DE3309395C2 - Large capacity storage container - Google Patents

Abstract

In the case of a large-capacity storage container, the container body has, in vertical section, a shape which is determined from several arches with different radii of curvature. The sheets merge smoothly so that the container body assumes a relatively flattened spherical shape. Even if a low-temperature liquid gas is stored, stress concentrations based on thermal shrinkage can be avoided, so that a high degree of safety can be ensured. In addition, the storage container can be constructed at a low cost.

Description

The invention relates to a large-capacity storage container with a never flattened container body, the in vertical section one of a plurality of arcs with different radii of curvature Has shape, with the sheets merging smoothly into one another, and with one arranged within the container body Support.

Large-capacity storage containers of the type specified above are, for example, from FR-PS 9 93 903 and US-PS 16 22 787 known. Here, the flattened container body is supported by a centrally arranged, one-piece support carried. When storing gaseous or liquid media in a GroP room storage container are caused by external influences or by the stored medium itself, e.g. B. low-temperature liquefied petroleum gas, and exerted on these loads by the degree of filling of the storage container, the must be absorbed by the support and the container body. These pressures not only work in the vertical or axial direction of the container, but also in radial directions. A one-piece support cannot give in and follow these loads, so that there is a risk of damage to the storage container and whose security is no longer sufficiently guaranteed.

The invention is based on the object of providing a generic large-capacity storage container in this way to train that its central support can follow external loads, so that the security of the storage container is increased.

This task is performed with a large storage container the aforementioned type solved in that the support is in two parts with an upper and lower Structure is formed, which are provided with adjacent flanges, and that the upper end of the upper structure is fixed to the top of the container body and the lower end of the lower structure are firmly connected to the bottom of the container body.

By designing the support in two parts, which are against one another via flanges, these structures can in the event of a displacement of one relative to the other due to forces acting sideways, they rest against one another maintained so that the support of the container body is guaranteed, but this acting on him Can give way to forces, as well as the upper structure has the opportunity to move away from the lower structure from moving upwards.

The two-part support can be designed as a cylinder, the wall of which has openings, or as a framework so that the inside of the support is available as space for storage

The subject matter of the invention is illustrated by two embodiments with reference to the drawings explained. It shows

F i g. 1 shows a partially broken section through a large-capacity storage container with one as a cylinder trained support;

F i g. 2 a lattice-like support for the storage container.

A thermal insulation layer 4 made of concrete lies on a foundation, a base plate or the ground 1. The flattened container body 5 in the form of a stationary water droplet rests on the heat insulating layer 4 and consists quite generally of a flat bottom 5a, a rounded corner area 5b and an upper part 5c.

In order to carry the upper part 5c, a cylindrical or lattice-like support 11 is erected on the bottom 5a, essentially coaxially to the container body 5. There are anchors 7 which bear against the outer circumference of the corner area 5b to prevent expansion and deformations of the corner area 5b and upper part 5c caused by the internal pressure of the medium in the container 5, e.g. B. Gas. caused to be able to switch off. The container body 5 is covered on its outer surface by a heat-insulating insulation 8.

In the embodiment of Fig. 1, the support 11 consists of two cylindrical parts, namely from an upper structure 18 and a lower structure 19, the cylinder walls of which each have several openings 17 have. The upper structure 18 is at its upper end with the inner wall surface of the upper part 5c firmly connected and has an annular flange 20 at its lower end. The lower supporting structure 19 is equipped at its upper end with an annular flange 21, which is similar to the annular flange 20 trained and to be brought into contact with this. The lower structure 19 is at its lower end in 7 to the upper structure 18 coaxial position on the floor 5a attached. The lower and upper framework 19 and 18 thus work together to support the weight of the corner area 56 and the upper part 5c of the container body 5 to wear.

Since the upper and lower structure 18 and 19 are each provided with the flanges 20 and 21, respectively these structures, even if one is opposite to the other with respect to the vertical axis of the column 11 • is shifted radially outwards, their contact with each other maintained that the container body is supported in a very stable manner.

In the interior of the container body 5 each have a filling and a discharge line 22 and 23, which extend arranged essentially vertically within the support 11 and telescopically displaceable in a plurality of vertically spaced, annular guide elements

the 24 is used with some play in the radial direction are.

When the gas pressure inside the container body 5 is high, the upper part 5c thereof is raised. There However, the support 11 consists of the upper and lower structure 18 and 19, respectively, so the upper part 5c has the Possibility of moving together with the upper structure 18 by removing it from the lower structure 19 to move upwards.

If the internal pressure is low, the corner side area becomes 56 deformed, and this area 56 and the upper part 5c sink by their own weight, the flange 20 of the upper structure i8 together with the upper part 5c goes downwards and comes to rest with the flange 21 at the top of the lower structure 19, so that the upper part 5c is securely supported by the support 11 and prevented from falling further. Even if that Upper part 5c and the upper supporting structure 18 rigidly connected to it experience a radial movement, the remain Flanges 20, 21 in abutment as mentioned above so that the container body 5 can be securely supported.

The cylindrical support 11 isl provided in its wall with perforations 17, so that the ^i: can enter the post II füssiggas unhindered, whereby the space can be effectively used for storage.

The liquid gas is introduced into the container body 5 or withdrawn from it through the filling and discharge line 22 and 23, respectively. As mentioned above, these lines 22,23 are telescopically inserted into the annular guide members 24, which in turn are fastened again to the inner walls of the upper and lower structures 18 and 19, so that they are easily vertical or radial based on changes in the internal pressure Movements or deformations of the corner area 5b and upper part 5c can follow. In this way, damage to the filling and discharge lines 22 and 23 can be clearly prevented.

The in F i g. The formation of a support shown in FIG. 2 for the upper part 5c is the one shown in FIG. 1 is similar to the embodiment shown, but it consists of a truss support 25 with a rectangular cross-section, which is why it has a large number of openings on its sides. As in the previous embodiment, the truss column 25 has an upper and a lower supporting structure with mutually associated flanges 20, 21 and with a filling line 22 and a discharge line (not shown), which can easily follow vertical and radial movements or deformations of the corner area 5b or upper part 5c .

The truss support 25 can securely support the container body 5 in the same way as the support 11 of FIG. 1, even if vertical or radial deformations occur in the corner region 5b and on the upper part 5c. In this respect, the corner area 5b and the upper part 5cin can advantageously be designed with a simple construction and with little weight.

1 sheet of drawings

bO

65

Claims (3)

Patent claims: 1. Large-capacity storage container with a flattened container body which, in vertical section, has a shape determined from a plurality of arches with different radii of curvature, the arches merging smoothly into one another, and with a support arranged within the container body, characterized in that the support (11 , 25) in two parts with an upper and a lower structure (18, 19), which are provided with flanges (20, 21) lying against one another, and that the upper end of the upper structure (18) is fixed to the upper part {5c) of the Container body (5) and the lower end of the lower structure (19) are firmly connected to the bottom (5a) of the container body. 2. Large storage container according to claim ί, characterized characterized in that the two-part support (11) is designed as a cylinder, the wall of which is a Has a plurality of perforations (17). 3. Large storage container according to claim 1, characterized in that the two-part support (25) is designed like a truss.