CN114909602A

CN114909602A - Low-temperature liquefied gas storage device

Info

Publication number: CN114909602A
Application number: CN202210678345.7A
Authority: CN
Inventors: 王朝; 邱芳; 任改红; 陈甲楠; 金碧辉
Original assignee: Jiangsu Guofu Hydrogen Energy Technology Equipment Co Ltd; Zhangjiagang Hydrogen Cloud New Energy Research Institute Co Ltd
Current assignee: Jiangsu Guofu Hydrogen Energy Technology Equipment Co Ltd; Zhangjiagang Hydrogen Cloud New Energy Research Institute Co Ltd
Priority date: 2022-06-16
Filing date: 2022-06-16
Publication date: 2022-08-16

Abstract

The invention discloses a low-temperature liquefied gas storage device, which comprises an inner container consisting of an inner container cylinder and two inner container end sockets and used for containing low-temperature liquefied gas, and an outer container consisting of an outer container cylinder and two outer container end sockets and used for protecting the inner container, wherein the inner container is suspended and supported inside the outer container through a support assembly, the axis of the inner container is superposed with the axis of the outer container, a vacuum interlayer used for filling insulating materials is formed between the inner container and the outer container, and the support assembly structurally comprises: the outer walls of two inner container end sockets of the inner container are respectively fixed with a heat insulation gasket, the inner walls of two axial ends of an outer container cylinder of the outer container are respectively fixed with a plurality of reinforcing rings along the circumferential direction, and each reinforcing ring is connected with the heat insulation gasket on the corresponding side through a V-shaped metal folded plate so that the inner container is suspended and supported in the outer container. The invention has the advantages of simple structure and good heat preservation performance.

Description

Low-temperature liquefied gas storage device

Technical Field

The invention relates to the technical field of low-temperature liquefied gas storage equipment, in particular to a low-temperature liquefied gas storage device.

Background

A low-temperature liquefied gas storage container is a device for storing a low-temperature liquefied gas such as liquid hydrogen, and generally includes an outer container and an inner container provided therein and suspended and supported by the outer container. The low-temperature liquefied gas storage container needs to meet the following two requirements as far as possible during production: (1) the heat transfer between the cold inner wall of the inner vessel and the outer vessel at atmospheric temperature by heat conduction should be as small as possible; (2) the inner and outer vessels should be firmly secured together so that they do not develop high stresses during transport. In order to meet the production requirements, the inner container is generally suspended and supported in the outer container by connecting structures such as ropes, connecting rods, hinges and sliding rails, but the low-temperature liquefied gas storage container manufactured by the connecting structures has the following disadvantages: the structure is complicated, and it is loaded down with trivial details to make and install, and weight is heavy, and the heat transfer capacity between outer container and the inner container is higher, and the heat insulating ability is relatively poor, and the cost is relatively high moreover, and enterprise's production use cost is high.

Disclosure of Invention

The invention aims to provide a low-temperature liquefied gas storage device which is simple in structure and good in heat preservation performance.

In order to achieve the purpose, the invention adopts the following technical scheme: a low-temperature liquefied gas storage device comprises an inner container composed of an inner container cylinder and two inner container sealing heads and used for containing low-temperature liquefied gas, and an outer container composed of an outer container cylinder and two outer container sealing heads and used for protecting the inner container, wherein the inner container is suspended and supported inside an outer container through a support assembly, the axis of the inner container and the axis of the outer container are coincident with each other, a vacuum interlayer used for filling insulating materials is formed between the inner container and the outer container, and the support assembly structurally comprises: the outer walls of the two inner container end sockets of the inner container are respectively fixed with a heat insulation gasket, the inner walls of the two axial ends of the outer container cylinder of the outer container are respectively fixed with a plurality of reinforcing rings along the circumferential direction, and each reinforcing ring is connected with the heat insulation gasket on the corresponding side through a V-shaped metal folded plate so that the inner container is suspended and supported inside the outer container.

Further, the cryogenic liquefied gas storage device comprises: the V-shaped metal folded plate is connected with the corresponding reinforcing ring and the corresponding heat insulation gasket in a specific connection structure that: two end parts on the opening side of the V-shaped metal folded plate are welded and fixed with the heat insulation gasket on the corresponding side at the same time, the welding points of the two end parts on the opening side of the V-shaped metal folded plate on the heat insulation gasket are not overlapped, and the bent end parts of the V-shaped metal folded plate are hung on the reinforcing ring.

Further, the cryogenic liquefied gas storage device described above, wherein: the V-shaped metal folded plate is composed of two metal connecting strips which are integrally connected into a V shape, and an included angle formed by the two metal connecting strips is an acute angle.

Further, the cryogenic liquefied gas storage device described above, wherein: the heat insulation gasket is of a box body structure with a hollow interior.

Further, the cryogenic liquefied gas storage device described above, wherein: the V-shaped metal folded plate is made of chrome-nickel steel.

Through the implementation of the technical scheme, the invention has the beneficial effects that: the heat-insulating container has the advantages of simple structure, simple and convenient manufacture and installation, light weight, high mechanical strength, lower heat transfer quantity between the outer container and the inner container, better heat insulation property, relatively low manufacturing cost and low production and use cost of enterprises.

Drawings

Fig. 1 is a schematic structural view of a cryogenic liquefied gas storage device according to the present invention with part of an outer container closure removed.

Fig. 2 is a schematic structural view of the section a-a shown in fig. 1.

Fig. 3 is an enlarged schematic view of a portion H shown in fig. 2.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments.

As shown in fig. 1, 2 and 3, the cryogenic liquefied gas storage device comprises an inner container composed of an inner container cylinder 11 and two inner container end sockets 12 for containing cryogenic liquefied gas, and an outer container composed of an outer container cylinder 21 and two outer container end sockets 22 for protecting the inner container, wherein the inner container is suspended and supported inside the outer container through a support assembly, the axis of the inner container and the axis of the outer container are coincident with each other, a vacuum interlayer 3 for filling insulating material is formed between the inner container and the outer container, and the support assembly comprises: a heat insulation gasket 4 is respectively fixed on the outer walls of the two inner container end sockets 12 of the inner container, a plurality of reinforcing rings 5 are respectively fixed on the inner walls of the two axial ends of the outer container cylinder 21 of the outer container along the circumferential direction, and each reinforcing ring 5 is connected with the heat insulation gasket 4 on the corresponding side through a V-shaped metal folded plate 6 so as to enable the inner container to be suspended and supported inside the outer container; the V-shaped metal folded plate 6 is not contacted with any part of the inner container, the inner container is suspended and supported in the outer container through the reinforcing ring 5, the V-shaped metal folded plate 6 and the heat insulation gasket 4, the heat transfer quantity between the outer container and the inner container is low, the structure is simple, the manufacture and the installation are simple and convenient, the weight is light, the mechanical strength is high, the manufacturing cost is relatively low, and the production and use cost of enterprises is low; in the embodiment, the V-shaped metal folding plate 6 is made of chrome nickel steel, and the V-shaped metal folding plate 6 made of the material has the advantages of low temperature resistance, high strength and relatively low heat conductivity; in this embodiment, the specific connection structure of the V-shaped metal flap 6 connecting the corresponding reinforcement ring 5 and the corresponding heat insulation pad 4 is: two end parts of the opening side of the V-shaped metal folded plate 6 are welded and fixed with the heat insulation pad 4 on the corresponding side at the same time, the welding points of the two end parts of the opening side of the V-shaped metal folded plate 6 on the heat insulation pad 4 are not overlapped, and the bent end part of the V-shaped metal folded plate 6 is hung on the reinforcing ring 5; in the present embodiment, the V-shaped metal folded plate 6 is composed of two metal connecting strips integrally connected into a V-shape, and an included angle formed by the two metal connecting strips is an acute angle; in this embodiment, the heat insulating spacer 4 has a hollow box structure, so that the heat transfer amount from the outer container to the inner container can be further reduced.

The invention has the advantages that: the inner container is suspended and supported in the outer container through the reinforcing ring, the V-shaped metal folded plate and the heat insulation gasket, so that the heat transfer between the outer container and the inner container is low, the heat preservation performance is good, the structure is simple, the manufacturing and the installation are simple and convenient, the weight is light, the mechanical strength is high, the manufacturing cost is relatively low, and the production and use cost of enterprises is low.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, but any modifications or equivalent variations made in accordance with the technical spirit of the present invention are within the scope of the present invention as claimed.

Claims

1. A cryogenic liquefied gas storage device, comprising: the inner container consists of an inner container cylinder and two inner container end sockets and is used for containing low-temperature liquefied gas, the outer container consists of an outer container cylinder and two outer container end sockets and is used for protecting the inner container, the inner container is suspended and supported in the outer container through a support assembly, the axis of the inner container and the axis of the outer container are coincident with each other, a vacuum interlayer used for filling insulating materials is formed between the inner container and the outer container, and the support assembly structurally comprises: the outer walls of the two inner container end sockets of the inner container are respectively fixed with a heat insulation gasket, the inner walls of the two axial ends of the outer container cylinder of the outer container are respectively fixed with a plurality of reinforcing rings along the circumferential direction, and each reinforcing ring is connected with the heat insulation gasket on the corresponding side through a V-shaped metal folded plate so that the inner container is suspended and supported inside the outer container.

2. A cryogenic liquefied gas storage device according to claim 1, wherein: the V-shaped metal folded plate is connected with the corresponding reinforcing ring and the corresponding heat insulation gasket in a specific connection structure that: two end parts on the opening side of the V-shaped metal folded plate are welded and fixed with the heat insulation gasket on the corresponding side at the same time, the welding points of the two end parts on the opening side of the V-shaped metal folded plate on the heat insulation gasket are not overlapped, and the bent end parts of the V-shaped metal folded plate are hung on the reinforcing ring.

3. A cryogenic liquefied gas storage device according to claim 1 or 2, wherein: the V-shaped metal folded plate is composed of two metal connecting strips which are integrally connected into a V shape, and an included angle formed by the two metal connecting strips is an acute angle.

4. A cryogenic liquefied gas storage device according to claim 3, wherein: the heat insulation gasket is of a box body structure with a hollow interior.

5. A cryogenic liquefied gas storage device according to claim 1, wherein: the V-shaped metal folded plate is made of chrome-nickel steel.