CS243204B1 - Undergroud body anchored against upward hydrostatic pressure - Google Patents

Abstract

The solution is an underground body anchored against water buoyancy, which is not sufficiently secured own weight against action buoyancy in an aquifer. Solution applies to all steel, reinforced concrete or plastics that are incorporated into the ground and exposed to buoyancy. Anchoring these bodies are solved by closed earth the bag to be carried out in the excavation for use of flexible membrane and natural part backfill from the excavation. The enclosed ground bag is loaded remaining soil from excavation and transfer to constructing the necessary anchoring force. The solution can be used to anchor tanks, underground gas reservoirs, liquids and pipelines different profiles.

Description

The object of the invention is an underground body, anchored against water buoyancy by a closed earth bag formed by a flexible membrane and excavation soil.

The methods of anchoring these bodies hitherto used consisted in increasing their weight components. These solutions have the disadvantage of increased material consumption and often the need to transfer the weight of the added masses by the auxiliary device to the body structure. Another solution is ground anchors that transfer the buoyancy acting on the body structure to the subsoil. Ground anchors are costly and require special equipment. A newly used solution is the use of a flexible membrane, which is anchored during the backfill on the terrain surface. The disadvantage of this solution is the anchoring of the membrane on the terrain surface, which is often not possible and is an obstacle to mechanically filling the body.

These drawbacks are overcome by anchoring according to the invention, the use of which brings savings in labor and allows easy implementation. The invention can be applied to underground bodies lightened by groundwater, such as various process tanks, fuel tanks, large-size pipelines and the like. The essence of the invention is that the flexible membrane folds over the anchored body into a trench after partial filling into a closed bag filled soil, which is then burdened with another backfill. This creates additional forces in the diaphragm-enclosed bag, which are transmitted to the structure and counteract the buoyancy of the water.

An exemplary embodiment of the subject matter of the application is schematically shown in the accompanying drawings, wherein Fig. 1 is a cross-section of the anchored body after partial backfilling, Fig. 2 is a cross-section of the water-pressure-protected body; the top face of the partial backfill is convex.

The diaphragm body 1 develops a flexible membrane 2 in the dewatered excavation pit, which can be made of various materials, such as geotextiles or plastic foils, steel nets, or they can be formed by layering them. After its partial backfilling 4, the flexible diaphragm is folded into the trench as shown in Figures 2 and 3, so that both edges of the flexible diaphragm 2 will be offset by overlap and together with the soil will form a load bag 5 of the indicated shapes. This bag will be loaded with the rest of the backfill 6. The relative position of the projected portions of the bag membrane will be ensured either by simply overlapping or by further joining them according to the materials used. The choice of flexible bag membrane materials is determined by the size of the body and the type of backfill material and will be determined on a case-by-case basis.

The membrane will be laid on the ground 7 along the upper edges of the trench so that it rests freely on the surface part of the anchored underground body 1 and the trench surface 3. Then it will be filled back with a part of the ground excavation 4 so that 5, consisting of a flexible membrane 2 and partial backfill soil 4. The remaining ground excavation B loads the bag 5 and transfers part of the backfill weight to the anchored body, thereby ensuring its safety against flooding.

Claims (1)

SUBJECT An underground body anchored against buoyancy of water, deposited on a modified trench bottom and partially covered by a flexible membrane, which also covers a part of the trench surface, characterized in that the membrane (2) is bent into the The two edges of the diaphragm (2) are folded together and form, together with the soil of the partial backfill (4), a closed earth bag (5) which, with another backfill with soil (6), loads the body with the necessary anchoring force.