KR101790006B1 - Water tank type testing device for expand test of gas cylinder - Google Patents

Abstract

The present invention relates to a water tank in which a gas container is accommodated and a working fluid is drained; A cover member which is openably and closably seated on the water tub; An opening / closing unit that opens or closes the water tub while moving the cover member; A sealing part for pressing the cover member toward the water tub to prevent a working fluid from being lost at a gap between the water tub and the cover member; A supply pipe extending from a gas tank containing a gas filled in the gas container and connected to the gas container through the cover member; A gas booster installed in the supply pipe and supplying the gas filled in the gas tank to the gas container; A supply valve installed in the supply pipe; And a measuring unit for measuring a volume change of the gas container by measuring the weight of the working fluid discharged from the water tank.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a water tank expansion test apparatus for gas containers,

The present invention relates to a water tank expansion test apparatus for a gas container, and more particularly, to a water tank expansion test apparatus for a gas container, in which a gas container is accommodated in a water tank filled with a working fluid and an amount of a working fluid discharged from the water tank is measured The present invention relates to a water tank type expansion tester for a gas container which can measure the degree of expansion of a gas container and can prevent a working fluid from being lost from the water tank during the expansion test.

In general, the gas occupies a large volume, and when it is transported or transported, it is stored in a metal container for liquefied gas. In order to liquefy the gas, the gas container is raised at a high pressure to raise the vaporization point. A high pressure resistance is required.

Further, in the case of gas, in particular, hydrogen reacts with a metal to cause hydrogen embrittlement (hydrogen embrittlement means that hydrogen molecules pass through between metal molecules to increase the distance between metal molecules to lower the strength) For example, hydrogen burning cells, hydrogen fuel cells, hydrogen piping) Metal vessels must have low water sorbency for these hydrogen.

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

Therefore, the pressure resistance test of the metal container is very important. The pressure resistance test of a metal container for liquefied gas storage is performed by filling a metal container with a liquid and injecting an injection liquid into the metal container by a pressurizing device to test the degree of pressure to cause deformation of the metal container.

In the conventional test apparatus, there is an apparatus for pressure resistance test of a liquid type metal container in which a metal container is filled with a liquid and the injection liquid is injected by a pressurizing means. However, when a metal container is filled with liquid and pressure resistance test is performed, Can be analyzed and measured. However, it can not be known how much the metal container has gas phase resistance to gas (especially hydrogen).

Therefore, there is an unknown problem as to whether there is a risk that the metal container will be damaged by gas bombardment in actual use.

In addition, in the conventional test apparatus, there is a conventional gas pressure type pressure resistance test apparatus in which a gas is filled in a metal container and an injection liquid or an injection gas is injected into the metal container by a pressurizing means to perform pressure resistance test. In the pressure resistance test, (Especially hydrogen), it is difficult to conduct experiments using gas.

In addition, in the case of a defective metal container, there is a risk of explosion, so it is necessary to limit the amount of gas used in the experiment to within the regulation range, to bring the gas into contact with the inside of the metal container, The pressure vessel is required to be able to be tested while applying pressure to the vessel.

In order to solve the above problems, a metal container pressure-resistance tester has been developed. The test apparatus according to the prior art includes a metal container to be subjected to pressure resistance test, an elastic tube provided inside the metal container, A pressurizing 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 apply pressure to the inside of the metal container by the expansion of the elastic tube; And a pressure gauge.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-1113784 (published on Feb. 27, 2012, titled invention: a device for testing pressure resistance of a metal container and a method for testing pressure resistance of a metal container using the device).

Since the elastic tube is inserted into the metal container to expand the elastic tube and the degree of expansion of the metal container is measured, it is difficult to insert the elastic tube into the metal container, so that the elastic tube is inserted into the metal container There is a problem that it is difficult to reduce the time and cost required for manufacturing an experimental apparatus.

Therefore, there is a need for improvement.

The present invention can measure the degree of expansion of a gas container by storing the gas container in a water tank filled with a working fluid and measuring the amount of the working fluid discharged from the water tank while filling the gas container with gas, Which is capable of preventing the working fluid from being lost from the water tank during the operation of the water tank.

The present invention relates to a water tank in which a gas container is accommodated and a working fluid is drained; A cover member which is openably and closably seated on the water tub; An opening / closing unit that opens or closes the water tub while moving the cover member; A sealing part for pressing the cover member toward the water tub to prevent a working fluid from being lost at a gap between the water tub and the cover member; A supply pipe extending from a gas tank containing a gas filled in the gas container and connected to the gas container through the cover member; A gas booster installed in the supply pipe and supplying the gas filled in the gas tank to the gas container; A supply valve installed in the supply pipe; And a measuring unit for measuring a volume change of the gas container by measuring the weight of the working fluid discharged from the water tank.

Further, the opening and closing part of the present invention may include: a plurality of supports extended from a main body installed to surround the water tank; A support plate connecting a plurality of the supports and spaced apart from the water tank; And a lifting cylinder mounted on the support plate and connected to the rod that is projected and retracted toward the water tub.

Further, the sealing portion of the present invention may include a protruding stand which is provided to be capable of protruding and retracting at one side of the opening of the water tub; A connecting member bent from the protruding and retracting member and extending toward the cover member side; A pressing bar bent from the connecting rod and extending toward the upper surface of the cover member; And a pressurizing cylinder which pressurizes and conveys the cover member to the water tub so as to close the presser bar.

Further, the interference preventing portion of the present invention may further include: a curved groove portion formed in the protruding / An insertion protrusion formed in the operating hole of the water tub to be slidably inserted into the curved groove; And a hinge portion rotatably connecting the protruding and lowering wheel and the pressure cylinder.

The measurement unit of the present invention further comprises: a measurement tank extending from the water tank, the measurement tank containing a working fluid discharged from the water tank when the gas container is overcharged and the gas container is inflated; A discharge pipe connecting the measurement tank and the water tank; And a scale for measuring a change in weight of the measurement tank.

The water tank expansion test apparatus for a gas container according to the present invention comprises a water tank in which a gas container is filled and a working fluid is filled and a measuring unit for measuring the amount of the working fluid discharged from the water tank to determine the degree of expansion of the gas container, The degree of expansion of the gas container can be calculated by accurately detecting the volume change of the container.

Further, a water tank expansion test apparatus for a gas container according to the present invention comprises: an opening / closing part for closing a water tank after the gas container is received in a water tank after the cover is lowered; There is an advantage that the volume of change of the gas container can be measured more precisely by preventing the working fluid from being lost from the water tank during the test because the sealing part for preventing the cover from being opened during the experiment is provided.

Further, the water tank expansion test apparatus for a gas container according to the present invention is provided with the interference preventing section for preventing the cover member and the sealing section from interfering with each other when the cover member is opened and closed, so that after the cover member is closed, It is possible to prevent the working fluid from being lost and to prevent the cover member and the sealing portion from interfering with each other when the cover member is opened or closed to prevent malfunction or breakage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram showing a water tank expansion test apparatus for a gas container according to an embodiment of the present invention; FIG.
2 is a perspective view showing an opening and closing part and a sealing part of a water tank type expansion testing apparatus for a gas container according to an embodiment of the present invention.
3 is an exploded perspective view showing a sealing part and an interference preventing part of a water tank type expansion testing apparatus for a gas container according to an embodiment of the present invention.
4 is an operational state diagram showing a sealing portion and an interference preventing portion of a water tank expansion test apparatus for a gas container according to an embodiment of the present invention.

Hereinafter, an embodiment of a water tank expansion test apparatus for a gas container according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

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

FIG. 1 is a structural view showing a water tank type expansion testing apparatus for a gas container according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a water tank type expansion testing apparatus for a gas container according to an embodiment of the present invention, FIG. 3 is an exploded perspective view illustrating a sealing portion and an interference preventing portion of a water tank type expansion testing apparatus for a gas container according to an embodiment of the present invention, and FIG. 4 is a perspective view of a water tank expansion for a gas container according to an embodiment of the present invention. A sealing portion and an interference preventing portion of the test apparatus are shown in the operating state.

1 to 4, a water tank type swelling tester for a gas container according to an embodiment of the present invention includes a water tank 12 in which a gas container 100 is stored and a working fluid is drained, An opening and closing part 16 for opening or closing the water tub 12 while moving the cover member 14 and a cover member 14 for pressing the cover member 14 toward the water tub 12, (30) for preventing the working fluid from being lost due to the gap between the cover member (14) and the cover member (12), a cover member (14) extending from the gas tank containing the gas filled in the gas container (100) A gas booster 76 installed in the supply pipe 72 and supplying the gas filled in the gas tank to the gas container 100 and a supply pipe 72 connected to the gas pipe 100, A supply valve 72a provided in the gas container 100 for measuring the weight of the working fluid discharged from the water tank 12, And a measuring unit 80 for determining the amount of change.

The worker inserts the gas container 100 as a test object into the water tank 12 and connects the inlet of the gas container 100 to the supply pipe 72 and then drives the opening and closing part 16 to rotate the cover member 14 And the seal member 30 is driven to seal the inside of the water tank 12 while pressing the cover member 14 toward the water tank 12 side.

The operation fluid is injected through the water supply pipe connected to the water tank 12 and the air inside the water tank 12 is taken out through the exhaust pipe connected to the water tank 12 and the air is introduced between the water tank 12 and the gas container 100 To fill the space of the working fluid.

The gas booster 76 is driven to inject the gas contained in the supply tank 70 into the gas container 100 while drawing the air inside the gas container 100 to supply gas to the gas container 100 Fill.

If the gas booster 76 continues to be driven even after the gas filling of the gas container 100 is completed, the pressure in the gas container 100 is increased and the gas container 100 made of a metal material expands. At this time, The working fluid filled in the tank 12 is drained along the discharge pipe 82 and filled in the measurement tank 84.

The volume of the expanded gas container 100 can be calculated by measuring the weight of the working fluid drained along the discharge pipe 82 and calculating the volume of the working fluid discharged from the water tank 12 as described above, It is possible to determine whether the expansion rate of the battery 100 is within the reference value.

The opening and closing part 16 of the present embodiment includes a plurality of support rods 16a extending from the main body 10 installed to surround the water tray 12 and a plurality of support rods 16a connected to the water tray 12, And a lifting cylinder 16c provided on the supporting plate 16b and connected to the rod which is projected and retracted toward the water tub 12 side.

Since the water tank 12 is installed inside the body 10 forming the internal space, when the gas container 100 as the test object is broken during the expansion test, the working fluid may be lost from the water tank 12, At this time, since the working fluid lost in the water tank 12 is dewatered in the main body 10, the present embodiment can prevent a safety accident that the working fluid is discharged to the laboratory floor.

Since the cover member 14 according to the present embodiment can simultaneously seal the opening of the water tub 12 and the opening of the main body 10, even if the gas lost from the gas container 100 is a noxious gas, It is possible to prevent the gas from spreading and to prevent a safety accident caused by gas leakage.

At the end of the rod 16d that is projected and withdrawn from the lifting cylinder 16c, a mounting portion 17 having a passage 17b for receiving the gas container 100 and supplying a working fluid to the inside of the gas container 100 And the mounting portion 17 includes a main body block 17a integrally formed with a nut member 17d engaged with the rod 16d and a base portion 17b extending from the peripheral surface of the main body block 17a to the lower end thereof, And a flow path 17b for supplying the fluid.

The upper end of the body block 17a is coupled to the rod 16d and the lower end of the body block 17a is coupled with the body block 17a Is connected to the injection port of the gas container 100 so that the flow path 17b formed on the circumferential surface of the body block 17a is connected to the inside of the gas container 100 to supply the working fluid.

The sealing portion 30 includes a protruding and retracting bar 32 provided at one side of the opening of the water tray 12 so as to be capable of protruding and retracting, a connecting block 34 bent from the protruding and retracting bar 32 to extend toward the cover member 14, A presser bar 36 which is bent from the presser foot 34 and extends to the upper surface side of the cover member 14 and a presser bar 36 which presses the protrusion 32 to pressurize and seal the cover member 14 toward the water tub 12 side And a pressurizing cylinder 38 for elevating and lowering.

A plurality of operating hole portions 38a are formed in the rim of the opening of the water tank 12 and a pressing cylinder 38 is provided in each of the operating hole portions 38a. And is installed to be inserted into the operation hole portion 38a.

The projecting platform 32 is extended upward from the operation hole 38a so as to be projected from the operation hole 38a and the connecting platform 34 is bent and extended laterally from the upper end of the projecting platform 32, Is bent in a downward direction from the outer end of the linkage (34), so that it is bent into a 'C' shape.

Therefore, when the rod protrudes from the pressurizing cylinder 38, the protruding / retracting stand 32, the connecting rod 34, and the pressurizing stand 36 are moved upward to release the pressurizing stand 36 from the cover member 14, 38, the pushing platform 36 presses the cover member 14 toward the water tub 12 while the projecting platform 32, the connecting platform 34, and the press platform 36 are lowered, do.

The connecting rod 34 extends from the upper end of the protruding stage 32 to the center side of the cover member 14 so that the pressing rod 36 is disposed to face the upper surface of the cover member 14, The elastic member 36a is pressed against the cover member 14 when the pressing member 36 presses the cover member 14 so that the elastic member 36a is pressed against the upper surface of the cover member 14, (12) and the opening of the main body (10).

When the cover member 14 is raised by the operation of the opening and closing unit 16, the pressing member 36 disposed to face the upper surface of the cover member 14 and the cover member 14 raised by the connecting member 34 are interfered In the present embodiment, when the rod protrudes from the pressurizing cylinder 38, the protrusion 32 is rotated in the outer direction of the cover member 14 by the operation of the interference preventing portion 50, 14 can be prevented from interfering with the connecting rod 34 and the pressing rod 36 when they are opened.

The interference preventing portion 50 includes a curved groove portion 52 formed in the protruding and retracting bar 32 and an insertion protrusion (not shown) formed in the operating hole portion 38a of the water tub 12 so as to be slidably inserted into the curved groove portion 52 54 and a hinge portion 56 for rotatably connecting the protruding stage 32 and the pressurizing cylinder 38.

The curved groove portion 52 formed on the outer wall of the protruding platform 32 is formed to be long in the longitudinal direction of the protruding stage 32 and formed in a curved shape that is laterally twisted, The protrusion 54 is connected to the operation hole 38a so that the protrusion 54 is inserted into the curved groove 52. Therefore, when the protrusion 32 is lifted by the operation of the pressure cylinder 38, Slides along the curved groove portion 52 and rotates the appearance-attracting platform 32.

The protrusions 32 are rotated in the normal direction by the insertion protrusions 54 sliding along the curved groove portions 52 when the protrusions 32 are lifted, The cover member 14 is prevented from interfering with the connecting member 34 and the pressing member 36 when the cover member 14 is lifted.

When the rod is inserted into the pressurizing cylinder 38 and the impeller 32 is lowered, the insertion protrusion 54 slides in the opposite direction along the curved groove 52, and the protruding platform 32 rotates in the reverse direction, The lower end of the presser bar 36 presses the cover member 14 toward the water tub 12 side while the pressing member 34 and the presser bar 36 are disposed opposite to the upper surface of the cover member 14 and lowered.

Since the elastic member 36a is provided at the lower end of the pressing member 36, the elastic member 36a is pressed between the pressing member 36 and the cover member 14 to compress the cover member 14 more effectively .

The protruding and retracting barrel 32 is rotatably installed at the rod end of the pressure cylinder 38 by a hinge portion 56. The hinge portion 56 includes a rod extending downward from the lower end of the appearance- And a rotation groove 56b formed at the rod end of the pressure cylinder 38 so that the protrusion panel 56a is rotatably connected to the protrusion panel 56a.

The rotary groove portion 56b is integrally formed with a short cylindrical shape at the rod end portion of the pressure cylinder 38. A rod extending from the lower end of the appearance- A through hole portion 56d to be inserted is formed in the through hole 56d and a space portion in which the protruding panel 56a is rotatably accommodated is formed inside the through hole portion 56d and one side of the space portion is cut out to insert the protruding panel 56a and the rod Thereby forming the engaging groove portion 56c.

The measuring unit 80 is a measuring tank 84 that extends from the water tank 12 and contains a working fluid discharged from the water tank 12 when the gas container 100 is overcharged with gas and the gas container 100 expands, A discharge pipe 82 for connecting the measurement tank 84 and the water tank 12 and a scale 86 for measuring a change in weight of the measurement tank 84.

When the gas container 100 is inflated and the working fluid is drained from the water tank 12 into the measurement tank 84 along the discharge pipe 82, the measurement tank 84 is moved to the measurement tank 84 by the balance 86 on which the measurement tank 84 is seated. And the volume of the working fluid discharged from the water tank 12 by the control unit can be calculated according to the weight signal transmitted from the scale 86. [

The amount of increase in the volume of the gas container 100 can be calculated by the operation as described above and the amount of the gas supplied to the inside of the gas container 100 through the amount of gas supplied into the gas container 100, It is possible to judge whether the expansion rate is included in the reference range.

The cover member 14 of the present embodiment is provided with the emergency discharge portion 15 so that when the pressure inside the water tank 12 rises above the set value, a part of the cover member 14 is opened, Is prevented from rising more than necessary.

The emergency discharge portion 15 includes a discharge hole portion 15a provided in the cover member 14, a flange member 15b which is press-fitted into the discharge hole portion 15a and is engaged by the fastening member, And a second glass plate 15d provided below the flange member 15b.

Therefore, if the pressure inside the water tank 12 rises above a predetermined value, the second glass plate 15d is damaged first, and if the pressure inside the water tank 12 is continuously increased, the first glass plate 15d is damaged secondarily, Is discharged through the flange member 15b to be lowered.

In this embodiment, as described above, a plurality of glass plates made up of the first glass plate 15c and the second glass plate 15d are installed with a space therebetween to break the second glass plate 15d, and then the first glass plate 15c, It is possible to reduce the damage of the glass plate due to the time difference between the breakage of the glass plate and the breakage of the glass plate.

Reference numerals 74 and 74a denote a recovery pipe 74 branched from the supply pipe 70 and connected to the supply tank 70 and a recovery valve 74a installed in the recovery pipe 74. Numeral 78, And a buffer tank 78 installed in the supply pipe 72.

This makes it possible to measure the degree of expansion of the gas container by storing the gas container in the water tank filled with the working fluid and measuring the amount of the working fluid discharged from the water tank while filling the gas container with the gas. It is possible to provide a water tank expansion test apparatus for a gas container which can prevent the working fluid from being lost from the water tank.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Further, although a water tank expansion test apparatus for a gas container has been described as an example, this is merely an example, and the test apparatus of the present invention can be used in products other than the water tank expansion test apparatus for gas containers.

Accordingly, the true scope of the present invention should be determined by the following claims.

10: main body 12: aquarium
14: cover member 16: opening /
16a: Support plate 16b: Support plate
16c: lifting cylinder 30: sealing part
32: Uprising 34: Connections
36: pressing member 36a: elastic member
38: pressure cylinder 38a:
50: interference prevention part 52:
54: insertion projection 56: hinge portion
56a: projecting panel 56b: rotation groove
56c: engagement groove portion 56d: through hole portion
70: supply tank 72: supply pipe
72a: supply valve 74: return pipe
74a: Recovery valve 76: Gas booster
78: buffer tank 80: measuring unit
82: discharge pipe 84: measuring tank
86: Balance

Claims (5)

A water tank in which the gas container is housed and the working fluid is drained;
A cover member which is openably and closably seated on the water tub;
An opening / closing unit that opens or closes the water tub while moving the cover member;
A sealing part for pressing the cover member toward the water tub to prevent a working fluid from being lost at a gap between the water tub and the cover member;
A supply pipe extending from a gas tank containing a gas filled in the gas container and connected to the gas container through the cover member;
A gas booster installed in the supply pipe and supplying the gas filled in the gas tank to the gas container;
A supply valve installed in the supply pipe; And
And a measuring unit for measuring the weight of the working fluid discharged from the water tank to determine a volume change amount of the gas container,
The opening /
A plurality of supports extended from a main body installed to surround the water tank;
A support plate connecting a plurality of the supports and spaced apart from the water tank; And
And a lifting cylinder provided on the support plate and connected to the rod that is projected and retracted toward the water tub,
The sealing portion
An upholstery which is installed on one side of the opening of the water tank so as to be able to protrude and retract;
A connecting member bent from the protruding and retracting member and extending toward the cover member side;
A pressing bar bent from the connecting rod and extending toward the upper surface of the cover member; And
And a pressurizing cylinder for raising and lowering said protruding and lowering stand so as to press said cover member toward said water tub,
Further comprising an interference preventing portion for rotating the protruding / collapsing portion in an outward direction of the cover member when the rod protrudes from the pressurizing cylinder so as to prevent interference with the connecting rod and the pressing rod when the cover member is opened,
Wherein the interference-
A curved groove portion formed in the protruding /
An insertion protrusion formed in the operating hole of the water tub to be slidably inserted into the curved groove; And
And a hinge portion rotatably connecting the protruding and lowering wheel and the pressure cylinder,
Wherein a rod-shaped mounting portion is provided at an end of the rod that is projected and withdrawn from the lifting cylinder, and has a flow passage for feeding the working fluid into the gas container,
Wherein the mounting unit includes a body block integrally formed with a nut member coupled to the rod; And
And a flow path extending from a peripheral surface of the body block to a lower end thereof to supply a working fluid,
Wherein the cover member is provided with an emergency discharge portion for preventing a part of the cover member from being opened when the pressure inside the water tank rises above a predetermined value,
Wherein the emergency discharger comprises:
A discharge hole portion provided in the cover member;
A flange member that is press-fitted into the discharge hole portion and is engaged by the fastening member;
A first glass plate provided on an upper portion of the flange member; And
And a second glass plate provided on a lower portion of the flange member.
delete delete delete The apparatus according to claim 1,
A measurement tank extending from the water tank and containing a working fluid discharged from the water tank when the gas container is overcharged by the gas container;
A discharge pipe connecting the measurement tank and the water tank; And
And a balance for measuring a change in weight of the measurement tank.

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