UA28253U - Method for repair of roof made of bitumen-containing roll material - Google Patents

Abstract

Method for repair of roof made of bitumen-containing material relates to building and can be used at repair and hydro-insulation of roofs of buildings and constructions.

Description

Description of the invention

The useful model belongs to the field of construction, namely to roofs made of bitumen-containing roll materials, 2 and can be used in the repair and thermal insulation of roofs made of bitumen-containing roll material, in particular, from roofing material, residential, industrial and other purposes of buildings and structures.

Currently, for the repair of roofs made of bitumen-containing roll material, traditional methods of roof repair are widely used, which consist of replacing defective places, filling potholes, covering defective places with patches, covering microcracks with hot mastic, gluing additional layers of roll material from the outside on the 70 roof covering, etc. However, the use of the specified methods of roof repair does not allow to eliminate hidden defects that appeared on the roofing during its operation, namely: removal of water or moisture between the layers of the roofing with subsequent drying of the roofing, restoration of the properties of the bitumen-containing components of the roll material and gluing of all layers of the old roofing with restored bitumen-containing components of the roll material. This leads to 79 further gradual destruction of the roofing and deterioration of its thermal and hydro-insulating properties.

A known method of repairing a roof made of bitumen-containing roll material (patent of the Russian Federation for the invention Mo2240404, publication date - 20.11.2004), which includes cleaning the renewable roofing, applying a plasticizing additive in the form of a product of oil processing, making vertical holes to the depth of the renewable roofing, heating of the roofing and sealing of the roofing. Warming and sealing of the roofing is carried out in stages before applying the plasticizing additive. Mastic, which additionally contains bitumen, rubber crumb and waste organic fibrous materials, is used as a plasticizing additive.

The known method of repairing a roof made of bitumen-containing roll material allows to repair roofs that contain a different number of layers of bitumen-containing roll material, and to manufacture new high-quality roofing coverings with an increased service life.

There is a known method of repairing roofs made of bitumen-containing roll material (patent of the Russian Federation for the invention Mo2132915, date of publication - 10.07.1999), which includes cleaning the area of renewable roofing, heating the bitumen-containing layers of roll material and sealing them. Moreover, the cleaned area of the roofing is cut into separate fragments, they are removed from the ceiling, then placed in a heated bituminous solution and kept in it until the original properties of the rolled material are completely restored, after which the restored fragments are returned to the ceiling and compacted. high school

The known method of repairing roofs made of bitumen-containing roll material allows to improve the quality of repairs on all areas of the renewable roofing, in particular, to remove local delaminations filled with air or water, which cannot be removed during long-term heating of the layers of bitumen-containing roll material, especially if a vertical line does not pass through them hole to remove air or water. However, this method of repair is rather cumbersome due to cutting the renewable roofing into fragments, their subsequent removal, placing in a bituminous solution and returning to the floor. "

The closest to the claimed method of repairing a roof made of bitumen-containing rolled material is C method of repairing roofs made of bitumen-containing rolled material (patent of the Russian Federation for an invention with Mo2072415, date of publication - 01.27.1997), which includes cleaning the area of renewable roofing,

From" heating of bitumen-containing layers of the roofing and sealing of the restored roofing.

After cleaning the area of the renewable roofing, vertical holes are additionally made on it, including in the places where swelling occurs on the roofing. Heating of bitumen-containing layers of roofing is carried out through a closed volume of air over the entire surface of the renewable roofing until the appearance of molten bitumen from vertical holes in the roofing. At

Ge | why, the renewable roofing is heated to a temperature of 210-220 20. In addition, after cleaning the area of the renewable roofing, it is additionally moistened with a plasticizer. o The known method of repairing roofs made of bitumen-containing roll material provides a thermochemical method c 50 of repairing the renewable roofing and ensures uniform heating of the bitumen-containing layers of the old roofing, evaporation and removal of moisture by the flow of molten bitumen contained in the roofing, subsequent gluing with restored bitumen-containing components of all bitumen-containing layers of roofing between each other and sealing of the restored roofing. At the same time, the bitumen-containing layers of the old roofing are uniformly heated in one go. The disadvantage 59 of the known method is that making only vertical holes in the renewable roofing and heating the bitumen-containing layers of the roofing in one step does not allow to completely remove moisture and/or water and dry, especially, the lower bituminous layers of the roofing, which may contain significant the volume of moisture and/or water, because during the heating of such renewable roofing, the flow of infrared radiation reaches the lower layers of renewable roofing weakened, and the upper 60 layers of renewable roofing are quite strongly overheated by the heat reflected by the water. In addition, after the repair of roofs made of bitumen-containing roll material, additional thermal and waterproofing of the restored roofing is not carried out, which can also reduce the service life of the restored roofing.

The task of this useful model is to improve the method of repairing a roof made of bitumen-containing roll material, in which due to the proposed sequence of repair of a roof covering made of bitumen-containing roll material and the heating of the bitumen-containing layers of the roofing material in two stages, complete removal of moisture and water and drying of all layers of the roofing material is ensured coating, which leads to the complete recovery of the bitumen-containing components of the roofing coating and strong gluing of all layers of the roofing coating. In addition, the additional application of heat-and-water-insulating coating on the restored roofing provides additional protection and insulation of the restored roofing, which contributes to the extension of the service life and improvement of the heat-and-water-insulating properties of the restored roofing.

The task is solved by the proposed method of repairing a roof made of bitumen-containing rolled/o material, which includes cleaning the area of the restored roofing, making vertical holes in the roofing, heating the bitumen-containing layers of the roofing and sealing the restored roofing, in which the heating of the bitumen-containing layers of the roofing is carried out by infrared radiation in two stages, and after compaction of the restored roofing, a thermal and waterproofing coating is additionally applied from the outside.

It is better when, for renewable roofing that contains a significant amount of moisture and/or water, before the first stage of heating the bitumen-containing layers of the roofing, the upper layers of the roofing are additionally cut and dried.

The heating of the roofing layers in the second stage is carried out within 6-25 minutes until the appearance of molten bitumen.

After the second stage of heating the roofing layers, deflections and irregularities in the roofing are additionally detected.

Identified deflections and irregularities in the roofing are filled with crushed bitumen and roofing roll material up to the level of the top layer of the roofing, and each layer and crushed bitumen are reheated with infrared radiation.

The renewable roofing covering is heated to a temperature of 100-1102C in the first stage of heating, and heated to a temperature of 1700-1802 in the second stage. in)

Heating of the roofing is carried out using an infrared recovery unit.

Sealing of the restored roofing is carried out before the restoration of the roofing has hardened. co

Sealing of the restored roofing is carried out with the help of a roller.

It is better when hard-to-reach places of the restored roof covering are additionally compacted with a hand rammer. Ge

Before compacting the restored roofing, the rollers and ram are additionally treated with petroleum oil. co

Thermal and waterproof coating is applied by spraying on pre-cleaned, dry, restored roofing material, which does not have swelling, delamination and low-quality gluing of layers together.

The thermal and waterproof coating is sprayed on the restored roofing from a distance of 0.8-1.5 m at an angle of 909, "

The thermal and waterproofing coating is sprayed on the restored roofing coating in uniform width strips

Am without gaps along the entire length of the restored roofing. - c In the places where antennas, towers or anchors are installed, a heat-water-insulating coating is sprayed with a height of 150-200 mm on the pipe racks. The thermal and waterproofing coating is additionally sprayed on the sloping edges in the places where the roofing coating "adjoins" the projecting structures.

Polyurethane foam compositions are used as a heat- and water-insulating coating.

The thermal and waterproof coating is formed by at least three-fold treatment with the formation of three layers with a thickness of each layer of at least 1 mm and a density of about 5 Okg/m?. At the same time, each subsequent treatment with a three-fold treatment is performed after cooling the previous treatment layer.

After hardening of the thermal and waterproof coating, a protective layer is additionally applied. i.e.) The protective layer is applied after cooling the heat-and-water-insulating coating. sl 50 The protective layer is applied no later than 2-3 weeks after applying the heat-insulating coating.

Paint or gravel is applied as a protective layer. c» Moreover, the paint is applied using a roller or brush or by spraying with an airless spraying device at an angle of 902 in at least two layers without gaps with overlap of the passages on 4-vsm, and gravel is applied with a thickness of at least 40 mm. 29 It is better when the second layer of paint is applied crosswise to the first layer of paint after complete drying of the first layer of paint.

The method of repairing roofs made of bitumen-containing roll material is carried out as follows. Before starting the repair of a roof made of bitumen-containing roll material, the restored roofing is inspected visually, and then in more detail, and its condition and scope of work are determined. Next, the renewable roofing 60 is cleaned of debris, dust, various foreign objects, vegetation and a protective layer of loose materials, if any. On the cleaned area of the renewable roofing covering, vertical holes are made to its entire depth. In addition, on the cleaned area of the renewable roofing, which contains a significant volume of moisture and/or water, the upper layers of the roofing are additionally cut for further drying naturally. Next, prepare and install the infrared restoration unit on the area of the restored roofing.

After installing the infrared radiation installation, the bituminous layers of the roofing are heated to a temperature of 100-110 9C, as a result of which moisture and/or water evaporates through pores, microcracks, and pre-made vertical holes in the roofing. This leads to the fact that the volume in the roofing, filled with moisture and/or water, is released, a rarefaction occurs, which attracts the layers of the roofing to each other. At the same time, the bitumen-containing components of the roofing are evenly heated and melted under the influence of infrared radiation, starting from the first layer of the roofing and to the base of the roofing. The first stage of heating the bitumen-containing layers of the roofing is characterized by the appearance of white vapors from under the body of the infrared recovery unit. During the second stage of heating the bitumen-containing layers of the roofing 70 by the infrared recovery unit, the roofing is heated more intensively to a temperature of 170-1809С7 for 6-25 minutes until infrared radiation of molten bitumen with brown vapors appears from under the unit's body. The heating time of the bituminous roofing layers depends on the ambient temperature and the thickness of the renewable roofing layers. If necessary, the heating of the bitumen-containing layers of the roofing 75 coating is continued after partial cooling of the area of the renewable roofing coating. At the same time, the bitumen-containing components of the roofing material melt and re-impregnate the layers of the roofing material, which leads to a strong bonding of all layers of the roofing material to each other and to the base of the roofing material. Further, after the second stage of warming up the bitumen-containing layers of the roofing, deflections and irregularities in the roofing are revealed. If deflections and irregularities are detected in the roofing, they are additionally filled with crushed bitumen and roofing bitumen-containing roll material to the level of the top layer of the roofing, and each layer of the roofing and crushed bitumen is heated with infrared radiation using an infrared radiation installation. By mixing, the bituminous components of the roofing complement each other and form a high-quality roofing impregnated with bituminous components. After filling the irregularities and deflections in the roofing, the infrared restoration unit is moved to the next area, and the restored roofing is compacted with a roller, and in hard-to-reach places with a hand rammer. The roller and rammer are additionally treated with petroleum oil. At the same time, sealing is carried out quickly immediately after the heating of the bitumen-containing layers of the roofing until the restored roofing has hardened, which takes no more than 1.5 minutes. When sealing the roof covering, bulges may appear, which are pierced with a pin or a roofing punch and finally seal the roof covering. After compaction of the restored roofing, the process of cooling and complete recovery takes place within 6-8 hours, during which the bitumen-containing components of the roofing finally mix and permeate the roofing, and the layers of the restored roofing are even more firmly glued to each other and to the base of the roofing . At this time, no work is being carried out on the 3-5 restored sections of the roofing and the movement of people and/or equipment is not allowed to prevent the formation of various defects. After completion of cooling and complete restoration of the roofing, a thermal and waterproof coating of polyurethane foam composition is additionally applied to it from the outside. The thermal and waterproofing coating is applied by spraying on a dry roofing coating previously cleaned of grease, rust, dirt, and dust, which does not have swelling, delamination, and poor-quality gluing of the layers together. At the same time, the temperature of the surface on which the thermal and waterproof coating is applied should be -0 - 202C. The thermal and hydro-insulating coating is sprayed from a distance of 0.8-1.5 m at an angle of 90 2 using a spray gun in uniform strips 1 m wide along the entire length of the roofing. The necessary thermal and waterproof coating on the roof covering is formed by at least three-fold processing with a total thickness of at least 3mm. Moreover, for one treatment of the three-fold treatment, a thermal-hydrophobic coating with a layer thickness of at least 10 mm and a density of about 50 kg/m3 is applied, and each subsequent treatment is performed after the final cooling of the pre-treatment layer. In addition, in the places where the antennas, towers or anchors are installed, the heat-water-insulating coating is applied to a height of 150-200 mm on the pipe racks, and in the places where the roofing adjoins the protruding structures, it is applied to the sloping sides. After ) the heat-and-water-insulating coating will harden and cool, but not later than 2-3 weeks, a protective layer, sl 50, is applied on top, which is designed to protect the heat-and-hydro-insulating coating from ultraviolet radiation.

The roof covering with a heat-hydro-insulating coating, on which a protective layer is applied, must be dry, clean, free of dust, oil, grease and not have delaminations. The protective layer is made with paint or filling with gravel. The paint is sprayed evenly in at least two layers with the help of an airless spraying device at an angle of 902C to the roof covering without gaps, overlapping the passages by 4-8 cm. The second layer of paint is applied crosswise to the first layer after the first layer of paint has completely dried. If gravel is used as a protective layer, it should be applied with a thickness of at least 40 mm.

A useful model is explained by an example.

Example. Before starting the repair of a roof made of bitumen-containing roll material, the restored roofing is inspected visually, and then in more detail, and its condition and scope of work are determined. 60 during a visual inspection of the roofing, in particular, the following was found: the upper layer of the roofing is made of roofing material with a protective layer of gravel, while about 6095 of the protective layer of gravel has peeled off, and about 2095 of the upper layer of the roofing has exposed areas; microcracks and tears formed on the entire surface of the upper layer of the roofing, the joints of the roofing layers partially peeled off; the upper layer of the roofing is deformed and completely detached from the lower layers of the roofing; when pressing on the top layer of the roofing, water appeared from microcracks, cracks and peeling joints on the area of the roofing covering about 6095. During a detailed inspection of the roofing, the following was revealed, in particular: the roofing consists of five bitumen-containing layers, moreover, the roofing will consist of two parts - a three-layer roofing and a two-layer roofing; between the two parts of the roofing, there is a complete lack of gluing and rot has formed with a significant water content; all five layers of roofing are deformed and have microcracks. At the end of the inspection, the renewable roofing is cleaned of debris, dust, various foreign objects found and a protective layer of gravel. Vertical holes are made on the cleaned area of the renewable roofing covering to the full depth of five layers. Since a significant area of the roofing contains water, the top three layers of 7/0 roofing are additionally cut and dried naturally. After that, the infrared restoration unit is prepared and installed on the area of the restored roofing and put into operation. After installation and introduction to the operating mode of the infrared radiation installation, the bituminous layers of the roofing coating are heated to a temperature of 1102C as described above. During the heating of the roofing at the first stage, the pressure of the air-pore mixture between the layers of the roofing 75 increases to Zt/m 7. During the second stage of heating the layers of the roofing, the infrared recovery unit heats the roofing more intensively to a temperature of 1802 for 20 minutes as described above. At the same time, the pressure of the foam-air mixture between the layers of the roofing becomes even greater. After the completion of the second stage of heating the roofing layers, deflections and irregularities in the roofing were found, which are additionally filled with crushed bitumen and roofing roll material RKP - ЗБ5ОА to the level of the upper layer of the roofing and each layer of the roofing and crushed bitumen is heated with infrared radiation using an infrared installation radiation. Next, the infrared restoration unit is moved to the next section of the restored roofing, and the restored roofing is quickly compacted with a roller after the second stage of heating the roofing layers until the restored roofing solidifies as described above. At the same time, the roller is pre-treated with petroleum oil at the rate of 0.15-0.20 kg/m2 of the area of the roof covering that is compacted. On the restored roofing, additionally, a thermal and waterproof coating made of polyurethane foam composition is applied from the outside from a distance of 1.5 m at an angle of 902 with the help of a spray gun in uniform strips of their width along the entire length of the roofing as described above. For this restored roofing, a three-fold treatment with a total thickness of ZOmm is performed. After the heat-hydro-insulation coating made of polyurethane foam composition has hardened and cooled, after a week a protective layer is applied on top by filling with gravel 4 mm thick. with

Thus, the proposed useful model makes it possible to carry out repairs and subsequent additional thermal and hydro-insulation of roofs made of bitumen-containing roll material, in particular, roofs containing a significant volume

From moisture and/or water and allows you to increase the service life of such roofing and improve its thermal insulation properties.

Claims (25)

The formula of the invention "- c 1. The method of repairing a roof made of bitumen-containing rolled material, which includes cleaning the area of the renewable roofing, making vertical holes in the roofing, heating the » bitumen-containing layers of the roofing and sealing the restored roofing, which is characterized by the fact that the heating of the bitumen-containing layers of the roofing is carried out with infrared radiation in two stages, and after compacting the restored roofing, additionally from the outside) apply a heat- and water-insulating coating. o 2. The method according to claim 1, which differs in that before the first stage of heating the bitumen-containing layers of the roofing coating, the upper layers of the roofing coating are additionally cut and dried. име) Q. The method according to claim 1, which differs in that the heating of the roofing layers at the second stage with 50 is performed within 6-25 minutes before the appearance of molten bitumen. 4. The method according to claim 1, which is distinguished by the fact that after the second stage of heating the layers of the roofing material c" additional deflections and irregularities in the roofing material are detected. 5. The method according to claim 4, which differs in that the deflections and irregularities in the roofing are filled with crushed bitumen and roofing bitumen-containing roll material up to the level of the upper layer of the roofing and reheat each layer and crushed bitumen with infrared radiation. c 6. The method according to claim 1, which differs in that the renewable roofing covering is heated to a temperature of 100-110 °C in the first stage of heating, and in the second stage it is heated to a temperature of 170-180 2С. 7. The method according to claim 1, which differs in that the heating of the roofing is carried out using an infrared recovery unit. 60 8. The method according to claim 1, which differs in that the sealing of the restored roofing is carried out before the restoration of the roofing has hardened. 9. The method according to claim 1, which differs in that the sealing of the restored roofing is carried out using a roller. 10. The method according to claim 9, which is characterized by the fact that hard-to-reach places of the restored roofing are additionally compacted with a hand rammer. 11. The method according to claim 9 or claim 10, which differs in that before compacting the restored roofing, the rollers and rammer are additionally treated with petroleum oil. 12. The method according to claim 1, which is characterized by the fact that the thermal and waterproofing coating is applied by spraying on a pre-cleaned, dry, restored roofing coating that does not have swelling, delamination and poor-quality gluing of layers together. 13. The method according to claim 12, which is characterized by the fact that the heat-hydro-insulating coating is sprayed onto the restored roofing from a distance of 0.8-1.5 m at an angle of 902, 14. The method according to claim 12, which is characterized by the fact that the heat-hydro-insulating coating is sprayed on the restored roofing evenly in strips 1 m wide without gaps along the entire length of the restored roofing 7/0 coating. 15. The method according to claim 12, which is distinguished by the fact that in the places where antennas, towers or anchors are installed, a thermal and waterproof coating is sprayed with a height of 150-200 mm on the pipe racks. 16. The method according to claim 12, which is characterized by the fact that the thermal and waterproofing coating is additionally sprayed on the sloping edges in the places where the roofing coating adjoins the protruding structures. 17. The method according to claim 1, which is characterized by the fact that polyurethane foam compositions are used as a thermal and waterproof coating. 18. The method according to claim 1, which is characterized by the fact that the thermal and waterproofing coating is formed by at least three-fold processing with the formation of three layers with a thickness of each layer of at least 10 mm and a density of about 50 kg/m. 19. The method according to claim 18, which is characterized by the fact that each subsequent treatment from the triple treatment is performed after cooling the previous treatment layer. 20. The method according to claim 1, which is characterized by the fact that after hardening of the thermal and waterproof coating, a protective layer is additionally applied. 21. The method according to claim 20, which is characterized by the fact that the protective layer is applied after cooling the thermal and waterproofing coating. WITH 22. The method according to claim 20, which is characterized by the fact that the protective layer is applied no later than 2-3 weeks after the application of the thermal and waterproof coating. 23. The method according to claim 20, which differs in that paint or gravel is applied as a protective layer. 24. The method according to claim 23, which differs in that the application of paint is carried out with the help of a roller or a brush or by spraying with an airless spraying device at an angle of 90 " in at least two layers without any gaps with overlapping passages by 4-8 cm, and gravel is applied thickness of at least 40 mm. 25. The method according to claim 24, which is characterized by the fact that the second layer of paint is applied crosswise to the first layer of "M" paint after the first layer of paint has completely dried. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated C microcircuits", 2007, M 19, 26.11.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - and? ime) (ee) ime) 1 syu» 60 b5