210 further includes a bush 216 attached to a portion of the inner wall of the cylinder 210 that causes friction with the plunger 220, as shown in more detail in FIG. 2C. As the material of the bush 216, phosphor bronze (LBC ln2) is preferably used. Since the bush 216 made of phosphor bronze has less friction than the cylinder 210 made of stainless 316-L, the plunger 220 reciprocating in the cylinder 210 causes friction with the inner wall of the cylinder 210. Even if it is possible to significantly reduce the adhesion phenomenon occurring at the friction portion between the inner wall of the cylinder 210 and the plunger 220.

The plunger 220 is made of stainless 316-L, which is a metal of the same material as the cylinder 210, and performs the up and down reciprocating motion in the axial direction of the cylinder 210 in the cylinder 220 of the cylindrical structure. It performs a flow control function to block and open the power holes 212 and 214 of the. The plunger 220 is composed of a cylindrical plunger body 222, a plunger shaft 224 for reciprocating the plunger body 222 up and down and a plunger underbody 226 for supporting the plunger shaft 224. The connecting portion 232 of the plunger body 222 and the plunger shaft 224 has a funnel shape gradually narrowing from the plunger body 222 toward the plunger shaft 224, and the plunger shaft 224 and the plunger underbody ( The connecting portion 234 of 226 is configured to be inclined in an inverted funnel shape that gradually widens from the plunger shaft 224 toward the plunger underbody 226. As such, the connection portion 234 between the plunger shaft 224 and the plunger lower body 226 is configured to be inclined in an inverted funnel shape so that the frequency hole 212 disposed close to the high-pressure water inlet 202 side in the cylinder 210 is provided. The high pressure water flowing through the inclined portion of the plunger lower body 226 flows to the high pressure water outlet 204 to reduce the pressure of the high pressure water applied to the plunger lower body 226.

In the present invention, the high-pressure water applied to the plunger lower body 226 is primarily reduced in flow rate to some extent through the large diameter hole 212 in the cylinder 210, streamlined of the plunger lower body 226 The noise generated by the high pressure water applied to the plunger 220 is secondarily decelerated by the portion.

3A and 3B show the configuration of a high pressure water flow conversion mechanism that is part of a pumped generation facility employing a high pressure three-way pilot valve constructed in accordance with the present invention.

First, the closing operation of the inlet valve by the high-pressure three-way pilot valve according to the present invention with reference to Figure 3a as follows.

Fundamentally, the pumped-up power generation facility uses the surplus power of the night to pump water from the lowland and stores it, and the stored water is generated by supplying the water generator to the water generator at high pressure during the day. The supply of high pressure water to the aberration generators should be stopped. The inlet valve 300 is a valve for controlling the high pressure water to be supplied or blocked by opening or closing the hydraulic pressure line 310 supplying the high pressure water to the aberration generator side, and having a diameter of about 2,200 mm, Under pressure of about 60 Kg / cm 2. The inlet valve 300 is moved in the direction of the arrow by a servo motor 320 which is connected to a valve trunnion 302 located at the center of the body of the inlet valve 300 under high pressure water. It is closed by looking at the operation as follows.

First, when a constant pressure, for example, about 40 Kg / cm 2, is applied from the outside through the upper hydraulic inlet 342 of the hydraulic actuator 340 provided at the lower right side of the high pressure three-way pilot valve 330, the hydraulic pressure is applied to the hydraulic pressure. As a result, the piston 344 of the hydraulic actuator 340 is pushed down. Then, the lever 350 connected to the piston 344 of the hydraulic actuator 340 is inclined to the right about the lever axis 352, and the right cylinder of the high pressure three-way pilot valve 330 connected to the lever 350 is provided. Plunger 334 in 332 descends and plunger 338 in left cylinder 336 rises up. As a result, the plunger 334 in the right cylinder 332 blocks the inlet of the right plunger inlet pipe 362 to block the flow of high pressure water, and the left plunger inlet pipe 364 is opened. Therefore, the flow of the high pressure water reaches the upper portion of the servo motor 320 through the inlet pipe 324 of the servo motor 320 via the high pressure pipe 366 and the filter 370 in the hydraulic pipe 310. At this time, the piston 322 of the servo motor 320 is driven by a high pressure water pressure of about 60 Kg / cm 2 introduced into the servo motor 320 and a force acting on the cross-sectional area of the piston 322 of the servo motor 320. By moving downward, the lever 304 of the inlet valve 300 is pulled down to close the inlet valve 300. Here, the weight 354 placed on the lever 350 is a mechanical safety device mounted to maintain the state of the inlet valve 300 always closed even when the hydraulic pressure applied to the hydraulic actuator 340 is lost. Used.

On the other hand, the high pressure water in the servo motor 320 subjected to the high pressure water by the piston 322 in the servo motor 320 is pushed down to open through the left plunger inlet pipe 364 as indicated by the arrow. It is discharged to the left plunger outlet pipe 368 through the plunger 348 in the left cylinder 346.

When the inlet valve 300 is closed by such a series of processes, the inflow of high pressure water is blocked to the aberration generator side, which is not shown, and the aberration generator is stopped.

Referring to Figure 3b describes the opening operation of the inlet valve by the high-pressure three-way pilot valve according to the present invention.

The opening operation of the inlet valve 300 is similar to the closing operation of the piston in the servo motor 320 in which the lever 304 connected to the valve trunnion 302 located in the center of the body of the inlet valve 300 is subjected to high pressure water. It is closed by moving in the direction of the arrow 322. Looking at this operation in detail as follows.

First, when hydraulic pressure of about 40 Kg / cm 2 is applied from the outside to the lower hydraulic inlet 346 of the hydraulic actuator 340 provided at the lower right side of the high pressure three-way pilot valve 330, the piston 344 is operated by the hydraulic pressure. It is pushed up here. Then, the lever 350 connected to the piston 344 of the hydraulic actuator 340 is inclined to the left about the lever axis 352. At this time, the plunger 334 in the right cylinder 332 of the high pressure three-way pilot valve 330 connected to the lever 350 goes up and the plunger 338 in the left cylinder 336 comes down. . As a result, the plunger 338 in the left cylinder 336 blocks the left plunger inlet pipe 364 to block the flow of high pressure water, while the right plunger inlet pipe 362 opens. Therefore, the flow of high pressure water flows through the right plunger inlet pipe 362 and the right cylinder 332 through the high pressure pipe 366 and the filter 370 in the hydraulic pipe 310, and through the right cylinder 332 The flowing high pressure water reaches the lower side of the servo motor 320 through the left plunger inlet pipe 364 because the inlet of the left cylinder 336 is blocked. As a result, the piston 322 of the servo motor 320 is moved upward by the high pressure water pressure of about 60 Kg / cm 2 applied to the servo motor 320 and the force acting on the cross-sectional area of the lower side of the servo motor 320. In operation, the lever 304 of the inlet valve 300 connected to the piston 322 of the servo motor 320 is lifted upward to open the inlet valve 300.

On the other hand, the high pressure water in the servo motor 320, which is pressured by the piston 322 in the servo motor 320 being pushed up, is indicated by the inlet pipe 324 and the right plunger inlet pipe of the sub-motor 320 as indicated by the arrows. It passes through 362 to the open right cylinder 332.

When the inlet valve 300 is opened by such a series of processes, the high pressure water flows into the aberration generator, which is not shown, and the aberration generator is started.

It will be appreciated by those skilled in the art that the present invention is not limited to the above embodiments, and that various modifications and changes can be made without departing from the spirit of the present invention.

As described above, according to the present invention, by inserting a bush made of a material different from the material of the cylinder and the plunger into the friction portion between the cylinder and the plunger, which is a component of the high-pressure three-way pilot valve, the inner wall of the cylinder and the plunger adhere to the friction portion. There is an effect that can prevent the phenomenon.

In addition, according to the present invention, by varying the diameter of the ditches hole disposed close to the high pressure water inlet of the valve body in the cylinder and the distillation hole far from the high pressure water inlet, the high pressure water introduced through the distillation hole disposed close to the high pressure water inlet It slows down the flow rate of the valve body, it is effective to equalize the number of water flowing through the high pressure water inlet and the high pressure water outlet through the valve body.

In addition, the shape of the plunger lower body of the plunger is formed in the form of an inverted funnel, so that the high pressure water flowing through the water flow hole disposed close to the high pressure water inlet side from the cylinder flows through the streamlined portion of the plunger lower body, thereby By reducing the pressure of the high pressure water applied to the effect of reducing the noise caused by the vibration of the plunger.

In addition, by using the high-pressure three-way pilot valve having the above-described configuration in the pump generator, it is possible to accurately open and close the inlet valve of the pump generator, thereby contributing to extending the life of the generator.

Claims (8)

In the high pressure three-way pilot valve used in the pumping power generation equipment, A valve body having a high pressure water inlet through which a high pressure water pipe is connected and a high pressure water outlet through which the high pressure water pipe is connected; A cylindrical cylinder inserted into the valve body and having a plurality of frequency holes through which the high pressure water flowing through the high pressure water inlet passes is formed; Including the plunger to open and close the frequency hole formed in the cylinder by reciprocating in the axial direction of the cylinder in the cylindrical cylinder, In the cylinder, the diameter of the distillation hole disposed close to the high pressure water inlet of the valve body is larger than the diameter of the distillation hole far from the high pressure water inlet, and is introduced through the distillation hole disposed close to the high pressure water inlet. High pressure three-way pilot valve, characterized in that to slow the flow rate of high pressure water. The method of claim 1, And the bush is attached to a portion of the inner wall of the cylinder causing friction with the plunger. The method of claim 2, The bush is a high-pressure three-way pilot valve, characterized in that the metal of the material different from the cylinder and the plunger. The method of claim 3, wherein The cylinder and the plunger is a metal of stainless material, the bush is a high-pressure three-way pilot valve, characterized in that the metal of phosphor bronze. The method according to any one of claims 1 to 4, The plunger includes a cylindrical plunger body for performing a flow control function for blocking and opening the frequency hole of the cylinder by reciprocating up and down in the axial direction of the cylinder in the cylinder, and a plunger for reciprocating the plunger body up and down. And a plunger underbody supporting the shaft and the plunger shaft. The method of claim 5, wherein A connection portion of the plunger shaft and the plunger lower body is connected to the plunger shaft in order to reduce the pressure received by the plunger lower body by the high pressure water flowing in the cylinder through a water hole disposed close to the high pressure water inlet side. High pressure three-way pilot valve characterized in that the inclined in an inverted funnel shape gradually widening toward the lower body. delete delete