RU2206675C2 - Process of insulation of structures exposed to moisture - Google Patents

Abstract

FIELD: civil engineering, formation of hydraulic insulation layer in brick wall of building to protect it against moisture attack. SUBSTANCE: process of insulation of structures exposed to moisture includes drilling of two rows of holes and filling of these holes. Holes of upper row are filled with water repelling solution and holes of lower row are slushed with building mortar, for instance, sand-cement mixture. Electrodes are installed in holes of upper row which are connected to one output terminal of power supply source and electric connection of building mortar is ensured with second terminal of power supply source. Power supply source is switched on and off as water repelling solution reaches building mortar. In the capacity of water repelling solution there is taken complex silicon organic compound presenting organosilicite composition with structure

where R,R^I,R^II are end organic radicals of predominantly methyl groups. Power supply source is switched off with intermittent increase of electric current flowing between electrodes and building mortar. EFFECT: formation of hydraulic insulation layer with required quality of insulation with minimized consumption of water repelling solution and electric energy, raised productivity of hydraulic insulation operations. 2 cl, 1 dwg

Description

 The invention relates to the construction, namely, the reconstruction and restoration of buildings, specifically to a method for creating a waterproofing layer in a brick wall of a building to protect against moisture.

 The operation of building structures largely depends on the quality of waterproofing works. In the case of destruction of the waterproofing, the process of moistening the foundation and brickwork of the building occurs, the insulating properties are violated.

 There is a method of creating a horizontal waterproofing layer in a brick wall of a building, including drilling holes in the wall and introducing a high-temperature heater into it, moving it sequentially to create a waterproofing layer in the form of a glass phase [1]. The disadvantages of this method are significant energy consumption and obtaining a layer that worsens the structural strength of the wall due to the presence in the masonry of an amorphized mineral phase.

 There is a method of waterproofing brick walls, including the formation of through holes in separate sections to a thickness of three bricks or more, laying a waterproofing layer in the formed gap with the subsequent introduction of cement mortar into the gap [2].

 The main disadvantage of this method is that when cutting holes there are unacceptable deformations in the walls of buildings, contributing to the destruction of the building.

 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, and the electrodes of each pair are connected to the same ground element [3].

 The disadvantage of this method is the provision of isolation only under the action of galvanic cells.

 In terms of the number of common features and the achieved result, the closest to the claimed one is a method of isolating building structures from moisture, including making holes in two rows and installing electrodes in them, filling them with a waterproofing solution and simultaneously passing an electric current, which is turned off as the solution reaches the lower electrodes row [4].

 The disadvantages of this prototype method are the increased flow rate of the hydrophobizing solution due to its seepage into the masonry voids located under the openings of the lower row. In the case of transmission of electric current during the implementation of the insulation procedure, there is an overspending of electrical energy.

где R, R^I, R^II - концевые органические радикалы преимущественно метальных групп.The objective of the invention is to develop a method of isolation of building structures from moisture, during the implementation of which a waterproofing layer is formed, providing the necessary quality of insulation while minimizing the consumption of water-repellent solution and electrical energy, in the case of using a voltage source. This problem is solved in that in the known method of isolating building structures from moisture, including making holes in two rows and filling these holes, the holes in the upper row are filled with a hydrophobic mortar, and the holes in the lower row are filled with a mortar, for example, a sand-cement mixture. The combination of such operations provides a water-repellent agent due to the exclusion of its penetration into the massif of the building structure, for the openings of the lower row. In one of the possible examples of the implementation of the proposed method, in the holes of the upper row, electrodes are installed that are connected to one of the output terminals of the electric power source and provide electrical connection of the mortar with the second terminal of the said source, turn on the electric power source and turn it off when the water-repellent solution reaches the building solution, and as a hydrophobizing solution take a complex organosilicon compound, representing e is an organosilicate composition with a structure

where R, R ^I , R ^II are terminal organic radicals of predominantly methyl groups.

 In another possible example of the implementation of the method, the electric power source is turned off when the value of the electric current flowing between the electrodes and the mortar jumps. This ensures the directed movement of the molecules of the water repellent in the massif of a brick wall under the influence of an electric field and creates a reliable insulating layer with a minimum consumption of water repellent solution. The ability to automatically turn off the source of electrical voltage and stop the flow of water repellent in the openings of the upper row at the very moment of the formation of the waterproofing layer ensures the maximum possible productivity of waterproofing work with minimal consumption of consumables and electrical energy.

 An example implementation of the method is illustrated in the drawing. The insulation process of the building structure 1 is carried out as follows: after drilling holes 2 and 4 and placing the electrodes 5 in the holes 4, the holes 2 are filled with a building mixture 3, for example, with a sand-cement mortar, and the holes 4 with a solution of water repellent, for example a complex organosilicon compound, and include a source power 7. When you turn on the power source 7, the water repellent diffuses into the brickwork to the mortar. With the penetration of the water repellent to the mortar due to its electrical conductivity, the current in the circuit increases stepwise and the rate of change of electric current 8 opens the controlled key 9 of the power source 7. This provides an economical consumption of electric energy and water repellent solution.

 The preliminary injection into the holes of the lower row of the building mixture is carried out in order to monopolize the discontinuities present in it, which does not go beyond the essence of the claimed technical solution.

 The inventive method can be implemented using well-known building technologies in the practice of repair work during the reconstruction of buildings of historical buildings. Aquasil is used as the organosilicon compound. The experiment carried out at the Scientific Research Institute of SM at TTASU confirmed the prospects of the proposed method and its application on a number of architectural monuments of federal significance in the city of Tomsk.

Sources of information
1. Grachev I.A., Zhinkin G.N., Rabinovich G.M. Waterproofing basements and walls of buildings. - L .: Stroyizdat, 1976, p. 72.

 2. Friedman O.M. The dampness of the brick walls of buildings and its elimination using electroosmosis. - L., 1961, p. 7.

 3. Express information. Series "Housing". 32, 1976, p. 4.

 4. A.S. USSR 815193, class E 04 In 1/64, 1981 (prototype).

Claims (3)

 1. A method of isolating building structures from moisture, including making holes in two rows and filling these holes, the holes of the upper row being filled with a hydrophobic mortar, characterized in that the holes of the lower row are filled with mortar, for example, a sand-cement mixture. 2. The method according to claim 1, characterized in that in the holes of the upper row, electrodes are installed that are connected to one of the output terminals of the electric power source and provide electrical connection of the mortar with the second terminal of the said source, turn on the electric power source and turn it off as achieving a hydrophobizing solution of a mortar, moreover, as a hydrophobizing solution take a complex organosilicon compound, which is an organosilicate composition with structure

where R, R ^I , R ^II are terminal organic radicals of predominantly methyl groups.  3. The method according to claim 2, characterized in that the electric power source is turned off when there is an abrupt increase in the value of the electric current flowing between the electrodes and the mortar.