RU2603779C1 - Technological complex for elimination of collapse of buildings and structures - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to reconstruction of building structures, specifically to elimination of their common deformations. Technological complex for elimination of collapse of buildings and structures contains located at building or structure several tiers of channels for solution injectors, solution injectors arranged in channels, pump station for supply of solution and compressor connected via pipelines with solution injector, located directly in area of channels extensible layers, matrix layers located at boundary with extensible layers. Extensible layers and matrix layers are a mixture of local soil with injected solution. Matrix layers contain local soil without changing skeleton structure, and injected solution for matrix layers is a high-permeability solution based on microcements. Extensible layers contain local soil with variation of skeleton structure, and injected solution for extensible layers is a low-permeable solution based on bentonite, wherein injected solution for matrix layers contains, %: microcement (microdur) - (20-50); amorphous microsilica - (5-15); Hydrated lime (for example, Ca (OH)₂ - (10-25); mineral microfiller, for example carbonate flour - (20-50); suspension viscosity regulator, for example, superplasticiser - C-3 - up to 2 % of weight of water retaining binding additive; for example, methylcellulose - up to 5 % of weight of binder, and injected solution for extensible layers contains, %: bentonite - (60-90); portland cement - (10-40); plasticiser - up to 2; hardening accelerator - up to 10.

EFFECT: technical result consists in improvement of reliability of corrected base of buildings and structures due to prevention of cracking and hydraulic fractures of soil, reduced labor input.

1 cl, 2 dwg

Description

The invention relates to the field of reconstruction of building structures, namely the elimination of their general deformations.

Known is a technological complex for eliminating the precipitation of buildings and structures, containing several tiers of channels for mortar injectors located under the foundation, mortar injectors located in the ducts, a pumping station for supplying mortar, a compressor connected to the expandable layers directly in the channel zone by pipelines while expandable layers contain soil with a change in its skeleton and injected cement or cement-sand mortar [M.R. Moseley, K. Kirsch, Ε. Falk. Soil fracturing // Ground Improvement (second Edition). 2004. p. 220-251].

The disadvantage of this technical solution is that the expandable layer contains a large number of cracks of indefinite length and opening. These cracks require an increased flow rate of the solution, may remain partially unfilled with the solution, which in the future can lead to suffusion processes and reverse deformations of structures.

Known technological complex for eliminating the precipitation of buildings and structures, containing several tiers of channels for mortar injectors located under the foundation, mortar injectors located in the ducts, a pumping station for supplying mortar and a compressor connected by pipelines to the mortar injector located directly in the canal zone layers located on the border with the expandable layers of the matrix layers, and the expandable layers and matrix layers are a mixture of local soil with pumped m solution, the expandable layer comprise local soil from changing its skeletal structure, and the injected solution is a solution of low permeability based on cement or cement-bentonite [Korff M., Mair R.J., van Tol F. and Kaalberg F.J. The application of compensation grouting to protect a railway from tunneling induced movements // ITA-AITES World Tunnel Congress, Budapest, Hungary, May 23-28, (2009). Pp 130-140].

The advantage of this technical solution compared to the previous one is that a matrix layer is created that reduces the degree of crackability of the expandable layer.

The disadvantage of this technical solution is that the absence of hydraulic fractures is not guaranteed. There is a significant cracking, along with which the same dangers as in the previous technical solution.

The objective of this technical solution is to reduce the cost of labor and materials and increase the reliability of leveling work.

The task is carried out in that the technological complex for eliminating the settlement of buildings and structures contains several tiers of channels for mortar injectors located under the building or structure, mortar injectors located in the channels, a pumping station for supplying mortar and a compressor connected by pipelines to the mortar injector, expandable layers located directly in the channel zone, located on the border with the expandable layers, matrix layers, wherein expandable layers and matrix layers represent is a mixture of local soil with an injected solution, while the matrix layers contain local soil without changing the structure of its skeleton, and the injected solution for the matrix layers is a highly permeable solution based on microcements, and expandable layers contain local soil with a change in the structure of its skeleton, and the injection solution for expandable layers is a poorly permeable solution based on bentonite., while the injection solution for the matrix layers contains,%:

microcement (microdur) (20-50) amorphous silica fume (5-15) hydrated lime (e.g. Ca (OH) ₂ (10-25) mineral microfiller, for example carbonate flour (20-50) slurry viscosity regulator e.g. superplasticizer C-3 up to 2% by weight of the binder water retention additive, for example cellulose up to 5% by weight of the binder,

and the injection solution for expandable layers contains,%:

bentonite (60-90) Portland cement (10-40) plasticizer up to 2 hardening accelerator to 10

The essence of the proposed technical solution is illustrated by drawings, where

in FIG. 1 shows a technological complex for leveling buildings and structures;

in FIG. 2 shows a diagram of a solution injector.

The technological complex for eliminating the precipitation of buildings and structures contains several tiers of channels 1 for mortar injectors, which are located under the foundation 2 of the building, injectors 3 of mortar placed in channels 1, expandable layers 4 and matrix layers 5. Layers 4 and 5 are a mixture of local soil with injected solution. In this case, the expandable layers contain local soil with a change in the structure of its skeleton, and the injected solution is a low-permeable solution based on bentonite, and the matrix layers contain local soil without a change in the structure of its skeleton, and the injected solution is a high-permeability solution based on microcements. The solution for the matrix layers contains,%:

microcement (microdur) (20-50) amorphous silica fume (5-15) hydrated lime (e.g. Ca (OH) ₂ (10-25) mineral microfiller, for example carbonate flour (20-50) slurry viscosity regulator e.g. superplasticizer C-3 up to 2% by weight of the binder water retention additive, for example cellulose up to 5% by weight of the binder,

and the injection solution for expandable layers contains,%:

bentonite (60-90) Portland cement (10-40) plasticizer up to 2 hardening accelerator to 10

The channels 1 for injectors are drilled from the shaft 6, which can be located both vertically and obliquely. Injectors 3 of the solution through channels 7 are connected to the pumping station 8 for supplying the solution, and through channels 9 are connected to the compressor 10 for supplying compressed air.

The solution injector comprises a housing 11 in which two inflatable locking pads 12 are mounted, an air duct 13 connected to the cavities of the inflatable locking pads 12 and connected through the channel 9 to the compressor 10, a solution hose 14 connected through the channel 7 to the pump station 8.

In the walls of the channel after a certain interval, holes 15 with elastic cuffs 16 are located, and the hose 14 contains holes 17.

The technological complex for eliminating the precipitation of buildings and structures works as follows. The injector 3 of the solution is installed in the channel 1 opposite the next hole 15 in the channel 1. The compressor 10 supplies air to the inflatable locking pillows 12, as a result of which the pillows lock the channel cavity. After that, the pumping station 8 through the holes 17 delivers a bentonite solution under a pressure of 20-50 bar. In this case, the expandable layer 4 expands, moving (pushing) the matrix layers 5.

Due to the fact that the supply of the solution starts from the lower tier and goes “from bottom to top”, the movement of the upper matrix layer 5 “δ _in ” is greater than the downward movement of the lower matrix layer 5 “δ _n ”. As a result, the foundation 2 of the building rises by the value of "δ _s ".

Layers 4 and 5 are formed as follows. The matrix layer 5 is formed in advance using the injector 3 by injection at a pressure of no more than 5 and a highly permeable solution based on microcements (the fineness of grinding is an order of magnitude or more different from conventional cements, i.e. all powders should have grains with a maximum size of no more than 5 μm). As a result, the pores of the soil are filled, and the skeleton of the soil is not broken. As a result, this soil can absorb pressure and move under pressure, helping to raise the foundation. The expandable layer 4 is already formed during the period of the foundation’s immediate rise due to the injection of a poorly permeable solution under high pressure (20-50 atm). As a result, the soil is mixed with the solution, the total volume of the layer increases, the layer 5 (its remaining part) moves and the foundation rises. The formation of an expandable layer can go in several stages to obtain the required accuracy of alignment of buildings or structures.

The main advantage of this technical solution compared to the prototype is the combination of the reliability of the matrix layer with the effectiveness of the expandable layer. The reliability of the matrix layer is achieved by the fact that it contains a highly permeable solution based on microcements, which, without violating the soil structure, by filling the pores significantly increases its resistance to tearing and cracking. The effectiveness of the expandable layer is achieved by the fact that it contains injected bentonite, and not cement mortar, which allows the lifting process to be carried out more smoothly and, as a result, it is possible to predict and, therefore, control it.

Claims (1)

Technological complex for eliminating the precipitation of buildings and structures, containing several tiers of channels for mortar injectors located under the building or structure, mortar injectors located in the canals, a pumping station for supplying mortar and a compressor connected via pipelines to the mortar injector located directly in the canal zone expandable layers located on the border with the expandable layers of the matrix layers, and the expandable layers and matrix layers are a mixture of local soil from the pump solution, characterized in that the matrix layers contain local soil without changing the structure of its skeleton, and the injection solution for matrix layers is a highly permeable solution based on microcements, and the expandable layers contain local soil with a change in the structure of its skeleton, and the injection solution for expandable layers is a low-permeability solution based on bentonite, while the injection solution for the matrix layers contains,%:
microcement (microdur) (20-50) amorphous silica fume (5-15) hydrated lime (e.g. Ca (OH) ₂ (10-25) mineral microfiller, for example, carbonate flour (20-50) slurry viscosity regulator e.g. superplasticizer S-3 up to 2% by weight of the binder water retention additive, for example cellulose up to 5% by weight of the binder,
and the injection solution for expandable layers contains,%:
bentonite (60-90) Portland cement (10-40) plasticizer up to 2 hardening accelerator to 10

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