RU2085675C1 - Method for restoring water-proofness of damp course of building structures - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this can be used in servicing, repair and reconstruction of buildings and structures having roof covering which contains organic binding material. According to method, faulty sections of water-proofing covering are heated with the help of flexible heating element. Temperature in zone of contact between heating element and surface of damp course exceeds temperature of softening of organic binding material by 1.8-3.0 times. Then softened organic binding material is ununiformly levelled and compacted by applying pressure of 0.15-.5 MPa. Restoring procedure requires no additional or replacing materials which cuts cost of work and gives high-quality surface. EFFECT: high efficiency.

Description

 The invention relates to construction production, and in particular to methods of repairing waterproofing and roofing from materials containing an organic binder (bitumen, tar, etc.).

 A known method [1] repair of rolled roofs, in which the elimination of defects is done by applying individual patches from the materials of which the roof is made, or by sticking new layers of rolled roofing material when repairing large sections of the roof, when the rolled roofing material is glued by applying hot or cold adhesive mastic with the subsequent layout of the rolled waterproofing material and its rolling.

 Obtaining the desired technical result is hindered by the complexity of the method, the high consumption of bitumen roofing materials, an increase in the thickness of the waterproofing coating.

 A known method [2] restoration (repair) of insulation coatings from bitumen materials deposited on the outer surfaces of metal pipes by heating the coatings with steam supplied to the pipe to a temperature at which the bitumen melts and fills it with pores, cracks and other defects and damages in the insulation coatings.

 Obtaining the required technical result is hindered by the need to lay a technically complex and expensive steam pipeline.

 A known method [3] of eliminating defects in the waterproofing of structures, by which the waterproofing layer is heated by electric current passing through a metal mesh embedded in the insulation layer. After melting and subsequent cooling with hardening of the bitumen mastic, defects, cracks, pores disappear.

 The required technical result is hindered by the complexity of the device of such a waterproofing coating, the inability to use it when repairing roofs without a mesh. To eliminate defects in certain areas, the entire waterproofing area is heated. Significant heat loss occurs due to the lack of surface insulation. The presence of a metal mesh prevents access to the base of the waterproofing coating for cleaning, drying and repair. There is a low repair processability of the mesh embedded in the insulation layer. The coefficient of linear expansion of waterproofing materials on an organic binder is more than 50 times higher than the same coefficient for metals, of which it is possible to produce a mesh, which can lead to delamination of the waterproofing.

 Closest to the proposed method is the repair of rolled roofs, based on the use of a heating element in the form of a thermoplate with an elastic base attached to a trolley with running wheels [4] The conductive heat flow in the contact zone of the heating element and the surface of the roofing carpet provides heating of the adhesive bitumen material, which the inner layers of the roofing carpet are saturated. After moving the heating element to another place, the heated area of the carpet is rolled up with a roller, providing bonding of adjacent layers of the rolled carpet.

 Obtaining the required technical result is hindered by the following. The sequence and composition of actions specified in [4] do not provide the possibility of repairing roofs and waterproofing made of non-roll materials; the possibility of repairing waterproofing from rolled materials (gluing waterproofing) is not reflected; there is no information on the appropriateness of using the method when repairing roofs on tar, polymer, mixed and other organic binders (except for bitumen). The inability to use the method using the specified heating element to repair the waterproofing coating on the vertical surfaces of building structures, as well as on horizontal and inclined surfaces in places where it adjoins vertical surfaces. In [4], a method is described for eliminating the swelling of a rolled roofing carpet, and the possibility of eliminating other defects and damages (bumps, sagging, displacements of materials, cracks, partial absence of a coating layer of rolled material) is not reflected. The limits of the temperature values of the working surface of the heater (elastic base) in the contact zone with the surface of the roofing carpet, or the dependence of this temperature on the softening temperature of the tar material are not given. The degree of heating of the adhesive bituminous material is not indicated, for example: before softening, melting, burnout, etc. The fact of heating of the adhesive bituminous material in the surface layer of the roofing carpet is not reflected in the source [4]. The area of the simultaneously heated area of the roofing carpet is limited by the design features of the heating element in the form of a thermal plate. Thus, the dimensions of the working surface, the role of which is played by the elastic base of the thermal plate, is much smaller than the size of the cart with running wheels to which the thermal plate is attached. If it is necessary to increase the area of the elastic base, its deflection increases significantly, which will lead to rolling of the heat-accumulating elements and their concentration in the center of the working surface. As a final step, it is proposed to roll the roof carpet, the pressure transmitted to the waterproofing coating from the roller is not indicated, and the possibility of using other methods of mechanical sealing, for example, vibration, shock, pressure, etc., is not reflected. The waterproofing of the waterproofing coating is not ensured in places of damage in the form of through holes and a decrease in water absorption of waterproofing materials due to their additional impregnation of org anic binder. In [4], the possibility of performing work to restore the roof waterproofness in the winter season was not reflected.

 To achieve a technical result, it is proposed to restore the waterproofness of the waterproofing coating of building structures made of materials containing an organic binder without applying additional and replacing existing coating layers with an increase in its service life while reducing restoration costs.

 The technical result is achieved by the fact that the method of restoring the waterproofing of the waterproofing coating of building structures by heating to soften the organic binder, the restored waterproofing coating, a movable heating element laid on it and sealing the coating. In this case, the temperature of the working surface of the flexible heating element exceeds 1.8-3.0 times the softening temperature of the organic binder, before the coating is compacted, the softened organic binder is leveled, and the compaction is carried out at 0.15-0.5 MPa.

 A section of a waterproofing coating of materials containing an organic binder, which has defects and damage, is cleaned of debris and dirt. The flexible heating element is brought into contact, for the most part, of its working surface with the surface of the waterproofing coating, thereby ensuring tight contact, minimal thermal resistance and uniform heat transfer to the restored portion of the waterproofing coating applied to horizontal and inclined surfaces, as well as to adjoining vertical surfaces. The working surface of the flexible heating element in the contact zone with the surface of the waterproofing coating is heated to a temperature that is 1.8-3.0 times higher than the softening temperature of the organic binder contained in the waterproofing coating materials (temperature excess ratio). The heating of the restored area occurs mainly due to conductive heat transfer to depths of 3-30 mm for 4-25 minutes until the materials on the surface and inside the waterproofing coating containing organic binder soften, the viscosity of which decreases with heating and spreads over the surface and over voids in the thickness of the waterproofing coating, penetrates the capillaries and pores. At the same time, the adhesive bonds between the base and the waterproofing coating, as well as between its individual layers, are removed. This reduces the internal stresses in the waterproofing coating that arose during its operation. The organic binder contained in the waterproofing coating, softened by heating, is leveled. This eliminates surface defects and damage in the waterproofing coating (potholes, sagging, displacement of rolled or piece plate materials), as well as internal defects and damage that come to its surface (cracks, holes, etc.). Potholes, cracks and holes are filled, and the sagings are cut off, moving the material softened by heating, which is in the surface layer of the waterproofing coating. Then, the reconstructed coating section is subjected to mechanical compaction with a pressure of 0.15-0.5 MPa. At the same time, under the influence of applied pressure, and during vibration and shock compaction, in addition, due to increased mobility, the softened organic binder moves in the thickness of the waterproofing coating, fills the remaining voids, pores, cracks and other internal cavities in the waterproofing coating, displacing the accumulated in air after cooling and hardening of the materials, restoring the waterproofness of the waterproofing coating and reducing water absorption of the materials. The above method is applicable in the production of works to restore the waterproofing of a waterproofing coating at any time of the year.

 The rationale for the selected limits is as follows.

 If the heating temperature of the working surface of the flexible heating element is not reached in the contact zone with the surface of the waterproofing coating of the lower value of the temperature excess ratio (equal to 1.8), the heating time of the waterproofing coating increases.

 If the upper limit of the specified ratio (equal to 3.0) is exceeded, the organic binder burns out without the required heating depth. The need for a heating depth of 3.0-30 mm is determined by the achievement of the elimination of defects and damage to the waterproofing coating to its entire thickness to the base.

 At a pressure below 0.15 MPa, defects and damage are not eliminated by the proposed method. At a pressure of more than 0.5 MPa, the softened organic binder is extruded with a simultaneous decrease in the thickness of the waterproofing coating at the place of pressure application, and in coatings of rolled insulation materials, in addition to their rupture.

 The difference of the present invention from the prototype is: the temperature of the working surface of the flexible heating element is 1.8-3.0 times the softening temperature of the organic binder; leveling the softened binder contained in the coating before compaction; the implementation of the sealing of the waterproofing coating at 0.15-0.5 MPa.

 Thus, the claimed invention meets the condition of novelty.

 The following can serve as evidence of the compliance of the invention in question with the condition of an inventive step. Under the action of the conductive heat flux from the flexible heating element over the entire area of its working surface in the contact zone with the surface of the waterproofing coating, the materials contained in it are heated to soften the organic binder, the viscosity of which decreases when heated and spreads over the surface and voids of the waterproofing coating, penetrates into capillaries and pores. In this case, the adhesive bonds between the base and the waterproofing coating itself, as well as between its individual layers, are violated. In addition, internal stresses in the waterproofing coating that have arisen during its operation are reduced. Leveling the organic binder softened by heating contained in the waterproofing coating eliminates surface defects and damages (bumps, deposits, displacements of rolled or piece materials), as well as internal defects and damages that come to its surface (cracks, holes, etc.) .). In this case, potholes, cracks and holes are filled with a relocatable softened organic binder located in the surface layer of the waterproofing coating, and the influx is cut off. As a result of heating and leveling, the water absorption of the materials contained in the waterproofing coating is reduced. Under the action of static and dynamic loads transferred to the waterproofing coating, when it is compacted, the mobility of the organic binder contained in it increases, which under the action of compaction at 0.15-0.5 MPa moves in the thickness of the waterproofing coating. At the same time, air is displaced from voids, pores, cracks and other internal cavities and they are filled with an organic binder. In addition, when sealing waterproofing coatings of fibrous materials impregnated with an organic binder, the fibrous particles come closer together with their greater orientation in the plane of the waterproofing coating, which leads to hardening of the coating materials.

 And all taken together helps to restore the waterproofness of the waterproofing coating of building structures made of materials containing an organic binder, without applying additional and replacing existing layers of the coating, increasing its life while reducing recovery costs.

 The proposed method is as follows.

1. A portable flexible thermoelectric mat (thermomat) with an area of 1 m ² and a power of 3 kW is laid on a dry surface of a roll roofing area (made of roofing material on bitumen mastic) that has been previously cleaned with a steel brush. Uniform heating of the working surface of the thermomat is ensured by passing electric current from the step-down transformer through the carbon-graphite fabric inside the thermomat. Heating of the working surface in contact with the restored section of the roof is carried out to a temperature exceeding the softening temperature of bitumen BNK 90/40 2.6 times (230 ^o C). In this case, heat is transferred mainly due to conductive heat transfer. Warming up is carried out for 14 minutes at an outside temperature of minus 15 ^o C. During this time, the bitumen softens in the roll roof to a depth of 10 mm. Softened bitumen, which is usually abundant in certain sections of the roll roof (along the seams of individual roofing panels), is evenly distributed by hand stroking along the roof surface, thereby restoring the worn out roofing coat layer, filling in cracks, tears, potholes and other surface defects. Immediately after this, the roof is sealed with a hand-rolled roller weighing 50 kg, which creates pressure on the roof up to 0.4 MPa (RF patent N 2018600). The skating rink consists of a cylindrical stitch roller with a diameter of 150 mm and a support-stitch roller having the shape of a body of revolution with a curved convex surface. The rollers are mounted on the frame sequentially in the direction of their movement on parallel axes. The handle is rigidly fixed to the frame above the axis of the support-rolling roller. To prevent the sticking of softened bitumen onto the rollers of the roller, before using them, they are coated with a hydrophobic composition.

 The initial sealing of the roof is made by a cylindrical roller, in which the bulk of the roller is concentrated. If after compaction of the restored section of the roof there are places with swelling or peeling, then the skating rink is rolled onto such a place with a support-rolling roller. The force exerted on the roller handle is in this case directed downward.

 The quality of the seal is monitored visually to eliminate the characteristic wave-like curvature of the surface of the rolled roof, moved by the roller and indicating the presence of delamination in the thickness of the roof caused by the accumulation of water, air and eliminated through leaks in the roof.

2. On the horizontal surface of the damaged section of the waterproofing coating made of piece plate waterproofing materials impregnated with bitumen grade BN 50/50 (according to GOST 6617-76 ^x ) with a softening temperature of 60 ^o C and laid on asphalt mortar prepared on bitumen of the same brand , establish a surface area of 1 m heater ^2, 5 kW, with a working surface temperature in contact with the surface of the waterproofing coating 180 ^o C. As a result of conductive heat transfer occurring m forward said surfaces extends deep into the heat waterproofing coating gradually softening the bitumen in the asphalt solution contained in the piece of plate material.

The waterproofing coating is heated for 20 minutes at an outdoor temperature of 20 ^o C. During this time, the bitumen has time to soften to a depth of 30 mm from the surface of the coating. The multiplicity of excess of the temperature of the working surface of the heater over the softening temperature of bitumen in this case is 180 60 3 times. Immediately after warming up the waterproofing coating, the softened bitumen, which is part of the asphalt mortar, together with aggregate (sand) or together with the filler (mineral powder), is leveled with a hand tool, filling in the seams between the piece plate materials, dents and cracks and cutting off the flows.

 Further compaction of the waterproofing coating from piece board materials is carried out with an S-141A electromechanical surface vibrator or hammer blows with a rubber tip over the waterproofing elements (tiles) protruding above the surface.

 In the proposed method, the restoration of the waterproofing of the waterproofing coating of building structures is carried out without the use of new waterproofing materials, which significantly reduces the cost of repairs, by eliminating the cost of purchasing waterproofing materials and reducing transportation costs. Moreover, the quality of the reconstructed waterproofing coating is not inferior in terms of water resistance, but in terms of durability it approaches a waterproofing coating made of new insulating materials. In roll roofs, in addition, the worn cover layer is restored. Its recovery is carried out by leveling the softened organic binder with its even distribution on the roof surface.

 The proposed method of restoring the waterproofing of the waterproofing coating of building structures is intended to repair waterproofing and roofing from materials containing an organic binder. The possibility of implementing the invention is reflected in the information section of the application, confirming the possibility of implementing the method.

 The present invention provides the restoration of the waterproofing of a waterproofing coating of building structures made of materials containing an organic binder without applying additional and replacing existing coating layers as a result of successively carried out: 1) heating of the restored coating area using a flexible heating element, the working surface of which is in the contact zone the surface of the waterproofing coating is heated to a temperature of 1.8-3.0 times higher softening temperature of organic binder; 2) leveling softened organic binder; 3) coating compaction at 0.15-0.5 MPa. This increases the life of the coating and reduces the cost of its restoration.

 Thus, the present invention meets the condition of industrial applicability.

Claims (1)

 The method of restoring the waterproofing of the waterproofing coating of building structures by heating the organic binder of the reconstructed waterproofing coating with the movable heating element laid on it and softening, and sealing the coating, characterized in that the temperature of the working surface of the flexible heating element exceeds 1.8 3.0 times the softening temperature of the organic binder, before the coating is compacted, the softened organic binder is leveled, and the compaction is pour at 0.15 to 0.5 MPa.