CS199975B1 - Method of buildings and construction works drying,watterlogged by climbed moisture - Google Patents

Description

The invention relates to a method for drying buildings and structures wetted by rising damp.

One of the unresolved problems of the renovation of old buildings is the wetting of the foundation and ground walls with rising damp, which causes the plaster to fall and the rooms become unusable not only for housing but also for other purposes.

Existing processes without major construction work are of two kinds. One way is to use electroosmos, but it is not generally applicable to all objects. The second method used is to make oblique boreholes through which infusions of solutions containing substances which are able to form a curtain against rising damp in the masonry are introduced. Such a substance is, for example, water glass, most often potassium, with the addition of a hydrophobizing agent based on alkali methylsilanolates. In this process, alkali salts are introduced into the structure of the building material, which are converted to carbonates by the action of carbon dioxide from the air, releasing the silica gel, sealing the pores of the building material against rising water, wherein the organosilicon hydrophobizing agent impregnates the impregnated portion with masonry and silica gel. .

An important disadvantage of this process is the introduction of large amounts of alkali salts into the building material, which causes efflorescence and disturbance of the Meahanian properties of the building material.

Hydrophobic organosilicon can also reduce the effect of rising damp

199 975

189 975 substances that do not close or reduce pores in the masonry, but only remove the capillarity of water in the masonry capillary system. The disadvantage of this procedure is that the formation of an organosilicon film does not result in a reduction in the pore size and hence a higher density and compactness of the masonry, so that after the hydrophobic effect disappears, the condition is the same as before infusion. Another disadvantage is the introduction of large amounts of harmful and flammable organic solvents into the building material.

SUMMARY OF THE INVENTION The present invention provides a method for drying buildings and structures wetted by rising damp, wherein a hydrophobic solution containing colloidal silicic acid having an average particle size of 10 to 20 millimicrons is injected into the masonry to form a chemical transverse horizontal and vertical curtain against rising damp. 1 to 10 wt. % of organosilicon, highly hydrophobic substances of the general formula

M | R ₂ SiZI _n R ₂ SiM 'where:

R is alkyl or alkoxy to,

Z 0, NH, S, C ₈ H ₄ , C ₁₂ H 8 or (CH 2 to 10,

M, M 'the same or different OR, OH, NH ₂ , SH or salts thereof and 0 to 20.

There is a chemical bond between the individual components of the infusion solution between the colloidal silica and the hydrophobizing organosilicon composition, so that the resulting gel contains hydrophobic groups bound by a solid chemical siloxane bond. This achieves 1 exceptional stability of the hydrophobic effect under unfavorable wet masonry conditions.

The method of drying buildings according to the invention eliminates the disadvantages of all currently used methods and sealants based on a mixture of potassium water glass and a hydrophobizer, since alkali metal ions are always introduced into the masonry structure when infusing the compositions of this type. When using these devices, it is therefore never possible to exclude the possibility that, under certain conditions, the masonry may be deeply damaged after some time. The sealing agent according to the invention thus represents a significant qualitative improvement of the state of the art in the whole area of the sealing agents based on water-glass solutions. It can be used to seal brick, stone and mixed masonry up to approx. 200 cm thick. It can also be used to seal other types of building structures, such as reinforced concrete structures.

The sealing agent according to the invention also eliminates the disadvantages of organosilicon hydrophobizing solutions, since it is not necessary to introduce it in a solution of organic solvents and the maximum part of the silica introduced is applied in the form of a colloidal silica solution. In addition to removing flammable and harmful solvents, this also means a substantial reduction, at least ten times, of the cost of the sealant.

By sealing the masonry with the compositions according to the invention, further improvements in the infusion technology are achieved in comparison with other conventional sealing and hydrophobizing agents. Due to the large radius of penetration of this agent into the structure of porous materials, some of its species (bricks, some natural stone, such as sandstone and marlwood) can be reduced to 1 bm from six to four wells. Reducing the number of boreholes is advantageous for both static and economic reasons (financial pores of the wells and financial savings on the sealant).

The following is an example of carrying out the process of the invention.

Example

Horizontal and vertical transverse chemical insulation against rising capillary moisture from the bases of the building was created in a 120 cm thick wall by infusing the sealant using the hydrostatic pressure of a 150 cm liquid column. The actual infusion was carried out by impregnating the sealing solution into each well from a separate container, for example from a 1 to 5 liter polyethylene bottle with a cut bottom, covered with a lid with a small opening to equalize the atmospheric pressure inside the container. The neck of each container was tightly connected to a polyethylene tubing with an inner diameter of ca 10 mm. The other end of this tubing was inserted into an infusion well and sealed at its mouth with, for example, cement mortar. Each infusion borehole was filled with 3 to 5 liters of sealing solution, depending on the water absorption of the given type of building material and the type and technical condition of the masonry.

Infusion boreholes were made from outside and inside the masonry structure according to local conditions. The diameter of the wells was 35 to 38 mm, the inclination of the wells from the horizontal plane down to 15 to 20 °. The boreholes were made in a plane perpendicular to the opposite face of the wall, halfway through the wall thickness, with the relative displacement of the borehole centers on the two face of the wall facing each other in the horizontal direction about 8 to 12 cm. The boreholes were made at the same horizontal level in two rows spaced 15-25 cm apart.

Upon complete absorption of the prescribed amount of sealing solution into the infusion wells, about 3 to 5 days after the end of the infusion, the infusion wells were filled and sealed with fine-grained cement mortar. After about 14 days, the damp screen formed by the sealing means according to the invention began to act and the object began to dry visibly.

The use of the method of drying buildings and structures according to the invention can be used, for example, to seal pores and capillaries and hydrophobize their internal surfaces in masonry and bonding mortar structures. Due to the small size of the silica particles in the colloidal solution and the fact that the organosilicon is applied in low molecular weight as a true solution, the sealant is suitable for sealing not only the macrostructure but also the microstructure of building materials. Since the sealing solution practically does not contain any harmful substances, such as alkali metal ions, chlorides, etc., from the point of view of corrosion of the building materials, this is particularly advantageous for use in the whole area of monument care.

Claims (1)

SUBJECT OF THE INVENTION A method for drying buildings and building structures wetted with rising damp, characterized in that a hydrophobizing solution containing colloidal silicic acid having a mean particle size of 10 to 20 millimicrons is infused into the masonry to form a chemical transverse horizontal and vertical screen against rising damp. alkali, with addition of 1 to 10