RU2263745C1 - Method for injection pile building (variants) - Google Patents

Abstract

FIELD: building, particularly pile foundations preferably built in weak ground, as well as industrial and civil building to erect new houses and structures and to reinforce foundation of existent ones.

SUBSTANCE: method involves driving casing pipe with removable head and injection pipe installed inside it in ground; injecting hardening grout in formed hole through injection pipe, wherein grout is initially fed in hole area defined between head and lower rest installed in casing pipe, through which injection pipe passes; lifting casing pipe with injection pipe after injection process termination; fixing casing and injection pipes; supplying hardening grout in another hole area defined between rest and preformed pile body; injection-forming pile body and repeating above operations up to casing pipe removal from ground. Injection zone is defined within the boundaries of homogenous ground. Hardening ground is supplied in each area under pressure determined for ground of each injection zone from a given relation. Additional rest is installed on injection pipe above lower rest, wherein above injection pipe part is provided with perforation. When additional support reaches ground surface casing pipe is lowered so that perforated injection pipe part is left inside the hole. After that hardening grout is injected in above hole area and casing pipe is lifted without injection pipe movement. After casing pipe removal from ground injection pipe is cut above additional rest so that perforated injection pipe part is left in formed pile body. Method of injection pile erection involves driving casing pipe with removable head and injection pipe installed inside it in ground; injecting hardening grout in formed hole through injection pipe, wherein grout is initially fed in hole area defined between head and lower rest installed in casing pipe, through which injection pipe passes; lifting casing pipe with injection pipe after injection process termination; fixing casing and injection pipes; supplying hardening grout in another hole area defined between rest and preformed pile body; injecting above pile body and repeating above operations up to casing pipe removal from ground. Injection zone is defined within the boundaries of homogenous ground. Hardening ground is supplied in each area under pressure determined for ground of each injection zone from a given relation. Additional rest is installed on injection pipe above lower rest. Arranged between the rests is reinforcing frame, which is left in pile body when additional rest reaches ground surface and after casing and injection pipes removal from hole.

EFFECT: increased strength, density and uniformity along pile height and increased load-bearing capacity.

4 cl, 10 dwg

Description

The invention relates to construction, in particular to methods for the construction of pile foundations and foundations mainly in soft soils, and can be used in industrial and civil engineering both in the construction of new buildings and structures, and in strengthening foundations of old, damaged or requiring reconstruction.

A known method of installing a bored pile injector in which a reinforcing cage with ring injectors is lowered into a pre-made well and the pile shaft is concreted, while ring injectors are placed in a zone of weak soil with a certain interval providing the required penetration of the injected substance. After concreting the barrel, the injectable substance is fed into the annular injectors in an amount sufficient to wash out the bentonite solution and wash the holes of the injectors. The injected substance, penetrating into the near-pile soil, changes its properties, creating a zone of soil with the required properties around the pile in soft soil, after which the injection is stopped (AS USSR No. 1359411, E 02 D 5/62, publ. 15.12.87) .

There is another method of erecting a bored pile-injector, including the formation of a well in the ground, installing an injection pipe, concreting the pile shaft and its base, while concreting the base is carried out by fixing the soil by injecting a fixing solution through the injection pipe. To pump the solution in the vertical direction and apply high injection pressures after the formation of the well, supports are mounted on its bottom, on which a special sealing element in the form of a disk is supported, and an injection pipe with a locking device is installed. Injection is performed twice: first, the injection of the fixing mortar is carried out in such a way as to provide the required radius of the fixing zone, and then the cement is injected with a gradual increase in pressure, followed by exposure to time under pressure (AS USSR No. 1052625, E 02 D 5 / 62, publ. 07.11.83).

The disadvantage of these two methods is that their implementation requires preliminary drilling of the well with soil removal. The technological process, as a rule, is carried out in three stages: well formation, installation of injection equipment and injection. To perform these operations, special equipment is also required, and installation (reinstallation) of it leads to an increase in the timing of work on the installation of piles.

There is another method for installing a bored pile, according to which a casing with a lost tip and a concrete conduit installed inside is immersed in the ground and the concrete mixture is fed through the concrete conduit into the zone between the tip and the lower stop installed in the casing through which the concrete conduit is passed after the sealing of this zone the casing together with the concrete conduit is lifted no higher than the edge of the previously sealed part of the pile body, the casing is fixed, the hardening solution is again fed into the new concreting zone between focusing and previously compacted solution, compact this part of the body of the pile and repeat the operation until the casing is removed from the ground (AS USSR No. 654746, E 02 D 5/42).

This method is by its technical nature the closest and adopted as a prototype. The functional purpose of the concrete pipe and the injection pipe coincide and consist in pumping a hardening mixture through them (in the prototype it is a concrete mixture) into the well to form the pile body. The disadvantage of this method is that the end of the seal in each zone is fixed only by the load of the concrete pump. As a result, the pile has a dense and strong structure, however, it is impossible to achieve uniformity of soil compaction around such a pile, since soil characteristics are not taken into account, which affects its bearing capacity.

The objective of the invention is the creation of a dense, strong, uniform throughout the height of the pile, with high bearing capacity.

The problem is solved as follows. According to the known method, a casing with a lost tip and an injector pipe installed inside is immersed in the ground and a hardening mixture is fed into the well formed through the injector pipe, first into the well zone between the tip and the lower stop installed in the casing through which the injector pipe is passed, after injecting this zone, the casing together with the injector pipe is lifted, the casing is fixed, and then a hardening mixture is fed into a new zone of the well between the stop and the tool hydrochloric earlier part of the pile body, injected this part of the pile body and the operation is repeated to extract the casing from the ground. In contrast, the injection zone is set within a homogeneous soil, and the hardening mixture is supplied to each zone with a pressure determined for the soil in which this zone is located by the formula:

P = Ac + Bγ,

Where:

s - specific soil adhesion, kPa;

γ is the specific gravity of the soil, kN / m ³ ;

φ is the angle of internal friction, degrees;

ξ is the lateral pressure coefficient of the soil;

h is the depth of the soil injection zone, m;

ν is the Punch coefficient (for soil),

at the same time, an additional stop is installed on the injector pipe above the lower stop, and this part of the injector pipe has perforation, and when the soil surface is reached with an additional stop, only the casing pipe is lifted, leaving the perforated part of the pipe in the well, then the hardening mixture is injected into this zone of the well, the casing without the injector pipe, and after removing the casing from the soil, the injector pipe is cut above the additional stop, leaving the perforated part of the injector pipe in t barely formed piles. In addition, the casing is immersed with a gap between it and the borehole wall and simultaneously cutting longitudinal grooves in the borehole wall, and rings are installed at the level of the lower end and along the casing, the outer diameter of which is equal to the borehole diameter.

According to the second embodiment, according to the known method, the casing with a lost tip and an injector installed inside is immersed in the ground and a hardening mixture is fed into the well formed through the injector pipe, first into the well zone between the tip and the lower stop installed in the casing, through which the injector is passed pipe, after the injection of this zone is completed, the casing together with the injector pipe is lifted, the casing is fixed, and then the hardening mixture is fed into the new zone of the well Between the stop and the previously arranged part of the body of the pile, this part of the body of the pile is injected and the operations are repeated until the casing is removed from the ground. In contrast, the injection zone is set within a homogeneous soil, and the hardening mixture is supplied to each zone with a pressure determined for the soil in which this zone is located by the formula:

P = Ac + Bγ,

Where:

s - specific soil adhesion, kPa;

γ is the specific gravity of the soil, kN / m ³ ;

φ is the angle of internal friction, degrees;

ξ is the lateral pressure coefficient of the soil;

h is the depth of the soil injection zone, m;

ν is the Punch coefficient (for soil),

at the same time, an additional stop is installed on the injector pipe above the lower stop, and a reinforcing cage is placed between the stops, which, when the additional stop reaches the soil surface and after removing the casing and injector pipes, is left in the body of the formed pile. In addition, the casing is immersed with a gap between it and the borehole wall and simultaneously cutting longitudinal grooves in the borehole wall, and rings are installed at the level of the lower end and along the casing, the outer diameter of which is equal to the borehole diameter.

Differences of the proposed process options from the known confirm their novelty.

Since for each site of a homogeneous soil, the injection pressure of the hardening mixture is set corresponding to the properties of this soil, and the injection zones are selected within the homogeneous soil, it becomes possible to exclude the formation of hydraulic fractures in the soil, and as a result, uncontrolled spreading of the hardening mixture and get a pile with uniformly filled hardening a mixture of zones along the entire height of the well. This leads to an increase in the bearing capacity of the pile as a whole. The use of an injection pipe with perforation in its lower part makes it possible to uniformly feed the hardening mixture into the upper part of the well when only the casing is lifted, so that the injection pipe left in the body of the formed pile acts as a reinforcement, or the use of a special reinforcing cage also increases the bearing capacity of the pile. The prior art does not know such methods for the construction of injection piles, when the hardening mixture is supplied with a pressure that takes into account the soil characteristics by the depth of pile construction in each individual injection zone, and determined for each zone according to the proposed formula. This indicates the presence of an inventive step in the claimed object.

Both versions of the method for erecting injection piles have the same purpose, solve the same inventive task, and each implement the same method: the injection zone is set within a homogeneous soil, and the hardening mixture is injected into each zone with a pressure depending on the characteristics of the soil zones using part of the injection pipe or a special reinforcing cage left in the pile body as an armature during injection. The technical result for both options is to obtain a dense, strong and uniform throughout the height of the pile, the manufacture of which eliminates the formation of fractures of hydraulic fractures of the soil, and as a result, uncontrolled spreading of the hardening mixture in the soil. Thus, both options are combined by a single inventive concept.

The method is further illustrated by an example of a specific implementation.

Figures 1, 2, 3, 4, 5 illustrate the method of construction of piles according to the first embodiment. Figure 1 shows the initial moment of immersion of the casing in the ground (longitudinal section); figure 2 - immersion of the casing in the ground to the design level; figure 3, 4, the stages of the construction of piles; figure 5 - injection pile, erected by the proposed method (longitudinal section). Figure 6 shows the initial moment of immersion of the casing in the ground (longitudinal section) according to the second embodiment; 7, 8 - stages of the construction of piles according to the second embodiment; figure 9 - injection pile, erected by the proposed method according to the second embodiment; figure 10 - section 1-1 in figure 3.

The method is as follows.

A casing pipe 1 with a lost conical tip 2, an injector pipe 3 inside it, a lower stop 4 and an additional stop 5 is installed on the soil surface. The stops 4 and 5 are made in the form of disks with a diameter equal to the inner diameter of the casing 1. The part of the injection pipe located between stops, has perforation. The casing with the tip is immersed in the soil using pressing equipment or a vibratory driver (not shown). The casing pipe 1 is fixed and through the injection pipe 3, the hardening mixture is injected into the space between the tip and the additional stop. At the end of the injection, the casing together with the injection pipe is lifted. In this case, the next injection zone is set so that it is within a homogeneous soil. The casing and injector pipes are fixed and the hardening mixture is again pumped into the formed space (new zone). They again raise the casing and injector pipes, fulfilling the condition for the formation of a new injection zone within a homogeneous soil, fix pipes 1.3, inject the hardening mixture, etc. until an additional stop 5 reaches the soil surface. When the additional surface 5 reaches the surface of the soil, only the casing pipe is lifted, and the injection pipe is left in the well, the operations of creating new zones and their injection are repeated, and after removing the casing from the soil, the injection pipe is cut off over the additional focus. The pressure with which the hardening mixture is supplied to each zone depends on the characteristics of the soil. As a rule, before starting construction work, the soil of the base is examined and their characteristics determined: specific gravity (γ), specific adhesion (s), angle of internal friction (φ), lateral pressure coefficient (ξ). Knowing the characteristics of the soil and the depth (h) at which the corresponding injection zone is located by the formula:

P = Ac + Bγ,

Where:

determine the injection pressure for this zone. It is advisable to immerse the casing 1 to form a gap 6 between the wall of the borehole 7 and the casing and simultaneously cutting longitudinal grooves 8 along the borehole wall. For this, the conical tip 2 is equipped with cutting inserts 9, and their edges protrude beyond the base of the conical tip, and the diameter of the base of the tip is larger than the diameter of the casing. A ring 10 is installed at the level of the end face of the casing, which prevents the hardening mixture from entering the gap 6 when it is injected into the next zone. Along the casing, rings 11 are installed that hold the walls of the well 7 from collapse.

The execution method according to the second embodiment differs from the first in that the injection pipe 3 is performed without perforation, and it is removed completely from the well after injection of all zones. The hardening mixture is supplied only through the end hole of the injector pipe 3. And between the stops 4, 5, the reinforcing cage 12 is placed. When the additional stop 5 reaches the soil surface, only the casing and injector pipes are lifted, leaving the reinforcing cage 12 in the body of the pile being arranged (in the design position) . The hardening mixture injected into the zones not only forms the pile shaft, but also compacts (hardens) the soil near the pile space, providing an increase in the bearing capacity of the arranged pile.

Claims (4)

1. A method of erecting an injection pile, according to which a casing with a lost tip and an injection pipe installed inside is immersed in the ground and a hardening mixture is fed into the well formed through the injection pipe, first into the well zone between the tip and the lower stop installed in the casing, through which injection pipe, after the injection of this zone is completed, the casing along with the injection pipe is lifted, the pipes are fixed, and then the hardening mixture is fed into the new zone of the well in order to focus and previously arranged part of the body of the pile, inject this part of the body of the pile and repeat the operation until the casing is removed from the soil, characterized in that the injection zone is set within a homogeneous soil, and the hardening mixture is fed into each zone with a pressure determined for the soil, in which this zone is located, according to the formula P = Ac + Bγ, Where

s - specific soil adhesion, kPa; γ is the specific gravity of the soil, kN / m ³ ; φ is the angle of internal friction, degrees; ξ is the lateral pressure coefficient of the soil; h is the depth of the soil injection zone, m;

ν is the Punch coefficient (for soil), at the same time, an additional stop is installed on the injector pipe above the lower stop and this part of the injector pipe has perforation, and when the soil surface is reached with an additional stop, only the casing is lifted, leaving the perforated part of the injector pipe in the well, then the hardening mixture is injected into this zone of the well, the casing without the injector pipe, and after removing the casing from the ground, the injector pipe is cut above the additional stop, leaving the perforated part of the injector second pipe formed in the body of the pile. 2. The method according to claim 1, characterized in that the casing is immersed with a gap between it and the borehole wall and simultaneously cutting longitudinal grooves in the borehole wall, and rings are installed at the lower end and along the casing, the outer diameter of which is equal to the borehole diameter . 3. A method of erecting an injection pile, according to which a casing with a lost tip and an injection pipe installed inside is immersed in the ground and a hardening mixture is fed into the well formed through the injection pipe, first into the well zone between the tip and the lower stop installed in the casing, through which injection pipe, after the injection of this zone is completed, the casing along with the injection pipe is lifted, the pipes are fixed, and then the hardening mixture is fed into the new zone of the well in order to focus and previously arranged part of the body of the pile, inject this part of the body of the pile and repeat the operation until the casing is removed from the soil, characterized in that the injection zone is set within a homogeneous soil, and the hardening mixture is fed into each zone with a pressure determined for the soil, in which this zone is located, according to the formula P = Ac + Bγ, Where

s - specific soil adhesion, kPa; γ is the specific gravity of the soil, kN / m ³ ; φ is the angle of internal friction, degrees; ξ is the lateral pressure coefficient of the soil; h is the depth of the soil injection zone, m;

ν is the Punch coefficient (for soil), at the same time, an additional stop is installed on the injector pipe above the lower stop, and a reinforcing cage is placed between the stops, which, when the additional stop reaches the soil surface and after removing the casing and injector pipes, is left in the body of the formed pile. 4. The method according to claim 3, characterized in that the casing is immersed with a gap between it and the borehole wall and simultaneously cutting longitudinal grooves in the borehole wall, and rings are installed at the lower end and along the casing, the outer diameter of which is equal to the borehole diameter .

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