CS237577B1 - Underground structure anchored against buoyancy - Google Patents

Abstract

The subject of the invention is an underground structure anchored against the buoyancy of water, which is not sufficiently secured by its own weight against the effects of buoyancy in an aqueous environment. The invention relates to all structures made of steel, reinforced concrete or plastic materials, which are built into the ground and exposed to the effects of buoyancy. The anchoring of these structures is solved by a flexible membrane, which introduces the necessary anchoring force into them, derived from the weight of the backfill, and thus ensures the specified position. The invention can be used for anchoring tanks, underground gas and liquid storage tanks and pipeline structures of various profiles. The invention can also be used for underground tanks and enclosed spaces, which ensure various technological processes, such as wastewater treatment or serve to hide people, etc.

Description

The invention relates to all structures of steel, reinforced concrete or plastics which are built into the ground and exposed to buoyancy. Anchoring of these constructions is solved by a flexible membrane, which brings into them the necessary anchoring force due to the weight of the backfill and thus ensures the specified joloh.

The invention can be used for anchoring tanks, underground gas and liquid reservoirs and piping structures of various profiles. The invention can also be applied to underground tanks and enclosed spaces which provide various technological processes, such as sewage treatment _from or used to hide people, etc.

The object of the invention is an underground structure anchored against buoyancy of water, which is not sufficiently secured by its own weight against the effects of buoyancy in an aquifer.

The methods used to anchor these structures to date have been to increase the weight components of the structure. These solutions have the disadvantage of increased material consumption and often the necessity to transfer the weight of the added masses by the auxiliary device to the structure / sleeve, fastening screws etc., or increase the complexity of the shape of the structure and hence the overall laboriousness.

Another possible solution is ground anchors that transfer the buoyancy acting on the structure to the subsoil. This method has the disadvantage of providing ground anchors, which is expensive and requires drilling equipment with the possibility of prestressing the anchors.

These drawbacks are overcome by anchoring according to the invention, the use of which brings savings in material and labor. The invention can be applied to underground structures lightened by groundwater, such as various storage tanks, reservoirs, gas tanks, fuel tanks, large-size pipelines and the like.

It is an object of the invention that the anchorage of said structures is based on the weight of the backfill, the effect of which is transmitted to the underground structure by means of a flexible membrane. A gap is left between the bottom of the excavation and the membrane, which allows the membrane to be tensioned by the weight of the backfill.

The diaphragm is applied to the anchored structure. To the accompanying drawings, FIG. 1 shows a sectional view of anchoring structures JL · ^The underground structure 1, in the reclaimed excavation pit expands the flexible membrane 3, which · may be made of various materials, such as e.g. geotextile or mesh or foil of steel or plastics or by laminating different materials.

the choice of flexible membrane material is determined by the size of the structure and the type of backfill material and will be determined on a case by case basis.

The membrane is attached along the upper edges of the trenches to the surface of the terrain 5 to prevent it from collapsing and to transmit the tensile force in the membrane. Between the membrane Ji sixth day excavation and construction, and a gap ³ and 5, which allows the tension and deformation of the membrane after backfilling.

Part of the weight of the backfill 2 is transferred to the anchored structure 1, thereby increasing its total weight and ensuring safety against flooding.

Claims (1)

SUBJECT OF THE INVENTION Underground structure anchored against buoyancy of water, located on the modified trench bottom, marked by the fact that a part of the buried surface is covered with a flexible membrane (3), which at the trench bottom (6) moves away from the structure the backfill of the structure (1) is anchored on the ground surface (4), the space above the flexible membrane (3) being filled with backfill (2) and backfill gap (5) between the excavation bottom (6), construction (1) and flexible membrane (3) is free to stretch the flexible membrane (3).