RU2073084C1 - Method of sinking of pile into ground - Google Patents

Abstract

FIELD: construction, particular, piles foundation. SUBSTANCE: method of sinking of pile into ground includes making on external surface of casing 1 of screw protrusions 2. Lower screw projections 2 are 1.5-2 times as large as the subsequent upper ones. In this case, each screw protrusion is located relative to vertical one at angle whose tangent equals 0.50-0.66. Casing 1 with screw protrusions 2, with closed lower end, is sunk down to design elevation into ground 3 at distance of 0.2-0.3 d from existing foundations of buildings, where d is diameter of casing. During sinking of casing 1, ground 3 goes out to the day surface. EFFECT: simplified sinking of casing into ground down to design elevation due to reduced friction in its sinking and maximum increase of site area in confined conditions of the city. 2 dwg

Description

 The invention relates to the construction, in particular to pile foundations.

A known method of construction of piles in the soil, including immersion in the soil of a cylindrical pile of circular cross section closed from below with a conical shoe [1]
The disadvantage of this method is the significant dynamic load on a nearby building and the difficulty of immersing piles in tight urban conditions.

A known method of construction of piles in the ground, including immersion in the ground casing pipe with a closed lower end to the design elevation and filling its cavity with hardening material [2]
The disadvantage of this method is the difficulty of immersing the casing in the ground and significant dynamic loads on a nearby building.

 The aim of the invention is to facilitate the immersion of the casing in the ground to the design level by reducing friction during its immersion and maximizing the building area in cramped urban conditions.

 This is achieved by the fact that before the casing is immersed in the soil, screw protrusions are made on its outer surface, while 3-5 lower screw protrusions perform 1.5-2 times more than the next upper ones, and each screw protrusion is positioned relative to the vertical at an angle α, whose tangent is 0.50-0.66, and the casing is immersed in the soil at a distance of 0.2-0.3 d from the existing foundation of the building, where d is the diameter of the casing, and when the casing is immersed in the ground, the latter goes to day surface.

 The execution on the outer surface of the casing of the helical protrusions, with the implementation of 3-5 lower helical protrusions is 1.5-2 times more than the subsequent upper ones, will facilitate the immersion of the casing in the ground to the design mark by reducing friction during immersion.

 The location of each screw protrusion relative to the vertical at an angle a, the tangent of which is 0.50-0.66, will ensure maximum delivery of soil when immersing the casing.

 Immersion of the casing pipe in the ground at a distance of 0.2-0.3 d from the existing foundation of the building, where d the diameter of the casing pipe will make construction cheaper by maximizing the building area in cramped urban conditions.

 The implementation of the lower screw protrusions more than 2.0 times than the subsequent upper marks, will require additional material costs and increases the cost of immersion.

 The implementation of the upper screw protrusions less than 1.5 times relative to the lower protrusions, will require more powerful rotational mechanisms.

 The implementation of the two lower screw more 1.5-2.0 times than the next upper, will not provide ease of immersion of the casing.

 The implementation of six or more lower screw protrusions is 1.5-2.0 times more than the subsequent upper ones, it will require additional material costs, complicate the immersion of the casing.

 When the casing is immersed in soil at a distance of less than 0.2 d from the existing building foundation, where d is the diameter of the casing, there may be a risk of stability of the existing foundation. When the casing is immersed in the ground at a distance of more than 0.3 d from the existing foundation of the building, construction will become more expensive due to a decrease in the built-up area in tight urban conditions.

 When each screw protrusion is located relative to the vertical at an angle a, the tangent of which is less than 0.50, the casing pipe sinking speed decreases.

 When each screw protrusion is located relative to the vertical at an angle a, the tangent of which is more than 0.66, more powerful rotational mechanisms will be required.

 The claimed combination of essential features is in a causal relationship to the achieved result.

 Comparison of the claimed technical solution with the prototype made it possible to establish compliance with its criterion of "novelty", since it is unknown from the prior art.

 The proposed method for the construction of piles in the soil is industrially applicable existing means and meets the criterion of "inventive step", since it does not explicitly follow from the prior art, while the latter does not reveal the essential features required to achieve the specified technical characteristics required to achieve the indicated technical result.

 Thus, the proposed technical solution meets the criteria of the invention.

 No other known technical solutions of a similar purpose with similar essential features were found.

 The invention is illustrated in the drawing, where in FIG. 1 shows a casing with helical protrusions; in FIG. 2 immersion of the casing near the existing foundation.

 The method of erecting piles in the ground includes performing on the outer surface of the casing 1 screw protrusions 2. The lower screw protrusions 2 are 1.5-2.0 times larger than the subsequent upper ones, with each screw protrusion located relative to the vertical at an angle a, the tangent of which equal to 0.50-0.66.

 The casing 1 made in this way with screw protrusions 2 with a closed lower end is immersed in the ground 3 at a distance of 0.2-0.3 d from the existing foundation 4 of the buildings to the design elevation, where d is the diameter of the casing.

 When immersing the casing 1 in the soil 3, the latter comes to the surface.

Claims (1)

 A method of erecting piles in the ground, including immersing the casing in the ground with the lower end closed to the design mark and filling its cavity with hardening material, characterized in that before the casing is immersed in the ground, screw protrusions are made on its outer surface, with 3-5 lower screw protrusions perform 1.5-2.0 times more than the subsequent upper ones, and each screw protrusion is positioned relative to the vertical at an angle α whose tangent is 0.50-0.66, and the casing is immersed in the ground at a distance of 0, 2-0.3 d uschestvuyuschego foundation of buildings, where d is the diameter of the casing, and the immersion of the casing into the ground last exit to the surface.

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