KR101147815B1 - Cylinder Loaded Type Closed Safety Valve - Google Patents

Abstract

The present invention comprises a hollow body having an inlet and an outlet formed therein, an actuating portion provided in the main body to open and close a path to the inlet and the outlet, and a pressure acting portion for applying pressure to the actuating portion; The pressure action part is provided with a hollow cylinder, a first piston slidably provided to one side of the cylinder and adjusted with an adjusting screw, and slidably provided to the other side of the cylinder to form a space together with the cylinder and the first piston. It consists of a second piston, the actuating portion is connected to the second piston is a cylinder-operated closed safety valve that pressure acts on the actuating portion, the present invention is the lift and load of the disk does not change linearly chattering phenomenon Prevents damage to the disc and the seat even at high setting pressures, improves the sealing performance between the disc and the seat, and is unlikely to cause damage by this material. Small, guides the disk stably and makes contact between the disk and the seat There is an effect that is well maintained.

Description

Cylinder Loaded Type Closed Safety Valve

The present invention relates to a safety valve, and more particularly, to prevent chattering that may occur when the valve disc is opened and closed by pressure, to ensure a tight seal, and to limit the contact force generated between the disc and the seat. And a cylinder operated safety valve.

When the pressure inside the tank or pipeline rises, the safety valve opens at a predetermined set pressure to discharge steam or gas from the inside of the tank or pipeline to the outside to prevent damage or explosion of the tank or pipeline due to high pressure. It acts to prevent it. Safety valves can be classified into direct-loaded type or spring-loaded type according to their operation.

Spring-type safety valves are mainly used when a relatively high setting pressure is required and the set pressure is set using a spring mounted inside the valve. Early safety valves were directly operated, that is, the setting pressure was adjusted to the weight of the disk part. However, as higher and higher setting pressures and large-capacity valves were required, adjusting them only with the weight of the disk part became inefficient, and spring-operated safety valves. Was developed.

It is very important that the safety valve is airtight, ie no leakage occurs between the disc and the seat when the valve is closed. Therefore, it is important to manufacture the contact surface between the disk and the sheet so that leakage does not occur through the lapping operation, and it is important not to damage the wrapped surface by impact or foreign matter while the opening and closing are repeated.

1 is a block diagram of a spring-operated safety valve according to the prior art.

As shown in FIG. 1, a body 1 having an inlet part on which a nozzle 4 is installed on a lower surface thereof, and an outlet part for exhausting pressure on a side thereof, a casing 2 coupled to an upper part of the body 1, and A cap 3 coupled to the upper portion of the casing 2, a nozzle 4 inserted into the bottom inlet of the body 1, and a disc coupled to the upper end of the nozzle 4 in a sealed structure. (5), a disk holder (6) covering and covering the disk (5), a nozzle ring (7) coupled to an upper end of the nozzle (4) to adjust a gap with the disk holder (6), A screw rod 8 for fixing the nozzle ring 7, a setting screw 9 for turning the screw rod 8 from outside, and a guide 10 for guiding the upper and lower slides of the disk holder 6. And a lower spring plate coupled to an upper end of the disk holder 6 through which the guide 10 is lifted and lowered. Of the lower spring plate 11, the spring 12 installed on the upper portion of the lower spring plate 11, the upper spring plate 13 installed on the upper portion of the spring 12, and the lower spring plate 11. Spring force for adjusting the height of the upper spring plate 13 is installed through the spline 14 coupled to the top of the center, the spline 14 is raised and lowered by the disk holder 6, and the upper end of the casing (2) The adjustment screw 15 is comprised. The disk 5 is pressed downward by the spring force of the spring 12 to contact the upper end of the nozzle 4 to maintain the valve closed state.

The spring-operated safety valve as described above is installed so that the lower surface of the nozzle 4 receives the pressure of the gas or the steam tank in the lower inlet portion of the body 1 so that the pressure is transmitted through the nozzle 4. .

When pressure is transmitted through the inner hole of the nozzle 4, pressure is transmitted to the disk 5 coupled to the nozzle upper end, and the pressure applied through the nozzle 4 exceeds the spring force of the spring 12. Then, the disk 5 is raised to the upper portion, the disk holder 6 is raised to push up the lower spring plate 11, a gap occurs between the disk 5 and the upper end of the nozzle 4, the safety valve Becomes open. That is, while the space | interval between the nozzle 4 and the disk 5 falls, gas, steam, etc. are exhausted and discharged to an outlet. This is to prevent safety accidents that can occur due to high pressure rise.

The spring force adjusts the spring force to adjust the set pressure by disassembling the cap 3 and turning the adjusting screw 15 to adjust the height of the upper spring plate 13.

When the disk 5 is pushed out of the nozzle 4 by the operation of a high pressure above the set pressure, the disk holder 6 is raised very quickly because high-pressure gas or steam is discharged through the gap between the nozzle and the disk, When the pressure drops, it is lowered again by the spring force to close the valve.

The spring-operated safety valve has the spring force transmitted to the disk 5 and the nozzle 4 as it is, and the speed of raising and lowering of the disk is very high so that the shock between the disk 5 and the nozzle 4 when the valve is closed. This can cause damage or shorten the life.

In addition, since the spring is used, unlike the direct acting valve, as the disk is raised, the pressing force of the disk increases as well. Therefore, when the discharged flow rate is not large, the opening and closing of the valve are repeated. , Chattering (chattering) phenomenon is likely to occur, due to the chattering phenomenon damage to the disk and the nozzle, the airtight performance is reduced, there was a problem that leakage occurs even in a sealed state.

The present invention has been proposed to solve the problems of the conventional spring-operated safety valve as described above, it is possible to prevent chattering, and because the setting pressure is not transmitted to the disk and the seat, the sealing performance between the disk and the seat It is an object of the present invention to provide a cylinder-operated hermetically sealed safety valve which improves, the possibility of damage caused by this material is small, and the guide of the disc is stably maintained to maintain good contact between the disc and the seat.

In order to achieve the above object, the present invention provides a hollow body having an inlet and an outlet, an operating unit provided in the main body to open and close a path to the inlet and the outlet, and a pressure to apply pressure to the operating unit. Consists of a functioning part; The pressure action part is provided with a hollow cylinder, a first piston slidably provided to one side of the cylinder and adjusted with an adjusting screw, and slidably provided to the other side of the cylinder to form a space together with the cylinder and the first piston. Comprising a second piston, the actuating portion is connected to the second piston provides a cylinder-operated closed safety valve that pressure is applied to the actuating portion.

In addition, the present invention is provided with a first rod screwed to the second piston and extending toward the operating portion; The actuating part provides a cylinder-operated closed safety valve consisting of a hollow seat positioned on the inlet side of the body, and a disc of which the lower part is in contact with the upper part of the seat and the upper part is a solid body pressurized by the first rod.

In addition, the present invention is the seat is a threaded portion formed on the outer diameter surface, the operation portion further comprises a hollow guide for guiding the vertical movement of the disk; The guide includes an annular engaging portion having a plurality of protrusions formed along the circumferential direction on an outer surface thereof, and an annular engaging portion having a threaded portion screwed to the threaded portion of the sheet on an inner diameter surface thereof, and a disc from the engaging portion such that the outer diameter surface of the disk is slidably received. It provides a cylinder-operated closed safety valve consisting of a plurality of guides extending in the direction toward the circumferential direction.

In addition, the present invention is the disk has a donut-shaped first contact portion extending toward the sheet on the lower surface, the sheet has a donut-shaped second contact portion extending toward the disk on the upper surface in contact with the first contact portion; ; A first concave groove is formed in the first contact portion toward the second contact portion and along the circumferential direction of the first contact portion on a surface contacting the second contact portion, and the second contact portion faces the first contact portion and contacts the first contact portion. Provided is a cylinder-operated closed safety valve formed in a circumferential direction of a second contact portion on a surface thereof and having a second recessed groove facing the first recessed groove.

The present invention may further include a cylinder cap formed at an inner diameter surface of the other end of the cylinder and screwed to a threaded portion of the cylinder to support the second piston; The cylinder cap has a threaded portion that is screwed to the threaded portion of the cylinder on the outer diameter surface, the upper surface is in contact with the lower surface of the second piston, the through-hole is formed in the center of the first rod, the first rod Provides a cylinder operated hermetic safety valve which extends through the aperture and towards the disc.

The present invention can prevent the chattering phenomenon because the rise and load of the disk does not change linearly, and since the setting pressure is not transmitted as it is between the disk and the seat, it is possible to prevent damage to the disk and the sheet even at a high setting pressure. The sealing performance between the disk and the sheet is improved, the possibility of damage caused by the material is small, the guide of the disk is made stable, and the contact between the disk and the sheet is well maintained.

1 is a block diagram showing a safety valve according to the prior art,
Figure 2 is a schematic cross-sectional view for explaining the safety valve according to the present invention,
3 is an enlarged view of a portion 'A' of FIG. 2,
4 is an enlarged view of a portion 'B' of FIG. 3,
5 is a cross-sectional view showing a cylinder cap,
6 is a schematic perspective view of the guide;

Hereinafter, embodiments of the safety valve according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic cross-sectional view for explaining the safety valve according to the present invention, Figure 3 is an enlarged view of the 'A' part of Figure 2, Figure 4 is an enlarged view of the 'B' part of Figure 3, 5 is a cross-sectional view showing a cylinder cap, Figure 6 is a schematic perspective view showing a guide.

In the following description, the vertical direction of FIG. 2 is referred to as up, down, or up and down, and the horizontal direction is referred to as a lateral direction.

As shown in FIG. 2, the safety valve 100 according to the present invention has a hollow main body 110 having an outlet 111 and an inlet 113, and a path between the inlet 113 and the outlet 111. It consists of an actuating part for opening and closing the acting portion, and a pressure acting part 160 for actuating pressure to the actuating part.

The main body 110 is provided with a cylindrical cylindrical portion 112 in which the pressure action unit 160 is embedded, and is provided on one side of the cylindrical portion 112 to communicate with the cylindrical portion 112 and the inlet 113 opened. Outlet 111 is formed and consists of the installation unit 114, the operating unit is installed.

As shown in Figures 2 and 3, the operating portion includes a hollow cylindrical seat 130, and a disk 170 in contact with the top of the seat 130, formed in the installation portion 114 The seat 130 constituting the operating portion is located in the inlet (113). In FIG. 2, reference numeral 120 illustrates a lower cap provided in the inlet 113 to install the seat 130.

The lower cap 120 is a hollow body has a screw portion 121 is formed on the upper outer diameter surface, and has a form protruding laterally to the lower portion of the screw portion 121. The inlet 113 has a threaded portion 115 formed on an inner diameter surface thereof, the threaded portion 121 of the lower cap 120 is screwed, and a portion protruding laterally is caught by the lower end of the inlet 113. The upper inner diameter surface of the lower cap 120 is formed with a threaded portion 123, and the threaded portion 131 is formed on the outer diameter surface of the sheet 130, and the sheet 130 is the upper inner side of the lower cap 120 Screw is coupled to the lower cap 120 is coupled. The seat cap 130 is screwed to the lower cap 120, the lower cap 120 is screwed into the inlet 113.

The disk 170 is positioned above the sheet 130 so that the sheet 130 and the disk 170 are in contact with each other.

As shown in FIG. 2, the pressure action unit 160 includes a hollow cylindrical cylinder 161 and a first piston slidably provided at one side of the cylinder 161 to be adjusted by an adjusting screw 162. And a second piston 163 slidably provided to the other side of the cylinder 161 to form a space 166 together with the cylinder 161 and the first piston 165. The part is connected to the second piston 163 so that the pressure in the space acts as the actuation part through the second piston 163. The space 166 is provided with a fluid such as gas or liquid. The first piston 165 and the second piston 163 are spaced apart from each other up and down to form a space 166 inside the cylinder 161 together with the cylinder 161.

The cylinder 161 may be inserted into the cylindrical portion 112 of the main body 110, and the cylindrical portion 112 of the main body 110 may be the cylinder 161.

At least one groove is formed in the outer diameter surfaces of the first piston 165 and the second piston 163 along the circumferential direction so that the piston ring 164 is inserted into the groove, and the piston ring 164 is a cylinder 161. ) Is interposed between the second piston 163 and between the cylinder 161 and the first piston 165 and between the outer diameter surface of the cylinder 161 and the second piston 163 and the cylinder 161 and the first piston 165. To prevent possible leakage.

A through hole is formed at an upper end of the main body 110, and an adjusting screw 162 having a threaded portion 1621 is inserted into an outer diameter surface thereof, and a lower end of the adjusting screw 162 is screwed to an upper portion of the first piston 165. do. A nut for adjusting the height of the adjusting screw 162 is provided by screwing the adjusting screw 162 to the outside of the upper end of the main body 110, and another fixing nut 1622 is adjusted to the upper portion of the nut. Screwed to the screw 162 is provided. In FIG. 2, reference numeral 180 illustrates a cap provided at the top of the main body 110 to accommodate the adjusting screw 162 and the fixing nut 1622 protruding to the upper part of the main body 110, and 101 denotes the cap. It shows the setting screw to penetrate the 180 and the end to press the nut to prevent rotation.

As shown in FIGS. 2 and 3, the second piston 163 is provided with a first rod 169 which is screwed and extends toward the operating part and positioned above the disk 170. The lower end of the first rod 169 is in direct contact with the disk 170 or the pressure of the fluid provided in the space 166 via the ball 168 is transmitted to the disk 170, the disk 170 Pressurized by the sheet 130.

2, 3 and 6, the hollow guide 150 for guiding the vertical movement of the disk 170 to the upper portion of the threaded portion 131 formed on the outer diameter surface of the seat 130 is screwed Is fastened. The guide 150 has an annular coupling portion 151 having a plurality of protrusions 157 formed on an outer surface thereof in a circumferential direction and a threaded portion 155 screwed to the threaded portions 131 of the sheet 130 on an inner diameter surface thereof. And a plurality of guide parts 153 extending in a direction from the coupling part 151 toward the disk and circumferentially spaced so that the outer diameter surface 175 of the disk 170 is slidably received. The outer diameter surface 175 of the disk 170 slides in contact with the guide portion 153 and moves up and down. Therefore, the inner surface of the guide portion 153 is formed in a concave arc shape corresponding to the outer diameter surface 175 of the disk 170. Since the disk 170 is guided by the guide 153, the contact between the sheet 130 and the disk 170 is accurate and good.

The disk 170 has a donut-shaped first contact portion 173 extending on the lower surface toward the sheet 130, and the sheet 130 extends toward the disk 170 on the upper surface of the first contact portion 173. A donut-shaped second contact portion 133 in contact with; A first concave groove 175 is formed in the first contact portion 173 along the circumferential direction of the first contact portion 173 on a surface facing the second contact portion 133 and in contact with the second contact portion 133. The second contact portion 133 is formed along the circumferential direction of the second contact portion 133 toward the first contact portion 173 and in contact with the first contact portion 173 to face the first concave groove 175. The second concave groove 135 is formed. The first concave groove 175 and the second concave groove 135 form a closed space S when the first contact portion 173 and the second contact portion 133 contact each other. By forming the first concave groove 175 and the second concave groove 135, it is possible to reduce the contact area between the first contact portion 173 and the second contact portion 133 and to make the contact stable and good.

2 and 5, the lower end of the cylinder 161 is formed with a threaded portion 1611 on the inner diameter surface, is screwed to the threaded portion 1611 of the cylinder 161 to the second piston ( It further includes a cylinder cap 167 for supporting the 163. The cylinder cap 167 is formed on the outer surface of the threaded portion (1671) is screwed to the threaded portion 1611 of the cylinder 161, the upper surface 1673 is in contact with the lower surface of the first piston 163, A through hole 1677 through which the first rod 169 penetrates is formed at a central portion thereof. The first rod 169 penetrates the through hole 1677 and extends toward the disk 170 to press the disk 170 toward the sheet 130.

In FIG. 2, reference numeral 103 denotes a setting screw for preventing the rotation of the guide 150 by penetrating the installation portion of the main body 110 and the tip thereof contacting the protrusion 157 of the guide 150, and 1691 denotes a first rod 169. 5 to 1675 are concave toward the second piston 163 so that the first rod 169 is firmly fixed, and the cylinder cap 167 in which the fixing nut 1701 is accommodated. In FIG. 3, reference numeral 171 illustrates a recess formed in the disc 170 toward the first rod 169.

The operation of the safety valve 100 according to the present invention will be described.

When the pressure of the fluid provided in the space 166 formed by the second piston 163, the first piston 165, and the cylinder 161 acts on the second piston 163, the pressure is applied to the first rod 169. The first contact portion 173 of the disk 170 and the second contact portion 133 of the sheet 130 remain in contact with each other. At this time, the cylinder cap 167 is provided in the cylinder 161 to the lower portion of the second piston 163, and the upper surface of the cylinder cap 167 supports the lower surface of the second piston 163, so the pressure by the fluid is all It may be prevented from being transferred to the disk 170. Therefore, even if a high pressure is formed in the space 166 substantially, the contact force between the disk 170 and the seat 130 can be kept lower than this, thereby protecting the contact surface.

As described above, the disk 170 and the seat 130 come into contact with each other by the pressure of the fluid to block the path between the inlet 113 and the outlet 111. When the pressure is transmitted and the external force generated in the disk 170 by the transmitted pressure is greater than the load generated in the second piston 163 by the set pressure of the fluid provided in the space 166 the disk 170 , The rod 169 and the second piston 163 is raised, the contact between the disk 170 and the seat 130 is released and the play occurs, the fluid of the pipe or tank passes through the inlet 113 and the outlet Discharged to (111).

When the pressure of the fluid of the pipe or the tank is lowered, the disk 170, the rod 169, and the second piston 163 descend, and the first contact portion 173 of the disk 170 and the second of the seat 130 are lowered. The contact portion 133 is brought into contact again so that the path between the inlet 113 and the outlet 111 is closed.

When the disk 170, the rod 169, and the second piston 163 move up and down by the pressure of the fluid acting on the disk 170, the cylinder cap 167 is lowered to the lower portion of the second piston 163. In addition, since the movement of the second piston 163 is limited, the contact force acting between the seat 130 and the disc 170 is also limited, thereby preventing damage to the contact surface.

Although the safety valve according to the present invention has been described above with reference to the drawings, the scope of protection of the present invention is not limited thereto, and the present invention can be easily modified by those skilled in the art. It should be interpreted as falling within the protection scope of.

100: cylinder operated closed safety valve
110: main body 120: undercap
130: sheet 150: guide
160: action part 170: disk
180: cap

Claims (5)

A hollow body having an inlet and an outlet formed therein, an actuating portion provided in the main body to open and close a path to the inlet and the outlet, and a pressure acting portion for applying pressure to the actuating portion; The pressure action part is provided with a hollow cylinder, a first piston slidably provided to one side of the cylinder and adjusted with an adjusting screw, and slidably provided to the other side of the cylinder to form a space together with the cylinder and the first piston. A cylinder-operated closed safety valve comprising a second piston, wherein the operating part is connected to the second piston and a pressure is applied to the operating part. 2. The apparatus of claim 1, wherein the second piston is provided with a first rod screwed and extending toward an actuating portion; The actuator is a cylinder-operated closed safety valve, characterized in that the hollow seat which is located to the inlet side of the main body, the lower portion is in contact with the upper portion of the seat and the upper solid disk is pressed by the first rod. 3. The seat according to claim 2, wherein the seat has a threaded portion on its outer diameter surface, and the actuating portion further comprises a hollow guide for guiding the up and down movement of the disk; The guide includes an annular engaging portion having a plurality of protrusions formed along the circumferential direction on an outer surface thereof, and an annular engaging portion having a threaded portion screwed to the threaded portion of the sheet on an inner diameter surface thereof, and a disc from the engaging portion such that the outer diameter surface of the disk is slidably received. A cylinder-operated closed safety valve comprising a plurality of guide parts spaced in the circumferential direction and extending in a direction toward the. 3. The disk of claim 2, wherein the disk has a donut-shaped first contact portion extending on the lower surface toward the sheet, and the sheet has a donut-shaped second contact portion extending on the upper surface toward the disk and contacting the first contact portion. To; A first concave groove is formed in the first contact portion toward the second contact portion and along the circumferential direction of the first contact portion on a surface contacting the second contact portion, and the second contact portion faces the first contact portion and contacts the first contact portion. A cylinder-operated closed safety valve, characterized in that formed in the circumferential direction of the second contact portion to face the second concave groove facing the first concave groove. According to claim 1, The other end of the cylinder has a threaded portion is formed on the inner diameter surface, and further comprises a cylinder cap screwed to the threaded portion of the cylinder to support the second piston; The cylinder cap has a threaded portion that is screwed to the threaded portion of the cylinder on the outer diameter surface, the upper surface is in contact with the lower surface of the second piston, the through-hole is formed in the center of the first rod, the first rod The cylinder-operated closed safety valve, characterized in that extending through the through hole toward the disk.

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