RU2081976C1 - Method for protection of water-proofing carpet from swelling in repair and arrangement of roofing - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: method refers to repair and construction of rolled and mastic roofing based on cement slurry layer placed over thermal insulation course in warmth-keeping covering. In repair and construction of roofing, holes are made in cement slurry layer with cross-sectional area of 0.2-40 cm2 at spacings of 5-80 cm and these holes are filled with friable or loose material. In repair, these holes are made by reaching through holes made in water-proofing carpet which are sealed off afterwards. Making holes in cement slurry course ensures equalization of pressure of steam-air mixture in covering at both sides of cement slurry course and prevents formation and growing of swells in water-proofing carpet without disturbing its continuity. Arrangement of holes will not lead to penetration of atmospheric precipitation into covering and will not increase moisture transfer in it. Specific spending for protection of water-proofing carpet from swell is not over 2% of total cost of repair and construction of roofing. EFFECT: high efficiency.

Description

 The invention relates to construction production, and in particular to methods of repair and installation of rolled and mastic roofs, the basis for which is the surface of the screed laid for thermal insulation in an insulated coating.

 A known method [1] of protecting a waterproofing carpet from bloating by piercing and releasing a steam-air mixture from closed cavities, and then sealing the puncture sites with waterproofing material.

Obtaining the required technical result is hindered by: maintaining the conditions for the re-occurrence and growth of blisters in the repaired area of the roof; the impossibility of applying the method with a swelling area of more than 0.5 m ² ; thickening of the waterproofing carpet.

 There is a known method [2] of eliminating blisters of a waterproofing carpet, in which a waterproofing carpet is pierced above a closed cavity, and a solvent is injected into the resulting hole, after which the repair area is compacted.

 Obtaining the required technical result is hindered by the preservation of conditions for the re-occurrence and growth of blisters in the repaired section of the roof, the impossibility of implementing the method in the absence of a primed base under the waterproofing carpet, as well as in the presence of water in the cavity between the base and the waterproofing carpet.

 There is a method [3] of eliminating blisters of a waterproofing carpet by means of a crosswise cut of a defective area with subsequent drying of the base and re-gluing of the turned parts of the carpet onto it, while a patch of rolled material is placed on top of the carpet on the mastic with an inlet outside the notch.

 Obtaining the required technical result is hindered by the preservation of conditions for the re-occurrence and growth of blisters in the repaired area of the roof, as well as the thickening of the waterproofing carpet, which impedes the flow of water from the roof, and the complexity of the repair increases.

 A known method [4] of protecting a waterproofing carpet from bloating by partially gluing it to the base when roofing is installed, as a result of which the conditions for the appearance of excessive pressure due to the formation between the waterproofing carpet and the base of the air gap communicating with the outside air along the roof contour or through special exhaust devices.

 The required technical result is prevented by the inadmissibility of applying the method in the repair and installation of coatings without vapor barrier, which prevents the intensive formation of condensate under the waterproofing carpet in the cold season, as well as coatings with a roof slope of more than 8%. In addition, there is a danger of the waterproofing carpet tearing off the base in strong winds and increase the cost of operating the roof.

 The closest in technical essence is the method [5] of protecting a waterproofing carpet from bloating by leveling the elasticity of the vapor-air mixture in a coating with outside air, in which closed cavities are opened between the waterproofing carpet and the base using a cross-shaped cut of the carpet. Then, a through hole is made in the center of the cut in the screed, which is filled with loose heat-insulating material. A vent pipe is installed over the hole in the screed, after which the turned-off layers of the waterproofing carpet are sealed.

 Obtaining the required technical result is prevented by atmospheric precipitation (especially when snow melts) in the coating through pipes arranged in the waterproofing carpet and holes in the screed, as well as increasing the breathability of the coating, which contributes to the increased penetration of the air-vapor mixture from the room (building) into the coating and condensation in the coating water vapor in the cold season with moisturizing thermal insulation, which degrades the thermal insulation properties of the coating and can lead to its freezing when negative at outdoor temperatures. The above limits the possibility of applying the method for coatings without vapor barrier, significantly affecting the breathability of the coating. The prototype does not indicate the presence of vapor barrier in the coating. In addition, there is a significant complexity of the method, a large consumption of material, increased complexity of the operation of the roof.

 To achieve a technical result, it is proposed to limit the increase in the pressure of the vapor-air mixture in the closed cavity between the screed and the waterproofing carpet above the pressure of the steam-air mixture in the coating under the screed, while preventing atmospheric precipitation from entering the coating through the waterproofing carpet and without increasing the air permeability of the coating.

The technical result is achieved by the fact that the method of protecting the waterproofing carpet from bloating during repair and installation of roofs of insulated coatings with a screed of capillary-porous materials laid on thermal insulation, in which to remove the accumulation of vapor-air mixture and water penetrating under the carpet from the lower layers of the coating, the coupler perform through holes and fill them with loose or loose material. At the same time, the holes in the screed are made with a cross-sectional area of 0.2–40 cm ² each, with a distance of 5–80 cm from each other, and when installing the roof, the holes in the screed are made before laying the carpet, and when repairing the roof, holes are first formed in the carpet and through them holes in the screed, while after filling the holes in the screed with loose or granular material, the holes in the carpet are sealed.

 The swelling of a waterproofing carpet usually takes the form of a spherical segment, resulting from the expansion of the vapor-air mixture in a closed cavity between the airtight softening when heated by sunlight, a waterproofing carpet and a rigid base with a cement or asphalt screed with a capillary-porous structure of the material. A feature of the screed made of materials with such a structure is that with an increase in the degree of water saturation of the material, for example, during condensation in the coating of water vapor, its air permeability is significantly reduced. At maximum water saturation, the screed becomes airtight, withstanding a pressure drop of several tens of mm water column. The greatest pressure in the cavity occurs during solar exposure in the warm season.

 Upon termination of solar radiation and lowering the temperature of the waterproofing carpet, the materials from which it is made harden and the carpet becomes hard, fixing the volume of the closed cavity. Then, as a result of a process close to isochoric, with a decrease in the temperature of the vapor-air mixture in the cavity, steam condenses from the mixture, the pressure of the vapor-air mixture decreases, and a vacuum occurs. If the differential pressure is exceeded, at which the screed becomes breathable, the suction through the capillaries and pores in the screed of an additional amount (to the existing in the cavity) of water and air from the thermal insulation begins, as a result of which the vacuum gradually decreases. Leaking can last for several hours, for example, all evening and all night.

 With the resumption of solar radiation and an increase in the temperature of the waterproofing carpet, it softens and partially loses its mechanical strength. The air-vapor mixture is heated through the carpet, the amount of which has increased due to the suction of water and air from the thermal insulation. An increase in the temperature of the mixture is accompanied first by the final elimination of vacuum, and then by an increase in pressure in the cavity. The latter causes tensile forces in the waterproofing carpet, upon reaching which in value is higher than the tensile and adhesive strength of the softened materials of the waterproofing carpet, it is deformed, that is, elongation and bending of the waterproofing carpet occurs over the cavity, and along the perimeter the carpet partially breaks off from the base, which As a result, it leads to an increase in the volume of the cavity and a decrease in the pressure of the vapor-air mixture in it. For this reason, the absolute value of the pressure drop on both sides of the screed usually does not reach those values that occur when the solar exposure ceases. In addition, the period of the day when the pressure in the cavity is higher than atmospheric is more than 4 times longer than the period with rarefaction of the vapor-air mixture in the cavity.

 With repeated repetition of cycles of alternate heating and cooling of the waterproofing carpet and the air-vapor mixture in the cavity, there is a gradual increase in the swelling of the waterproofing carpet.

To prevent pressure buildup in the cavity, which causes tensile forces in the waterproofing carpet, while preventing atmospheric precipitation from entering the coating through the waterproofing carpet and without increasing the breathability of the coating, it is proposed to make holes in the carpet and repair holes in the screed with a cross-sectional area when repairing the roof each 0.2-40 cm ² , located at a distance of 5-80 cm from each other, then fill them with loose or loose material. Then seal the holes in the carpet. When installing the roof, holes are made only in the screed before laying the waterproofing carpet. During operation of the coating, the openings in the screed ensure an isobaric process (P const) when the parameters of the steam-air mixture in the cavity change due to free moisture and air exchange between the cavity and the pore volume, voids in the thermal insulation. Then, during solar irradiation with increasing temperature, pressure does not increase, since the additional volume of the vapor-air mixture resulting from its expansion and evaporation of the condensate freely leaves through the through holes in the screed into the insulation layer.

 Upon termination of solar radiation with a decrease in the temperature of the vapor-air mixture and condensation of vapor in the cavity, a weak vacuum occurs, which is immediately eliminated as a result of the penetration of the vapor-air mixture from the higher pressure region (from thermal insulation) to the low-pressure region (into the cavity). Thus, the volume of the cavity remains constant and the growth of swelling does not occur.

 Filling the openings in the screed with loose or loose material prevents the softened roofing materials from flowing in the waterproofing carpet and does not interfere with free moisture and air exchange between the swelling cavity and the pore volume, voids in the thermal insulation.

 Sealing holes in a waterproofing carpet is necessary to prevent atmospheric precipitation from entering the coating and to reduce the breathability of the coating. The latter helps to reduce the amount of water vapor condensing in the coating from the air, especially in the absence of vapor barrier in the coating. Ultimately, sealing the holes in the carpet protects the insulation materials and screeds from moisture, and at low outside temperatures, in addition, from freezing of the coating.

 The rationale for the selected limits is as follows.

When the area of one hole in the screed is less than 0.2 cm ² , jamming of loose or granular material and clogging of the hole may occur in it.

When the area of one hole in the screed is more than 40 cm ² , the punching and rupture of the roofing carpet from temporary loads perceived by the roof are possible.

 The location of the holes in the screed at a distance of less than 5 cm from each other reduces the cross-sectional area of the screed and creates the risk of cracking it even with minor stresses arising in the screed.

 The location of the holes in the screed at a distance of more than 80 cm from each other can lead to the appearance and growth of blisters in the spaces between the holes.

The difference of the invention from the prototype is:
when installing the roof, the holes in the screed with filling them with loose or granular material are performed before laying the waterproofing carpet with a cross-sectional area of 0.2-40 cm ² each with their location at a distance of 5-80 cm from each other;
when repairing the roof, they first form holes in the carpet and through them holes in the screed, and after filling the holes in the screed with loose or loose material, the holes in the carpet are sealed.

 Thus, the claimed invention meets the requirement of novelty.

 The proof of compliance of the invention under consideration with the requirements of the inventive step can be as follows: holes in the screed made when installing the roof before laying the waterproofing carpet, and when repairing through holes in the waterproofing carpet and filled with loose or loose material, they limit the pressure increase of the vapor-air mixture in the closed cavity between the screed and waterproofing carpet above the pressure of the vapor-air mixture in the coating under the screed due to equalization of pressure on both sides of the screed, since conditions are created for communicating the volume of the closed cavity between the waterproofing carpet and the screed with the space formed by the pores and voids in the thermal insulation. These conditions provide free air and moisture exchange between them.

 Filling the holes in the screed with loose or loose material eliminates the leakage of softened roofing materials and does not impede free moisture and air exchange between the swelling cavity and the pore volume, voids in the thermal insulation.

 Sealing the openings in the waterproofing carpet when repairing the roof or laying the carpet when installing the roofing prevents: atmospheric precipitation from entering the coating and reducing its air permeability (the latter reduces the amount of water vapor condensing from the air in the coating), protecting the insulation materials and screeds from moisture, and when negative outside temperatures from freezing of the coating.

 All of the above makes it possible to limit the increase in the pressure of the vapor-air mixture in the closed cavity between the screed and the waterproofing carpet to a value higher than the pressure of the steam-air mixture in the coating under the screed, to prevent atmospheric precipitation from entering the coating through the waterproofing carpet and not to increase the air permeability of the coating.

 Thus, the present invention meets the requirement of inventive step.

 The cost of protecting the waterproofing carpet with the device of the holes according to the proposed method is reduced by about 8 times.

 The possibility of carrying out the invention is confirmed by the following information.

When repairing a rolled roof of roofing material glued on bitumen mastic to the leveling screed in the waterproofing carpet and screed in the center of each swelling, through-hole coaxial holes are drilled with a diameter of 0.8 cm (cross-sectional area of 0.5 cm ² ). The holes in the screed are filled with mineral wool, and the holes in the carpet are sealed by gluing them on top with a patch of roofing felt.

When installing a new roof, before stitching the roofing carpet in a screed in a checkerboard pattern at a distance of 40 cm from each other, holes are drilled or drilled with an area of 0.5 cm ² , which are filled with mineral wool. Then a waterproofing carpet is glued over the screed.

 The proof of compliance of the claimed invention with the requirement of industrial applicability may be as follows.

 The considered method of protecting a waterproofing carpet from swelling is intended for use in the repair and installation of roofs of insulated coatings with a screed of capillary-porous materials laid for thermal insulation.

 The possibility of implementing the invention is reflected in the information section of the application, confirming the possibility of implementing the method.

 The inventive method, when it is implemented, ensures the achievement of a technical result consisting in limiting the increase in the pressure of the vapor-air mixture in the closed cavity between the screed and the waterproofing carpet to a value higher than the pressure of the vapor-air mixture in the coating under the screed and in preventing the precipitation from entering the coating through the waterproofing carpet without increasing breathability of the coating.

 Thus, the claimed invention meets the requirements of industrial applicability.

Claims (1)

A method of protecting a waterproofing carpet from bloating during repair and installation of roofs of insulated coatings with a screed of capillary-porous materials laid for thermal insulation, in which through holes are made in the screed to remove accumulations of vapor-air mixture and water penetrating under the carpet from the lower layers of the coating and fill their loose or granular material, characterized in that the holes in the screed perform a cross-sectional area of each 0.2 40 cm ² with their location at a distance of 5 80 cm from each other, and with the device the roof holes in the screed are made before laying the carpet, and when repairing the roof, they first form holes in the carpet and through them holes in the screed, and after filling the holes in the screed with loose or loose material, the holes in the carpet are sealed.