KR20140054839A - High velocity pressure valve - Google Patents

Abstract

The present invention relates to a high-velocity pressure valve. More specifically, the high-velocity pressure valve uses a first and second pilot units which open a disc through a first and second diaphragms when the pressure of a storage tank is larger than a predetermined value and the pressure needs to be discharged, and uses a discharge valve device which quickly closes the storage tank through a closing acceleration means when the pressure of the storage tank is less than the predetermined value and the storage tank needs to be closed to reduce the risk of explosion due to the excessive rise of the pressure in the storage tank and prevent the VOC gas from leaking by quickly closing the storage tank by the closing acceleration means, thereby reducing the environment contamination.

Description

High velocity pressure valve

The present invention relates to a high-speed pressure valve, and more particularly, to a high-speed pressure valve which, when a pressure of a storage tank exceeds a predetermined value, , 2 pilot parts are used and when the pressure of the storage tank is lower than the set value and it is necessary to close the valve, the discharge valve device that closes quickly through the closing speed increasing means is used, It is possible to reduce the risk of explosion due to excessive rise of the pressure in the storage tank by improving the accuracy and responsiveness at the time of closing and to prevent the VOC gas (volatile organic compound) from being discharged to the outside as it is quickly closed by the closing and increasing means To a high-speed pressure valve capable of reducing environmental pollution.

Generally, the pressure inside the storage tank in which toxic and flammable liquids are stored continues to fluctuate even when all the facilities included in the tank are operating normally. When an emergency such as a fire occurs, the internal pressure fluctuates rapidly And there is a danger such as tank explosion.

A normally functioning tank system is a system in which liquid is supplied to a storage tank or liquid is discharged from a storage tank. When the internal pressure fluctuates and the storage tank receives heat from the surroundings, such as the radiant heat of the sun, The pressure fluctuates.

When the liquid is discharged, a vacuum is generated inside the storage tank. In addition, when the storage tank receives heat, the pressure rises due to the evaporation of the liquid or the like, and when the heat is taken away, the internal pressure is lowered due to condensation of the gas or the like.

In addition to the normal pressure fluctuation described above, sudden pressure fluctuations may occur due to the following factors in the above-described tank system.

That is, a fire around the storage tank, an equipment failure such as a pump connected to the storage tank, an interruption of power supply to drive the equipment, a deficiency of the fluid level control device, a failure of the control valve connected to the storage tank, Defects in the exchanger and the occurrence of chemical reactions inside the storage tank affect the pressure fluctuations.

The high-speed pressure valve keeps the pressure inside the tank constant in the oil tanker or chemical tank vessel transporting crude oil and chemicals, prevents the outside flame from entering the tank, prevents large fire explosion accident, (Volatile organic compounds) generated in the VOC gas.

An example of the pressure valve is disclosed in Korean Patent Laid-Open Publication No. 10-2004-0012859, which will be briefly described with reference to FIG.

The pressure valve includes a valve housing (1) connected to a storage tank, a connecting member (6) installed in the valve housing (1) so as to be able to move up and down, A magnetic body 9 coupled to the lower end of the connecting member 6 and a valve body 7 connected to an upper end of the connecting member 6 and opening and closing the upper opening of the valve housing 1, A lifting plate 21 formed on the connecting member 6 and a weight member 12 formed on the connecting member 6 on the lifting plate 21.

An actuator unit 4 is provided in the valve housing 1 below the magnet 8 and connected to a handle (not shown) provided outside the valve housing 1 . The actuator unit 4 actuates the magnetic body 9 and the connecting member 6 and the valve body 14 by the actuating unit 4 so as to move the actuator unit 4 upward at a predetermined angle. So that the valve housing 1 is opened. In other words, the operator can directly open the valve housing 1 to prevent the pressure in the storage tank from rising sharply.

When the pressure in the storage tank rises above a preset value, the valve body 14 is lifted to open the valve housing 1. At this time, the pressure exerted from the storage tank is applied to the lifting plate 21, So that the valve body 14 can be opened quickly, and the flow rate (gas) in the storage tank is quickly discharged.

However, in the conventional pressure valve, the valve body 14 is quickly opened by the lifting plate 21 to rapidly discharge a large amount of gas. On the other hand, The VOC gas (volatile organic compound) in the storage tank is discharged to the outside of the valve body 14 if the valve body 14 is not closed quickly, . ≪ / RTI >

The pressure valve sets the pressure setting value in the storage tank by the magnetic force between the magnet 8 and the magnetic body 9 and the weight (load) of the weight member 12, in other words, The flow amount (gas) discharged at this time does not uniformly push up the area of the lifting plate 21 or the valve body 14 and the magnets 8 It is difficult for the magnetic force between the magnetic bodies 9 to accurately match the magnetic force due to the deviation between the products, and as a result, the accuracy of the valve opening setting is deteriorated.

As such, the conventional pressure valve has a risk of explosion because the pressure in the reservoir tank may rise excessively due to the lack of accuracy when the pressure is set according to the pressure set value of the storage tank, There was a problem of environmental pollution due to a large amount of VOC gas.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems by providing a first and a second diaphragm, By using a pilot valve and using a discharge valve device that closes quickly through the closing and increasing means when the pressure of the storage tank is lower than a set value and needs to be closed, It is possible to reduce the risk of explosion due to excessive increase of the pressure in the storage tank by improving the accuracy and responsiveness and to prevent the VOC gas (volatile organic compound) from being discharged to the outside as much as it is quickly closed by the closing and increasing means, And to provide a high-speed pressure valve capable of reducing contamination.

In order to accomplish the above object, the present invention provides a high-speed pressure valve that is connected to one side of a storage tank for storing various fluids and regulates the pressure in the storage tank. The high-pressure pressure valve is connected to the storage tank, And an outlet for discharging the pressure in the storage tank is formed on the other side of the main body, and a passage opening / closing part is formed between the inlet and the outlet. The passage opening / A first diaphragm having a first diaphragm connected to the disc and a first diaphragm connected to the disc, and a second diaphragm disposed on an upper portion of the first diaphragm, A second pilot portion provided between the first pilot portion and the second pilot portion, It characterized by comprising, including the pressure of the storage tank and the second pilot portion the second diaphragm and the pressure supplied to the lower region respectively supplied to the first diaphragm lower region of the first portion of the pilot portion.

In the present invention, when the pressure of the storage tank exceeds a preset value and the pressure needs to be discharged, the first and second pilot portions that open the disc through the first and second diaphragms that are raised by the pressure are used, By using a discharge valve device that closes quickly through the closure speed increasing means when the temperature of the storage tank is less than or equal to the set value, it is possible to improve the accuracy and responsiveness at the time of discharging or closing the pressure according to the pressure set value of the storage tank, It is possible to reduce the risk of explosion due to the excessive increase of the internal pressure and to prevent the VOC gas (volatile organic compound) from being discharged to the outside in a large amount as soon as it is closed by the closing means for accelerating, thereby reducing environmental pollution.

1 is a sectional view showing a conventional pressure valve,
2 is a sectional view showing a high-speed pressure valve according to the present invention,
3 is a cross-sectional view showing a case where the pressure in the storage tank in the high-speed pressure valve according to the present invention exceeds a set value,
4 is a cross-sectional view showing a case where the vacuum pressure in the storage tank in the high-speed pressure valve according to the present invention exceeds a preset value.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The high pressure valve 200 according to the present invention is connected to one opening of a storage tank 2 in which various fluids are stored to regulate the pressure in the storage tank 2, It is a device to safely protect.

The high-speed pressure valve 200 includes a main body 201, a disk 210, a first pilot portion 220, a second pilot portion 230, a pressure supply portion 240, a discharge valve device 100), and a suction valve device (270).

The main body 201 is connected to the opening of the storage tank 2 and has an inlet 203 for discharging the vacuum in the storage tank 2 at one side and an inlet 203 for discharging the vacuum in the storage tank 2, An outlet 204 for discharging the pressure is formed and a passage opening and closing part 202 is formed between the inlet 203 and the outlet 204.

That is, the bottom of the main body 201 is connected to the opening of the storage tank 2, and the inlet 203 and the outlet 204 are formed on the side of the main body 201 in the opposite directions.

The disk 210 is seated on the passage opening / closing part 202 in the main body 201 to open / close the passage opening / closing part 202. That is, when the pressure in the storage tank 2 exceeds the set value, the disc 210 is moved to the path opening / closing part 202 by the operation of the first pilot part 220 and the second pilot part 230, And when the vacuum is generated in the storage tank 2, the disk 210 closes the passage opening and closing part 202. [

The first pilot part 220 is installed on the upper part of the main body 201 and includes a first diaphragm 221 connected to the disc 210 through a connection shaft 211.

The first pilot part 220 is formed to have a predetermined space therein, and the first diaphragm 221 divides the inside of the first pilot part 220 upward and downward.

In addition, the first diaphragm 221 is provided with a bent portion 221a so as to increase the width thereof. That is, when the first diaphragm 221 rises, the disc 210 connected to the connection shaft 211 opens the passage opening / closing part 202. At this time, due to the bending part 221a, It is possible to further increase the height at which the disk 221 is lifted up, thereby increasing the amount of opening of the disk 210. [

The connection shaft 211 penetrates the upper portion of the main body 201 vertically so that the upper end is coupled to the first diaphragm 221 and the lower end is coupled to the disk 210. [

The second pilot part 230 is installed on the first pilot part 220 and the second diaphragm 231 is installed in the second pilot part 230.

The second pilot part 230 is also formed to have a predetermined space therein, and the second diaphragm 231 divides the inside of the second pilot part 230 upward and downward.

The second pilot portions 230 are spaced apart from each other by a predetermined distance.

The pressure supply unit 240 is installed between the first pilot unit 220 and the second pilot unit 230 and pressures the pressure of the storage tank 2 in the second pilot unit 230 The second diaphragm 231, and the first diaphragm 221 in the first pilot part 220, respectively.

The pressure supply part 240 includes a first flow path 241 and a second flow path 242 branched from the first flow path 241. The inlet of the first flow path 241 is connected to the Is connected to the main body 201 side between the tank 2 and the passage opening and closing part 202 through the first pipe 245 and the outlet is connected to the lower area of the second diaphragm 231 in the second pilot part 230 And the outlet of the second flow path 242 branched from the first flow path 241 is connected to the lower area of the first diaphragm 221 in the first pilot part 220 through the second pipe 246 do.

The second diaphragm 231 is moved up and down with the second diaphragm 231 in accordance with the pressure of the lower region of the second diaphragm 231, Closing member 235 for opening and closing the opening / closing member 235 is provided.

The upper end of the opening and closing member 235 is coupled to the center of the second diaphragm 231 and the lower end of the opening and closing member 235 extends to the second flow path 242 of the pressure supply unit 240, Thereby opening and closing.

Accordingly, when the pressure in the reservoir tank 2 rises, the pressure (gas) is supplied to the second diaphragm 231 of the second pilot portion 230 through the first pipe 245 and the first flow path 241, The second diaphragm 231 of the second pilot part 230 is lifted and the opening / closing member 235 is moved to the lower part of the reservoir tank 2, The second flow path 242 is opened.

When the second flow path 242 is opened, the pressure (gas) of the storage tank 2 flows through the second flow path 242 and the second pipe 246 to the first diaphragm of the first pilot part 220, The first diaphragm 221 is lifted and the disc 210 connected to the coupling shaft 211 is moved to the passage opening and closing part 202 of the main body 201 .

Thereafter, the pressure (gas) of the storage tank 2 passes through the opened passage opening / closing part 202 and is discharged to the outside through the discharge valve device 100, thereby relieving the elevated pressure of the storage tank 2 .

The weight of the disk 210 is set to be greater than the pressure set value of the storage tank 2 because the disk 210 must be opened by the operation of the first and second pilot units 220 and 230. This allows the disc 210 to be opened through the first and second pilot portions 220 and 230 without depending on the weight of the disc 210 when the pressure in the storage tank 2 exceeds a set value Accordingly, it is possible to reduce the risk of explosion due to an excessive increase in the pressure in the storage tank 2 by improving the accuracy of pressure discharge according to the pressure set value of the storage tank 2.

The discharge valve device 100 may be configured to allow the discharge valve device 100 to be opened immediately when the disk 210 opens the passage opening and closing part 202. [ Lt; / RTI >

When the pressure of the reservoir tank 2 exceeds a predetermined value, the first and second diaphragms 221 and 231, which are raised by the pressure, may be used instead of the discharge valve apparatus 100 The accuracy can be further improved by using the first and second pilot portions 220 and 230 that open the disc 210 through the first and second pilot portions 220 and 230.

A pressure regulating means 250 is installed on the second pilot portion 230 to regulate a pressure set value of the storage tank 2.

The pressure regulating means 250 includes an elastic member housing 251 disposed on the upper portion of the second pilot portion 230 and an elastic member housing 251 disposed in the elastic member housing 251 to bias the second diaphragm 231 against a predetermined elastic force And an elastic force adjusting device 253 disposed on the elastic member housing 251 to adjust an elastic force of the elastic member 252. [

The elastic force adjusting device 253 is provided with an elastic force adjusting bolt 254 on the elastic member housing 251. The elastic force adjusting bolt 254 is screwed to the upper portion of the elastic member housing 251 and the lower end of the elastic force adjusting bolt 254 penetrates the upper portion of the elastic member housing 251 to support the upper end of the elastic member 252 .

Therefore, when the elastic force adjusting bolt 254 is rotated, the elastic force of the elastic member 252 pressing the second diaphragm 231 can be finely adjusted.

In this way, by adjusting the elastic force of the elastic member 252, the reference pressure for raising the second diaphragm 231 can be adjusted in the second pilot part 230, and at the same time, the first pilot part 220 The reference pressure of the first diaphragm 221 of the storage tank 2 and the disk 210 can be regulated so that the pressure set value of the storage tank 2 can be adjusted.

The area between the first diaphragm 221 and the second diaphragm 231 in the first pilot part 220 and the second diaphragm 231 in the second pilot part 230 are connected to the third pipe 260 Lt; / RTI >

That is, when the pressure in the storage tank 2 exceeds the set value and the first and second diaphragms 221 and 231 of the first and second pilot portions 220 and 230 are lifted, The pressure in the upper region of the diaphragm 221 rises. Of course, the pressure in the area between the pair of second diaphragms 231 in the second pilot part 230 also increases. The first and second diaphragms 221 and 231 are gradually lowered when the pressure in the reservoir tank 2 drops below a preset value. At this time, the first and second diaphragms 221 and 231 in the first pilot part 220 So that the elevated pressure of the area assists the lowering of the first diaphragm 221.

When the pressure in the reservoir tank 2 exceeds a set value and the first and second pilot portions 220 and 230 are operated, the disc 210 is discharged to the outlet opening 204 of the main body 201, The discharge valve device 100 is installed so that the pressure (gas) passing through the passage opening and closing part 202 can be discharged to the outside.

The discharge valve device 100 includes a body 110, a first magnetic body 120, a shaft 140, a second magnetic body 130, a pressure disk 150, a closing speed increasing means 160, .

The body 110 has a hollow shape and is connected to the discharge port 204 of the main body 201. A gas discharge port 111 is formed at the upper end of the sea.

In addition, the body 110 may be formed as a single body, but a plurality of bodies may be assembled as shown in the drawing.

The first magnetic body 120 is installed on the first support part 115 formed on the inner surface of the body 110 to generate a magnetic force.

The first magnetic body 120 and the second magnetic body 130, which will be described later, are all made of permanent magnets so as to generate a magnetic force attracting each other.

The shaft 140 is installed on the second support portion 116 formed on the inner surface of the body 110 so as to be vertically movable.

The second magnetic body 130 is fixed to the lower end of the shaft 140 and generates a magnetic force attracting the first magnetic body 120 to each other.

The pressure disk 150 is mounted on the upper end of the body 110 and coupled with the shaft 140 so that the pressure disk 150 is lifted and lowered together with the shaft 140, 111).

The closing and speed increasing means 160 is provided so as to apply an elastic force to the pressure disk 150 and the shaft 140 so that the pressure disk 150 can close the gas discharging portion 111 So that it is quickly closed by the elastic force.

The closing and speed-up means 160 includes an elastic force adjusting nut 165 screwed to the outer circumferential surface of the shaft 140 and a coil spring (not shown) installed between the elastic force adjusting nut 165 and the second supporting portion 116 161).

Therefore, when the shaft 140 and the pressure disk 150 are lifted to open the discharge valve apparatus 100, the coil spring 161 is compressed and the shaft 140 and the pressure disk 150 are closed for closing, When the coil spring 150 descends, the coil spring 161 is restored and an elastic force acts in a closing direction (downward direction) so that the coil spring 161 is quickly closed.

That is, when the discharge valve device 100 starts to be closed after the discharge valve device 100 is opened, the coil spring 161 is rotated to the extent that a magnetic force pulling between the first and second magnetic bodies 120 and 130 acts, ) Is urged by elastic force to be quickly closed.

If the pressure of the storage tank 2 is lower than the set value and is to be closed as described above, the closed fastening means 160 quickly closes the valve so that the responsiveness at the time of closing is improved, VOC gas (volatile organic compound)) can be prevented from being discharged to the outside, thereby reducing environmental pollution.

When the first and second diaphragms 221 and 231 of the first and second pilot units 220 and 230 are lifted due to a pressure exceeding a preset value in the storage tank 2, the disk 210 is opened, The pressure disk 150 is opened immediately so that the pressure disk 150 can be quickly opened to the discharge port 111. The shaft 140 is provided with a pressure- The steel plate 170 is joined.

Therefore, when the pressure discharged from the storage tank 2 passes through the passage opening / closing part 202 and flows to the discharge valve device 100, the lifting plate 170 is pushed upward and opened more rapidly .

A suction valve device 270 is installed in the inlet 203 of the main body 201 so that external air can be sucked when generating vacuum in the storage tank 2.

The suction valve device 270 includes a body 271 connected to the inlet 203 and a gas suction part 272 formed under the body 271 to communicate with the outside, A vacuum disk 273 which is seated on the upper part of the gas suction part 272 and opens and closes the gas suction part 272 in the inside of the vacuum disk 271 and the upper part of the vacuum disk 273, And a support shaft 274 which is installed on the upper portion so as to be able to move up and down.

The vacuum disk 273 opens the gas suction unit 272 when the vacuum pressure in the storage tank 2 exceeds a set value.

At this time, the vacuum pressure in the storage tank 2 is set through the weight of the vacuum disk 273, so that when the vacuum pressure in the storage tank 2 is lower than the set value, The gas suction portion 272 is closed and when the vacuum pressure rises above the set value, the vacuum disk 273 opens the gas suction portion 272.

When the vacuum disk 273 opens the gas suction unit 272, air is introduced into the storage tank 2, so that the vacuum in the storage tank 2 is eliminated.

Since the sum of the weight of the pressure disk 150 and the magnetic force of the first and second magnetic bodies 120 and 130 affects the discharge valve device 100 during the initial opening of the pressure disk 150, It is preferable to set the sum of the weight of the pressure disk 150 and the magnetic force of the first and second magnetic bodies 120 and 130 to be about 90% based on the pressure set value 100% When the pressure in the tank 2 exceeds the set value and the disc 210 is opened by the first and second pilot portions 220 and 230, the discharge valve apparatus 100 can be opened immediately, If the pressure in the storage tank 2 drops below a predetermined value and becomes 90% or less after the disk 210 is opened, the discharge valve device 100 is quickly closed, Gas (volatile organic compound) is discharged to the outside It can prevent and reduce environmental pollution.

At this time, the discharge valve device 100 is firstly closed, and then the disk 210 of the main body 201 closes the passage opening and closing part 202 by the first and second pilot parts 220 and 230.

When the pressure in the storage tank 2 exceeds the predetermined value, the first and second pilot portions 220 and 230 are used to open the disc 210, When the pressure in the reservoir tank 2 drops below a predetermined value, the valve is closed first by using the discharge valve device 100 provided with the closing and speed-up means 160, thereby providing excellent responsiveness in closing.

If the first and second pilot portions 220 and 230 are used even when the pressure in the reservoir tank 2 drops below the set value, the responsiveness of the first and second pilot portions 220 and 230 at the time of closing is lowered so that the VOC gas Compound) is discharged to the outside.

Hereinafter, the operation of the high-speed pressure valve according to the present invention will be described.

end. When the pressure in the storage tank exceeds the set value (Fig. 3)

First, when the first and second pilot units 220 and 230 are not operated, the disc 210 maintains the closed state of the channel opening / closing unit 202 of the main body 201.

Subsequently, when the pressure in the reservoir tank 2 rises, the pressure (gas) discharged from the storage tank 2 flows through the first pipe 245 and the first flow path 241 to the second pilot portion The second diaphragm 231 of the second pilot part 230 is lifted up after the pressure in the reservoir tank 2 exceeds a preset value. And the opening and closing member 235 opens the second flow path 242.

When the second flow path 242 is opened, the elevated pressure (gas) of the storage tank 2 flows through the second flow path 242 and the second pipe 246 to the first pilot part 220 1 diaphragm 221 so that the first diaphragm 221 is lifted and the disc 210 connected to the connection shaft 211 is moved to the passage opening and closing part 202 of the main body 201 .

Thereafter, the pressure (gas) of the storage tank 2 passes through the opened passage opening / closing part 202 and is discharged through the discharge valve device 100 opened by the pressure passing through the passage opening / closing part 202 And is discharged to the outside, thereby relieving the elevated pressure of the storage tank 2.

When the pressure in the reservoir tank 2 exceeds a predetermined value, the suction valve device 270 is operated by the pressure generated in the reservoir tank 2 so that the vacuum disk 273 is in contact with the gas suction unit 272 ). ≪ / RTI >

When the pressure in the storage tank 2 drops below a set value, the discharge valve device 100, which is set to 90% on the basis of the pressure set value 100% of the storage tank 2, The disk 210 closes the passage opening and closing part 202 of the main body 201 due to the operation of the first and second pilot parts 220 and 230 (first and second diaphragms 221 and 231). 2)

I. When the vacuum pressure in the storage tank exceeds the set value (Fig. 4)

4 shows a case in which the vacuum pressure in the storage tank 2 exceeds a predetermined value. In this case, the vacuum valve 270 lifts up the vacuum disk 273 and the gas suction part 272 So that the vacuum pressure in the storage tank 2 is relieved.

Meanwhile, the disk 210 closes the passage opening / closing part 202 of the main body 201, and the discharge valve device 100 is also closed.

100: discharge valve device 110: body
111: gas discharging portion 115: first supporting portion
116: second supporting portion 120: first magnetic body
130: second magnetic body 140: shaft
150: pressure disk 160: closing accelerating means
161: coil spring 165: elastic force adjusting nut
170:
200: high-speed pressure valve 201: main body
202: passage opening / closing part 203: inlet
204: exhaust port 210: disk
211: connection axis 220: first pilot portion
221: first diaphragm 230: second pilot portion
231: second diaphragm 240: pressure supply section
241: first flow path 242: second flow path
245: first pipe 246: second pipe
250: pressure regulating means 260: third pipe
270: Suction valve device

Claims (7)

A high-speed pressure valve connected to one side of a storage tank (2) for storing various fluids and regulating the pressure in the storage tank (2)
An inlet 203 for discharging the vacuum in the storage tank 2 is formed at one side of the storage tank 2 and an outlet 204 for discharging the pressure in the storage tank 2 is formed at the other side A main body 201 having a passage opening / closing part 202 formed between the inlet 203 and the outlet 204,
A disk 210 which is seated on the passage opening / closing part 202 in the main body 201 to open / close the passage opening / closing part 202,
A first pilot part 220 installed at an upper part of the main body 201 and having a first diaphragm 221 connected to the disc 210 through a connection shaft 211,
A second pilot part 230 provided on the first pilot part 220 and having a second diaphragm 231 therein,
The second pilot part 230 is installed between the first pilot part 220 and the second pilot part 230 and the pressure of the reservoir tank 2 is set to be lower than the pressure of the second diaphragm 231 in the second pilot part 230, A pressure supply unit 240 for supplying the pressure to the lower region of the first diaphragm 221 in the first pilot unit 220,
And a discharge valve device (100) installed at an outlet (204) of the main body (201). The method according to claim 1,
The pressure supply unit 240,
A first flow path 241 and a second flow path 242 branched from the first flow path 241 are formed inside,
The inlet of the first flow path 241 is connected to the main body 201 side between the storage tank 2 and the passage opening and closing part 202 through the first pipe 245 and the outlet is connected to the second pilot part 230 of the second diaphragm 231,
Wherein an outlet of the second flow path (242) is connected to a lower area of the first diaphragm (221) in the first pilot part (220) through a second pipe (246). 3. The method of claim 2,
The second diaphragm 231 is moved up and down together with the second diaphragm 231 in accordance with the pressure of the lower region of the second diaphragm 231 to open and close the second diaphragm 231, And an opening / closing member (235) for opening / closing the valve. The method according to claim 1,
A pressure regulating means 250 is installed on the second pilot portion 230 to adjust a pressure set value of the storage tank 2,
The pressure regulating means 250 includes an elastic member housing 251 disposed on the upper portion of the second pilot portion 230 and an elastic member housing 251 disposed in the elastic member housing 251 to bias the second diaphragm 231 against a predetermined elastic force And an elastic force adjusting device (253) installed on the elastic member housing (251) to adjust an elastic force of the elastic member (252). The method according to claim 1,
Wherein the first diaphragm (221) is provided with a bent portion (221a) so as to increase the width of the rising / falling of the first diaphragm (221). The method according to claim 1,
The discharge valve device (100)
A body 110 connected to the discharge port 204 and having a gas discharge unit 111 formed at an upper end thereof,
A first magnetic body 120 installed on a first support part 115 formed on an inner surface of the body 110 to generate a magnetic force,
A shaft 140 installed on the second support portion 116 formed on the inner surface of the body 110 so as to be vertically movable,
A second magnetic body 130 installed at a lower end of the shaft 140 and generating a magnetic force attracted to the first magnetic body 120,
A pressure disk 150 mounted on the upper end of the body 110 and connected to the shaft 140 to open and close the gas discharging unit 111 of the body 110 while moving up and down with the shaft 140, Wow,
The up and down movement is provided so as to exert an elastic force on the pressure disk 150 and the shaft 140 so that the pressure disk 150 can be quickly closed by the elastic force when the gas discharge portion 111 is closed. And a speed increasing means (160). 8. The method of claim 7,
The closure speed increasing means 160 includes an elastic force adjusting nut 165 screwed on the outer circumferential surface of the shaft 140 and a coil spring 167 provided between the elastic force adjusting nut 165 and the second support portion 116. [ (161). ≪ / RTI >

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