KR102003395B1 - Recycling system for pressure testing gas canister - Google Patents

Abstract

The present invention, the test apparatus for performing a pressure test while repeatedly supplying or interrupting the set pressure to the gas container; A supply passage for guiding a working fluid supplied to the test apparatus; A discharge passage for guiding a working fluid discharged from the test apparatus; A storage unit installed in the discharge passage and configured to store a working fluid discharged from the pressure test; A constant pressure holding unit controlling a pressure of the working fluid to provide the working fluid supplied from the storage unit to the test apparatus at a constant supply pressure; A pressurizing unit for pressurizing and supplying a working fluid supplied through the constant pressure holding unit to a supply pressure required for a pressure test; And a replenishment unit installed in the supply passage so as to replenish the supply amount of the working fluid lost by the operation of the pressurizing unit.

Description

Recycling system for gas container pressure test {RECYCLING SYSTEM FOR PRESSURE TESTING GAS CANISTER}

The present invention relates to a gas container pressure test recycling system, and more particularly, a working fluid can be supplied at a constant pressure in a pressure test of a gas container in which a working fluid is repeatedly supplied, and the working fluid discharged after the pressure test. The present invention relates to a recycling system for testing gas container pressure, which is circulated for recycling.

In general, the gas occupies a large volume, so when transporting or transporting it, it is stored in the metal container for liquefied gas, and in order to liquefy the gas, the vaporization point is increased by high compression. High pressure resistance is not required.

In addition, in the case of gas, especially hydrogen, hydrogen embrittlement (hydrogen embrittlement means hydrogen molecules pass between metal molecules to increase the distance between the metal molecules, thereby decreasing their strength). For example, hydrogen combustion cells, hydrogen fuel cells, hydrogen piping) metal containers should have low hydrogen embrittlement for these hydrogens.

If the metal container is deformed at high pressure or hydrogen embrittlement occurs, there is a risk of explosion due to the brittleness of the metal container.

Therefore, the pressure resistance test of the metal container is very important. The pressure resistance test of a metal container for storing a liquefied gas is to test how much pressure the metal container causes deformation by filling a liquid in the metal container and injecting an injection liquid into the metal container by a pressurizing means.

Conventional test apparatus includes a liquid metal container pressure resistance test apparatus for filling a liquid into a metal container and injecting an injection liquid by a pressurizing means. However, when the liquid container is filled with a liquid in a metal container and subjected to pressure resistance test, the metal container is at a certain pressure. It is possible to analyze and measure whether the strain causes deformation, but it is not known how much gas embrittlement is possible with respect to the gas (especially hydrogen).

Therefore, there is a problem that it is unknown whether there is a risk that the metal container is damaged by gas embrittlement in actual use.

In addition, the conventional test apparatus, there is a conventional gas-type pressure resistance test apparatus for filling the gas into the metal container by injecting the injection liquid or the injection gas into the metal container by the pressurizing means to perform a pressure resistance test, the explosive gas in the pressure resistance test Since the total amount is regulated with respect to (especially hydrogen), there is a problem that it is difficult to experiment with gas.

In addition, in the case of a defective metal container during the experiment, there is a problem that there is a risk of explosion, while limiting the amount of gas used in the experiment within the regulatory range, the gas is brought into contact with the inside of the metal container as in the actual use mode, the desired pressure There is a need for an apparatus for testing the pressure resistance of a metal container that can be tested while applying.

In order to solve the above problems, a metal container pressure resistance test apparatus has been developed, and a test apparatus according to the prior art includes: a metal container to be subjected to pressure resistance test, an elastic tube provided inside a metal container, and filled with liquid, and elasticity. A pressure means for expanding the elastic tube by applying pressure in the tube, a gas filled between the inside of the metal container and the elastic tube to pressurize the inside of the metal container by expansion of the elastic tube, and the pressure in the metal container is measured. It includes a pressure gauge.

Background art of the present invention is disclosed in Republic of Korea Patent Publication No. 10-1113784 (published February 27, 2012, the name of the invention: metal container pressure resistance test apparatus and metal container pressure resistance test method using the test apparatus).

The experimental apparatus according to the prior art, it is difficult to reduce the supply of the working fluid required for the pressure test because it is difficult to reduce the supply amount of the working fluid required for the pressure test because the test fluid is provided and the discharged working fluid is discharged without being recycled. There is a problem.

Therefore, there is a need for improvement.

The present invention can supply the working fluid to a constant pressure in the pressure test of the gas container that the working fluid is repeatedly supplied, and provides a recycling system for the gas container pressure test to circulate to recycle the working fluid discharged after the pressure test. Its purpose is to.

The present invention, the test apparatus for performing a pressure test while repeatedly supplying or interrupting the set pressure to the gas container; A supply passage for guiding a working fluid supplied to the test apparatus; A discharge passage for guiding a working fluid discharged from the test apparatus; A storage unit installed in the discharge passage and configured to store a working fluid discharged from the pressure test; A constant pressure holding unit controlling a pressure of the working fluid to provide the working fluid supplied from the storage unit to the test apparatus at a constant supply pressure; A pressurizing unit for pressurizing and supplying a working fluid supplied through the constant pressure holding unit to a supply pressure required for a pressure test; And a replenishment unit installed in the supply passage so as to replenish the supply amount of the working fluid lost by the operation of the pressurizing unit.

In addition, the constant pressure holding unit of the present invention, the constant pressure flow passage branched from the supply passage connected in parallel; A first regulator installed in the supply passage; A second regulator installed in the supply passage branched in parallel with the constant pressure passage; And a third regulator installed in the constant pressure passage.

In addition, the pressing unit of the present invention, the compressor is installed in the supply passage for supplying the pressurized working fluid primarily; And a booster installed in the supply passage and configured to pressurize and supply a working fluid supplied through the compressor to the secondary.

In addition, the replenishment unit of the present invention, the replenishment line branched from the supply passage between the compressor and the booster; A replenishment vessel installed in the replenishment line and storing a working fluid; And a fourth regulator installed in the replenishment line.

Recycling system for gas container pressure test according to the present invention is provided with a constant pressure holding unit for maintaining a constant supply pressure of the working fluid, it is possible to maintain a constant supply pressure required in the pressure test pressure to repeat the pressurization and decompression multiple times This has the advantage of allowing the test to proceed correctly.

In addition, the gas container pressure test recycling system according to the present invention, because the working fluid used in the pressure test circulated and stored, and the storage unit and the constant pressure holding unit for resupply at a constant pressure is provided to recycle the working fluid used for the pressure test While circulating at a constant pressure, there is an advantage to reduce the time and cost required for pressure testing.

In addition, the gas container pressure test recycling system according to the present invention is provided with a replenishment for replenishing the working fluid lost by the operation of the pressurizing unit can provide a supply amount of the working fluid required for the pressure test while replenishing the working fluid circulated. There is an advantage that can effectively achieve the recycling of the working fluid.

1 is a configuration diagram showing a gas container pressure test recycling system according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a gas container pressure test recycling system according to the present invention.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom.

Therefore, the definitions of these terms should be made based on the contents throughout the specification.

1 is a configuration diagram showing a gas container pressure test recycling system according to an embodiment of the present invention.

Referring to Figure 1, the gas container pressure test recycling system according to an embodiment of the present invention, the test apparatus 10 and the test apparatus 10 for performing a pressure test by repeatedly supplying or blocking a set pressure to the gas container, A supply flow path 30 for guiding the working fluid supplied to the discharge path, a discharge flow path 34 for guiding the working fluid discharged from the test apparatus 10, and a discharge flow path 34. A storage unit 50 for storing the working fluid, a constant pressure holding unit 70 for controlling the pressure of the working fluid to provide the working fluid supplied from the storage unit 50 to the test apparatus 10 at a constant supply pressure, It is installed in the supply passage 30 so as to supplement the supply amount of the working fluid which is lost by the operation of the pressurizing unit and the pressurizing unit for pressurizing and supplying the working fluid supplied through the constant pressure holding unit 70 to the supply pressure required for the pressure test It includes a replenishment portion 90 to be.

Therefore, when the pressure test is repeated to supply or shut off the high-pressure working fluid to the gas container, the working fluid reaches the supply pressure required for the pressure test by the operation of the first pressurizing unit 82 and the second pressurizing unit 84. It is supplied to the test apparatus 10 while being pressurized.

When the pressure test made by the supply of the working fluid is finished, the working fluid is discharged from the test apparatus 10. In this embodiment, the working fluid discharged along the discharge flow path 34 is supplied to the storage 50 and stored. The storage unit 50 includes a buffer tank connected to the discharge passage 34.

The discharge flow path 34 is inserted into the buffer tank forming the storage part 50, and is injected into the storage part 50 at a low speed by a bleed nozzle installed at an inner end of the discharge path 34. The shock applied to the inner wall of the storage unit 50 can be reduced and supplied.

The positive pressure holding unit 70 of the present embodiment includes a positive pressure passage 32 branched from the supply passage 30 and connected in parallel, a first regulator 72 provided in the supply passage 30, and a constant pressure passage 32. ) And a second regulator 74 provided in the supply flow path 30 branched in parallel with the) and a third regulator 76 provided in the constant pressure flow path 32.

Since the supply passage 30 of the present embodiment is branched to be connected in parallel with the constant pressure passage 32, the second regulator 74 and the third regulator after the working fluid supplied along the supply passage 30 are branched into two passages. Since the supply pressure is adjusted by the 76, the supply pressure is individually adjusted in each flow path connected in parallel as compared with the case in which the supply pressure is controlled by one regulator or a plurality of regulators connected in series. Pressure control can be achieved.

The pressurization unit of the present embodiment is installed in the supply passage 30 to pressurize the working fluid as a primary and a booster installed in the supply passage 30 and booster to pressurize and supply the working fluid supplied through the compressor to the secondary. It includes.

Therefore, since the working fluid provided at a constant pressure by the operation of the first regulator 72 to the third regulator 76 is pressurized through the secondary while passing through the compressor and the booster, it is pressurized to a constant high pressure and supplied to the test apparatus 10. It becomes possible.

In addition, the replenishment unit 90 of the present embodiment, a replenishment line 92 branched from the supply passage 30 between the compressor and the booster, and a replenishment vessel 94 installed in the replenishment line 92 and storing a working fluid ) And a fourth regulator 96 installed in the replenishment line 92.

Therefore, when the working fluid supplied through the compressor is lost by the pressurized operation of the compressor, the fourth regulator 96 is opened and the working fluid is replenished to the supply flow path 30 from the replenishing container 94, and the fourth regulator. It is possible to prevent the supply pressure inside the supply line from being raised by the working fluid provided at a constant pressure by the operation of 96.

As a result, the working fluid can be supplied at a constant pressure to the pressure test of the gas container in which the working fluid is repeatedly supplied, and a recycling system for the gas container pressure test to circulate the recycled working fluid discharged after the pressure test can be provided. It becomes possible.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. Will understand.

In addition, the gas container pressure test recycling system has been described as an example, but this is merely exemplary, and the recycling system of the present invention may be used in other products other than the gas container pressure test recycling system.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: test apparatus 30: supply flow path
32: constant pressure flow path 34: discharge flow path
50: storage unit 70: constant pressure holding unit
72: first regulator 74: second regulator
76: third regulator 82: the first pressure unit
84: second pressing section 84 90: replenishment section
92: Refill Line 94: Refill Container
96: fourth regulator

Claims (4)

A test apparatus for repeatedly performing a pressure test while supplying or shutting off a set pressure to a gas container;
A supply passage for guiding a working fluid supplied to the test apparatus;
A discharge passage for guiding a working fluid discharged from the test apparatus;
A storage unit installed in the discharge passage and configured to store a working fluid discharged from the pressure test;
A constant pressure holding unit controlling a pressure of the working fluid to provide the working fluid supplied from the storage unit to the test apparatus at a constant supply pressure;
A pressurizing unit for pressurizing and supplying a working fluid supplied through the constant pressure holding unit to a supply pressure required for a pressure test; And
A replenishment unit installed in the supply passage to replenish the supply amount of the working fluid lost by the operation of the pressurizing unit,
The pressing unit,
A compressor installed in the supply passage and supplying pressurized working fluid primarily; And
A booster installed in the supply passage and configured to pressurize and supply the working fluid supplied through the compressor to the second;
The replenishment unit,
A replenishment line branching from the supply passage between the compressor and the booster;
A replenishment vessel installed in the replenishment line and storing a working fluid; And
A fourth regulator installed in the replenishment line,
When the working fluid supplied through the compressor is lost by the pressurizing operation of the compressor, the fourth regulator is opened and the working fluid is replenished to the supply flow path from the replenishing container, and by the operation of the fourth regulator. Recycling system for gas container pressure test, characterized in that it is possible to prevent the supply pressure in the supply line is increased by the working fluid provided at a constant pressure.
The method of claim 1, wherein the constant pressure holding unit,
A constant pressure passage branched from the supply passage and connected in parallel;
A first regulator installed in the supply passage;
A second regulator installed in the supply passage branched in parallel with the constant pressure passage; And
And a third regulator installed in the constant pressure flow path.
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