KR20130012335A - Cover for high pressure gas cylinder - Google Patents

Abstract

PURPOSE: A cover for a high pressure gas container is provided to maximize the absorption and emission efficiency of heat generated when high pressure gas is charged in a high pressure gas container, by absorbing the heat with a phase change material contained in the cover and quickly emitting the heat to the outside. CONSTITUTION: A cover(100) for a high pressure gas container(500) comprises a thermal grease(200) and fixing members(300). The cover is attached to the surface of the high pressure gas container. The cover is a solid phase at a room temperature and is phase-changed to liquid at a specific temperature. A phase change material(600) which absorbs or emits heat generated from the high pressure gas container is embedded and is made of a thermal conductive material. The thermal grease forms a layer between the high pressure gas container and the cover in order to emit the heat to the outside through the cover. The fixing members are mounted along the longitudinal direction of the high pressure gas container in order to fix the cover to the high pressure gas container.

Description

COVER FOR HIGH PRESSURE GAS CYLINDER}

The present invention relates to a cover of a high-pressure gas container, and more particularly, by absorbing or releasing heat generated by the high-pressure gas filled in the high-pressure gas container by using a cover containing a phase change material causing a phase change at a specific temperature The present invention relates to a cover of a high pressure gas container so as to maintain a constant temperature inside the high pressure gas container.

The high pressure gas container is for storing gas used in general industrial, automotive fuel, or hydrogen fuel storage in gaseous state. Generally, the space is limited due to the characteristics of a gas having a very low density and a very small volume modulus compared to a liquid. In order to store a large amount of gas in the air, it must be compressed at a high pressure, and a pressure design must be thoroughly made to prevent a large accident due to leakage and rupture.

Therefore, the high-pressure gas container has a specific operating temperature range, operating pressure, and maximum charging force according to the intended use.

The international standard for high-pressure gas containers specifies the operating temperature range of high-pressure gas containers from -40 degrees Celsius to 82 degrees Celsius, and the temperature range of gases stored in high-pressure gas containers is from -40 degrees Celsius to 65 degrees Celsius. It is prescribed not to exceed.

These temperature conditions are intended to be available in any region of the world where the climate is different, such as the polar region and the equatorial region, and to prevent material damage due to the rapid temperature change of the gas during the gas injection and extraction into the container.

Along with this, the working pressure for the high pressure gas container is also determined.

In general, the working pressure is determined in the design process according to the purpose of use of the container or the strength of the container, and the international standard requires that the working pressure be marked on the container.

For example, a compressed natural gas container for automobiles has a working pressure of 200 atm based on 15 degrees Celsius.

Gasoline or diesel used as automotive fuel is generally liquid, so the injection time is only a few tens of seconds, but compressed natural gas for automobiles can take several tens of minutes.

Therefore, although the filling station adopts a method of rapidly cooling the gas, the temperature of the gas rapidly increases as the filling is performed faster.

Accordingly, as the temperature rises, the internal pressure of the high-pressure gas container also increases, and international standards stipulate that the maximum charging force does not exceed 260 atmospheres regardless of the charging conditions or temperature. It can make the container's performance insufficient and limit its use.

In particular, if the temperature of the gas exceeds 82 degrees Celsius during the fast filling process, the charger may stop automatically or damage the material of the container, thereby reducing the strength of the high pressure gas container. You must accept the inconvenience of not charging.

In addition, when the refrigerant is stored in a liquid state, such as a refrigerant gas container, and used in a gaseous state, when the atmospheric temperature is low, such as a cold, the internal pressure may be low, resulting in inconvenience.

However, the current high-pressure gas container, there is no cooling and constant temperature function of the container itself.

In some cases, cooling and heating systems may be manufactured and attached to the container, but in this case, additional power consumption and volume and weight increase may occur, and failure of the cooling and heating device may be a major cause of pressure increase in the container. This can cause serious accidents.

Patent Registration No. 10-0589450 (2006.06.07) Patent Registration No. 10-0592634 (2006.06.15) Patent Registration No. 10-0658116 (2006.12.08) Patent Application No. 10-2007-0083631 (2007.08.20)

The present invention has been invented to improve the above problems, by using a cover containing a phase change material causing a phase change at a specific temperature to absorb or release the heat generated by the high-pressure gas filled in the high-pressure gas container high pressure It is to provide a cover of the high-pressure gas container to maintain a constant temperature inside the gas container.

In order to achieve the above object, the present invention forms an inner surface of a shape corresponding to the surface of the high-pressure gas container and is divided into a plurality and attached to the surface of the high-pressure gas container and solid at room temperature and phase change at a specific temperature to a liquid. A cover made of a thermally conductive material and containing a phase change material that changes and absorbs or releases heat generated from the high pressure gas container, and between the high pressure gas container and the cover so that heat generated from the high pressure gas container is released to the outside through the cover. The cover of the high pressure gas container can be provided, including the thermal grease which forms a layer, and the fastener which is attached to a some place along the longitudinal direction of the high pressure gas container, and fixes the cover to the high pressure gas container.

Here, the cover preferably includes a fixed part fixed to the outer surface of the high-pressure gas container, and a plurality of containment parts in which an inner space in which the phase change material is embedded is formed on the upper surface of the fixed part along the outer surface of the high-pressure gas container.

At this time, the cover is further provided with a composite material layer in close contact with the outer surface of the high-pressure gas container, the thermal grease is provided on the composite material layer is in close contact with the cover.

In addition, it is preferable that the cover is made of a thermally conductive plastic, a metal, or a composite material of a plastic and a metal, or made of a combination of at least one or more of the aforementioned groups.

In addition, the composite material layer is preferably applied to any one of thermally conductive plastics, metals, or composite materials of plastics and metals, or made of a combination of at least one or more of the aforementioned groups.

On the other hand, the cover has a first cover member is attached along the middle outer peripheral surface of the high-pressure gas container corresponding to the outer surface shape of the high-pressure gas container has a curved both ends, the inlet and the outlet is provided at both ends and a connection tube formed at the inlet and outlet, respectively; And a second cover member coupled to both ends of the first cover member so as to surround both ends of the high pressure gas container and the connecting pipe, wherein the phase change material is accommodated on the outer surfaces of the first and second cover members, and the fastener is provided with the first cover member. An embodiment of a structure in which the cover member and the second cover member are respectively mounted to the portion of the connecting tube and the portion surrounding the connecting tube of the second cover member to fix the cover by applying an action force in a direction orthogonal to the outer surface of the high pressure gas container. Applicable

The cover may include a first fixing groove formed at a portion at which both end edges of the first cover member and an end of each of the second cover members are connected, and a second fixing groove formed at a portion surrounding the connection pipe of the second cover member. It further includes, the fixture is to be mounted on the first fixing groove and the second fixing groove, respectively.

In this case, the first fixing groove more particularly includes a first piece extending stepwise from both edges of the first cover member, and a second piece extending stepwise from the end edge of the second cover member. An embodiment in which the edge and the edge of the second piece are interconnected to form the first fixing groove may be applied.

In addition, the first fixing groove may further include a first piece extending stepwise from both edges of the first cover member, a second piece extending stepwise from the end edge of the second cover member, and an edge of the first piece. Accordingly, the first step is formed to be stepped toward the first cover member side and faces the outer surface of the high pressure gas container, and the second step is formed to be stepped toward the second cover member side along the edge of the second piece and is opposed to the first step. It may be applied to the embodiment including a stepped, the first step and the second step is bonded to each other to form the first fixing groove as a whole first and second pieces.

On the other hand, the cover is the outer surface of the second cover member surrounding both ends of the high-pressure gas container, and a plurality of containment portion protruding from the outer surface of the first cover member and the inner space in which the phase change material is embedded along the outer surface of the high-pressure gas container It is preferable to further provide.

Here, the storage portion is formed in parallel along the outer surface of the high-pressure gas container in parallel with the imaginary straight line interconnecting both ends of the high-pressure gas container, or the high-pressure gas container orthogonal to the imaginary straight line interconnecting both ends of the high-pressure gas container Embodiments such as to be formed parallel to the outer surface of the can be applied.

At this time, the storage unit may be applied to the embodiment of the structure divided into a block shape by the notch groove cut toward the outer surface of the high-pressure gas container at equal intervals along each forming direction.

According to the present invention having the above configuration, the heat generated when the high pressure gas is filled into the container may be absorbed by the phase change material contained in the cover from the high pressure gas container and quickly released to the outside, as described above. According to the structure of the containment will be able to maximize the absorption and release efficiency of heat.

1 is a cross-sectional conceptual view showing a state in which a cover of a high pressure gas container according to an embodiment of the present invention is mounted on a high pressure gas container;
2 and 3 is a conceptual diagram showing a fastening state of the cover and the fixture which is the main part of the cover of the high-pressure gas container according to various embodiments of the present invention
4 and 5 is a plan conceptual view showing the structure of the containment portion provided on the cover surface of the main portion of the cover of the high-pressure gas container according to various embodiments of the present invention as viewed from the point B of FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a cross-sectional conceptual view showing a state in which a cover of a high pressure gas container according to an embodiment of the present invention is mounted on a high pressure gas container.

According to the present invention, a cover 100 having a phase change material 600 embedded therein is mounted on a surface of the high pressure gas container 500 to release heat, between the cover 100 and the high pressure gas container 500. Thermal grease 200 forms a layer, the cover 100 can be seen that the structure fixed to the high-pressure gas container 500 as a fixture 300.

The cover 100 forms an inner surface corresponding to the surface of the high pressure gas container 500 and is divided into a plurality and attached to the surface of the high pressure gas container 500. The cover 100 is solid at room temperature and phase changes at a specific temperature to a liquid. A phase change material 600 that changes and absorbs or releases heat generated from the high-pressure gas container 500 is embedded and made of a thermally conductive material.

The thermal grease 200 forms a layer between the high pressure gas container 500 and the cover 100 so that heat generated from the high pressure gas container 500 is discharged to the outside through the cover 100.

Fixture 300 is installed in a plurality of places along the longitudinal direction of the high-pressure gas container 500 serves to fix the cover 100 to the high-pressure gas container (500).

The present invention can be applied to the above embodiments, and of course, the following various embodiments can be applied.

As described above, the cover 100 absorbs and releases heat generated from the high pressure gas container 500 to the outside, and the fixing part 102 fixed to the outer surface of the high pressure gas container 500 and a phase change material. Embodiments of a structure in which the internal space in which the 600 is built may include a plurality of storage parts 101 formed on the upper surface of the fixing part 102 along the outer surface of the high pressure gas container 500 may be applied.

To this end, the cover 100 may be formed of an elastic and flexible material so as to form the containment portion 101 as shown, while maintaining a close contact with the outer surface of the high-pressure gas container 500 including the curved portion. will be.

For reference, the fixing part 102 is a concept for collectively referring to a part fixed to the outer surface of the high pressure gas container 500 in each of the first and second cover members 110 and 120 which will be described later. The storage unit 101 is a part protruding from the surface of the fixing unit 102, that is, the surface of the first and second cover members 110 and 120.

Here, the cover 100 is further provided with a composite material layer 400 in close contact with the outer surface of the high-pressure gas container 500, the thermal grease 200 is provided on the composite material layer 400 and the cover 100 and It is a close contact.

In this case, the cover 100 is preferably applied to any one of the thermally conductive plastic, metal, or a composite material of the plastic and metal, or made of a combination of at least one or more of the above-described group.

In addition, the composite material layer 400 is preferably applied to any one of a thermally conductive plastic, a metal, or a composite material of a plastic and a metal, or a combination of at least one or more of the above-described group.

On the other hand, the cover 100 may be separated into a plurality of pieces to be easily attached to the surface of the high-pressure gas container 500, as described above, specifically, the second end of the first cover member 110 It can be seen that the cover member 120 is attached to surround the surface of the high-pressure gas container 500.

The first cover member 110 is curved in both ends, the inlet 501 and the outlet 502 is provided at both ends, the inlet 501 and the outlet 502, respectively, the high-pressure gas container 500 is formed with a connection pipe 510 Corresponding to the outer surface shape of the) is attached along the middle outer peripheral surface of the high-pressure gas container (500).

The second cover member 120 is coupled to both ends of the first cover member 110 so as to surround both ends of the high pressure gas container 500 and the connection pipe 510.

Here, the fastener 300 is mounted on a portion where the first cover member 110 and the second cover member 120 are interconnected and the portion surrounding the connection pipe 510 of the second cover member 120, respectively, and the high pressure gas. The cover 100 may be fixed by applying an action force in a direction orthogonal to the outer surface of the container 500.

At this time, the fastener 300 is elastic and is separated into an elastic band or arc shape can be applied to a variety of things, such as coupling coupling each end with a bolt and nut.

In addition, it can be seen that the cover 100 has a structure in which the fixture 300 is mounted in the first fixing groove 130 and the second fixing groove 140.

The first fixing groove 130 is formed at a portion where both end edges of the first cover member 110 and each end of the second cover member 120 are connected, and the second fixing groove 140 is the second cover member. It will be formed in the area surrounding the connector 120.

The first fixing groove 130 will be described in more detail with reference to FIGS. 2 and 3 as follows.

First, the first fixing groove 130 is stepped from an end edge of the first piece 132 and the second cover member 120 extending stepwise from both edges of the first cover member 110, as shown in FIG. It can be seen that the structure including the second piece 134 extending.

Here, the edge of the first piece 132 and the edge of the second piece 134 are interconnected to form the first fixing groove 130.

In addition, the first fixing groove 130 is stepped from an end edge of the first piece 132 and the second cover member 120 extending stepwise from both edges of the first cover member 110 as shown in FIG. The extending second piece 134 is coupled to each other to form a first fixing groove 130, specifically, it can be seen that the first step 133 and the second step 135 by mutual coupling.

That is, the first step 133 is formed to be stepped toward the first cover member 110 side along the edge of the first piece 132, and faces the outer surface of the high pressure gas container 500, and the second step 135. ) Is formed stepwise toward the second cover member 120 side along the edge of the second piece 134 and faces the first step 133.

Accordingly, the first and second stepped portions 133 and 135 are bonded to each other so that the first and second pieces 132 and 134 form the first fixing groove 130 as a whole.

On the other hand, the cover 100 is projected from the outer surface of the second cover member 120 and the outer surface of the first cover member 110 surrounding both ends of the high-pressure gas container 500, the interior of the phase change material 600 is embedded As described above, the space further includes a plurality of storage portions 101 formed along the outer surface of the high-pressure gas container 500.

First, the storage unit 101 is applied to the embodiment of the structure formed in parallel along the outer surface of the high-pressure gas container 500 orthogonal to the imaginary straight line interconnecting both ends of the high-pressure gas container 500 as shown in FIG. can do.

And, the storage unit 101 is applied to the embodiment of the structure formed in parallel along the outer surface of the high-pressure gas container 500 orthogonal to the imaginary straight line interconnecting both ends of the high-pressure gas container 500 as shown in FIG. You may.

In addition, the containment portion 101 is formed by the notch groove 101 ′ cut toward the outer surface of the high-pressure gas container 500 at equal intervals along each forming direction as shown in FIGS. 4B and 5B. By partitioning into a block shape, the heat transfer area may be further increased to improve the absorption or release effect of heat, as well as the additional cutout groove 101 'to form the fixing part 102 of the high pressure gas container 500. It is to be fixed to the outer surface.

As described above, the present invention absorbs or releases heat generated by the high-pressure gas filled in the high-pressure gas container by using a cover containing a phase change material causing a phase change at a specific temperature to maintain a constant temperature inside the high-pressure gas container. It can be seen that it is a basic technical idea to provide a cover of the high-pressure gas container to enable.

It will be apparent to those skilled in the art that many other modifications and applications are possible within the scope of the basic technical idea of the present invention.

100 ... cover 200 ... thermal grease
300 Fixture 400 Composite Layer
500 High pressure gas container 600 Phase change material

Claims (15)

Form an inner surface of the shape corresponding to the surface of the high-pressure gas container is divided into a plurality and attached to the surface of the high-pressure gas container, the solid state at room temperature, the phase change at a specific temperature changes to a liquid, the heat generated from the high-pressure gas container A cover made of a thermally conductive material having a phase change material absorbing or releasing therefrom;
A thermal grease forming a layer between the high pressure gas container and the cover to discharge heat generated from the high pressure gas container to the outside through the cover; And
A cover of the high-pressure gas container comprising a; fastener for mounting the cover to the high-pressure gas container in a plurality of places along the longitudinal direction of the high-pressure gas container.
The method according to claim 1,
The cover
A fixed part fixed to an outer surface of the high pressure gas container;
The cover of the high-pressure gas container, characterized in that the inner space in which the phase change material is embedded comprises a plurality of containment portion formed on the upper surface of the fixing portion along the outer surface of the high-pressure gas container.
The method according to claim 1,
The cover
The composite material layer is further provided in close contact with the outer surface of the high-pressure gas container,
The thermal grease is provided on the composite material layer is in close contact with the cover of the high-pressure gas container.
The method according to claim 1,
The cover
The cover of the high-pressure gas container, characterized in that any one of thermally conductive plastic, metal, or a composite material of plastic and metal.
The method according to claim 1,
The cover
A cover of a high pressure gas container, characterized in that it is made of at least one or more of a thermally conductive plastic, a metal, or a composite material of a plastic and a metal.
The method according to claim 3,
The composite material layer,
The cover of the high-pressure gas container, characterized in that any one of thermally conductive plastic, metal, or a composite material of plastic and metal.
The method according to claim 3,
The composite material layer,
A cover of a high pressure gas container, characterized in that it is made of at least one or more of a thermally conductive plastic, a metal, or a composite material of a plastic and a metal.
The method according to claim 1,
The cover
A first cover member having a curved surface and having an inlet and an outlet at both ends thereof, the first cover member being attached along an intermediate outer circumferential surface of the high pressure gas container to correspond to the outer surface shape of the high pressure gas container having a connection pipe formed at each of the inlet and the outlet; ,
A second cover member coupled to both ends of the first cover member to surround both ends of the high pressure gas container and the connection pipe,
The phase change material is accommodated on the outer surface of the first and second cover members,
The fasteners are respectively mounted to portions of the first cover member and the second cover member connected to each other and to portions surrounding the connecting tube of the second cover member so as to act in a direction perpendicular to an outer surface of the high pressure gas container. The cover of the high-pressure gas container, characterized in that for fixing the cover.
The method according to claim 8,
The cover
First fixing grooves formed at a portion where both end edges of the first cover member and ends of each of the second cover members are connected;
Further comprising a second fixing groove formed in a portion surrounding the connecting pipe of the second cover member,
The fixture is a cover of the high-pressure gas container, characterized in that mounted to the first fixing groove and the second fixing groove, respectively.
The method according to claim 9,
The first fixing groove,
A first piece extending stepwise from both edges of the first cover member;
A second piece extending stepwise from an end edge of the second cover member,
The cover of the high-pressure gas container, characterized in that the edge of the first piece and the edge of the second piece are interconnected to form the first fixing groove.
The method according to claim 9,
The first fixing groove,
A first piece extending stepwise from both edges of the first cover member;
A second piece extending stepwise from an end edge of the second cover member,
A first stepped stepped toward the first cover member side along the edge of the first piece and opposed to an outer surface of the high pressure gas container;
A second stepped stepped toward the second cover member side along the edge of the second piece and opposed to the first stepped step,
The cover of the high-pressure gas container, characterized in that the first step and the second step are bonded to each other to form the first fixing groove as a whole.
The method according to claim 8,
The cover
The outer surface of the second cover member surrounding both ends of the high-pressure gas container, and a plurality of gaps are formed along the outer surface of the high-pressure gas container is formed in the inner space protruding from the outer surface of the first cover member is embedded with the phase change material The cover of the high-pressure gas container, further comprising a payment.
The method of claim 12,
The containment portion of the cover of the high-pressure gas container, characterized in that formed in parallel along the outer surface of the high-pressure gas container in parallel with a virtual straight line interconnecting both ends of the high-pressure gas container.
The method of claim 12,
The containment portion of the cover of the high-pressure gas container, characterized in that formed in parallel along the outer surface of the high-pressure gas container orthogonal to the virtual straight line interconnecting both ends of the high-pressure gas container.
The method according to claim 13 or 14,
The containment portion of the cover of the high-pressure gas container, characterized in that partitioned by a notched groove cut toward the outer surface of the high-pressure gas container at equal intervals along each forming direction.

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