RU2728045C1 - Method of overhaul of flat roofing by covering with panels - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely, to method of roofing repair. Proposed method consists in dismantling old coating to expanded clay layer. Further, a multilayer heat-insulating panel is laid from extrusion foamed polystyrene, into which fire retardants are introduced, and a protective layer is attached to it, on which a bitumen water-emulsion primer is applied and then a waterproofing layer is built up. In places of abutment to vertical surfaces the main roofing mat is reinforced with additional layers and fixed to the base. Waterproofing is performed on parapets, posts of antennae and pipes.

EFFECT: technical result consists in reduction of repair period.

9 cl, 11 dwg

Description

The invention relates to the field of ground construction, namely to the construction of residential buildings for public and civil purposes, mainly to work on the repair, restoration or reconstruction of roofing coverings of a multilayer structure.

The object of the invention is a flat roof under the concept of which it is customary to call a roof with a slope of 0 to 3% and located within the structure of a building with an organized internal drainage system.

Basically, flat roofs are used in the construction of large industrial buildings, garages, residential buildings, exhibition pavilions, shopping centers and other large facilities. In addition to its main function, to serve as protection from atmospheric phenomena, a flat roof can be a terrace, a garden and even a parking lot, which becomes relevant for modern megacities.

When installing a flat roof, a steel profiled deck or a reinforced concrete slab serves as a base.

In addition, if the roof is not thermally insulated, then when heated air from the room comes into contact with the cold surface of the coating, condensation will inevitably occur. The water will gradually erode the supporting base of the roof and will flow back into the living area.

For flat roofs, an urgent task is to ensure high protection of the "roof carpet" from mechanical damage and exposure to ultraviolet radiation.

There is a known method of overhaul of flat roof coverings by paving with parallelepiped-shaped panels, on the edges of which there are ledges that can be connected to neighboring similar panels, which consists in dismantling the old roofing, insulation and screed, rebuilding the ventilated covering, laying an additional layer of thermal insulation and a new roof covering - "roofing carpet" (patent RU 2301868, IPC E04D 3/35 (2006.01), Published: 27.06.2007 Bul. No. 18).

This technical solution has a set of features that is closest to the set of essential features of the invention, it has a purpose that coincides with the purpose of the invention and is the closest to the achieved result, so it is taken as a prototype.

The technical result from the use of the invention is to reduce the repair time and increase the service life of the roofing.

Below are general and particular essential features that characterize the causal relationship of the claimed solution with the specified technical result based on the state of the art.

The method of overhaul of flat roofing by paving with parallelepiped-shaped panels, on the edges of which ledges are made with the possibility of connecting with neighboring similar panels, consists in dismantling the old roofing, insulation and screed. Reconstruction of the ventilated cover, laying of an additional layer of thermal insulation and a new roofing covering - "roof carpet". Dismantling of layers of the old roofing is carried out to the expanded clay layer, which is loosened, dried and leveled to ensure the design slope of the surface. On the expanded clay layer, a multilayer roofing heat-insulating panel is laid with a heat-insulating layer of extruded polystyrene foam of density 35, into which fire retardants are introduced to ensure fire-fighting properties, as well as dyes or pigments. A protective layer made of a cement-sand mixture with a density of at least M300, a thickness of at least 5 mm with additives in the form of a plasticizer is mechanically attached to the heat-insulating layer by means of a dovetail joint. A bituminous water-based primer is applied to the protective layer, on the surface of which a cross-shaped recess is made along the axes of the panel. These ledges are made in the form of opposing consoles on both ends of the short sides and similar consoles adjacent to them on the long sides of the panel. The thickness of all steps is equal to half the thickness of the assembled panel. Each panel is attached to the floor slab by means of fastening. Roofing panels are laid in the carpet along the roof axis with the overlap of the panels by one third, so that the location of the seams does not coincide when the corresponding ends of the slabs are aligned in the joint, with laying in the direction "towards itself". The mating grooves of the respective ends are aligned with each other and filled flush with a bonding agent, forming monolithic joint and expansion joints. A waterproofing layer is melted on the bituminous water-based primer. In places of abutment to vertical surfaces, the main roofing carpet is reinforced with additional layers, the height of which on a vertical surface is at least 250 mm. These additional layers are mechanically fixed to the base by means of an edge strip or washers. When the parapet is completely closed with roofing material, the edge of the upper additional layer is brought onto the front part of the parapet wall. In this case, the waterproofing on the parapets is protected with an apron made of galvanized steel or a parapet stone. In the places where the roofing carpet is adjacent to the posts of antennas and pipes, their abutments are sealed. After that, a layer of surfaced waterproofing or a membrane layer of waterproofing is laid. Sealing of these abutments is carried out with shaped parts made of EPDM rubber, which are installed on the hot bitumen-polymer mastic applied to the first layer of the roofing material, and the horizontal part is poured from above with hot bitumen-polymer mastic and covered with the material of the second layer. The upper edge of the rubber element is crimped with a metal clamp and coated with a polyurethane or polysulfide sealant. Sealing of the specified abutments of pipes with a diameter of at least 100 mm is carried out by pasting with a welded material. Sealing of said abutments of pipes with a diameter of less than 100 mm is carried out by means of a steel cup and a two-component sealant placed between it and the pipe. The specified means of fastening the panel can be made in the form of at least two hollow mushroom-shaped dowels placed in the heat-insulating layer with the rods passed through them, fixed on the said floor slab. The indicated dowels can be placed along the diagonals of the panel in the area of its corners. The membrane layer can be made in the form of waterproofing with backfill or in the form of liquid waterproofing or in the form of a PVC membrane.

The implementation of the method of overhaul of flat roofing by paving panels according to the invention is illustrated by the drawings, where: Fig. 1 shows a general view of the "roofing pie" in perspective; in fig. 2 is a general view of a multi-layer roof insulation panel in isometric view with waterproofing; in fig. 3 - the same, top view, without waterproofing; in fig. 4 - the same, side view; in fig. 5 - the same, front view; in fig. 6 - multi-layer cut from the "roof carpet", isometric; in fig. 7 - section of the roof along the funnel of the internal drainage system; in fig. 8 is a panoramic view of the completed flat roof covering; in fig. 9 - view I in Fig. 8, longitudinal section; in fig. 10 - section a-a in Fig. 7; in fig. 11 - view II in FIG. 8.

The method of overhaul of flat roofing roof coverings 1 by paving with parallelepiped-shaped panels 2, on the edges of which ledges 3 are made with the possibility of connecting with neighboring similar panels 2, consists in dismantling the old roofing 4, insulation 5 and screed 6.

Reconstruction of the ventilated coating 7, laying of an additional layer 8 of thermal insulation and a new roofing covering - "roofing carpet (cake)" 9 is performed.

Dismantling of the layers of the old roofing is carried out to the expanded clay layer 10, which is loosened, dried and leveled to ensure the calculated slope of the surface.

On the expanded clay layer 10, a multilayer roofing heat-insulating panel 2 is laid with a heat-insulating layer 11 of extruded polystyrene foam of density 35, into which fire retardants are introduced to ensure fire-fighting properties, as well as dyes or pigments.

A protective layer 13, made of a cement-sand mixture with a density of at least M300, a thickness of at least 5 mm with additives in the form of a plasticizer, is mechanically attached to the heat-insulating layer 11 by means of a dovetail joint 12.

A bituminous water-based primer 14 is applied to the protective layer 13, on the surface of which a cross-shaped recess 15 is made along the axes of the panel 2.

These ledges 3 are made in the form of opposing consoles on both ends of the short sides and similar consoles adjacent to them on the long sides of panel 2.

The thickness of all steps 3 is equal to half the thickness of the assembled panel 2.

Each panel 2 is attached to the floor slab 16 by means of fastening.

Roofing panels 2 are laid in the carpet along the roof axis with an overlap of the panels 2 by one third so that the location of the seams does not coincide when the corresponding ends of the panels 2 are aligned, with laying in the direction "towards itself".

The mating grooves of the respective ends are aligned with each other and filled flush with the binder 17, forming monolithic butt and expansion joints.

A waterproofing layer 18 is fused onto the bituminous water-based primer 14 without backfilling, and a waterproofing layer 19 with backfilling is laid on it by rolling a roll 20.

In places of abutment to vertical surfaces, the main "roofing carpet" is reinforced with additional layers 21, the height of which on the vertical surface is not less than 250 mm.

These additional layers 21 are mechanically fixed to the base by means of an edge strip 22 or washers 23.

When the parapet is completely covered with roofing material, the edge of the upper additional layer is brought onto the front part of the parapet wall (not shown).

In this case, the waterproofing on the parapets is protected with an apron made of galvanized steel or a parapet stone.

In the places where the roofing carpet is adjacent to the posts of antennas and pipes, their abutments are sealed.

After that, a layer of surfaced waterproofing 24 and a membrane waterproofing layer 25 are laid.

Sealing of these abutments is carried out with shaped parts 26 made of EPDM rubber, which are installed on hot bitumen-polymer mastic applied to the first layer of roofing material, and the horizontal part is poured on top with hot bitumen-polymer mastic and covered with the material of the second layer.

The upper edge of the rubber element is crimped with a metal clamp and coated with a polyurethane or polysulfide sealant.

Sealing of the specified abutments of pipes with a diameter of at least 100 mm is carried out by pasting with a welded material.

Sealing of said abutments of pipes with a diameter of less than 100 mm is carried out by means of a steel cup and a two-component sealant placed between it and the pipe.

The specified means of fastening the panel can be made in the form of at least two hollow mushroom-shaped dowels 28, placed in the heat-insulating layer with the rods 29 passed through them, fixed on the said floor slab 16.

These dowels 28 can be placed along the diagonals of the panel in the area of its corners (Fig. 3). The membrane layer can be made in the form of waterproofing with backfill 19 or in the form of liquid waterproofing or in the form of a PVC membrane.

Comparison of the claimed technical solution with the prior art known from the scientific, technical and patent documentation as of the priority date in the main and adjacent headings did not reveal a means that has features identical to all features contained in the claims proposed by the applicant, including the characteristics of the purpose.

That is, the set of essential features of the claimed solution was not previously known and is not identical to any known technical solutions, therefore, it meets the "novelty" condition of patentability.

An analysis of known technical solutions in this field of technology showed that the proposed technical solution does not follow explicitly from the prior art for a specialist, since no solutions have been identified that have features that coincide with its distinctive features, or such solutions are identified, but the knowledge of the influence of distinctive features is not confirmed to the technical result specified in the application materials.

Those. The claimed solution has features that are absent in the known technical solutions, and the use of these features in the claimed set of essential features makes it possible to obtain a new technical result - a reduction in the repair period and an increase in the service life of the roof covering.

Consequently, the proposed technical solution can only be obtained through a creative approach and is not obvious to the average specialist in this field, i.e. has an inventive step in comparison with the state of the art.

This technical solution is industrially applicable, since its purpose is indicated in the description of the application and the title of the invention, it can be carried out industrially for the repair of roofing.

The invention is feasible and reproducible, and the distinctive features given in the claims are essential, since they affect the possibility of solving the technical problem indicated in the application and obtaining the technical result provided by the invention, that is, they are in a causal relationship with the indicated result and, therefore, are essential.

The invention in the form as it is described in each of the claims can be carried out using the means and methods described in patent RU 2301868, which became generally available before the priority date of the invention.

In addition, the implementation of the claimed invention is achieved by the implementation of the specified purpose.

Therefore, the claimed technical solution meets the "industrial applicability" requirement of patentability.

A distinctive feature of the method is the inverted layout of the structural layers, as well as the possibility of using paving slabs as a topcoat.

For maximum reliability and protection against leaks due to the human factor and poorly fused seams, waterproofing by fusion is performed in two layers of Technoelast EPP bitumen-polymer material.

To ensure reliable protection against heat loss, extruded polystyrene foam is used as a heat-insulating layer, characterized by low water absorption.

It is recommended to lay the insulation boards in one layer of the required thickness, since the moisture between the layers of thermal insulation during freeze-thaw cycles can lead to deformation of the insulation.

Drainage in this system is carried out by the drainage membrane 25. During the period of abundant leash and prolonged precipitation, membrane 25 filters and removes water to the water intake devices. The drainage capacity of the membrane is 15 l / m2, which is significantly higher than the indicators of drainage dumps from crushed stone or gravel.

In the invention, the topcoat is paving slabs of any modifications, used in the improvement of residential areas and characterized by high resistance to pedestrian loads.

Due to the location of waterproofing and thermal insulation under the cement-sand screed, the paving slabs are reliably protected from mechanical damage and ultraviolet radiation, and the structure acquires exceptional durability and reliability, including in the field of fire safety and high resistance to pedestrian loads.

The practical implementation of the claimed invention is achieved by the implementation of the specified purpose when used on building structures, if necessary, a waterproofing carpet 9 in the presence of a large number of roofing elements and the impossibility of using open fire.

The invention is used for the construction of the roof 1 at industrial and public facilities with reinforced concrete bearing structures. It is also very popular among builders and operating organizations due to its high reliability and maintainability. Possibility of waterproofing on surfaces of complex shapes.

The use of the proposed repair method improves the ecology, reduces the background noise from 2 to 10 dB, and increases the resistance to root germination.

The proposed monolithic waterproofing carpet 9 has no seams, which reduces the cost of cooling the premises in the summer, and the local lowering of the roof in the places where the funnels of the internal drainage 27 are installed should be 20-30 mm in a radius of 500 mm by reducing the thickness of the insulation or due to the configuration bases for waterproofing carpet.

In order to avoid the saturation of the “roofing cake” with steam, a vapor barrier is made of the material being welded, a vapor barrier on the base. The durable and strong base of this material allows you to prevent cracking of the vapor barrier during the operation of the building, and its flexibility at temperatures down to -15 ° C makes it possible to install a vapor barrier at negative temperatures. Extruded polystyrene foam is used as insulation, which has low water absorption and high compressive strength, which provides reliable protection against heat loss.

The bitumen-polymer material Uniflex VENT EPV was used as the material of the lower layer. When laying it, channels are formed that remove steam from the structure through abutments or roof aerators (wind vans), which significantly reduces the amount of blisters on the roof surface and prolongs the life of the waterproofing carpet. The bitumen-polymer material Technoelast EKP is used as the second layer, which has a high durability - up to 30 years on the roof.

Roof repair is carried out as follows.

1. Execution of the ramp-down.

The slope must comply with the laying standards for flat roofs. During the repair, the old waterproofing coating and the reinforcing layer are previously dismantled, expanded clay is leveled and dried 10.

2. Laying the panel 2.

Laying of panel 2 is carried out along the axis of the roof 1 with overlap of panels 2 by one third towards themselves. After laying the layer and checking it, a quarter is glued with a special glue for expanded polystyrene, and then panels 2 are trimmed with an angle grinder with a disc for cutting stone materials.

3. Fusion of the waterproofing layer 18.

Various types of waterproofing are used to apply the waterproofing layer 18.

4. Execution of junctions.

In places of abutment to vertical surfaces, the main roofing carpet 9 is reinforced with additional layers of the height of the institution on a vertical surface of at least 250 mm. The waterproofing on the parapets is protected with a galvanized steel apron or a parapet stone.

5. Arrangement of expansion joints.

Expansion joints are arranged in the roof 1 above the expansion joint of the building. To reduce the likelihood of leakage through the seam, slopes on the roof are formed so that water flows away from the seam.

6. Making connections to single pipes 27.

In the places where the roofing carpet is adjacent to the antennas, pipes, fittings 30 are installed, or for pipes of small diameter, a steel glass and a two-component sealant are used.

The repair method is used when constructing a new and reconstructing an old roof. This technical solution is used on building structures when it is necessary to install a waterproofing carpet 9 in the presence of a large number of roofing elements and the impossibility of using open fire.

The use of the invention makes it possible to shorten the repair time and increase the service life of the roofed roof.

Claims (9)

1. A method of overhaul of flat roofing coverings by paving with parallelepiped-shaped panels, on the edges of which there are ledges with the possibility of connection with neighboring similar panels, which consists in dismantling the old roofing covering, insulation and screed, rebuilding the ventilated covering, laying an additional layer thermal insulation and a new roofing covering - a roofing carpet, characterized in that the layers of the old roofing are dismantled to the expanded clay layer, which is loosened, dried and leveled to ensure the calculated surface slope, after which a multilayer roofing thermal insulation panel is placed on the expanded clay layer with an insulating layer of extruded polystyrene foam density 35, into which fire retardants are introduced to ensure fire-fighting properties, as well as dyes or pigments, while mechanically to the heat-insulating layer by means of a swallow-type connection in tail "attach a protective layer made of a cement-sand mixture with a density of at least M300, a thickness of at least 5 mm with additives in the form of a plasticizer, while a bituminous water-based primer is applied to the protective layer, on the surface of which a cross-shaped recess is made along the axes of the panel, with the said ledges are made in the form of opposing consoles on both ends of the short sides and similar consoles adjacent to them on the long sides of the panel, and the thickness of all the ledges is equal to half the thickness of the assembled panel, each panel is attached to the floor slab by means of fastening, then the roofing panels are placed in the carpet along the axis of the roof with one-third overlap of the panels, so that the location of the seams does not coincide when the corresponding ends of the slabs are aligned, with laying in the direction "towards themselves", while the conjugated grooves of the corresponding ends are aligned with each other and filled flush with a binder, forming monolithic joint and expansion joints, then n and a bituminous water-based primer is fused with a waterproofing layer with a backfill by rolling a roll, while at the points of abutment to vertical surfaces, the main roofing carpet is reinforced with additional layers, the height of which on a vertical surface is not less than 250 mm, and these additional layers are mechanically fixed to the base by means of an edge strip or washers, and when the parapet is completely closed with roofing material, the edge of the upper additional layer is brought onto the front part of the parapet wall, while the waterproofing on the parapets is protected with an apron made of galvanized steel or a parapet stone, while sealing is carried out in the places where the roofing carpet adjoins the posts of antennas and pipes their abutments, after which a layer of surfaced waterproofing and a membrane layer of waterproofing are laid. 2. The method according to claim 1, characterized in that the sealing of said abutments is carried out with shaped parts made of EPDM rubber, which are installed on a hot bitumen-polymer mastic applied to the first layer of roofing material, and on top of the horizontal part is poured with hot bitumen-polymer mastic and closed material of the second layer, and the upper edge of the rubber element is compressed with a metal clamp and coated with polyurethane or polysulfide sealant. 3. The method according to claim 1, characterized in that the sealing of said abutments of pipes with a diameter of at least 100 mm is carried out by pasting with a material to be welded. 4. The method according to claim 1, characterized in that the sealing of said abutments of pipes with a diameter of less than 100 mm is carried out by means of a steel cup and a two-component sealant placed between it and the pipe. 5. The method according to claim 1, characterized in that said panel fastening means is made in the form of at least two hollow mushroom-shaped dowels placed in a heat-insulating layer with rods passed through them and fixed to said floor slab. 6. The method according to claim 1, characterized in that said dowels are placed along the diagonals of the panel in the area of its corners. 7. The method according to claim 1, characterized in that the membrane layer is made in the form of waterproofing with backfill. 8. The method according to claim 1, characterized in that the membrane layer is in the form of a liquid waterproofing. 9. The method according to claim 1, characterized in that the membrane layer is made in the form of a PVC membrane.

Images