SU1162899A1 - Method of hydraulic filling of foundation of structure on water reservoir bottom - Google Patents

Abstract

METHOD OF WASHING A BASIS OF A FACILITY, PLACED AT THE BOTTOM OF THE WATER, including feeding pulp under the bottom of the structure and discharging waste water respectively to the pressure and suction mobile slurry pipelines, characterized in that, in order to increase the stability of the base to dynamic effects, to the pressure pipe, it is positioned by your arms, which are designed by means of the elements, which are designed to increase the resistance of the base to dynamic effects, to the pressure pipe and suction pipe, which are located in the bottom of the arm of the support elements. holes, the cross-sectional area of which corresponds to the mid-section of the middle pores of the washed soil, serves air in an amount equal to the total pore volume of the washed the one and on the occurrence of air in the waste water is carried out the movement of slurry pipelines.

Description

The invention relates to hydraulic engineering and is intended for washing up the underwater base of a structure located at the bottom of a reservoir.

The purpose of the invention is to increase the stability of the base to dynamic effects.

The drawing schematically depicts underwater weapons with stages of washing the base, cross section. ,

The base 1 is washed when a pulp stream is supplied under the bottom of the structure 2, made in the form of a lowering section of a water outlet, hydraulic or transport tunnel. Soil for washing the base 1 is pumped with a dredger 3 during the development of the face or transported in a scow. The pulp under the bottom of the structure 2 is fed through the main 4 and pressure 5 slurry pipelines. The pressure slurry pipe 5 is turned during the washing of the base 1 and placed inside the suction pipe 6. During the washing of the base 1, air is fed into the slurry pipe 5, for example, by compressor 7 through hoses 8, nozzles 9 through openings. The beginning of the movement of the slurry pipe 5 is set by the appearance of air in the waste water and the suction slurry pipe 6.

The cross-sectional area of the outlet openings of the nozzles 9 corresponds to the mid-section of the middle pores of the washed soil. The average porosity is determined based on the analysis of the physicomechanical properties of the soil intended for washing the base 1. The total pore size is determined for soil with a relative density of 0.4-0.6. This density is usually obtained when washing the base with the release of the pulp stream under the bottom of the underwater structure 2. The pulp stream flows from the openings of the pressure pulp pipe 5, and the soil contained in it forms the base 1. The air supplied to the pulp stream moves together with the soil particles and replaces the hour 5 water in the pores of the washed soil.

Air supply increases the resistance of the base to dynamic impact. The presence of air bubbles in the pores of a subsoil washed under water prevents particle re-laying and compaction of incoherent soil under dynamic impacts.

The most complete air bubbles of '5 are retained in the pores at the initial stage of formation of the base 1 · This occurs due to the free spreading of the pulp stream under the bottom of the structure 2. In the suction pulp-flow? 6 water, there are practically no air bubbles at this stage of washing, which allows the operator to visually monitor the washing process of this base section and the formation! 5 of the base section.

When pulp is fed at the Prohibition stage, the pulp stream encounters 1 soil that has been previously washed into the basement in the path of its movement. The trajectory of the pulp flow changes and “deviates, while air bubbles rush into the suction pulp line. The operator visually observes 15 the appearance of air bubbles in the slurry conduit 6 and concludes that the soil in this section of the base has been washed. To exclude the washing out or clogging of the pressure pulp line 5, the operator must switch the pulp supply to wash the next section of the base or feed the pulp to the next pressure pulp line 5. Air supply to the pulp stream provides 15 formation of the base from soil particles having contacts between them, which also increases stability to dynamic effects.

Claims (1)

METHOD FOR HANDING BASIS OF THE STRUCTURE PLACED AT THE BOTTOM OF THE WATER BODY, including the supply of pulp under • the bottom of the structure and the discharge of waste water, respectively, through the pressure and suction mobile pulp pipes ·, characterized in that, in order to increase the stability of the base to dynamic effects, into the pressure pulp pipe nozzles with openings, the cross-sectional area of which corresponds to the mid-section of the middle pores of the applied soil, supply air in an amount equal to the total pore volume of the applied soil, the appearance of the air in the waste water is carried out the movement of slurry pipelines. (19) -SLL · ί) —1162899> f 1162899