RU2559274C1 - Method for elimination of water leaks in underground buildings - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for elimination of water leaks in underground engineering buildings includes drilling of holes and separate injection of reinforcing waterproofing solutions of cement-water slurry and liquid glass into them through the mixing nozzle under the pressure of 0.2-1.0 MPa. Cement-water slurry with W / C = 1.6-2.5, containing 5-10% from weight of amorphous silica fume cement, and 25-30% aqueous solution of liquid glass with density of 1.15-1.2 g/cm³ is used as reinforcing waterproofing solutions at the following ratio of the specified solutions respectively, wt %: 50-70 and 30-50.

EFFECT: provision of safe and long-term waterproofing of underground buildings, reduction of the materials consumption.

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Description

The invention relates to the field of construction and can be used to eliminate water leaks in the underground parts of buildings and structures, tunnels, collectors, water conduits, foundations, subway structures, etc.

A known application for waterproofing reinforced concrete tanks in underground structures is mortar, which includes, wt.%: Cement 25-45, water glass 1-3, organic binder - carboxylmethyl cellulose and aqueous dispersion of potassium alum (dry matter) 0.01-0.03, herbal excrement animals or peat treated with a 10-20% aqueous solution of caustic soda, 1-3, aggregate 5-25 and water - the rest (SU 1712336 A1. 02.15.1992, IPC С04В 28/00).

There is also a method of increasing the sealing of water leakage in underground structures through the use of a polymer having the ability to swell as a result of polymerization. It is advisable to use polymers obtained by polymerizing a composition containing polyalkylene glycol dimethacrylate with a molecular weight of 2500-5000 g / mol, and at least (meth) acrylate monomer, in particular, (meth) acrylate acid and amino (meth) acrylates .

Since the composition quickly hardens even at low temperatures, it is advisable to use a small-volume mixing chamber into which the polymer composition and initiator solution are introduced so that they mix, and immediately afterwards get to the place of use (RU 2496795 C2, 05/09/2008, IPC C08F 222/10; С09К 3/10; С09К 3/12).

The prototype of the proposed solution is a method for eliminating water leaks in underground structures, buildings, tunnels, sewers, water conduits, foundations, subway structures, etc., including in emergency situations.

The method consists in drilling holes and injecting reinforcing waterproofing compositions into them by separately supplying a cement-water suspension with W / C = 1-1.5 and liquid glass with a density of 1.3 to a mixing nozzle at a pressure of 0.2-1.0 MPa -1.6 g / cm ³ in the following ratio of these mixtures, respectively, wt.%: 75-90 and 10-25 (RU 2473745 C1. 09.09.2011, IPC E02D 31/02).

The disadvantage of this method is the inability to obtain a particularly quick-hardening injectable waterproofing composition in the case of, for example, emergency leaks in underground structures.

The technical task of this invention is a method for eliminating leaks through the use of quick-hardening inexpensive injection composition of mineral components, providing reliable and durable waterproofing of underground structures.

The solution to this problem is achieved by the fact that in the method of eliminating water leaks in underground structures, including drilling holes and separate injection into them through the nozzle under a pressure of 0.2-1.0 MPa reinforcing waterproofing solutions of cement-water suspension and water glass, as reinforcing waterproofing solutions injected with a cement-water suspension with W / C = 1.6-2.5, containing 5-10% by weight of cement of amorphous silica and 25-30% aqueous solution of water glass with a density of 1.15-1.2 g / cm ³ in the following ratio of these ra sections, respectively, wt.%: 50-70 and 30-50.

The hardening of the injected solution is accelerated by increasing the silicate module of the waterproofing composition (SiO ₂ / Na ₂ O) to 4.6 by introducing amorphous silica fume (AMA) into the cement-water suspension that meets the requirements of TU 5743-048-02495332-96 "Condensed silica fume "marks MK-85 and MK-65. Silica fume is a highly reactive pozzolanic SiO ₂ particles in an amorphous state having an average specific surface area of 20,000 m ² / g, an average granule size of 0.1 μm (100 nm), and a density of 2.2 g / cm ³ .

The method is as follows. In a tank with a volume of 200-250 l with constant stirring at a speed of 200-250 rpm (in order to prevent sedimentation), a cement-water suspension (CVS) with active silica fume is prepared at W / C = 1.6-2.5.

Liquid glass with a density of 1.3-1.6 g / cm ^{3 is} poured into a second container with a volume of 200-250 l and diluted with water to obtain a 25-30% aqueous solution of water glass (RHS) with a density of 1.15-1.2 g / cm ³ .

Both tanks are equipped with pumps with adjustable feed rates of cement-water slurry and liquid glass through separate hoses connected by a fitting. Mixing of the components takes place in the fitting introduced into the waterproofing zone.

All water located in the waterproofing defective zone turns into a gel-like state in contact with the waterproofing solution and acquires water-repellent properties, additionally providing complete waterproofness.

Investigations were made of the properties of the waterproofing layer formed in the leak zone. The ratio of the components of the compositions and properties are shown in table 1.

Claims (1)

A method for eliminating water leaks in underground engineering structures, including drilling holes and injecting them into them through a mixing nozzle under a pressure of 0.2-1.0 MPa of reinforcing waterproofing solutions of cement-water suspension and water glass, characterized in that as reinforcing waterproofing solutions inject a cement-water suspension with W / C = 1.6-2.5, containing 5-10% by weight of cement of amorphous silica fume, and a 25-30% aqueous solution of water glass with a density of 1.15-1.2 g / cm ³ in the following ratio of these p cross-sections, respectively, wt.%: 50-70 and 30-50.