KR101366841B1 - Orifice valve test device of steam turbine hydraulic cylinder - Google Patents

Abstract

In a hydraulic cylinder of a steam turbine in which a cylinder rod is installed, the cylinder rod includes a piston installed at the outer periphery, nuts for fixing a throttle valve, the throttle valve for adjusting flux in fluid paths, and the inner fluid paths connected to the hydraulic system of the hydraulic cylinder in the steam turbine, A testing device for the throttle valve comprises an upper body which is installed at the upper part of the piston of the cylinder rod and has a discharge path in which the testing fluid is discharged; a space for receiving the lower part of the piston of the cylinder rod; a lower body which forms inflow paths which allows the testing fluid to come into the space and which is connected to the upper body by a coupling unit; and a clearance adjusting unit which is pivotally installed in the lower body to rotate the throttle valve. The testing device for the throttle valve in the hydraulic cylinder of the steam turbine is capable of testing and adjusting the flow amount of the testing fluid traveling in the fluid path.

Description

Orifice valve test device of Steam turbine hydraulic cylinder}

The present invention relates to an apparatus for testing a throttling valve of a steam turbine hydraulic cylinder, the flow rate of the test oil flowing in the internal flow path of the cylinder rod in communication with the hydraulic system of the steam turbine hydraulic cylinder and the throttle valve test of the steam turbine hydraulic cylinder capable of adjusting the flow rate Relates to a device.

In general, steam turbines installed in thermal power plants and nuclear power plants are devices that obtain power by converting fluid energy of high temperature and high pressure steam into rotational motion.

Such a hydraulic cylinder used for the steam turbine is a hydraulic cylinder 10 which is operated in a single-actuated manner as shown in FIGS. 1 to 2, and the hydraulic pressure is not supplied inside the cylinder rod 100. However, the cylinder rod 100 located in the cylinder tube on the upper side of the piston 110 during the long run due to the leakage of oil in the hydraulic cylinder 10, that is, between the piston 110 and the cylinder tube on the lower side of the piston 110. ) Hydraulic pressure fills the outer circumference. Since this hydraulic pressure does not flow, it ages and loses fluidity. Therefore, when this hydraulic pressure flows into the hydraulic system of the hydraulic cylinder 10, it causes a failure, so that an internal flow path 120 is artificially formed in the cylinder rod so that a certain amount of hydraulic pressure flows into the cylinder tube on the lower side of the piston 110. do.

Thus, the throttling valve 130 is positioned in the inner passage 120 to allow a certain amount of hydraulic pressure to flow through the inner passage 120. The gap adjustment of the throttling valve 130 is conventionally assembled by mounting the cylinder rod 100 to the hydraulic cylinder 10 so as to communicate with the hydraulic system, and then flows into the throttling valve 130 by introducing and discharging the hydraulic oil. If it does not come into the prescribed value after the test, there is a hassle to reassemble the cylinder rod 10 from the hydraulic cylinder 10 to reassemble after adjusting the gap of the throttling valve 130, such a cylinder rod 100 repartition As a result, there has been a problem that it takes a lot of maintenance time to repeat the readjustment and reassembly of the throttling valve 130 in some cases.

The present invention has been made to solve the above problems, by adjusting the clearance of the throttle valve installed in the cylinder rod inner passage of the steam turbine hydraulic cylinder using a simple tool, to test the flow rate of the cylinder rod inner passage In addition, the present invention relates to a throttle valve test apparatus for a steam turbine hydraulic cylinder that can complete the process of setting the flow rate to a specified value at one time.

In order to achieve the above object, an apparatus for testing a throttling valve of a steam turbine hydraulic cylinder includes an internal flow passage communicating with a hydraulic system of a steam turbine hydraulic cylinder, a throttling valve for adjusting a flow rate of the internal flow passage, and the throttling valve. In the steam turbine hydraulic cylinder is provided with a cylinder rod including a nut and a piston provided on the outer circumferential surface, the upper body is installed on the piston of the cylinder rod, the upper body is formed with a discharge passage for discharging the test oil, the cylinder A space portion for accommodating the piston lower portion of the rod and an inflow passage through which the test oil flows into the space portion are formed. It is characterized in that it comprises a clearance adjusting portion for rotating.

The gap adjusting part includes a nut groove fastened to the nut, a first rotating member having a fastening protrusion formed at a lower portion thereof, and a fastening groove fastened to the fastening protrusion formed at a lower portion thereof, and having a coupling protrusion formed at a lower portion thereof. A second pivot member, an elastic member fixed at one side to a first locking jaw formed at an outer circumferential surface of the first pivot member, and the other side fixed to an upper surface of the second pivot member, and the first pivot member and a second pivot member And a gap adjusting member for rotatably vertically passing the member to adjust a gap between the throttling valve and the inner flow path.

As such, the gap adjusting member may include an adjusting protrusion formed at an upper end of the gap adjusting member, a third locking jaw formed at a lower portion of the adjusting protrusion, and a rotation groove formed at a lower end of the gap adjusting member. It features.

In addition, the lower surface of the lower body is characterized in that the support member for rotatably supporting the second pivot member.

Lastly, the lower portion of the support member is provided with a holder provided with a moving means, characterized in that for supporting the support member spaced apart from the floor.

As described above, according to the present invention, the following effects can be expected.

By testing the flow rate of the cylinder rod internal flow path and setting the flow rate according to the prescribed value in one step, it is not necessary to repeat the disassembly and assembly process of the conventional hydraulic cylinder and the cylinder rod, and also reduce the test and maintenance time. There is an advantage to that.

1 is a view showing a steam turbine hydraulic cylinder.
FIG. 2 is an enlarged view of A illustrated in FIG. 1.
3 is a view showing a crimp of the gap adjusting portion of the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention.
Figure 4 is a view showing the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention.
5 is an enlarged view of the gap adjusting member 440.
Fig. 6 is an enlarged view of B shown in Fig. 4. Fig.
7 is a view showing a state in which the throttle valve test apparatus of the steam turbine hydraulic cylinder according to the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention will be described in detail.

1 is a view showing a steam turbine hydraulic cylinder 10, Figure 2 is a view showing an internal flow path 120 of the cylinder rod 100 by expanding A shown in Figure 1, Figure 3 according to the present invention In order to make it easier to understand the configuration of the throttling valve test apparatus of the steam turbine hydraulic cylinder is a view showing a virtually crimping the gap adjustment unit 400, Figure 4 is a view showing the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention. 5 is an enlarged view of the gap adjusting member 440 shown in FIGS. 3 to 4, and FIG. 6 is an enlarged view of the throttle valve 130 and the gap adjusting unit 400 by expanding B shown in FIG. 4. 7 is an enlarged view illustrating a coupling structure, and FIG. 7 is a view showing a state in which a throttling valve test apparatus of a steam turbine hydraulic cylinder is mounted on a cradle 500.

First, the structure of the cylinder rod 100 of the steam turbine hydraulic cylinder 10 is as follows.

1 and 2, the cylinder rod 100 is installed in the steam turbine hydraulic cylinder 10, the piston 110, the inner passage 120, the throttling valve 130 and the nut 140 )

The piston 110 is provided on the outer circumferential surface of the cylinder rod 100 to allow the cylinder rod 100 to be advanced by hydraulic pressure.

In addition, the internal passage 120 forms a passage in the cylinder rod 100 to allow the hydraulic system of the hydraulic cylinder 10 to communicate with the interior of the cylinder rod 100.

In addition, the throttling valve 130 is screwed with the lower portion of the cylinder rod 100 to adjust the flow rate on the inner passage (120). Here, the nut 140 is rotationally coupled with the throttling valve 130, it is possible to fix the position of the throttling valve by tightening the nut 140 to the lower surface of the cylinder rod (100).

Next, the configuration of the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention will be described in detail.

3 to 4, the throttle valve test apparatus of the steam turbine hydraulic cylinder according to the present invention comprises an upper body 200, the lower body 300 and the gap adjustment unit 400.

The upper body 200 is installed on the piston 110 of the cylinder rod 100. It is installed in close contact with the upper surface of the piston 110 and the outer circumferential surface of the cylinder rod 100, a discharge flow path 210 for discharging the test oil is formed. The discharge passage 210 discharges the test oil introduced into the fine gap between the outer circumferential surface of the cylinder rod 100 and the upper body 200.

In addition, the lower body 300 is formed in the upper surface space 310 for receiving the lower portion of the piston 110 of the cylinder rod 100. The space portion 310 accommodates the lower portion of the piston 110 of the cylinder rod 100, so that the upper surface of the lower body 300 is in close contact with the lower surface of the piston 110. In addition, an inflow passage 320 for supplying a test oil to the space 310 is formed. The space 310 is filled with the test oil introduced through the inflow passage 320, and the filled test oil flows into the internal passage 120 and is discharged into the discharge passage 210. Here, the lower body 300 is coupled by the upper body 200 and the fastening means, it is shown in this specification to be coupled by a bolt, but will be able to be modified to various fastening means by those skilled in the art.

In addition, the supporting member 330 is coupled to the lower surface of the lower body 300. The support member 330 is rotatably supported by the second rotating member 420 of the gap adjusting unit 400 to be described later coupled to the lower surface of the lower body 300. Here, as shown in Figure 6 the lower portion of the support member 330 is provided with a cradle 500 provided with a moving means, to support the support member 330 spaced apart from the floor. That is, the support member 330 is coupled to the cradle 500 provided with the moving means, so as to support the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention to be spaced apart from the floor to perform the test.

Finally, the gap adjusting unit 400 is rotatably installed in the lower body 300 to rotate the throttling valve 130 to adjust the gap with the internal flow path 120. , The second rotating member 420, the elastic member 430, and the gap adjusting member 440.

The first pivot member 410 includes a nut groove 411 and a fastening protrusion 412. As shown in FIG. 6, the nut groove 411 is formed on an upper surface of the first pivot member 410 and is fastened to the nut 140. The nut groove 411 corresponds to the shape of the nut 140, and the depth of the nut groove 411 may accommodate the nut 140 and the lower portion of the throttling valve 130 tightened by the nut 140. To be.

Next, the fastening protrusion 412 is inserted into and fastened to the fastening groove 421 of the second pivot member 420 to be described later, and has a polygonal shape so that the fastening protrusion 412 can be easily fastened to the fastening groove 421. Here, a first locking jaw 413 is formed on one side of the outer circumferential surface of the first pivot member 410, and the first pivot member 410 is vertically formed by a fixing ring 340 coupled to the lower body 300. It allows you to restrict upward movement.

In addition, the second pivot member 420 includes a fastening groove 421 and a coupling protrusion 422. The fastening groove 421 is a fastening protrusion 412 is inserted and fastened, is formed to correspond to the shape of the fastening protrusion 412. In addition, the coupling protrusion 422 is formed below the second rotating member 420 so that the user rotates the second rotating member 420 by engaging a tool such as a spanner with the coupling protrusion 422. To facilitate.

Here, a second locking jaw 423 is formed at one side of the outer circumferential surface of the second pivot member 420 to be supported by the support member 330 to limit vertical downward movement of the second pivot member 420. To be able.

Next, the elastic member 430 is one side is fixed to the lower portion of the first locking jaw 413, the other side is fixed to the upper surface of the second rotation member 420, the first rotation member 410 and The second rotating member 420 is installed in a form that is wound around. This, the elastic member 430 is to provide an elastic force to support the first rotating member 410 is not pushed down vertically by the test hydraulic pressure filled in the space 310, the elastic member 430 is a coil It would be desirable to use a spring.

In addition, the gap adjusting member 440 is formed in a cylindrical shape so as to vertically rotate the first rotating member 410 and the second rotating member 420 so as to rotate the throttling valve 130 and the internal flow path 120. Enable clearance adjustment. 5 to 6, an adjustment protrusion 441 is formed at an upper end of the gap adjusting member 440 to be inserted into an adjusting groove 131 formed at a lower portion of the throttling valve 130. A third locking jaw 442 is formed at the lower portion of the adjustment protrusion 441 so as to be supported inside the nut groove 411 of the first pivot member 410 to limit vertical downward movement of the second pivot member 420. To be able. Here, as shown in Figures 4 to 5, the lower portion of the gap adjusting member 440 is formed by the rotating groove 443, the second tool is inserted into the lower tool such as a hexagon wrench in the lower portion of the rotating member (420). By rotating the clearance adjusting member 440 to be coupled to the rotational groove 443, the throttling valve 130 is rotated to adjust the flow rate of the internal flow path 120, and the throttling valve according to a predetermined value of a predetermined flow rate. The gap of 130 can be set.

Finally, although not shown in the drawings, a plurality of O-rings are installed in the throttling valve test apparatus of the hydraulic cylinder of the steam turbine according to the present invention to prevent leakage of the test oil.

Thus, looking at the test process of the throttling valve test apparatus of the steam turbine hydraulic cylinder according to the present invention configured as follows.

As shown in FIG. 1 or FIGS. 4 to 7, the test oil is introduced into the inflow passage 320 to be filled in the space 310. The filled test oil is discharged through the discharge flow path 210 along the internal flow path 120. If the measured flow rate of the test fluid does not satisfy the prescribed value, the first tool is coupled to the engaging projection 422 to rotate the second rotating member. Rotate 420. Then, as the first pivot member 410 rotates in conjunction with the second pivot member 420, the nut 140 coupled to the nut groove 411 rotates to be released to thereby vertically move the throttle valve 130. It becomes possible. At this time, when the gap adjusting member 440 is rotated by using a tool such as a hexagon wrench, the throttling valve 130 rotates in synchronization with this. Then, after adjusting the gap between the throttling valve 130 and the inner flow path 120, the tool 140 coupled to the engaging projection 422 is rotated in the reverse direction to tighten the nut 140. Therefore, the throttling valve 130 is fixed, it is possible to test again whether the flow rate of the test oil flowing in the inner passage 120 satisfies the prescribed value.

By repeating the above process, when the flow rate of the test oil flowing in the inner passage 120 satisfies the prescribed value, the position of the throttling valve 130 is fixed. Then, by separating the upper body 200 and the lower body 300 it is possible to assemble the cylinder rod 100 to the hydraulic cylinder (10).

As described above, by adjusting the clearance of the throttling valve installed in the cylinder rod internal flow path of the steam turbine hydraulic cylinder with a simple tool, the flow rate of the cylinder rod internal flow path is tested and the flow volume is set according to the prescribed value. It can be seen that the basic idea is to provide an throttling valve test apparatus for a steam turbine hydraulic cylinder that can be completed at one time, and many other modifications are possible for those skilled in the art.

10: hydraulic cylinder 100: cylinder rod
110: piston 120: internal flow path
130: throttling valve 140: nut
200: upper body 210: discharge flow path
300: lower body 310: space
320: inflow passage 400: clearance adjustment unit
410: first rotating member 420: second rotating member
430: elastic member 440: gap adjustment member

Claims (5)

An internal flow passage 120 communicating with the hydraulic system of the steam turbine hydraulic cylinder 10, an throttling valve 130 for adjusting the flow rate of the internal flow passage 120, and a nut 140 for fixing the throttling valve 130. In the steam turbine hydraulic cylinder 10 is installed, the cylinder rod 100 including a piston 110 provided on the outer peripheral surface,
An upper body 200 installed above the piston 110 of the cylinder rod 100 and having a discharge flow path 210 through which test oil is discharged;
A space portion 310 accommodating the lower portion of the piston 110 of the cylinder rod 100 and an inflow passage 320 through which the test oil flows into the space portion 310 are formed, and the upper body 200 and the fastening means Lower body 300 is coupled by; And
The rotatable valve test apparatus of the steam turbine hydraulic cylinder, characterized in that it is rotatably installed in the lower body 300 comprises a clearance adjustment unit 400 for rotating the throttling valve (130). The method of claim 1,
The gap adjustment unit 400,
A first groove member 410 having a nut groove 411 fastened to the nut 140, and a fastening protrusion 412 formed at a lower portion thereof;
A second rotation member 420 having a coupling groove 421 coupled to the coupling protrusion 412 and having a coupling protrusion 422 formed thereon;
An elastic member 430 having one side fixed to the first locking jaw 413 formed on the outer circumferential surface of the first rotating member 410, and the other side fixed to the upper surface of the second rotating member 420;
It includes a gap adjusting member 440 for adjusting the gap between the throttling valve 130 and the inner flow path 120 by vertically rotatable through the first rotating member 410 and the second rotating member 420. A throttling valve test apparatus for a hydraulic cylinder of a steam turbine. 3. The method of claim 2,
The gap adjusting member 440 is,
An adjusting protrusion 441 formed at an upper end of the gap adjusting member 440;
A third locking jaw 442 formed below the adjustment protrusion 441,
An apparatus for testing a throttle valve of a steam turbine hydraulic cylinder, comprising a rotational groove 443 formed at a lower end of the gap adjusting member 440. 3. The method of claim 2,
A throttling valve test apparatus for a steam turbine hydraulic cylinder, characterized in that the support member 330 is rotatably supported on the lower surface of the lower body 300 to support the second pivot member 420. 5. The method of claim 4,
A throttle valve testing apparatus for a steam turbine hydraulic cylinder, characterized in that the support member 330 is installed below the support member 330 to support the support member 330 spaced apart from the bottom.

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