EA020986B1 - Bore injection pile and method for making same - Google Patents

Abstract

The invention relates to building, in particular, to an arrangement and method for erecting a pile basement and/or pile foundation for industrial and civil buildings. To provide decrease of material and technical costs and increase of reliability of installation in clayish soils according to the first technical embodiment a bore injection pile comprises a soil-concrete shell with a reinforcement cage therein, an injection cup-type pipe is fastened along the axis thereof, wherein the soil-concrete shell is formed from a pre-loosened soil bound by water-cement solution and impregnated by a "Mikrodur"-type suspension, and according to the second technical embodiment the method of making a bore injection pile comprises a pre-drilling in soil to form a leader borehole using a drill rod equipped with a drill head and a nozzle after which the water-cement solution and compressed air are fed through the nozzle, then the drill rod is uplifted to the ground surface creating a homogenous porous soil-cement mixture in soil, the reinforcement cage is put into the drilled borehole filled by a porous soil-cement mixture, along the cage axis the injection cup-type pipe is fastened, wherein for increasing strength after initial consolidation of porous soil-cement mixture the "Mikrodur"-type suspension is injected through the cup-type pipe for filling soil-cement pores, after the final consolidation the body of a drill-injection pile is formed.

Description

The invention relates to the field of construction, in particular to a device and method of construction of a pile foundation and / or pile foundation for industrial or public use, and can be used in industrial or civil engineering for waterproof soils.

Known devices are pile foundations and / or pile foundations made by the method of erecting a pile foundation and / or pile foundation (see KI patent No. 2052018, class Ε02Ό 27/12, from 1995.04.03).

However, the known devices and methods require significant material and technical costs when implementing, since when using it is necessary to use piles of considerable length.

By technical nature, the closest to the proposed device is a bored injection pile, consisting of a top part made of reinforced concrete, a bottom part made of soil reinforced with a time-hardening mortar injected into it, and one or more internal injection channels, with the upper part being the upper end contains devices, for example, reinforcing outlets for connection with a structure supported by it, and its lower end freely rests on the lower part, and each injection The channel is located along the entire length of the pile, the upper part of the pile is made in the form of a truncated cone oriented with the large base down, the height and width of the upper and lower bases subject to certain conditions, and the lower part of the pile is a convex-shaped broadening with a certain minimum cross-sectional size ( patent KI No. 2246585 C1, class Ε02Ό 5/46, 5/62, dated 24.12.2002).

However, this known device also requires significant material and technical costs and is intended only for sandy soils and is not able to provide sufficient reliability in clay soils.

According to the technical essence, the closest to the claimed method is a method of manufacturing a bored injection pile, in which a pit of a certain size is previously excavated, into which a prefabricated element with injection channels is installed, through which they are further extended and installation of equipment is carried out along the lower part, after which the pit is covered with soil and injecting the solution, forming the lower part (patent KI No. 2246585 C1, CL Ε02Ό 5/46, 5/62, dated 12.24.2002).

However, the known method is intended only for sandy soils and cannot provide sufficient reliability for other types of soils, such as clay.

The technical result is to reduce material and technical costs and increase reliability when installing a bored pile in clay soils.

This is achieved by the fact that according to the first technical solution, the injection pile contains a soil-concrete casing, inside of which there is a reinforcing cage, the injection cuff is fixed along its axis, and the soil-concrete casing is formed from previously loosened soil bound with a cement-cement mortar and impregnated with a suspension of Microdur type, and according to the second technical solution in the method of manufacturing the injection piles is pre-drilled in the soil to form a leader wells using a drill rod equipped with a drill bit and nozzle, after which a cement-water slurry and compressed air are supplied through the nozzle, then the drill rod is raised to the ground surface by a reverse stroke, creating a homogeneous porous soil-cement mixture in the soil, then into a drilled well filled with a porous with a cement-cement mixture, a reinforcing cage is installed, along the axis of which an injection cuff pipe is fixed, and to increase strength after the initial solidification of the porous runtotsementnoy mixture is injected through the sleeve pipe Mikrodur type slurry to fill the pores jet-grouting mixture after solidification body which is formed CFA piles.

The essence of technical solutions lies in the fact that the implementation of the proposed device as described above can significantly reduce material and technical costs due to a significant reduction in the length of the pile and increase the reliability of the structure, i.e. to achieve the technical result.

Comparison of the proposed technical solutions with the closest analogues allows to confirm the conformity of technical solutions to the criterion of novelty, and the absence of distinctive features in the known technical solutions indicates that the criterion is inventive.

Preliminary tests suggest the possibility of wide industrial use.

In FIG. 1 shows a formed injection pile; FIG. 2 - leader well with a drill rod after drilling to design depth, FIG. 3 - a design well formed by a drill rod with a partial filling of a cement-cement porous mixture.

The injection pile is a soil-concrete casing 1, inside of which there is a reinforcing cage 2, along the axis of which an injection cuff pipe 3 is fixed, along the entire length of which there are holes closed by rubber cuffs. The reinforcing cage 2 can be made of steel or carbon fiber. The soil-concrete casing 1 can be formed from a previously loosened soil-cement mixture 4, the pores of which are filled with a suspension of type 5 Microdur (for details of a suspension of Microdur, see Panchenko A.I., Kharchenko I.Ya. - Particularly finely dispersed mineral astringent Microdur: properties, technology and prospects use // Building materials. 2005, No. 10, pp. 76-78).

A feature of the device is that the soil-concrete casing 1, placed in the borehole 6 at a certain depth, includes a reinforcing cage 2 with an injection cuff pipe 3 and is formed from a cement-cement mixture 4 prepared from previously loosened soil bound with a water-cement mortar and impregnated with a suspension of Microdur type 5.

The manufacture of injection piles is as follows.

At the preliminary stage of preparation of the injection pile after drilling in the soil 7, a drill rod 9 equipped with a drill bit 10 and a nozzle 11 (according to the technology described in L. 1 - Soil cementing by A.G. can be used to form a leader well 8). Malinin, Moscow, OAO Stroyizdat Publishing House, from 2010).

After preparation of the leader well 8, a cement-water suspension 12 and compressed air 13 are supplied through the nozzle 11.

By way of the reverse stroke, the drill rod 9 rises to the surface of the earth, creating a homogeneous porous soil-cement mixture 4 in the soil.

After this, a reinforcing cage 2 is installed in a drilled well filled with a porous soil-cement mixture 4, along the axis of which an injection cuff pipe 3 is fixed. the structure of the cement mixture 4, filling the pores. After the final hardening of the soil-cement mixture 4, the body of the injection pile is formed, consisting of a high-strength soil-concrete massif reinforced with reinforcing cage 2.

The advantage of the claimed technical solutions in comparison with the known ones is the possibility of forming high-strength soil-concrete massifs commensurate with the strength of rock, a significant diameter of up to 2 m in clay, loamy and other low-permeable soils.

Thus, the implementation of the above technical solutions can significantly reduce material and technical costs and increase the reliability of the design when installing a bored pile in clay soils.

Claims (2)

1. Brown injection pile, characterized in that it contains a soil-concrete casing, inside of which there is a reinforcing cage, along the axis of which an injection cuff is fixed, and the soil-concrete casing is formed by impregnating previously loosened soil with a cement-cement mortar and a suspension of Microdur type, followed by curing. 2. A method of manufacturing a drill-injection pile, characterized in that the drilling in the soil is preliminarily carried out to form a leader well using a drill rod equipped with a drill bit and a nozzle, after which a cement-water suspension and compressed air are supplied through the nozzle, then they lift it up by the return stroke the drill rod to the surface of the earth, creating a homogeneous porous soil-cement mixture in the ground, then an arm is installed in a drilled well filled with a porous soil-cement mixture urny frame, which axially fixed injection tube cuff, moreover to enhance the strength after initial setting jet-grouting porous mixture injected through the sleeve pipe Mikrodur type slurry to fill the pores jet-grouting mixture after solidification body which is formed CFA piles.