RU2441114C2 - Method for strengthening and bio-moisture protection of wooden piled foundations - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for strengthening and bio-moisture protection of wooden piled foundations includes treatment of soils that are close to a pile cluster with a pressurised hydroactive polyurethane solution into a well located near the strengthened piles. Prior to supply of the hydroactive polyurethane, 10% solution of dimethyl phosphate is injected into the space around piles.

EFFECT: higher quality of strengthening and bio-moisture protection of wooden piled foundations.

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Description

The invention relates to the production technology of construction and restoration works. Many structures stand on wooden pile foundations - monasteries of the north of Russia, the Kremlin of ancient cities, buildings and structures of Moscow and St. Petersburg. The invention can be used in the restoration of buildings and architectural monuments of Russia and Moscow, wherever there is a need to preserve collapsing piles.

There are ways to strengthen the soils under buildings and soils that are directly adjacent to them, using cement (patent RU 2204650, E02D 3/12; Vlasov SN Construction of subways. Chapter XI, Publishing House Transport, 1987) . The use of cement compositions has a significant minus: cement mixtures are quite viscous, as a result, their penetrating ability is very small. In addition, they have a high flow rate, slowly reach bearing capacity and are prone to settling upon hardening.

There are ways to strengthen soils using polyurethanes (Shilin A.A., Kirilenko A.M., Suchenko V.N. Experience in the use of hydroactive polyurethane foams / Underground space of the world. - 1995, No. 6, p.29-34), using a single-component composition. Moreover, the known methods are designed for soils, and not for the system "piles - soil". Using only polyurethanes alone does not save the pile wood. On the contrary, piles, being in a waterproof "cover" of polymer, rot even faster.

The purpose of the invention is to improve the quality of strengthening and bio-moisture protection of wooden pile foundations.

This goal is achieved by the fact that in the method of strengthening and bio-moisture protection of wooden pile foundations, including the processing of soils located close to the pile bush, supplied under pressure with a polyurethane-reactive composition to a well located next to the reinforced piles, according to the invention, before the hydro-active polyurethane is fed into the near-pile space 10% aqueous solution of dimethylphosphite is pumped.

The proposed method improves the quality of strengthening and bio-moisture protection of wooden pile foundations.

The essence of the method lies in the fact that the required quantity and location scheme of injection wells are calculated by porosity and soil filtration coefficient. Then, using a piston pump, a 2-component composition is pumped, which serves for the integrated processing of pile wood. The components are applied separately. The first component is applied, consisting of phosphoric acid esters, which allows to achieve biocidal resistance of the treated wood, as well as to prevent the development of colonies of wood-destroying fungi under the protective film, which is obtained by processing the second component.

The second component is applied after applying the first component after a certain time required for flushing the equipment. The second component consists of isocyanate-based hydroactive polyurethanes, which are cured by soil moisture, moisture contained in wood and in the solution of the first component. As a result, soil water becomes chemically bound. The second component allows you to get a protective film on wood, which is water-repellent and has a reinforcing effect, increasing the strength of the processed wood, depending on the consumption, by 2.0-2.5 times.

Along with the strengthening of the processed wood, the adjacent soils are being strengthened. If necessary, the viscosity of the polymer can be changed over a wide range, achieving better penetration. Start the injection of the first pit with low pressure. Injection is carried out until the resin reaches the next pit. Start injecting the next pit. After injection, several pits return to the first and inject again. In order to avoid excessive consumption of material, as well as to prevent the release of unreacted resin, it is recommended to take a break between the first and second injection for at least 30 minutes. During injection, it is necessary to monitor the pressure reading. If it increases sharply, stop injecting this pit. Pressure depends on the geological characteristics of the soil and is 100-600 MPA.

The viscosity of the second component can be changed by adding acetone from 5% to 20%, the kinetic viscosity is reduced by 40 times. When solvent is added from 10% to 30%, the viscosity decreases by 7 times.

Curing occurs due to the specific reaction of the isocyanate group with polyols, as well as a result of chemical interaction with water with the release of carbon dioxide. Curing time varies from an hour to 2.

Thus, the proposed method is a reasonable alternative to the above methods and has several advantages over previously used methods.

An example implementation of the method.

The toluene diisocyanate is poured into the polyester portion in a ratio of 2: 1. A polyester is a polyaddition product of propylene oxide and / or ethylene oxide to a polyatomic alcohol, such as ethylene glycol, propylene glycol, glycerin, etc.

The functionality of the polyester is 2. To this is added a catalyst, usually dimorpholinodiethyl ether, which promotes the interaction of the isocyanate moiety with the polyester, but does not cause isocyanate trimerization.

A 10% aqueous solution of dimethylphosphite is injected under pressure into injection wells. The amount is calculated depending on the type of soil and the number of injectors, it is 10-50 liters per 1 square meter of base.

Then after an hour, add hydroactive polyurethane obtained by the above method. The amount of polyurethane is regulated by pressure. When excessive pressure is created, the injection is stopped. It is not possible to determine the flow rate in advance due to the presence of voids that remain in place of rotten piles. The reaction time of the polyurethane with water takes about 1-2 hours. Wash the pump with anhydrous acetone or technical solvent.

Claims (1)

The method of strengthening and bio-moisture protection of wooden pile foundations, including the processing of soils located close to the pile bush under pressure, with a hydroactive polyurethane composition into a well located next to the reinforced piles, characterized in that 10% aqueous water is pumped into the near-pile space before the hydroactive polyurethane is fed dimethyl phosphite solution.