KR930001096B1 - Cistern for liquid or gas constructed of reinforced concrete - Google Patents

Abstract

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Description

Storage structure

1 is an approximate elevation of an underground cellar.

Figure 2 is an elevation of the basement storage in accordance with the present invention.

3 is a cross-sectional view of the portion A of FIG.

* Explanation of symbols for main parts of the drawings

10: underground storage 11: components

12 steel sheet 13 joining elements

14: attachment element 15: filling material

16: roof 17: floor

18: drain pipe

The present invention relates to a container structure for use as an underground cistern, and more particularly to a cell structure in which the shell of the container structure is formed of an impermeable material for the contents to be stored in the container.

As a method of manufacturing underground low-yu reinforcement of conventional steel, it is manufactured in the form of low-yu steel plate cell and concrete filling by pouring concrete into the space between rock walls. The thickness of the concrete layer filled between the rock walls had a change in the range of 0.1 m to 2 m. Therefore, the biggest problem with this conventional method is that the amount of concrete used is too high and the manufacturing cost is very expensive, and the harmful heat generated from the concrete can bend the steel sheet. Thus, for this reason, the prior art had to use relatively thick steel sheets, and had to be tightened with a bowl so that almost no gaps were opened. In addition, if the cold liquid is stored, the steel sheet is separated from the concrete wall due to the heat conduction difference between the steel sheet and the concrete wall. In addition, when the temperature of the storage container is high, even though the drainage system is installed, the underground water pressure acting on the container structure may be a source of harmful stress. In this type of prior art method, it takes a lot of manufacturing time, and therefore, more waste is required in terms of cost. In addition, the injection of concrete was conceived to be able to deal with the corrosion phenomenon occurring in the thick steel sheet by pouring the concrete.

An object of the present invention is to further improve the structure of the storage known in the art of the present invention, specifically to provide an underground storage that can use a thinner steel cell, and also the amount of concrete used in the production of the storage This is to provide a storage that can reduce the cost. In addition, it is to provide an underground reservoir that can easily store cold liquids and solve problems caused by leakage. It is another object of the present invention to shorten the manufacturing process and time period briefly and shortly, and to provide an inexpensive underground storage in terms of manufacturing cost.

The above objects can be achieved by providing an underground cellar in which the cell of the cellar is surrounded by ring-joint elements spaced apart from each other, and using the attachment element the cellar is fixed to rock walls or soil.

Further features and advantages according to the invention will be found in particular in the claims.

Many excellent advantages can be obtained by using the storage cell structure according to the present invention, that is, it can be manufactured by significantly reducing the thickness of the steel cell of the storage cell structure, and also a significant amount of concrete use can be reduced as compared with the known technology. will be. In the case of reservoirs containing cold liquid contents, a concrete ring is used as a joining element, in order to be thermally delayed against the rock wall at the point of attachment, which is unavoidable for supporting the reservoir. And the problem of groundwater in the underground storage structure according to the present invention can be solved in a certain way. In addition, since the cell structure of the cellar of the basement storage according to the present invention can significantly reduce the cost than the structure formed in the field by the prior art, the structure according to the present invention can be manufactured inexpensively and quickly.

Moreover, the structure according to the present invention is relatively light and ductile, so the toughness against the impact of the earthquake is very good. In addition, it is very easy to change the strength of the structure so that it can be matched according to the load, and the cost of constructing the excavation wall accurately does not have a significant effect on the manufacturing cost.

Hereinafter, with reference to the accompanying drawings in the embodiment of the present invention will be described in detail. However, the present invention is not limited to the following description.

In the embodiment shown in FIGS. 1 to 3, the cell of the cylindrical underground reservoir 10 according to the invention is formed of a reinforced concrete element 11 having a steel plate 12 on the inner surface thereof, the reinforced concrete The element 11 has a support base on a ring-shaped rebar splicing element 13 which horizontally surrounds the reservoir 10. The rebar joining element 13 may be disposed at a predetermined position in the site as the construction work of the storage proceeds, and the reinforcing bar 13 is fixed to a rock or soil with an attachment element 14 made of a steel bowl. do. At this time, the gap formed between the cell of the cellar 10 and the excavation side wall dug to construct the cellar is filled by filling lightweight artificial gravel, natural stone gravel, or another kind of filling material 15. The roof 16 of the reservoir 10 is constructed with a reinforced reinforcement concrete element similar to the reinforced concrete element 11. However, in the case of storing the contents of the liquid it is advantageous to use steel sheets as the material of the roof 16 and the bottom 17 as is known. In addition, in order to preserve the contents in a cooled state, the roof of the storage room should be made of a heat insulating material, and the drainage pipe 18 is installed in the cell and the bottom 17 of the storage room 10 so as to drain the leakage from the excavation.

Thus, the most important feature of the underground reservoir structure according to the present invention is that the cells of the reservoir 10 are surrounded by ring-shaped joining elements 13 forming mutual spaces. This ring-shaped joining element 13 is supported by an attachment element 14, which is adapted to be embedded in soil or rock to support the reservoir 10.

The present invention does not impose any limitation on the materials used to construct the cells of the reservoir 10. However, it is highly desirable that the cell is constructed using a support layer of concrete structure and steel sheet 12, and the cell is also a composite structure by adding the joining element 13, in which one element is on the other element. It is also preferable to form the component 11. In addition, it is advantageous to use concrete molded in the field as the joining element 13, and the concrete ring is isolated from the rock wall using a suitable thermal insulating material, so that the storage 10 stores the cold liquid. It can also be used. The space between each joining element 13 is filled with a suitable filling material 15, which is composed of a material having good permeability to water, for example sand, gravel or lightweight gravel, or Similar things can be used. In addition, depending on the case where the present storage is used, the filling material 15 may be made of a heat insulating material such as polyurethane, lightweight concrete, or molded glass. And when the storage 10 is constructed from top to bottom, the filling material 15 may be used as soil that can be retaken at the construction site.

If it is not necessary to configure the cells of the reservoir 10 with the steel sheet 12, the cells may be composed of a constant coating, for example only reinforced plastics or simple concrete material.

In the foregoing description, only specific embodiments of the present invention have been described, but those skilled in the art will appreciate that various modifications to the embodiments of the present invention will affect the basic idea of the present invention described in the following claims. It will be appreciated that it can be applied without violating it.

Claims (8)

For storage structures to be used for underground storage; A cell formed of a material impermeable to the material to be stored and forming an inner surface of the reservoir structure; A plurality of joining elements spaced apart from each other and ring-shaped; At least one attachment element provided on each joining element for fixedly attaching the reservoir structure to a surrounding rock wall or soil; And a plurality of components connected with the ring-shaped joining elements to form a composite structure, arranged so that one element is on the other element, and surrounding the cell; Storage structure comprising a. The cellar structure as claimed in claim 1, wherein the cell of the cellar is made of steel sheet. The cellar structure of claim 1, wherein the cell of the cellar is made of reinforcing plastic. The storage structure according to any one of claims 1 to 3, wherein the ring-shaped joining element (13) is a concrete ring molded at a construction site. 5. The reservoir structure according to claim 4, wherein the concrete ring is fixedly attached at a predetermined position of the rock wall and is thermally transferred from the rock wall at the attachment portion thereof. The storage structure according to claim 1, wherein the space between the ring-shaped joining elements (13) is filled with filling material (15). 7. The storage structure according to claim 6, wherein the filling material has good permeability to water. 7. The storage structure according to claim 6, wherein the filling material (15) is a thermal insulator.

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