DE1634588B1 - Foundation for a spherical pressure vessel - Google Patents

Description

1 2

The invention relates to a foundation for a defense against ra-

Secure spherical pressure vessel for storing pushing away diales.

Gases with a resiliently deformable support The resilient ring zone consists of

from unbound granular bulk material, its known way from a bed of sand.

Outer diameter 0.25 to 0.7 of the outer pressure 5 By the formation of the support according to the

container diameter measures and a trough invention is achieved that in normal operation

Shaped support surface for immediate support - relatively light pressure vessel in the central trough

tion of the container wall. is stored, the highest voltages being the

It is known to have spherical pressure vessels in the vicinity of the circumference of the zentelbar occur on a resiliently deformable support io tral trough. Despite the stretching movements surface, for example on sand. Now the container wall has retained its central cavity shows that through the breathing movements of the pressure form at. The edge of the trough is and remains the opposite container when filling and emptying the pressure over the center so much excessive that a Vermediums as well as the thermal expansion of the pressure vessel under the pressure of the wind If the sand is gradually created radially outwards, it is not possible. If the pressure vessel is against it If what is gradually squeezed out to a reduction in size, the spherical shell sinks in the area of the support surface and thus to an uncontrollable, resilient ring zone under the action of the Baren increase of the bearing pressures leads, with which high water weight on the sand bed, whereby a considerable increase in the stresses that this is easily deformed to yield. Is the pressure vessel wall connected is. It would almost complete the pressing process and the water out of the are, the occurrence of these higher loads, the container is drained, the container wall rises to counteract this by using thicker soil elastic from the sand bed of the ring zone; their Atembleche. However, these not only have the disadvantage that thermal expansion movements are able to do so higher costs, but they also lead, because of the fact that the ring handlers no longer have to deal with the unbound sand Stretching at the connection points of the 25 zone to have a pushing effect.

thinner sheet metal, to undesirable tension An embodiment of the foundation for a

sharpen. Pressure vessel according to the invention is in the drawing

Another disadvantage of the known storage is shown schematically on manga. It shows

resiliently deformable support surface lies darm, Fig. 1 shows a pressure vessel with support in the transverse

that the pressure vessel under the combined we- 30 cut and

effect of breathing and thermal stretching movements. F i g. 2 greatly exaggerated, the deformations of the

as well as the wind pressure, the pressure vessel and the support have a tendency to

to shift slowly, imperceptibly, which in terms of the operating phases,

the connecting cables can be dangerous. A spherical pressure vessel 1 rests on one

From the German Auslegeschrift 1118 436 is a 35 resiliently deformable support surface, which consists of a

Known spherical gas container, which has a central column with a central trough 2 of low flexibility

which is firmly clamped in a foundation, outer diameter ^ ₁ and an adjoining

wherein the ball of the container ends with the lower part resilient ring zone 3 made of unbound,

the column is solid and the upper part of the column consists of granular bulk material, the outer diameter of which

is axially movably connected. The column is of a 40 diameter d _2. The central trough 2 is in a

Surrounding area of the foundation, which molded a thin bitumen mixture, that, as well as that

Has a layer of a flexible material and a bulk material of the ring zone 3, rests on a gravel bed 4,

additional support for the ball of the container, which is introduced and compacted in layers.

equips. This gives a support that prevents the gravel bed 4 from flowing away to the side.

an outer ring zone made of flexible material and 45 changes by a ring wall 5, which is in the grown

has a central rigid support. This Aus-Boden 6 is embedded.

However, leadership has the disadvantage that it is because of the When building the pressure vessel is first a

used column is relatively expensive, circular pit dug and the circular wall 5,

there are still difficulties with the gas-tight preferably made of reinforced concrete, whereupon the

Formation of the movable connection point of the 5 ° lower three layers of the gravel bed 4, each layer

Ball with the column can result. individually compacted, introduced. On it will

The aim of the invention is to provide a foundation for the bitumen mixture layer of the central trough 2

To create spherical pressure vessels for gases, with the help of a rotatable about the central axis 7

which does not have the disadvantages mentioned. Stencil created. The bitumen layer is made of ring-

This goal is achieved in that 55 shaped reinforcement S penetrates the shape

A central trough of less resilience - the trough received. On the bitumen layer,

with a diameter of 0.1 to 0.4 of the outer- then already covered with a rust protection layer

ren pressure vessel diameter through a binding see bottom plate of the spherical pressure vessel

medium to the extent that they are set off against the surrounding ters 1, whereupon the side panels are welded on

resilient ring zone is solidified that the shape 60 will be. After testing the welds, the

the trough under the loads that occur, a rust protection layer on the spherical shell pulled further,

finally the test load, is retained. and then the upper layers of the gravel

It has proven to be advantageous for the central bed 4 to be introduced and compressed. Only now will

The sand bed of the ring zone 3 is introduced through a layer of a bitumen mixture and

to form in the manner of a road surface. Around 65 also seals, be it through flooding or through Vi

a deformation of the central bration over a longer period of time. The pressure vessel is then completed.

To prevent depression, it is advisable to use water to set the material during the subsequent pressure test

in the central trough through an annular loading area, the pressure vessel including the supports is

ORIGINAL INSPECTED

considerable, especially the gravel bed 4 and the subsoil are compacted.

F i g. 2 shows, greatly exaggerated, the deformations the container wall and the support surface, on the left of the axis during pressing and on the right of the axis in Operating condition. On the left you can see how the pressure vessel wall moves when it is pressed onto the sand bed supports. In the operating state, the pressure vessel is relatively light. The container wall rises bulging out of the sand bed of the ring zone 3, which is slightly resiliently deformed from the pressing. Through this, the fact that the container wall rises above the sand bed in the operating state can be caused by the breathing movements the sand bed is not deformed, while the still occurring in the area of the central trough 2, minor displacements of the container wall not to remove the material bound there capital.

Claims (4)

Claims: ao 1. Foundation for a spherical pressure vessel for the storage of gases with a resiliently deformable support made of unbound granular bulk material, the outer diameter of which measures 0.25 to 0.7 of the outer pressure vessel diameter and which has a trough-shaped support surface for the immediate support of the container wall, thereby characterized in that in the support surface a central trough (2) of lesser flexibility with a diameter (^ ₁ ) of 0.1 to 0.4 of the outer pressure vessel diameter (D) by a binding agent to the same extent as the flexible ring zone surrounding it ( 3) is solidified that the shape of the trough (2) is retained under the loads occurring, including the test load. 2. Foundation for a pressure vessel according to claim 1, characterized in that the central · Trough (2) formed by a layer of a bitumen mixture in the manner of a road surface is. 3. Foundation for a pressure vessel according to claim 1 or 2, characterized in that the material in the central trough (2) by an annular reinforcement (8) against relative of the hollow center radial sliding away is secured. 4. Foundation for a pressure vessel according to claim 1, 2 or 3, characterized in that that the ring zone (3) consists of a bed of sand. 1 sheet of COPY drawings