RU2033500C1 - Method of building construction insulation from moisture action - Google Patents

Abstract

FIELD: building industry. SUBSTANCE: method involves hole filling before electrode assembly with 5-7% aqueous emulsion of by-side product on the basis of alkylchlorosilane in polymethylsiloxane resin production. Current is passed for 14-16 h. EFFECT: improved method of insulation.

Description

 The invention relates to construction, namely to the insulation of building structures and structures, for example, water protection of building structures, and can be used to isolate the walls of old buildings from moisture.

A known method of isolating building structures from moisture, including drilling holes, placing electric heaters in these holes, drying the treated masonry zone, removing electric heaters from the holes, filling the holes with a waterproofing mortar, drying the treated masonry zone, sealing the holes with cement [1]
The specified method does not provide continuous insulation of structures from moisture, because when the walls are dried by electric heaters, the salts dissolved in moisture clog the capillaries during evaporation and, after drying, the passage of the waterproofing liquid into the capillaries is difficult.

A known method of electroosmotic isolation of walls from moisture, including monolithic in the walls of the electrodes, which are placed in two rows in pairs parallel to each other. The electrodes of each pair are connected to the same ground element [2]
The method does not provide high-quality wall insulation, which occurs only with the action of galvanic cells.

 The closest in technical essence is a method of isolating building structures from moisture [3], which consists in the fact that holes are made in two rows, electrodes are installed in them. After installing the electrodes, the holes are filled with a waterproofing solution and at the same time an electric current is passed, which is turned off as the solution reaches the lower row of electrodes. As a waterproofing solution, water glass is used. The duration of exposure to electric current is to ensure an insulating effect of 24-35 hours

 The purpose of the invention is the development of a more economical method of isolation of building structures from moisture, providing reliable insulation in a shorter time of exposure to electric current.

 The goal is achieved as follows. Holes are made in building structures, for example, in the walls of buildings, before the electrodes are installed, they are filled with a by-product of the production of polymethylsiloxane resins in the form of a 5-7% aqueous emulsion, followed by passing a constant electric current for 14-16 hours.

A by-product of the production of polymethylsiloxane resins contains the following components, wt. Ethylchlorosilane 5.5-10.5 Methylchlorosilane 4.5-7.5 Benzoyl peroxide 0.5-1 Hydrochloric acid 1.0-2 Water else
The novelty of the invention lies in the use of production waste, which ensures the efficiency of the method.

 The composition of the production waste, its viscous and electrolytic properties provide a quick and uniform distribution of the latter in masonry. Benzoyl peroxide initiates the polymerization of monomers inside the capillaries and provides reliable isolation from moisture. Thus, the invention meets the criteria of "novelty" and "inventive step".

 The duration of the electric current is determined by the end of the spreading effect of the hydrophobizing solution, i.e. the experimentally identified duration of 14-16 hours is necessary and sufficient to ensure the effect of waterproofing. A decrease in the concentration of production waste leads to an increase in water absorption of the wall structure by 1.5 times, and an increase in concentration reduces the wetting angle.

PRI me R 1. In a brick wall made of red clay bricks, holes were drilled at an angle of 15 ^about (with a slope to the outside of the wall) to a depth of 30 cm with a diameter of 30 mm The hole pitch is 0.5 m. The distance between the holes is 0.6 m. A copper electrode 1 with a cross section of 3 mm ² and a carbon electrode 2 with a cross section of 1 mm ^{2 were used} . The electrodes 1 and 2 were connected to each other using horizontal communication conductors, which were copper insulated wires. As a negative (active) electrode, the protector MGA-1 was used in the form of a steel core with a diameter of 4 mm with one lead for connection with electrodes 1 and 2. The protector was installed in a pit, the bottom of which was covered with a filler 15 cm thick. The remaining space was filled with filler above the tread level 15 cm. The tread was connected to the electrodes using a vertical communication conductor. As galvanic cells, a copper-zinc cell was used.

At the beginning of the experiment, a 5% solution of production waste by-product of the production of polymethylsiloxane resins was fed through all the nozzles into all openings intended for electrode placement. A current of 0.07 mA was passed for 14 hours. The hydrophobization effect was confirmed by the measurement of water absorption, which was 1.8% and a contact angle of 142 ^o . The appearance of a whitish strip 30 cm wide on the brick wall testified to the directional and uniform distribution of the water repellent in the thickness of the wall.

PRI me R 2. Analogously to example 1, the preparation of a brick wall for the experiment. A 7% solution of a by-product of the production of polymethylsiloxane resins was fed into the holes. The current value is 0.07 mA. The current is supplied for 16 hours. The effect of hydrophobization: water absorption of 1.2% contact angle of 140 ^o . The appearance on the brick wall of a whitish strip 30 cm wide indicates a uniform distribution of water repellent.

 Thus, as can be seen from the above examples, the developed method provides a high hydrophobization effect, is economical, because used production waste, reliable, because there is a uniform distribution of water repellents in the capillaries. In addition, the composition of the water repellent agent involves the formation of a polymer film that prevents the penetration of moisture.

Claims (1)

 METHOD FOR INSULATING CONSTRUCTION STRUCTURES FROM INFLUENCE OF MOISTURE, including making holes, installing electrodes in them, filling the holes with a waterproofing solution and passing electric current, characterized in that the holes are filled before installing the electrodes with a 5-7% aqueous emulsion of a by-product based on alkylchlorosilane from production of polymethylsiloxane resins, and an electric current is passed for 14 to 16 hours