CN217497268U - Novel lower wrapping tape supporting structure for low-temperature container - Google Patents

Abstract

The utility model discloses a novel lower wrapping belt supporting structure for a low-temperature container, which comprises a lower wrapping belt bracing structure, a glass fiber reinforced plastic transverse supporting structure and a glass fiber reinforced plastic top supporting structure; the inner container is tensioned through the arranged lower wrapping belt tensioning structure, so that the inner container is prevented from dragging the bottom; the top of the inner container is supported by the glass fiber reinforced plastic top supporting structure between the top of the inner container and the outer shell, so that the inner container is prevented from sliding to the top; the axial positioning of the inner container and the outer shell is limited by the arranged lower wrapping belt bracing structure and the glass fiber reinforced plastic top supporting structure, so that the thickness of the heat-insulating layer at the top and the bottom is ensured; the circumferential positioning of the inner container and the outer shell is limited through the arranged transverse supporting structure of the glass fiber reinforced plastics, and the coaxiality of the inner container and the outer shell is ensured.

Description

Novel lower wrapping tape supporting structure for low-temperature container

Technical Field

The utility model belongs to the technical field of low temperature container, specific theory especially relates to a novel lower band bearing structure that low temperature container was used.

Background

Since the industrial revolution, the pursuit of high precision and high efficiency of mechanical processing by human beings has never been stopped, and meanwhile, the pursuit of labor intensity reduction is increased, and the liberation of heavy labor by human beings is the primary focus of all inventions. With the push of one-time industrial revolution and the continuous improvement of human education level, the expansion of the application field of mechanization has greatly liberated the human body compared with all the previous periods, but in some special fields, people do not repeat simple and heavy labor, which causes great waste of resources, and if people try to have an improvement of working conditions in each field, the improvement of human progress is greatly promoted. The labor intensity of human beings is reduced, resources are saved, the invention does not need to be as great as possible, all things around the life and the production of people are a cut-in point, and the support structure of the lower wrapping belt of the low-temperature container is an application technology which is met in the actual production process of the company and can be solved.

At present, the existing low-temperature container supporting structure is in a form of an up-down drawstring supporting structure, has low processing efficiency, is easy to damage, has high maintenance cost and high labor intensity of workers, and is only suitable for low-temperature storage tank containers with small volumes. Along with the popularization and the extension of the national peak shaving station, the demand of large-volume low-temperature containers is continuously increased, and the competitiveness of the low-temperature storage tank container of the company in the market is improved for the improvement of the production efficiency and the reduction of the processing cost. The requirements of users are met, and values are created for the customers better and faster.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the technical scheme adopted by the utility model is that the utility model provides a novel lower wrapping belt supporting structure for a low-temperature container, which comprises a lower wrapping belt tensioning structure, a glass fiber reinforced plastic transverse supporting structure and a glass fiber reinforced plastic top supporting structure;

the lower belting tensile-support structure mainly comprises a lower belting inner container base plate, a shell annular base plate, a reinforcing rib plate, a first base plate and a lower belting;

the glass fiber reinforced plastic transverse supporting structure mainly comprises a first transverse support sleeve, a second base plate and a first low-temperature heat-insulating epoxy glass fiber reinforced plastic pipe;

the glass fiber reinforced plastic top supporting structure mainly comprises a top supporting rod cover plate, a second cross brace sleeve, a second low-temperature heat insulation epoxy glass fiber reinforced plastic pipe and an inner container fixing supporting piece.

Preferably, the annular backing plate of the shell is welded on the shell, and the reinforcing rib plate and the first backing plate are welded into a platform; the inner container base plate of the lower belting is welded on the lower end socket of the inner container; the lower end of the lower wrapping tape is welded with the container base plate in the lower wrapping tape;

preferably, No. two backing plates and shell welding are in the same place, No. one stull sleeve pipe welding is on No. two backing plates.

Preferably, the inner vessel fixing support is welded to the top of the inner vessel; the cross brace sleeve is welded with the top support rod cover plate.

Has the beneficial effects that: compared with the prior art, the utility model has the advantages and positive effects that the equipment bracing the inner container through the arranged lower belting bracing structure, thereby avoiding the inner container from dragging the bottom;

the supporting function is realized between the top of the inner container and the outer shell through the arranged glass fiber reinforced plastic top supporting structure, so that the inner container is prevented from sliding towards the top;

the axial positioning of the inner container and the outer shell is limited by the arranged lower wrapping belt bracing structure and the glass fiber reinforced plastic top supporting structure, so that the thickness of the heat-insulating layer at the top and the bottom is ensured;

the circumferential positioning of the inner container and the outer shell is limited through the arranged glass fiber reinforced plastic transverse supporting structure, and the coaxiality of the inner container and the outer shell is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic view of the overall structure of a novel lower wrapping tape supporting structure for a cryogenic container provided in this embodiment;

fig. 2 is a drawing of a lower wrapping tape bracing structure in the novel lower wrapping tape supporting structure for the low-temperature container provided in this embodiment;

FIG. 3 is a schematic view of FIG. 2 taken along line B;

FIG. 4 is a schematic diagram of a transverse supporting structure of GRP in the novel lower wrapping tape supporting structure for a cryogenic container provided in this embodiment;

fig. 5 is a schematic view of a glass fiber reinforced plastic top support structure in the novel lower wrapping tape support structure for the cryogenic container provided in this embodiment.

In the above figures, 1-lower wrapping belt bracing structure, 2-glass fiber reinforced plastic transverse supporting structure, 3-glass fiber reinforced plastic top supporting structure, 4-outer shell and 5-inner container;

11-inner container base plate, 12-shell annular base plate, 13-reinforcing rib and 14-first base plate;

21-a cross brace sleeve, 22-a second backing plate and 23-a first epoxy glass steel tube;

31-top support rod cover plate, 32-cross brace sleeve, 33-second cryogenic insulation epoxy glass steel tube and 34-inner container fixing support.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Examples

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the present invention is not limited to the limitations of the specific embodiments of the present disclosure.

The embodiment can be known from the attached drawings of the specification, the scheme provides a lower wrapping belt supporting structure of a low-temperature container, and the problems of low processing efficiency, high labor intensity of workers and high production cost in the production process of the low-temperature storage tank container are solved through welding the lower wrapping belt supporting structure of the low-temperature container.

Low temperature container lower band bearing structure mainly by: the lower wrapping belt bracing structure 1, the glass fiber reinforced plastic transverse supporting structure 2 and the glass fiber reinforced plastic top supporting structure 3.

The lower belting tensile-support structure 1 mainly comprises a lower belting inner container base plate 11, a shell annular base plate 12, a reinforcing rib plate 13, a first base plate 14 and a lower belting 15;

the glass fiber reinforced plastic transverse supporting structure 2 mainly comprises a first transverse supporting sleeve 21, a second backing plate 22 and a first low-temperature heat-insulating epoxy glass steel pipe 23 (Z3848);

the fiberglass top support structure 3 basically includes a top support rod cover plate 31, a cross brace sleeve 32, a second cryogenically insulated epoxy fiberglass reinforced plastic pipe 33(Z3848) and an inner vessel fixing support 34.

The lower belting tension-bracing structure 1 of the lower belting supporting structure of the low-temperature container consists of a lower belting inner container base plate 11, a shell annular base plate 12, a reinforcing rib plate 13, a first base plate 14 and a lower belting 15; the annular backing plate 12 of the shell has the effect of local reinforcement on the stress of the shell 4, the comprehensive mechanical property of the shell 4 is improved, the inner container bottom head of the inner container of the bottom wrapping tape 11 has the effect of local reinforcement, the comprehensive mechanical property of the bottom head is improved, the welding form of the reinforcing rib plate 13 and the backing plate 14 is a fillet weld, grooves are formed in two sides of the reinforcing rib plate 13, the reinforcing rib plate 13 and the backing plate 14 are ensured to be completely welded, the welding form of the backing plate 14 and the bottom wrapping tape 15 is a fillet weld, the stress is uniform, the welding amount is small, and welding is suitable. The welding part partial pressure system arc form of lower band 15 and inner container low head guarantees closely to press close to the low head in order to improve its atress performance, and lower band 15 and 5 contained angles 3 of inner container, and the atress is effectual, provides axial holding power in the production manufacturing use of storage tank, should weld, can effectively satisfy its stability, and the economic nature is better.

The low-temperature container glass fiber reinforced plastic transverse supporting structure 2 is composed of a first cross brace sleeve 21, a second base plate 22 and a first low-temperature heat-insulating epoxy glass steel tube 23(Z3848), the first cross brace sleeve 21 has a fixing effect on the first low-temperature heat-insulating epoxy glass steel tube 23(Z3848) to prevent the first low-temperature heat-insulating epoxy glass steel tube 23(Z3848) from sliding off, and in the transportation process, the first cross brace sleeve 21 and the first low-temperature heat-insulating epoxy glass steel tube 23(Z3848) bear shearing stress to prevent the inner container 5 from sliding in the shell 4 along the axial direction. The low-temperature container glass fiber reinforced plastic transverse supporting structure 2 has good low-temperature heat insulation performance, is circumferentially and uniformly distributed at 6 points, provides radial supporting force in the production, manufacturing and using processes of the storage tank, is simple in structure, small in welding amount, convenient for workers to operate, good in stability, good in economical efficiency and capable of improving working efficiency.

The glass fiber reinforced plastic top supporting structure 3 consists of a top supporting rod cover plate 31, a cross brace sleeve 32, a second low-temperature heat insulation epoxy glass steel pipe 33(Z3848) and an inner container fixing support 34. The cross brace sleeve 32 has a fixing effect on the second cryothermal insulation epoxy glass steel tube 33(Z3848) to prevent the second cryothermal insulation epoxy glass steel tube 33(Z3848) from sliding off, the top support rod cover plate 31 has a supporting effect on the second cryothermal insulation epoxy glass steel tube 33(Z3848), and the inner container fixing support has a supporting effect on the second cryothermal insulation epoxy glass steel tube 33(Z3848) to prevent the inner container 5 from sliding in the shell along the axial direction. Glass steel top bearing structure 3 bears compressive stress in the transportation, plays the fixed effect of support to the position of inner container 5 in shell 4, has good low temperature thermal insulation performance, and welded structure is simple, and work load is little, makes things convenient for workman's group to work, and the economic nature is better, improves work efficiency.

In addition, it should be noted that the electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device which is controlled by a computer or the like.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in other forms, and any person skilled in the art may apply the equivalent embodiments modified or modified by the above technical contents disclosed as equivalent variations to other fields, but any simple modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention will still fall within the protection scope of the technical solution of the present invention.

Claims (4)

1. A novel lower wrapping belt supporting structure for a low-temperature container comprises an inner container (5) and an outer shell (4) arranged outside the inner container, and is characterized by comprising a lower wrapping belt bracing structure (1), a glass fiber reinforced plastic transverse supporting structure (2) and a glass fiber reinforced plastic top supporting structure (3);

the lower belting tensile-support structure (1) mainly comprises a lower belting inner container base plate (11), a shell annular base plate (12), a reinforcing rib plate (13), a first base plate (14) and a lower belting (15);

the glass fiber reinforced plastic transverse supporting structure (2) mainly comprises a first transverse supporting sleeve (21), a second backing plate (22) and a first low-temperature heat-insulating epoxy glass steel pipe (23);

the glass fiber reinforced plastic top supporting structure (3) mainly comprises a top supporting rod cover plate (31), a cross brace sleeve (32), a second low-temperature heat insulation epoxy glass fiber reinforced plastic pipe (33) and an inner container fixing supporting piece (34).

2. The novel lower wrapping belt supporting structure for the cryogenic container according to claim 1, wherein the outer shell annular backing plate (12) is welded on the outer shell (4), and the reinforcing rib plate (13) and the first backing plate (14) are welded into a table; the inner container base plate (11) in the lower wrapping belt is welded on the lower end socket of the inner container; the lower end of the lower wrapping tape (15) is welded with the container backing plate (11) in the lower wrapping tape.

3. The novel lower wrapping tape supporting structure for the cryogenic container as claimed in claim 1, wherein the second number of backing plates (22) are welded with the outer shell (4), and the first number of cross brace sleeves (21) are welded on the second number of backing plates (22).

4. The novel strapping band support structure for cryogenic containers of claim 1, wherein the inner vessel fixed support (34) is welded on top of the inner vessel (5); the cross brace sleeve (32) is welded with the top support rod cover plate (31).

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