RU2223369C1 - Method and device for reconstructible building foundation reinforcement - Google Patents

Abstract

FIELD: construction, particularly restoration of architecture masterpieces built on frost-heaving soil. SUBSTANCE: method for deforming prevention of buildings having pile foundation of fully or partly decayed wood involves excavation by-pass wells; building reinforcing members under foundation base such that reinforcing members span the whole foundation base length; feeding hardening material into hollow reinforcing members and to soil surrounding reinforcing members. By-pass wells are L-shaped and formed on foundation opposite corners. Reinforcing members building is carried out simultaneously with advancement stabilizing thereof and with seasonal soil heating. Device for foundation reinforcing includes crushing means, hollow reinforcing means and injector. Hollow reinforcing means have conical ends with orthogonal advancement stabilizing means. Injector is located on end cone coaxially to reinforcing member and is connected with hardening material feeding pipe branch. Channels for heating wire are formed in reinforcing member inner surfaces. Heating wire is attached to electric system and automatic heat regulator. EFFECT: increased efficiency, reduced costs, prevention of soil frost-heaving. 2 cl, 4 dwg, 1 ex

Description

The invention relates to the field of construction and can be used in the restoration of architectural monuments erected on soils prone to frost heaving, and to exclude deformations of buildings of monuments with a wooden pile foundation, partially or completely decayed.

There is a method of reinforcing the foundation of reconstructed buildings and a device for its implementation, in which the foundation is reinforced by a method that includes developing trenches on the outside of the foundation, creating horizontal workings under the foundation by pushing the hollow element while removing soil from the cavity, laying reinforcement element in the cavity and pumping solution through the pipe in the plug into the cavity of the hollow elements and through the holes to fill the voids around the element. In this case, a crushing device containing a thrust wall is used (see SU 353000 A, E 02 D 27/48, 11/02/1972).

The disadvantages of this technical solution are:

- the need for excerpts of the trench below the bottom of the foundation along the entire external perimeter of the building;

- the complexity of the work associated with the removal of soil from the hollow elements;

- unloading the foundation during the period of its strengthening;

- injection of the solution through the holes in the elements does not provide reliable soil fixation;

- the inability to exclude the process of frost heaving of the soil base.

The technical solution adopted for the prototype is also known, in which the foundation is reinforced by a method including extracting pits from which hollow reinforcing elements are brought under the base of the foundation for the entire length of the base of the foundation and hardened material is pumped into the cavity of the reinforcing elements and into the soil surrounding them. In this case, a device is used to strengthen the foundation of reconstructed buildings, containing a crushing device, hollow reinforcing elements, an injector (see RU 2164982 C1, E 02 D 27/08, 04/10/2001).

However, this technical solution has several disadvantages:

- the inability to place the reinforcing elements in a given position due to the possible deviation of these elements away from the intended path when crushing. The absence of the element of stabilization of the direction of movement does not allow the placement of the amplification elements exactly in the designed place;

 - a significant amount and cost of work associated with summing up a large number of reinforcing elements over the entire area of the base of the foundation;

- a small area of soil strengthening under the base of the foundation;

- the impossibility of eliminating the deformation of buildings of monuments with a wooden pile foundation, partially or completely decayed;

- does not eliminate the process of frost heaving.

The technical result of the present invention is to increase the efficiency of work, reduce the cost of their implementation and eliminate the process of frost heaving of soils.

The specified technical result is achieved due to the fact that in the method of reinforcing the foundation of reconstructed buildings, including extracting pits from which the hollow reinforcing elements are brought under the sole of the foundation for the entire length of the foundation sole and the hardening material is pumped, for example, cement-bentonite mortar into the surrounding soil, pits tear L-shaped at opposite corners of the foundation perimeter, and when hollow reinforcing elements are brought under the base of the foundation, they stabilize the direction of their movement nation, and around the hollow elements carry out regulated seasonal soil heating, after which the hollow reinforcing elements are filled with hardening material.

In the device used in the implementation of the method for reinforcing the foundation of reconstructed buildings, containing a crushing device, hollow reinforcing elements (pipes), an injector, orthogonally located direction stabilizers are installed on the ends of the hollow reinforcing elements made in a cone, the injector is placed on the cone coaxially with the reinforcing element and connected with a pipe link for the injection of hardening material, and channels are installed on the inner surface of the reinforcing elements in which the heating system is fixed the cable connected to the power supply and automatic temperature control.

In the study of the technical level of the invention, no technical solution was found that has the features of the proposed method and device for its implementation, on the basis of which it can be considered that the proposed solution meets the criterion of "technical level".

The invention is illustrated by drawings, where figure 1 shows a top view of the foundation of the building with pits; figure 2 is a transverse section of the foundation with a device placed underneath its sole for reinforcing the foundation; in FIG. 3 - base soil heating system; figure 4 is a General view of a device for strengthening the foundation.

The way to strengthen the foundation of the reconstructed buildings is as follows. In the opposite corners of the foundation 1, L-shaped pits 2 are torn from the outside, revealing both sides of the foundation 1, in which thrust structures 3 and jacks 4 are installed for alternately crushing in two directions and bringing hollow reinforcing elements 5 (pipes) under the sole of the foundation 1 for the entire length of the base of the foundation 1. The reinforcing elements 5 (pipes) are crushed with 0.5 m penetrations, after crushing the next run through the injector 6 and link 7 at a pressure of 0.3 MPa, hardening material is injected, for example, cement-bent nits solution into the surrounding soil to "refusal" in absorption, and summing up under the sole of the foundation 1 of the hollow element 5 is carried out amplification, stabilizing their direction of movement by means of stabilizers direction 8 providing a predetermined direction of movement. After the next crushing, the reinforcing elements 5 and the pipe links 7 are expanded. In the process of crushing the reinforcing elements, radial compaction of the base soils pre-compacted with the injected solutions occurs. As a result of these works, a compacted soil mass is formed under the base of the foundation, and the existing voids-cavities are filled with cement-bentonite mortar. Around the hollow reinforcing elements 5, seasonal regulated soil heating is carried out to eliminate soil deformations caused by the manifestation of frost heaving forces. After bringing the hollow reinforcing elements 5 to the entire length of the base of the foundation 1, the hollow reinforcing elements 5 are filled with hardening material, for example, concrete.

A device for implementing the method of strengthening the foundation 1 of reconstructed buildings contains a crushing device installed in pits 2, consisting of thrust structures 3 and jacks 4, hollow reinforcing elements 5 (pipes). On the conical ends of the hollow reinforcing elements 5, an injector 6 is connected coaxially and connected to the pipe link 7, and directional stabilizers 8 are mounted orthogonally, and a heating cable system 10 is fixed on the inner surface of the reinforcing elements 5 (pipes) in the channels 9 for wiring household electrical network 11, connected to an automatic temperature controller 12, located in the reconstructed building.

The operation of the device when implementing the method is as follows. Using the thrust structures 3 and jacks 4, the reinforcing elements 5 (pipes) are pressed down with 0.5 m runs. After crushing the next run through the pipe link 7 and injector 6 under pressure 0.3 MPa, hardening material is injected, for example, cement -bentonite solution into the surrounding soil to “failure” in absorption. Due to the presence on the conical end of the reinforcing elements 5 orthogonally located stabilizers direction 8 provides a given direction of movement of the device. After the next crushing, the amplification elements 5 and the pipe links 7 are expanded. On the inner surface of the amplification elements 5 (pipes) in the channels 9 for wiring, a heating cable system 10 from the household power supply 11 is fixed, connected to an automatic temperature controller 12 located in the reconstructed building, which allows maintaining set temperature in winter time. After bringing the hollow reinforcing elements 5 to the entire length of the base of the foundation 1, the hollow reinforcing elements 5 are filled with hardening material, for example, concrete. Adjustable seasonal heating of the soil eliminates soil deformations caused by the manifestation of frost heaving forces.

An example of the proposed method

As an example of the implementation of the method of strengthening the foundation of reconstructed buildings, the method of reconstruction of the Assumption Cathedral in Dmitrov is considered. There are cracks in the walls of the monument with an opening from hairline to 2-3 cm. There are horizontal cracks in the basement. The poor condition of the supporting structures and the wooden pile foundation excludes the possibility of using conventional methods of strengthening the foundation. In order to increase the reliability of protection of supporting structures and soil of the base from the effects of uneven deposits during rotting of the wooden foundation piles and the manifestation of frost heaving forces, it was decided to open the L-shaped pits 2 from the outside to open both faces of the foundation 1, in which install the thrust structures 3 and jacks 4 for alternately crushing in two directions and bringing under the sole of the foundation 1 hollow reinforcing elements 5 (pipes) with a diameter of 426 mm over the entire length of the soles s foundation. 1. Crush the reinforcing elements 5 (pipes) with injections of 0.5 m each, after crushing another approach through the pipe link 7 and then the injector 6 with a diameter of 38 mm and a length of 1.0 m under a pressure of 0.3 MPa, inject cement-bentonite mortar into the soil surrounding them until the “failure” in absorption, and bringing under the sole of the foundation 1 of the hollow elements 5 to carry out, stabilizing the direction of their movement with stabilizers of direction 8 installed on the conical end of the pipes 5, providing a given direction of movement. After the next crushing, the reinforcing elements 5 and the pipe links 7 are expanded. The connection of the individual elements is carried out, for example, by welding. In the process of crushing the reinforcing elements, a radial compaction of the soil of the base, pre-compacted with injected solutions, occurs.

As a result of these works, a compacted soil mass is formed under the base of the foundation, and the existing voids-cavities are filled with cement-bentonite mortar. When working in winter, around the hollow reinforcing elements 5, the soil is regulated to heat the soil to eliminate soil deformations caused by the manifestation of frost heaving forces. The heating is carried out due to the fact that on the inner surface of the reinforcing elements 5 (pipes) in the channels 9 for wiring, a heating cable system 10 from the household electrical network 11 is fixed, connected to an automatic temperature regulator 12 (DTR-3102) located in the reconstructed building and allowing to maintain a given temperature. After bringing the hollow reinforcing elements 5 to the entire length of the base of the foundation 1, the hollow reinforcing elements 5 are filled with hardening material, for example, concrete.

Thus, reliable protection of the supporting structures of the architectural monument and base soils from the effects of uneven deposits during rotting of wooden piles and the manifestation of frost heaving forces can be carried out.

The present invention improves the efficiency of work, reduce the cost of their implementation and eliminate the process of frost heaving of soils.

Claims (2)

1. A method of reinforcing the foundation of reconstructed buildings, including a fragment of pits, from which hollow reinforcing elements are brought under the sole of the foundation to the entire length of the base of the foundation and hardening material is pumped into the cavity of the reinforcing elements and into the soil surrounding them, characterized in that the pits are torn L-shaped forms at opposite corners of the perimeter of the foundation, and when bringing hollow reinforcement elements under the base of the foundation stabilize the direction of their movement, and around hollow reinforcement elements t adjustable seasonal soil heating. 2. A device for reinforcing the foundation of reconstructed buildings, containing a crushing device, hollow reinforcing elements, an injector, characterized in that orthogonally located directional stabilizers are installed on the ends of the hollow reinforcing elements made in a cone, the injector is placed on the cone coaxially with the reinforcing element and connected to the link pipes for injection of hardening material, and channels are installed on the inner surface of the reinforcing elements, in which a heating cable system connected to ektrosetyu and automatic temperature control.

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