KR100262210B1 - Apparatus for adjusting spring tension in safety valve - Google Patents

Abstract

PURPOSE: An adjusting device for spring tension is provided to adjust tension of a spring by uniformly compressing three oil jacks where hydraulic pressure is supplied in parallel for uniform compression of a spring retainer and the spring retainer that is combined inside by a disc support plate supporting the oil jacks. CONSTITUTION: A spring tension adjusting device is installed on a top of a second plate of a body for three oil jacks(40) to face downward. A support plate(20) of safety valve is combined with 3 support bolts(30) that penetrate through 3 support bolt holes(21) to be screwed and fixed to plural fixing bolt holes formed radially on a second top plate. An end of the oil jack(40) is closely attached to the top face of the second top plate. A piston shaft(41) of the oil jacks is inserted to penetrate an adjusting hole of a spring retainer and an end portion thereof is uniformly touched with the top face of the spring retainer. When a worker uses a hand hydraulic pump(50) to supply hydraulic pressure to each oil jack, the piston shafts of extending oil jack compress uniformly the spring retainer so the adjusting screw is freely operated. Therefore, the user moves the adjusting screw freely to adjust spring tension in predetermined value.

Description

Device for adjusting spring tension of safety valve

The present invention relates to a device for adjusting the spring tension of the safety valve, and in particular, to uniformize the set pressure of the safety valve when disassembling and assembling the safety valve installed in the compressed air system of the steam generator of the nuclear power plant or adjusting the safety valve set pressure. It relates to a device for adjusting the spring tension of the safety valve.

Typically, a number of steam generators are installed in a power plant, such as a nuclear power plant. The steam generator is equipped with a main steaming machine to supply high pressure steam according to the use to each turbine. Here, the main steam machine is a large pipe is connected to more than hundreds, the main steam header is formed integrally.

These main steam headers are equipped with a number of power-driven air release valves that can completely remove heat from the reactor core when steam dumping is not possible. In addition, five main steam safety valves are provided downstream of this power driven atmospheric release valve. These main steam safety valves are increased by about 1.3㎏ / ㎠ when the pressure exceeding 3% more than the spring type pressure is set to increase the discharge amount according to the set pressure and the increasing overpressure. In addition, the set pressures of these five main steam safety valves are 83.3 and 84.7 and 86.0 and 87.3 and 88.7 kg / cm 2, respectively. These safety valves have capacities ranging from 110% of the steam generator design pressure to 105% of the rated rated steam flow and are designed according to the American Society of Mechanical Engineers (PV & Boiler) code. These safety valves are pressure adjusted by the operator to the design pressure as described above. Pressure adjustment of such a safety valve is to adjust the tension of the spring coupled to the inside.

As shown in Figure 1a and Figure 1b, the safety valve, such as the main steam safety valve has a handle portion (1) capable of releasing the internal pressure at the operator's discretion, and the pressure coupled to the handle portion 1 in a lever form It is arranged on the lower pressure surface of the upper pressure adjusting portion 3 and the first upper plate 4 of the upper pressure adjusting portion 3, the shaft 2 being operable and the first upper plate 4 integrally formed thereon. It consists of the main-body part 6 which has the 2nd upper board 5 in which the three spring retainer adjustment holes 7 were formed.

In addition, the upper pressure adjusting part 3 is bolted to the second upper plate 5 of the main body part 6. Moreover, the adjustment screw 8 is screwed to the center of the 2nd upper board 5 in this main-body part 6. The pressure shaft (2) is inserted through the center of the adjustment screw (8), the lower end (8a) of the adjustment screw (8) spring retainer to be freely rotatably contacted and compressed in the axial direction (9) is combined. A spring 10 for exerting tension is disposed below the spring retainer 9. The spring 10 disposed as described above is coupled to the spring retainer 9 disposed above to generate a tension of a predetermined size.

Hereinafter, a conventional method of adjusting the spring tension of the safety valve configured as described above will be described.

First, in order to adjust the tension of the spring 10 coupled to the inside of the main body 6, the operator (not shown) has a plurality of fixing the plurality of bolts 11 of the first upper plate 4 formed in the circumferential direction It removes from the bolt hole 11a, and isolate | separates the upper pressure adjusting part 3 from the 2nd upper board 7 of the said main body part 6. The operator who separates the upper pressure adjusting unit 3 freely moves the adjusting screw 8 which is not moved by the tension of the spring 10 and the high pressure of the main steam transmitted to the pressure shaft 2 of the main body 6. In order to achieve this, three stud bolts 12 each having a predetermined length are screwed into the spring retainer adjustment holes 7 of the second upper plate 7. At the same time, the operator rotates each of these stud bolts 12 to compress the spring retainer 9 downward. Thus, the spring retainer 9 thus compressed is moved downward. The tension of the spring 10 coupled to the spring retainer 9 thus moved and the high pressure of the main steam delivered to the pressure shaft 2 are guided to the stud bolts 12 and the adjustment screw 8 also. The screw can rotate freely. Therefore, the operator moves the adjustment screw 8 downward to adjust the tension of the spring 10 to a set value.

However, when adjusting the spring tension of the safety valve using a conventional stud bolt, the end of each stud bolt is screwed to align the ends in parallel, which shortens the life of the device due to wear and eccentricity of the stud bolt. have.

In addition, in the conventional spring tension adjustment method using the stud bolt screw thread rotation of the stud bolt according to the operator's experience, even if the spring retainer is not evenly compressed, the change in the set pressure adjustment is large, the safety valve pressure adjustment is made accurately There is a disadvantage in that it is difficult to secure the reliability of the device.

The present invention has been made to solve the problems of the prior art as described above, the three oil jacks are supplied in parallel with hydraulic pressure to equally compress the spring retainer and the disk support plate for supporting such oil jacks The purpose of the present invention is to provide a device for adjusting the spring tension of a safety valve that can uniformly compress the spring retainer coupled therein to adjust the tension of the spring.

1A and 1B are a perspective view and a cross-sectional view for explaining the configuration of a conventional safety valve.

Figure 2 is a perspective view for explaining the configuration of the device for adjusting the spring tension of the safety valve according to an embodiment of the present invention.

3 is a plan view for explaining the shape of the important part of the spring tension adjustment device of the safety valve shown in FIG.

Figure 4 is a perspective view for explaining the mounting method and operation method of the spring tension adjustment device of the safety valve shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

1 knob 2 pressure shaft

3: upper pressure adjusting part 7: spring retainer adjusting hole

8: adjusting screw 9: spring retainer

10: spring 20: support plate

30: support bolt 40: oil jack

44: hydraulic joint member 50: hydraulic pump

According to the present invention for achieving the object as described above, to adjust the safety valve to the set pressure installed in the compressed air system of the power plant and having a spring and the spring retainer and the adjustment screw coupled to compress the spring retainer An apparatus for adjusting spring tension of a safety valve, the apparatus comprising: a support plate having a support bolt hole formed on an upper portion of a main body of the safety valve, through which a plurality of support bolts can pass, and fixed in a direction perpendicular to a plane of the support plate; And oil jacks, a hydraulic line, a hydraulic joint member, and a hydraulic pump that provide hydraulic pressure of the same size to the oil jacks, wherein the support bolts pass through the support bolt holes of the support plate and are fixed to the main body. Respectively coupled to the hole, the piston shaft of the oil jack using the hydraulic force of the hydraulic pump By uniformly compressing the spring retainer in the longitudinal direction, there is provided a device for adjusting the spring tension of the safety valve, characterized in that the adjusting screw is moved freely in the vertical direction to adjust the set pressure of the safety valve.

In addition, according to the present invention, the oil jack is perpendicular to the straight line passing radially through the support bolt hole of the support plate and the spring retainer adjustment hole so that the support plate is horizontally supported when the spring retainer is uniformly compressed. It is preferable that each of the straight lines passing in one direction is fixed to the plane of the support plate.

In addition, according to the present invention, it is preferable that the hydraulic jack is coupled to the oil jack so that the hydraulic power of the hydraulic pump can be equally supplied.

Further, according to the present invention, it is preferable that the piston shaft of the oil jack has a diameter and a length that can penetrate the spring retainer adjusting hole so as to compress the spring retainer.

In addition, according to the present invention, it is preferable that a hole is formed in the center of the support plate so that the oil jack penetrates closely to the top plate of the main body of the safety valve.

In the following, with reference to the accompanying drawings a preferred embodiment of the device for adjusting the spring tension of the safety valve according to the present invention will be described in detail.

2 is a perspective view for explaining the configuration of the device for adjusting the spring tension of the safety valve according to an embodiment of the present invention, Figure 3 is a shape of an important part of the device for adjusting the spring tension of the safety valve shown in FIG. Figure 4 is a plan view for explaining, Figure 4 is a perspective view for explaining the mounting method and operation method of the spring tension adjustment device of the safety valve shown in FIG.

2 to 4, the support plate 20 of the device for adjusting the spring tension of the safety valve according to an embodiment of the present invention is a circular disk having a size corresponding to the main body 6 of the safety valve. In addition, the support plate 20 is coupled to the three support bolts 30 at a predetermined position coinciding with the plurality of fixing bolt holes (11a) formed in the circumferential direction in the second upper plate (5) of the body portion (6). Three support bolt holes 21 are formed so as to be possible. In addition, the center of the support plate 20 is formed so that the hole 22 of a predetermined size penetrates through the pressure shaft 2 and the adjustment screw 8 of the main body 6. The upper surface of one side of the support plate 20 thus formed can extend or compress the piston shaft 41 in the axial direction (a), and three conventional oil jacks 40 having the same size are disposed in the vertical direction. It is. The hand hydraulic pump 50 for operating these oil jacks 40 is disposed outside the support plate 20. This hand hydraulic pump 50 has the capacity to equally supply a larger hydraulic force than a force capable of compressing the spring retainer 9 of the safety valve.

In the following, the coupling method of the device for adjusting the spring tension of the safety valve of the present invention disposed as described above.

First, the three oil jacks 40 are arranged so that the support plate 20 is not eccentric when hydraulic pressure is applied at a predetermined position 23 of the support plate 20, and the bottom of the oil jack 40 is a conventional arc. It is fixed by welding. The predetermined position 23 of this support plate 20 is a straight line passing through the three support bolt holes 21 in the radial direction of the support plate 20 and the three spring retainer adjustment holes 7 of the body portion 6. ) Is based on the contact point of each straight line passing through).

In addition, the piston shafts 41 of the oil jack 40 have a length capable of compressing the spring retainer 9 through the three spring retainer adjustment holes 7. In addition, these piston shafts 41 have a diameter that can be freely inserted into the spring retainer adjustment hole 7.

In addition, the hydraulic port 42 of each oil jack 40 is coupled to each of the jack hydraulic line 43 coupled to the hydraulic pressure in parallel. This jack hydraulic line 43 is coupled to the cross-shaped hydraulic joint member 44 formed so that a plurality of lines can be merged into one line, such hydraulic joint member 44 is the hydraulic line 45 of the hand hydraulic pump Is connected to be connected with the hydraulic power of the same size from the hand hydraulic pump 50 is connected to.

In the following, it will be described how the device for adjusting the spring tension of the safety valve of the present invention coupled as described in detail above is mounted to the safety valve to operate.

As shown in Figure 4, the spring of the safety valve of the present invention so that three oil jacks 40 are directed downward in the upper portion of the second upper plate 5 of the main body portion 6 from which the upper pressure adjusting portion (not shown) is separated. The tension adjusting device is arranged. The support plate 20 of the device for adjusting the spring tension of such a safety valve is coupled with three support bolts 30, and these three support bolts 30 pass through the three support bolt holes 21 of the support plate 20. Thus, the second upper plate 5 is screwed into and fixed to the plurality of fixing bolt holes 11a formed in the circumferential direction.

Therefore, the end faces of the cylinders of the three oil jacks 40 are in close contact with the top face of the second top plate 5 of the main body 6. In addition, the piston shaft 41 of these oil jacks 40 is inserted through the spring retainer adjustment hole formed in the second upper plate 5, the end portion thereof is uniformly in contact with the upper surface of the spring retainer (9) have. The device for adjusting the spring tension of the safety valve of the present invention coupled as described above is connected to the hydraulic lines 43 and 45 in parallel when the operator supplies hydraulic pressure to each of the oil jacks 40 using the hand hydraulic pump 50. The piston shaft 41 of each oil jack 40 is extended to the same length. The piston shaft 41 of the oil jack 40 extending in the same length as described above uniformly compresses the spring retainer 9 coupled to the inside of the main body 6 so that the adjustment screw 8 can be freely operated. Thus, the operator can freely move this adjustment screw 8 to adjust the spring tension of the set value.

As described in detail above, the device for adjusting the spring tension of the safety valve of the present invention is to uniformly compress the spring retainer with a support plate that uniformly supports three oil jacks having a piston shaft that is uniformly extended by the hydraulic force of the hand hydraulic pump. There is an advantage that it is possible to prevent the wear of the spring retainer adjustment hole, and also to prevent the eccentricity of the spring retainer.

In addition, the device for adjusting the spring tension of the safety valve of the present invention, because the spring retainer is uniformly compressed when the set pressure is adjusted, there is an advantage that the reliability of the device can be secured by rotating the adjusting screw freely to make the pressure adjustment accurate and constant. .

Although the technical concept of the device for adjusting the spring tension of the safety valve of the present invention has been described above with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (5)

Safety for adjusting the safety valve to the set pressure, which is installed in the compressed air system of the power plant and has a spring (10), a spring retainer (9) and an adjusting screw (8) coupled to compress the spring retainer (9). In the device for adjusting the valve spring tension, A support plate 20 disposed above the main body part 6 of the safety valve and having support bolt holes 21 through which a plurality of support bolts 30 can pass, and perpendicular to a plane of the support plate 20. A plurality of oil jacks 40 fixed in the direction, hydraulic lines 43 and 45, hydraulic coupling members 42 and 44, and hydraulic pumps that provide hydraulic power of the same size to the oil jacks 40. 50, wherein the support bolt 30 passes through the support bolt hole 21 of the support plate 20 and is coupled to the fixing bolt hole 11a of the main body 6, respectively, and the hydraulic pump The piston shaft 41 of the oil jack 40 using the hydraulic force of 40 uniformly compresses the spring retainer 9 in the axial direction a so that the set pressure of the safety valve can be adjusted. Device for adjusting the spring tension of the safety valve, characterized in that the adjusting screw (8) is free to move in the vertical direction. According to claim 1, wherein the oil jack 40 is a support bolt hole 21 of the support plate 20 so that the support plate 20 can be horizontally supported when the spring retainer 9 is uniformly compressed. For adjusting the spring tension of the safety valve, characterized in that the straight line passing in the radial direction and the straight line passing in the vertical direction of the spring retainer adjustment hole 7 is fixed to the plane 23 of the support plate 20, respectively. Device. The safety valve according to claim 1 or 2, wherein the oil jack (40) has a hydraulic coupling member (44) coupled to the oil jack (40) so that the hydraulic force of the hydraulic pump (50) can be equally supplied. Device for adjusting the spring tension of the 3. The piston shaft (1) according to claim 1 or 2, wherein the piston shaft (41) of the oil jack (40) has a diameter that can penetrate the spring retainer adjustment hole (7) to compress the spring retainer (9). Apparatus for adjusting the spring tension of a safety valve, characterized in that it has a length. The hole 22 according to claim 1 or 2, wherein the oil jack 40 is closely attached to the upper plate 5 of the main body 6 of the safety valve at the center of the support plate 20. Apparatus for adjusting the spring tension of the safety valve, characterized in that it is formed through.

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