KR200472901Y1 - The Inert Gas Blanketing Device - Google Patents

Abstract

The present invention relates to an inert gas supply device, which is supplied only when the pressure on the supply side is below a certain pressure by the diaphragm, and when the pressure is abnormal, the pressure is controlled by the valve itself to protect against air pollution and control the discharge in the tank. Developed;
A primary side space connected to an inflow line to which an inert gas is supplied for injecting an inert gas into a fluid storage tank for storing fluid, a secondary side space connected to a discharge line for supplying an inert gas to the fluid storage tank, A main body having a fluid passage formed between the space and the secondary space, a main body mounted on the main body and vertically lifting and lowering the main body to shut off the fluid passage when the housing is lowered, And a diaphragm mounted on an upper portion of the fluid storage tank to raise and lower the main valve according to a pressure of an inert gas filled in the fluid storage tank,
Wherein the inflow line and the discharge line further have respective first and second auxiliary lines connected to the internal space through the side of the housing, the first and second auxiliary lines being branched;
Wherein the main valve has a first spring seating groove in which a first O-ring is mounted at a lower end and a first spring is seated at a center of an upper surface thereof;
Wherein the housing comprises a main valve mounting hole having a vertically penetrating hole and an inner diameter corresponding to an outer diameter of the main valve at a lower portion thereof and a pilot valve mounting hole having an inner diameter extending stepwise at an upper portion thereof, And the second auxiliary line are connected to the pilot valve device mounting hole, and the first auxiliary line is connected to the lower side of the second auxiliary line;
A piston seating groove having an outer diameter smaller than an inner diameter of the pilot valve apparatus mounting hole and protruding in the center of the bottom surface, at least one gas passage groove recessed in the direction of the spring seating protrusion from an outer diameter surface, A piston housing having a second diaphragm mounting groove recessed in a circular shape along the periphery of the piston mounting groove and having an upper end outer diameter reduced in a stepwise manner and a lower end having an outer diameter corresponding to the piston mounting recess of the piston housing, A piston having a second spring seating groove inserted into the piston seating groove and having a second spring inserted into the bottom surface thereof and a tank gas inlet hole communicating with the second spring seating groove at the center of the upper surface, An insertion protrusion inserted into the second diaphragm seating groove is formed A second diaphragm extending downwardly along the piston seating groove and extending upwardly along the outer surface of the piston, closely contacting the upper surface of the piston, and having a hole corresponding to the tank gas inlet hole at its center, And a seat portion which is inserted and fixed vertically in the device mounting hole and has an inner diameter widened toward the lower portion and then expanded in a stepwise manner, and a lower end thereof is connected to a gas cylinder and a hole, And a second O-ring is attached to a rim of the second O-ring so that the second O-ring is closely attached to the seat, and the upper portion of the second O- The inner diameter is reduced again so that the pilot valve stem portion extends to the inert gas supply device, And a pilot valve having a cross gas passing hole horizontally penetrating the upper portion of the second O-ring and a tank gas passing hole penetrating from the center of the bottom wall to the cross gas passing hole. To an inert gas supply device.

Description

The Inert Gas Blanketing Device < RTI ID = 0.0 >

The present invention relates to an inert gas supply device, and more specifically, it is supplied only when the pressure of the supply side is below a predetermined pressure by the diaphragm, and when the pressure is abnormal, the pressure is controlled by the valve itself, To an inert gas supply device which is developed to control the discharge.

In a tank storing various flammable and volatile substances represented by petroleum, evaporative gas is generated from the stored fluid, and there is a risk that the evaporative gas may ignite and explode when the external air, especially oxygen, is introduced.

In particular, in a ship equipped with a tank for storing oil, such as a drill ship or a tank, an explosion causes damage to not only goods but also enormous human life, so that the pressure in the tank is positively pushed to prevent external air from entering the tank. In order to reduce the collapse of the tank wall by reducing the pressure generated when discharging the contents in the tank and to protect the contents due to the evaporation of the air, .

The inert gas supply device applies an inert gas when the pressure in the fluid storage tank falls below the set pressure, and stops the supply when the pressure in the tank reaches the set pressure.

However, in the case of supplying inert gas, there is no serious problem, but the inert gas is shut off at the setting pressure, but the O-ring securing the airtightness of the clogged valve and the valve is loosely adhered so that inert gas is continuously supplied to the tank, (The tank pressure is maintained at 1 kg / cm 2 or less, and the inert gas pressure is supplied at 1 kg / cm 2 or more). .)

Accordingly, it is necessary to develop an inert gas supply device that increases the airtightness of the inflow gas and opens and closes the valve more quickly when the inflow of the inert gas is interrupted.

(Patent Document 1) _ Korean Patent Registration No. 10-0991065-0000 (October 25, 2010) (Patent Document 2) Korean Patent Registration No. 10-0101202-0000 (June 26, 1996) (Patent Document 3) Korean Utility Model Registration No. 20-0416304-0000 (May 08, 2006)

SUMMARY OF THE INVENTION The present invention has been developed to solve the above problems, and it is an object of the present invention to provide a gas supply apparatus and a gas supply apparatus for supplying gas when a pressure of a tank is lower than a set pressure, And also to reduce the possibility that the O-ring securing airtightness is tightly adhered to thereby lose the pressure.

In order to achieve the above-mentioned object, the present invention provides a fluid storage tank, comprising: a primary side space connected to an inflow line through which an inert gas is supplied for injecting an inert gas into a fluid storage tank for storing a fluid; A main body to which a fluid passage is formed between a primary side space and a secondary side space connected to a discharge line; a main body mounted on an upper portion of the main body to vertically move up and down inside the main body, And a diaphragm mounted on an upper portion of the housing to move up and down the main valve according to the pressure of the inert gas filled in the fluid storage tank, the inert gas supply device comprising:

Wherein the inflow line and the discharge line further have respective first and second auxiliary lines connected to the internal space through the side of the housing, the first and second auxiliary lines being branched;

The main valve has a first spring seating groove in which a first O-ring is mounted at a lower end and a first spring is seated at a center of an upper surface of the main valve,

Wherein the housing comprises a main valve mounting hole having a vertically penetrating hole and an inner diameter corresponding to an outer diameter of the main valve at a lower portion thereof and a pilot valve device mounting hole having an inner diameter extending stepwise at an upper portion thereof, And the second auxiliary line are connected to the pilot valve device mounting hole, and the first auxiliary line is connected to the lower side of the second auxiliary line;

A piston seating groove having an outer diameter smaller than an inner diameter of the pilot valve apparatus mounting hole and protruding in the center of the bottom surface, at least one gas passage groove recessed in the direction of the spring seating protrusion from an outer diameter surface, A piston housing having a second diaphragm mounting groove recessed in a circular shape along the periphery of the piston mounting groove and having an upper end outer diameter reduced in a stepwise manner and a lower end having an outer diameter corresponding to the piston mounting recess of the piston housing, A piston having a second spring seating groove inserted into the piston seating groove and having a second spring inserted into the bottom surface thereof and a tank gas inlet hole communicating with the second spring seating groove at the center of the upper surface, An insertion protrusion inserted into the second diaphragm seating groove is formed A second diaphragm extending downwardly along the piston seating groove and extending upwardly along the outer surface of the piston, closely contacting the upper surface of the piston, and having a hole corresponding to the tank gas inlet hole at its center, And a seat portion which is inserted and fixed vertically in the device mounting hole and has an inner diameter widened toward the lower portion and then expanded in a stepwise manner, and a lower end thereof is connected to a gas cylinder and a hole, And a second O-ring is attached to a rim of the second O-ring so that the second O-ring is closely attached to the seat, and the upper portion of the second O- The inner diameter is reduced again so that the pilot valve stem portion extends to the inert gas supply device, And a pilot valve having a cross gas passing hole horizontally penetrating the upper portion of the second O-ring and a tank gas passing hole penetrating from the center of the bottom wall to the cross gas passing hole. .

As described above, in the present invention, when the pressure of the tank is shut off due to the setting pressure, the main valve is operated by the pressure of the inflow line and the downward force by the spring to ensure airtightness between the inflow line and the supply line, The pressure of the second auxiliary line connected to the line is increased by the spring to ensure the airtightness and when the pressure of the tank becomes lower than the set pressure, the inert gas is always filled in the tank at a constant pressure, There is an effect that can be prevented.

1 is a conceptual diagram according to an embodiment of the present invention;
2 is a perspective view of an embodiment of the present invention.
3 is an exploded perspective view according to an embodiment of the present invention.
4 is a cross-sectional view showing a state in which gas is supplied according to an embodiment of the present invention
5 is a partial cross-sectional view showing a state in which gas is supplied according to an embodiment of the present invention
6 is a cross-sectional view showing a state in which gas is shut off according to an embodiment of the present invention
7 is a partial cross-sectional view showing a state in which gas is shut off according to an embodiment of the present invention

Hereinafter, the structure of the present invention will be described in detail so that a person skilled in the art can easily understand and reproduce the same.

FIG. 1 is a conceptual view according to one embodiment of the present invention, FIG. 2 is a perspective view according to an embodiment of the present invention, FIG. 3 is an exploded perspective view according to an embodiment of the present invention, A primary side space 211 connected to an inflow line 11 to which an inert gas is supplied for injecting an inert gas into the fluid storage tank 1, a discharge line 12 for supplying an inert gas to the fluid storage tank 1, A main body 21 having a fluid passage hole 213 formed between a primary side space 211 and a secondary side space 212 and a secondary body space 212 connected to the main body 21; And a main valve 22 for vertically lifting and lowering the fluid passageway 213 and shutting off the fluid passageway 213. The housing 23 is mounted on the upper portion of the housing 23, A diaphragm 24 for moving up and down the main valve 22 according to the pressure of the filled inert gas 1. An inert gas supply device (2) comprising:

The inflow line 11 and the discharge line 12 further have respective first and second auxiliary lines 13 and 14 branched from each other and connected to the inner space through a side surface of the housing 23;

The main valve 22 has a first spring seating groove 223 on which a first O-ring 221 is mounted and a first spring 222 is mounted on a center of a top surface of the main valve 22;

The housing 23 includes a main valve mounting hole 231 having a vertically penetrating hole and an inner diameter corresponding to the outer diameter of the main valve 22 at a lower portion thereof, Wherein the first and second auxiliary lines 13 and 14 are connected to the pilot valve mounting hole 232 and the first auxiliary line 13 is connected to the second auxiliary line 14 );

A spring seat protrusion 311 having an outer diameter smaller than the inner diameter of the pilot valve device mounting hole 232 and protruding from the center of the bottom surface and one or more gas passage grooves 312 recessed toward the spring seat protrusion 311 on the outer surface, And a second diaphragm mounting groove 314 formed on the upper surface of the piston mounting groove 313 and extending downward from the center of the upper surface of the piston 311 and circularly recessed along the periphery of the piston mounting groove 313, The lower end of the piston housing 31 has an outer diameter corresponding to the piston seating groove 313 of the piston housing 31. The upper portion has a reduced outer diameter and is inserted into the piston seating groove 313, A piston 32 having a second spring seating groove 322 into which the second spring 321 is inserted and a tank gas inlet hole 323 through which the second spring seating groove 322 is connected to the center of the upper surface, On the bottom edge, An insertion protrusion 331 is formed to be inserted into the second diaphragm mounting groove 314 and is bent downward along the piston mounting groove 313 and then extends upwardly along the outer surface of the piston 32 A second diaphragm 33 which is in close contact with an upper surface of the first diaphragm 33 and through which a hole corresponding to the tank gas inflow hole 323 passes is formed at the center of the second diaphragm 33, A pilot valve housing 35 fixedly attached to an edge of the pilot valve device mounting hole 33 to fix the rim portion thereof from the upper portion thereof, And a lower end thereof is connected to a gas cylinder and a hole 352 whose inner diameter is reduced step by step and to the gas cylinder and the hole 352 and the second auxiliary line 14 A lower portion of the lower portion is formed to be smaller than an inner diameter of a lower end of the gas cylinder and the hole 352 and a second O-ring 361 is mounted on the rim, The second O-ring 361 is brought into close contact with the first O-ring 351 and the inner diameter of the second O-ring 361 is reduced again so that the pilot valve stem 364 extends to the inert gas supply unit 2 and is connected to the diaphragm 24, A pilot gas passage hole 362 extending horizontally through an upper portion on which the O-ring 361 is mounted, and a tank gas passage hole 363 extending from the center of the bottom surface to the cross gas passage hole 362, And a valve device (3).

And a sensor line 15 connecting the fluid storage tank 1 and the inert gas supply device 2 to operate the diaphragm 24 by the pressure of the fluid storage tank 1. [

A general operation is that the setting value of the pressure regulating means 241 is such that the pilot valve 36 and the main valve 22 are raised or lowered when the gas introduced from the sensor line 15 raises or lowers the diaphragm 24 by the pressure So that the inflow of the gas can be controlled.

The operation of the present invention in more detail and the description thereof will be described in more detail in the following description of the operation relationship with the drawings.

FIG. 4 is a cross-sectional view showing a state where gas is supplied according to an embodiment of the present invention, FIG. 5 is a partial cross-sectional view showing a state where gas is supplied according to an embodiment of the present invention, The force pushing the diaphragm 24 of the inert gas supply device 2 through the sensor line 15 is weakened and the diaphragm 24 is biased by the spring force of the pressure adjusting means 241 The pressure of the storage tank is increased to the second spring 2 through the second auxiliary line 14, the cross gas passage hole 362 and the tank gas inflow hole 323 through the pilot valve The downward force of the diaphragm 24 is transmitted to the pilot stem 364 while the second O-ring 361 of the second O-ring 361 of the second O- The diaphragm 33 and the piston 32 descend, The active gas enters the gap between the inner diameter of the pilot valve housing 35 and the second O-ring 361 of the pilot 36 in the first auxiliary line 13 and flows through the gas hole and the hole 352 to the gas discharge hole 353 The inert gas injects the pilot valve device mounting hole 232 and the gas cylinder and the hole 312 into the first spring seating groove 223 through the second auxiliary line 14, The pressure of the inflow gas becomes higher than the pressure that the main valve 22 is brought into close contact with the spring 222 while the first O-ring 221 of the main valve is brought into close contact with the seat portion and the inert gas escapes from the inflow line 11 to raise the main valve 22 and to supply a large amount of inert gas to the main pipe.

This is not a simple principle that the main valve 22 is simply supplied by the pressure of the inflow gas but the pressure of the storage tank 1 is precisely detected by using the pilot valve device complementary to the second diaphragm 33, It is a difference of existing technology that it has a structure that can introduce gas.

FIG. 6 is a cross-sectional view showing a state where gas is shut off according to an embodiment of the present invention, FIG. 7 is a partial cross-sectional view showing a state where gas is shut off according to an embodiment of the present invention, In the case where the pressure is higher than the pressure of the pressure regulating means 241 and the supply of the inert gas has to be interrupted, the present invention has a method of double-blocking by using the pressures of the inlet line 1 and the discharge line 12.

That is, when the supply of the gas is performed, the pressure in the tank rises and the pressure of the gas flowing into the sensor line 15 becomes high. As a result, the diaphragm 24 of the inert gas supply device 2 and the pressure- The spring of the first diaphragm 241 is raised and the pushing force of pushing down the pilot valve 36, the second diaphragm 33 and the piston 32 is weakened and the pilot valve 36, The diaphragm 33 and the piston 32 rapidly rise and when the pressure in the tank reaches the setting pressure, the second O-ring 361 of the pilot valve 36 is first brought into close contact with the seat portion with the second spring 321 Thereby preventing the inflow of unburnt gasses into the tank. The gas in the storage tank 1 is introduced into the first spring seating groove 223 through the cross gas hole 362 and the tank gas inlet hole 323 through the second auxiliary line 14 and the piston 32 The second diaphragm 33 and the pilot valve 36 are raised so that the second O-ring 361 is firmly brought into close contact with the seat portion so that the inflow of the inert gas introduced through the first sub- It is strongly blocked. When the pressure of the inert gas is cut off, the inert gas is introduced into the first spring mounting hole 223 through the gas cylinder and the hole 312 of the piston housing 31, and is discharged to the main valve 22 by the spring and the pressure of the inflow gas. The first o-ring 221 is strongly adhered to the seat portion to block the gas flow.

In this way, in order to press the second O-ring 361 side of the pilot valve 36 accurately and horizontally on the seat surface through separate lines, i.e., the first and second auxiliary lines 13 and 14, The diaphragm 33 and the pilot valve 36 are assembled into a straight line and the pilot valve stem 364 is inserted into the lower portion of the piston 32 of the piston seat groove 313 and the upper inner diameter of the pilot valve housing 35 The diaphragm 24 and the second diaphragm 33 are used to control the pressure of the storage tank 1 and the pressure of the inert gas to be introduced, So that the inert gas can be supplied to the storage tank 1 in a precise manner by providing the inert gas supply device with a stronger force for shutting off the two paths when the gas supply is cut off. It is possible to drastically reduce the occurrence of various accidents such as explosion due to poor quality of teeth.

1: Storage tank
11: inlet line 12: exhaust line
13: first auxiliary line 14: second auxiliary line
2: Inert gas supply device
21: Main body
211: primary side space 212: secondary side space
213: Gas cylinder and sphere
22: Main valve
221: first o-ring 222: first spring
223: first spring seating groove 224: gas blocking o-ring
23: Housing
231: Main valve mounting hole 232: Pilot valve mounting hole
24: Diaphragm
3: Pilot valve device
31: Piston housing
311: spring seat projection 312: gas passage groove
313: piston seat groove 314: second diaphragm seat groove
32: Piston
321: second spring 322: second spring seat groove
323: Tank gas inflow hole
33: Second diaphragm
331: Insertion projection
35: Pilot valve housing
351: seat portion 352: gas passage hole
353: gas discharge hole
36: Pilot valve
361: second O-ring 362: cross gas passage hole
363: tank gas passage hole 364: stem part

Claims (1)

A primary side space 211 connected to an inflow line 11 to which an inert gas is supplied for injecting an inert gas into the fluid storage tank 1 for storing fluid, A main body 21 in which a fluid passage 213 is formed between a primary side space 211 and a secondary side space 212 and a secondary side space 212 connected to a discharge line 12 for discharging the main body 21, And a main valve 22 mounted on an upper portion of the housing 21 to vertically move up and down to shut off the fluid passage opening 213. When the main valve 22 is mounted on the upper portion of the housing 23, And a diaphragm (24) for raising and lowering the main valve (22) in accordance with a pressure of an inert gas filled in the fluid storage tank (1), wherein the inert gas supply device (2)
The inflow line 11 and the discharge line 12 further have respective first and second auxiliary lines 13 and 14 branched from each other and connected to the inner space through a side surface of the housing 23;
The main valve 22 has a first spring seating groove 223 on which a first O-ring 221 is mounted and a first spring 222 is mounted on a center of a top surface of the main valve 22;
The housing 23 is formed with a vertically penetrating hole and has a main valve mounting hole 231 having an inner diameter corresponding to the outer diameter of the main valve 22 and a pilot valve Wherein the first and second auxiliary lines 13 and 14 are connected to the pilot valve mounting hole 232 and the first auxiliary line 13 is connected to the second auxiliary line 14 );
A spring seat protrusion 311 having an outer diameter smaller than the inner diameter of the pilot valve device mounting hole 232 and protruding from the center of the bottom surface and one or more gas passage grooves 312 recessed toward the spring seat protrusion 311 on the outer surface, And a second diaphragm mounting groove 314 formed on the upper surface of the piston mounting groove 313 and extending downward from the center of the upper surface of the piston 311 and circularly recessed along the periphery of the piston mounting groove 313, The lower end of the piston housing 31 has an outer diameter corresponding to the piston seating groove 313 of the piston housing 31. The upper portion has a reduced outer diameter and is inserted into the piston seating groove 313, A piston 32 having a second spring seating groove 322 into which the second spring 321 is inserted and a tank gas inlet hole 323 through which the second spring seating groove 322 is connected to the center of the upper surface, On the bottom edge, An insertion protrusion 331 to be inserted into the second diaphragm mounting groove 314 is formed and is bent downward along the piston mounting groove 313 and then extended upward along the outer surface of the piston 32, A second diaphragm 33 in which a hole corresponding to the tank gas inflow hole 323 passes, and a second diaphragm 33 inserted and fixed vertically through the pilot valve device mounting hole 232, And a seat 351 extending in a step-wise manner after being widened. The lower end of the seat 351 has a gas hole and a hole 352 in which the inner diameter is reduced step by step and a gas outlet 352 connecting the gas hole and the hole 352 to the second sub- And a lower portion of the lower portion is formed to be smaller than an inner diameter of a lower end of the gas pipe and the hole 352. The second O-ring 361 is extended to the upper portion, The second O-ring 361 is closely attached The pilot valve stem 364 extends to the inert gas supply device 2 and is connected to the diaphragm 24 and horizontally passes through the upper portion where the second O-ring 361 is mounted And a pilot valve 36 composed of a cross gas passage hole 362 and a tank gas passage hole 363 passing from the center of the bottom surface to the cross gas passage hole 362 Characterized in that the inert gas supply device is an inert gas supply device.

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