SU1678971A1 - Method of sinking piles - Google Patents

Abstract

The invention relates to the foundation construction, namely to the construction of pile foundations in aggressive saline soils. The aim of the invention is to increase the carrying capacity and durability during construction in aggressive saline soils. The method is carried out as follows. In the ground, a well 1 is formed, the lower part of which is gradually filled with double layers consisting of the lower layer 2 of rubble and the upper layer 3 of oil-bituminous rock with compaction of each double layer by pulling it out to failure. Layers are laid before the formation of broadening 4, the upper mark of which is located at the level corresponding to the level of the lower boundary of the business layer 5 of the soil. A protective sheath can be introduced into the well both after the formation of broadening 4 and before it, and after the broadening is formed, the barrel 7 is formed. 2 Cp. f-ly, 1 ill. cl

Description

The invention relates to the foundation construction, namely to the construction of pile foundations in aggressive saline soils.

The aim of the invention is to increase the carrying capacity and durability during construction in aggressive saline soils.

The drawing shows the pile, a longitudinal section.

The construction of the pile is carried out as follows.

A vertical well 1 is punched into the ground with the help of a deep compaction (SGU) projectile (not shown), the lower part of which is gradually filled with double layers; consisting of the lower layer 2 of rubble and the upper layer 3 of oil bituminous rock (Kirov) with compaction of each double

layer by wringing it out before SSU. The filling of the well with the indicated components and their compaction are carried out in the calculation of the achievement of the upper mark of the zone 4 formed at the same time, the reference broadening of the lower boundary of the soil 5. The ratio of the thicknesses of layers 2 and 3 of each portion of rubble and petroleum bitumen rocks is taken in the range of 0.75-1.24, which is caused by the indicators of both the size and porosity of ordinary construction rubble, and the physicochemical properties of oil bituminous rocks. As a result of the dynamic effect of the SGU on the components introduced into the well, a wedging of the latter occurs and compaction with the formation of a broadening zone, the diameter of which is several times larger than the broadening diameter that occurs | 00 Yu x |

when the SGU borehole is being drilled using conventional technology. Then, a protective shell b is inserted into the upper part of the well using the same SGU, the lower edge of which sinks into the upper sealing layer of rubble and oil-bituminous rocks, thus entering beyond the lower boundary of the destructive soil layer and forming a reliable all-round obstacle from aggressive environmental effects. ground environment on the pile shaft.

The protective sheath 6 can be made of polymers used in the manufacture of pipes, for example, polyvinyl chloride, vinyl plastic and polyethylene. The pile 7 is formed at the final stage by placing the reinforcement cage (not shown) inside the casing and subsequent concreting with cement of conventional grades. At the same time, in the manufacture of the pile by the proposed method, a variant of the protective shell 6 can be used, which consists in introducing it to the same mark, but not after, but before laying and compaction of rubble and oil bituminous rocks in the well. The introduction of the casing 6 into the well before the broadening device allows to prevent the entry of groundwater into the laying zone of rubble and oil bituminous rocks and thereby simplify the production technology of the pile.

It has been established that with a thickness ratio of layers 2 and 3 of less than 0.75, an increase in the water permeability of the material of the broadening zone occurs, due to the presence of pores unfilled by oil-bitumen rocks during the compaction process, and more than 1.24, a decrease in the pile carrying capacity broadening when overblowing oil-bituminous rocks and insufficient amount of rubble in their each double layer.

The proposed method of manufacture

5 piles allows to increase the specific load of the foundation, to ensure its anticorrosive protection and durability. The introduction of oil-bituminous rocks into the pile causes refusal to use sulfone-resistant cements and reduce material consumption.

Claims (3)

1. The method of pile erection, including the formation of a well, the formation broadened heel by laying layers of rubble with compaction of each layer and the formation of the trunk, characterized in that, in order to increase the carrying capacity and 20 durability during construction in aggressive saline soils, during the formation of a broadened pto, a layer of oil-bitumen rocks is deposited over the top layer of each layer with a ratio of layer thicknesses, respectively, 0.75-1.24, and the compaction of each layer is done after laying over it petroleum bituminous rocks together with it, while the broadened heel is formed to the level corresponding to the level of the lower boundary of the soil business layer. 2. A method according to claim 1, characterized in that a protective sheath is placed in the well before the formation of the bore 35 from a polymeric material with its lower end deepening into the upper layer of the broadened heel. 3. The method according to claim 1, characterized in that, prior to the formation of a broadened 40 pts in the well place a protective sheath of polymeric material.