KR100684068B1 - An apparatus for controlling the gas pressure - Google Patents

Abstract

A gas pressure control apparatus is provided to easily control gas discharge pressure and to be easily moved and installed. In an apparatus for controlling a gas pressure, two spaces(5,7) are formed by installing a partition(3) inside of a box type body(1). One space is an empty space to store gas. The other space is a pressure control space by filling water(9) at a predetermined height. The gas space and the pressure control space are connected through a connection line(11). An end portion(11a) of the connection line is immerged into the water at a predetermined depth. An auxiliary pipe(11b) is inserted into the outside of the end portion of the connection line which is immerged into the pressure control space, thereby forming a double structure. And, an end portion of the auxiliary pipe is connected through a nut(11c).

Description

An apparatus for controlling the gas pressure

1 is a perspective view showing a schematic structure of a gas pressure generating device according to the present invention

Figure 2 is a schematic diagram showing the internal structure of the gas pressure generating apparatus according to the present invention.

* Explanation of symbols on the main parts of the drawings

1-body 3-bulkhead

5-gas space 7-pressure control space

9-water 11-connecting line

13-Gas delivery line 15-Gas discharge line

17-Lid 19-Drain Line

21-measuring tube

The present invention relates to a gas pressure regulating device for use in a leak inspection system and the like for the internal space of a pressure structure having an airtight space, and in particular, a simple pressure structure, the gas pressure control to be able to easily adjust the gas discharge pressure as needed Relates to a device.

In general, large vessel tightness test, medium and large vessel structure, small pressure vessel, fluid gas piping, liquid and gas storage tank, LNG (Liquefied natural gas) carrier tightness test, LNG storage tank tightness test, nuclear power plant pressure vessel or pipeline Such a structure having an airtight space therein is made of a metal such as stainless steel or INBAR steel, and when the joining operation of such a metal plate is completed, an airtight inspection is performed on the welded portion.

Pressure structures with airtight spaces, such as LNG storage tanks, are made of metal, such as stainless steel or INBAR, and when the joining of these metal plates is completed, a check is made to see if gas is leaking into the weld. .

These tests typically use tracer gases, such as helium, ammonia or halogens.

On the other hand, the leak detection test using the ammonia tracer gas is mixed with ammonia and dry air (nitrogen gas) and injected into the airtight space corresponding to the inspection site, and the pressure of the test condition is formed, and then the detection agent outside the test object. After applying, the method is to find the location of leakage by the presence or absence of discoloration of the detection agent reacted with the ammonia gas leaking through the leak of the test object.

In addition, the leak detection test using helium or halogen gas injects the tracer gas into the airtight space and leaks the tracer gas leaking through the leak that may be at the junction of the outer surface of the test object using the helium or halogen tracer gas detector. It consists of the process of detecting the position and leakage amount.

By the way, the pressure regulator used in the inspection device for the airtight space of the pressure structure is usually to control the discharge pressure of the gas by using the pressure of the water, most conventional gas pressure regulator is a space for storing gas and water Since the storage space is divided into two, the structure is complicated, and there is a problem that it is not easy to control the discharge pressure of the gas.

Accordingly, the present invention solves the problem of the gas pressure control device used in the system for inspecting the leakage state by injecting gas into the airtight space of the conventional pressure structure as described above, easy installation and transport because the structure is simple. In addition, it is an object of the present invention to provide a gas pressure regulating device that can be easily used by a wide range of gas discharge pressure as needed.

The apparatus of the present invention for achieving the above object is, while the partition is provided inside the box-shaped body to form two spaces, one space consists of a gas space where the gas stays, The other space is filled with water to a predetermined height to form a pressure control space, while the gas space and the pressure control space are connected through a connection line, and the depth at which the tip of the connection line is submerged in the water of the pressure control space. Control the pressure.

The apparatus of the present invention having such a structure has a simple structure because the gas space and the pressure regulating space are formed in one main body, which has the advantage of being simple to move and easy to install, while simplifying the pressure of the exhaust gas. You can get effects such as adjustable.

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

1 is a perspective view showing a schematic structure of a gas pressure generator according to the present invention, Figure 2 is a schematic configuration diagram showing the internal structure of the gas pressure generator according to the present invention, as shown in these drawings According to the gas pressure regulator according to the present invention, the partition wall 3 is provided inside the box-shaped body 1 to form two spaces 5 and 7, while one space 5 is formed as an empty space, and the gas stays therein. The other space 7 is filled with water 9 at a predetermined height to form a pressure regulating space.

In addition, the gas space 5 and the pressure control space 7 is connected through a connection line 11, the front end portion 11a of the connection line 11 in a structure that is locked to a predetermined depth in the water (9). It is.

A gas field drain 13 is connected to a gas tight space of a pressure structure not shown in the gas space 5, and a discharge line 15 for discharging gas is connected to the pressure control space 7.

In addition, the lid 17 is installed on the upper surface of the pressure control space (7) filled with water to open the lid 17 as needed to fill the water, if the water is to be pressure-controlled space While it is possible to drain through the drain line 19 provided below the (7), the measuring tube 21 is provided to the outside of the pressure control space (7) filled with water to increase the height of the water (9) It can be recognized by the eye.

On the other hand, the front end portion 11a of the connection line 11 immersed into the pressure control space 7 is double, with another auxiliary pipe 11b fitted outside the front end portion 11a, as shown in FIG. The auxiliary pipe 11b and the tip portion 11a are fastened by a fastening means such as a nut 11c.

Therefore, the auxiliary pipe 11b of the connection line 11 according to the present invention controls the depth h that is submerged in the water 9 of the pressure regulating space 7 by adjusting the vertical height using the nut 11c. It is supposed to be.

As such, the auxiliary pipe 11b installed at the front end portion 11a of the connection line 11 is discharged through the connection line 11 from the gas space 5 by adjusting the depth h submerged in the water 9. The pressure head of the gas can be adjusted.

That is, by adjusting the depth (h) of the auxiliary pipe (11b) to be immersed in the water (9), the height of the water entering the pressure control space (7) from the gas space (5) through the connection line (11) Pressure to the airtight space of the pressure structure connected through the gas delivery line 13 by controlling the head to be discharged through the gas discharge line 15 through the water (9) to overcome the pressure according to (h) Can be adjusted.

On the other hand, the measuring tube 21 is installed to the outside of the pressure control space (7) filled with water (9) is able to recognize and adjust the height of the water (9) filled in the pressure control space (7) with the eyes. .

In addition, the gas space 5 is installed to protect the device by preventing water from flowing back in the pressure regulating space 7, and the pressure of the gas delivery line 13 into which the gas is introduced is increased in the gas discharge line 15. If it is momentarily lower than the pressure, the water 9 in the pressure regulating space 7 flows back from the gas space 5 consisting of an empty space such that the water 9 in the pressure regulating space 7 flows back and does not directly enter the gas supply source through the gas delivery line 13. It is intended to protect the safety of the device by receiving water.

On the other hand, the device according to the present invention can be used not only to adjust the internal pressure of the device, but also to neutralize the gas dissolved in water by allowing the gas to be discharged through the water (9) installed in the pressure control space (7) Not only can it be used, but it can also be used as a gas discharger which neutralizes and discharges gas.

As described above, the apparatus according to the present invention can adjust the pressure of the gas by adjusting the depth h of the auxiliary pipe 11b soaked in the water 9, thus adjusting the pressure inside the airtight space of the pressure structure. If it is necessary to set or change the set pressure according to the equipment, simply by adjusting the depth (h) of the auxiliary pipe (11b) submerged in the water (9) while leaving the amount of water unchanged You can set the pressure.

As described above, the device according to the present invention is provided with a gas space for storing gas and a pressure control space for adjusting the pressure in one body, so that the configuration of the device is simple to move and install easily and conveniently You can adjust the discharge pressure.

In addition, the apparatus according to the present invention is connected between the gas storage space and the pressure control space via a connection line, the auxiliary pipe is configured to the height adjustable to the front end of the connection line, the auxiliary pipe pressure control Since the gas pressure exiting through the gas discharge line 15 can be controlled by adjusting the depth submerged in the water of the space, the gas discharge pressure can be easily adjusted by adjusting the height of the auxiliary pipe as necessary. You can get it.

Claims (1)

The partition 3 is provided inside the box-shaped main body 1 to form two spaces 5 and 7, while one space 5 is an empty space, which is a gas space in which gas resides. The space 7 is filled with water 9 at a predetermined height to form a pressure control space, and the gas space 5 and the pressure control space 7 are connected through a connection line 11. Another auxiliary pipe outside the front end portion 11a of the connection line 11 that is immersed in the water 9 by a predetermined depth in the front end portion 11a of the connection line 11 and immersed in the pressure regulating space 7. 11b) is inserted into a double structure, the auxiliary pipe (11b) and the front end portion (11a) is a gas pressure regulating device formed by being fastened by a nut (11c)

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