RU2091541C1 - Method of construction of piles foundation close to existing building - Google Patents

Abstract

FIELD: construction. SUBSTANCE: the offered method includes drilling hole, at least. 10 m deep and diameter equalling 1.1-1.4 of pipe side by auger with hollow rod. Ground is withdrawn in auger lifting and, simultaneously, hardening mortar is injected through hollow rod, first, to, at least. 1/3 of hole depth, and remaining part is filled with clay mortar. Then, lowered into hole is pile and hammer-driven to 0.5-2 m below hole bottom. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to the field of construction, specifically to the construction of foundations near existing buildings.

A known method of construction of a pile foundation near an existing building, including the development of wells under the protection of casing or clay and filling the well with hardening material with the formation of bored piles [1]
Closest to the described invention is a method of constructing a pile foundation near an existing building, including the development of leader wells and subsequent driving of piles [2]
A disadvantage of the known methods is their low productivity.

 The aim of the invention is to increase the productivity of the method while ensuring trouble-free operation of an existing building.

 This goal is achieved by the fact that in the method, including immersion in the soil through the developed wells using piles, using the hammer, the wells are developed to a depth of not less than 10 m and a diameter equal to (1.1 1.4) of its side, and the development of the well is carried out by a screw with by extracting the soil after it has been immersed to the bottom mark of the well and applying a hardening solution under the extracted soil to the lower part of the well to at least 1/3 of the depth of the well and clay mud to the rest of it, and pile driving by 0.5 2 m after immersion to the bottom of the well.

 In FIG. 1 shows the stage of drilling a well with a screw; in FIG. 2 stage extraction of the screw and filling the well with a solution; in FIG. 3 diving piles to the depth of drilling; in FIG. 4 immersion piles at the design level.

 The method is as follows. Near the foundation of the existing building 1, the auger 2 is immersed with a hollow rod 3 to a depth of 0.5 to 1.5 m less than the design one, but not less than 10 m. After reaching this depth, the auger is removed and soil is removed from the well, and then pumped through the hollow rod into hardening well, in particular, cement-sand mortar 4, not less than 1/3 of the depth of the well. In this case, the auger lift speed is consistent with the performance of the grout pump so that the filling rate of the well with the solution is faster than the auger lift speed. This allows you to ensure the stability of the walls of the well and compress its walls.

 With further extraction of the screw, observing the same conditions, a clay solution 5 is injected into the well, which forms a clay crust 6 on the walls of the well. After that, a pile 7 of precast concrete, metal, wood or other materials is lowered into it to the drilling mark. Immersion is carried out under its own weight or under the influence of a freely falling hammer. The side of the pile should be (0.7 0.9) d, where d is the diameter of the well. Then the pile is finished off with a hammer at 0.5 2 m to the design level. The pile, when immersed, completely displaces the clay mud 5, and the cement-sand mortar 4 fills the space between the pile and the walls of the well.

 The presence on the walls of the well of clay peel 6, as well as liquid clay and hardening solutions into the space between the pile and the walls of the well, virtually eliminates friction on the side surface at the time of pile driving, which together with the limitation of the depth of driving (at least 10 m from the building foundation) reduces dynamic impacts on the building to the minimum. At the same time, the parameters of soil vibrations of nearby structures from driving piles do not affect the performance of these structures.

 The proposed method is most appropriate to use if there is a layer of soft soils at the base, which acts as a shock absorber. In this case, dynamic effects can be completely excluded.

Claims (1)

 A method of erecting a pile foundation near an existing building, including immersion in soil through developed pile wells using a drill, characterized in that the wells are developed to a depth of at least 10 m and a diameter of 1.1 1.4 of its side, and the development of the well is carried out by a screw with the extraction of the soil after its immersion to the bottom mark of the well and supplying a hardening solution under the extracted soil to the lower part of the well to at least 1/3 of the depth of the well and clay mud into the remaining part, and driving AI carry out on 0.5 to 2.0 m after immersing it at the bottom of the well.

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