RU2112114C1 - Method of warmth-keeping of external walls of buildings and structures - Google Patents

Abstract

FIELD: construction. SUBSTANCE: the method consists in cementing of a heat-insulating block to the wall and subsequent application of an air-placed concrete layer onto its external surface and onto anchors. A "radoslav" block with an expanded polystyrene self-stopping warmth-keeping jacket frothed in a steel frame is used as the heat- insulating block. Prior to installation of the block, the wall surface is floated with hardening mortar, then a strip of continuous adhesive layer is applied in outline of the block surface, and the block is pressed to the wall to the working position, passing the anchors through the block frame and fastening the mesh reinforcement on them at a distance from the block surface, then a protective air-placed concrete layer is applied onto the mesh reinforcement over the whole open surface of the heat-insulating block. The thickness of the air-placed concrete layer makes up 1/1.2 to 1/7 of the thickness of the heat-insulating block. As a result, a multi-layer monolithic wall with frothed effective heat insulation is obtained. EFFECT: enhanced fire protection. 9 cl, 5 dwg

Description

 The invention relates to construction and can be used in the construction of new and reconstruction of existing walls of residential and industrial buildings and structures.

 A known construction of a multilayer wall, in which plate heat insulation of foamed polymers is fixed to the wall on the anchors, in which the reinforcing mesh is molded during its manufacture. Part of the reinforcing mesh protrudes onto the surface of the insulation plate. After installing the slab in the design position, a layer of protective shotcrete is applied to this surface (RF, patent N 1794157, class E OK B 2/84, 1993).

 There is also known a method of attaching a heat-insulating layer to a finished wall, when it is mounted with bolts and nuts, through the holes in which are passed vertical and horizontal reinforcing bars installed outside the heat-insulating layer. Cement mortar and protective layer are poured onto the heat-insulating layer from above on reinforcing bars (Japan, application N 62-9699, class E 04 B 2/84, 1987).

 With the method of repairing a wall according to UK patent N 2136042, class. E 04 G 23/02, 1983, external elements are installed outside the building and vertical support posts are introduced into the cavity formed between them and the existing wall and foaming material is pumped, which is glued in place to the support posts and external elements. External elements remain as a protective layer in the reconstructed wall.

 The closest technical solution adopted for the prototype is a method in which a layer of thermal insulation in the form of blocks or plates is glued along the entire plane to the wall and then attached to it with mechanical clamps - anchors, which have a washer that presses the heat-insulating layer to the wall surface. On top of the washer, the retainer is equipped with a mushroom head, an anchoring outer layer, thrown onto the thermal insulation layer (France, patent N 2537628, class E 04 B 1/76, 1984). All the described analogues, including the prototype, have one common drawback: they do not contain the necessary measures to ensure the fire resistance of the wall fencing, determined by fire safety standards.

 The objective of the invention is to develop a technical solution for a multilayer monolithic wall with foamed effective thermal insulation, which would ensure compliance with fire protection standards of buildings and structures.

 This problem is solved in that a “Radoslav” block with a self-extinguishing polystyrene foam insulated in a steel frame is used as a heat-insulating block, and before installing the block, the wall surface is wiped with a hardening solution, eliminating caverns, crevices, sinks, cavities, etc., then a strip of a continuous adhesive layer is applied along the contour of the surface of the block, the opposite surface provided with the skeleton, and the block is pressed against the wall in the working position, while passing the anchor through the skeleton and securing them to nose "of the surface of a mesh block, onto which a concrete-gunning a protective layer over the entire exposed surface of the heat-insulating block. With new construction, the anchors are embedded in the wall during its construction, and during reconstruction, the anchors are embedded in the wall during the installation of the heat-insulating block on it.

 The insulated outer wall of the building and structures contains piers, door and window openings, insulation blocks glued to the wall and mounted on anchors, and a shotcrete-concrete protective layer. A radoslav block with a self-extinguishing foam polystyrene foam foamed into a steel frame was used as a heat-insulating block, a radoslav block was fixed on the wall surface with glue applied with a continuous strip at least along the edge of the block surface facing the wall, and passed through its frame anchors, on which "on" from the surface of the block a reinforcing mesh is mounted with a shotcrete-concrete protective layer applied to it. The thickness of the protective layer is 1 / 1.2-1: 7 of the thickness of the insulating block. The reinforcing mesh of the layer is located in the shotcrete layer at a distance of 1 / 4-3 / 4 from its outer surface. When arranging door and window openings, the heat-insulating block is mounted at a distance from their edge exceeding the thickness of the heat-insulating block, the ends of the reinforcing mesh protruding beyond the dimensions of the block are bent and fixed to the wall with dowels, and the ends of the block are closed with a shotcrete-concrete protective layer flush with the opening. The reinforcing mesh in solid walls, in the corners of the building and in walls without openings is installed to the entire height of the insulated wall and is additionally fixed with anchors mounted at the cornice, basement and one each within the floor along the entire height of the wall with a front step of 8-12 thicknesses shotcrete concrete layer. In addition, the shotcrete-concrete protective layer can be reinforced in window and doorways with reinforcing frames fixed to anchors, and the reinforcing mesh is made of welded, or knitted, or woven, or in the form of a "netting".

 A comparative analysis of the claimed technical solution with the prototype shows that it differs, firstly, by the use of the Radoslav block with self-extinguishing polystyrene foam, foamed into the steel frame, and secondly, by grouting the surface of the wall with the mortar before installing the heat-insulating block in the working position, in- thirdly, by applying a continuous strip of the adhesive layer along the contour of the surface of the block, its opposite surface, equipped with a frame, fourthly, passing anchors through the frame of the block, fifthly, fix lowering the reinforcing mesh on the anchors "on the" from the surface of the block and, sixth, by applying a shotcrete-concrete protective layer over the entire open surface of the heat-insulating block. In addition, the difference lies in the fact that the thickness of the protective shotcrete-concrete layer is 1 / 1.2-1 / 7 of the thickness of the heat-insulating block, the reinforcing mesh is located in the shotcrete-concrete layer at a distance of 1 / 4-3 / 4 from its outer surface , the insulation block is mounted at a distance from door and window openings exceeding the thickness of the insulation block, the ends of the reinforcing mesh protruding beyond the dimensions of the block are bent and fixed to the wall with dowels, and the ends of the block are closed with a shotcrete-concrete protective layer flush with the opening. Instead of the ends of the reinforcing meshes bent at the window and doorways in these places, reinforcing frames fixed to anchors can be installed in the shotcrete layer. The reinforcing mesh can be made welded, knitted, woven or in the form of a "netting" and in solid walls, in the corners of the building and in walls without openings, installed to the entire height of the insulated wall and additionally fixed with anchors mounted at the cornice, base and one each the limits of the floor along the entire height of the wall with a step along the front equal to 8-12 thicknesses of the shotcrete-concrete protective layer.

 This comparative analysis allows us to conclude that there is novelty in the invention.

 Comparison of the claimed technical solution with other similar solutions shows that the use of the radoslav heat-insulating block in this wall design, its installation on the wall with the frame to the protective shotcrete-concrete layer, fixing the radoslav block frame on the anchors, grouting of the wall surface before installing the heat-insulating block hardening mortar, fixing the reinforcing mesh "on the relative" from the surface of the block, applying to this surface on the reinforcing mesh a protective shotcrete-concrete layer and its thicknesses with respect to the thickness of the heat-insulating block and the closure of sprayed concrete layer across the exposed surface of the heat-insulating unit provides the necessary fire insulated wall corresponding to the current regulations. This comparison allows us to conclude that the claimed invention exceeds the existing level of technology.

 In FIG. 1 shows a general view of an insulated wall, a fragment in section; in FIG. 2 - option of fastening the reinforcing mesh of the shotcrete-concrete layer "on the relative"; in FIG. 3 is a view along AA in FIG. 2; in FIG. 4 - options for insulation of door and window openings; in FIG. 5 - basement insulation (option).

 Radoslav thermal insulation block consists of a polystyrene foam self-extinguishing insulation 1, foamed during manufacture into a frame 2, formed by bent steel profiles 0.6-0.7 mm thick, having an anti-corrosion coating and installed on one of the surfaces of the thermal insulation block. Radoslav insulation block is produced according to technical specifications TU 2244-001-00146301-93. Before starting work, the surface 3 of the wall 4 is rubbed with a hardening mortar 5, which smoothes voids, bumps, cracks, seams, etc., any protruding parts are removed from the facade (not shown in the drawings). This is done to better fit the insulation block to the wall and to prevent air leakage to the heater in case of fire. On the surface 6 of the heat-insulating block, the opposite surface 7 with the frame 2, a strip of continuous adhesive layer 8 is applied, positioning it along the entire contour of the surface of the block; with significant dimensions of the block, the adhesive layer is also applied in the middle of the surface 6. Then, the heat-insulating block is glued to the wall surface, preventing the formation of through holes between the wall surface 3 and the block surface 6. The glued block is attached to the wall 4 by anchors 9, and holes are drilled in the bent profile of the steel frame with a diameter equal to the diameter of the anchor. These holes pass through the steel frame of the block, its insulation, adhesive layer and go deep into the wall. On the anchors from the outside of the heat-insulating block, a reinforcing mesh 10 "on the relative" from the surface 7 of the block is attached. It is fixed in this position, for example, using steel lobes 11 with bent ends 12, covering the rods of the grid. Fixation of the grid and the heat-insulating block can be made by other known means. A protective layer of shotcrete concrete 13 is applied to the reinforcing mesh so that it covers the heat-insulating blocks over their entire open surface. The thickness of the shotcrete-concrete protective layer can vary within 1 / 1.2-1 / 7 of the thickness of the heat-insulating block, which depends on the heat-shielding characteristics of the wall and on the place of application of the shotcrete: in the basement of the building, in window and doorways its thickness more than the rest of the wall. Reinforcing mesh 10 is located mainly in the middle of the shotcrete-concrete layer and is recessed into concrete from all sides. Its location should not go beyond 1 / 4-3 / 4 of the thickness of the layer from its outer surface. In the interface between the heat-insulating block and the window and door openings 14, the block is mounted at a distance from the edge 15 of the opening exceeding the thickness of the block. The ends 16 of the reinforcing mesh are bent and fixed to the wall with dowels 17, and the ends of the block 18 are closed with a shotcrete-concrete layer flush with the opening. In another embodiment, the shotcrete-concrete protective layer is reinforced in the window and door openings with reinforcing frames 19 fixed along the contour of the opening to the anchors 20. In the corners of buildings, in walls without openings, and also in the walls between windows and doors, the insulation of the outer walls is carried out to the full height building; in this case, the reinforcing mesh is additionally fixed by anchors 9 mounted at the cornice, base (not shown in the drawings) and one at a time along the entire height of the wall with a step along the front equal to 8-12 thicknesses of the shotcrete-concrete protective layer. The reinforcing mesh can be welded, braided or in the form of a "chain-link" grid.

 The method can be used both for insulating old walls and for new construction: in old walls, the anchors are installed in place so that they pass through the frame of the heat-insulating blocks, during new construction, the anchors are embedded in the wall during its construction, also observing the requirements for them compatibility with block frames.

 The installation of heat-insulating blocks can begin from below from the basement side or from above from the cornice side. When installing thermal insulation from below, at the height of the socle, a wooden board 21 is installed, at a distance of 50 mm from which mounting anchors 20 are hammered into the wall, the mesh 10 is attached to the anchors, the ends 16 of the mesh are bent and fastened to the wall with dowels 17. To the anchors 9 passed through the frames 2 thermal insulation block, the mesh can be fastened with knitting wire 22, through the sleeve 23, worn on the anchor 9 to form a protective layer of the reinforcing mesh 10. When installing thermal insulation on top (not shown in the drawings), the reinforcing mesh should be attached to the mounting anchors at the cornice.

 Shotcrete-concrete protective layer is made of cement-sand mortar.

 The conducted fire tests showed that the proposed design of insulation of the external walls of buildings and structures and the method of its installation do not create an additional fire hazard for the supporting structures of the building.

Claims (9)

 1. The method of warming the outer walls of buildings and structures, which consists in gluing a heat-insulating block to the wall, fixing it with anchors and then applying it to the outer surface and the anchors of the shotcrete-concrete protective layer, characterized in that the radoslav block is used as a heat-insulating block with a self-extinguishing polystyrene foam insulated in a steel frame, and before installing the unit, the wall surface is wiped with a hardening solution, then at least along the edge of the block surface, facing a strip of a continuous adhesive layer is applied to the wall and its opposite surface provided with a frame, and the block is pressed against the wall in the working position, while passing the anchor through the block frame and fixing on them “relative” to the block surface from which the shotcrete is applied - a concrete protective layer over the entire open surface of the heat-insulating block, while the thickness of the shotcrete-concrete layer is 1 / 1.2 - 1/7 of the thickness of the heat-insulating block.  2. The method according to claim 1, characterized in that, with new construction, the anchors are embedded in the wall during its construction.  3. The method according to claim 1, characterized in that during the reconstruction of the anchor they close up into the wall during the installation of a heat-insulating block on it.  4. The insulated outer wall of the building and structures containing piers, door and window openings, heat-insulating blocks glued to the wall and mounted on anchors, and a shotcrete-concrete protective layer, characterized in that the radoslav block with polystyrene foam is used as the heat-insulating block self-extinguishing insulation foamed in a steel frame, and the Radoslav block is fixed on the wall surface with glue applied with a continuous strip at least along the edge of the block surface facing the wall, and through its frame uscheny anchor on which "refers to" unit is mounted on the surface of reinforcing mesh coated with a shotcrete protective layer whose thickness is 1 / 1.2 - 1.7 thickness of the heat-insulating block.  5. The wall according to claim 4, characterized in that the reinforcing mesh is located in the shotcrete layer at a distance of 1/4 - 3/4 from its outer surface.  6. The wall according to claim 4 or 5, characterized in that the heat-insulating block is mounted at a distance from the edge of the door and window openings exceeding the thickness of the heat-insulating block, and the ends of the reinforcing mesh protruding beyond the dimensions of the block are bent and fixed to the wall with dowels, and the ends of the block are closed shotcrete-concrete protective layer flush with the opening.  7. The wall according to any one of claims 4 to 6, characterized in that the reinforcing mesh in the solid walls, in the corners of the building and in the walls without openings is installed to the entire height of the insulated wall and is additionally fixed with anchors mounted at the cornice, basement and one each the limits of the floor along the entire height of the wall with a step along the front equal to 8 - 12 thicknesses of the shotcrete-concrete layer.  8. The wall according to any one of paragraphs. 4, 5 or 7, characterized in that the shotcrete-concrete protective layer is reinforced in window and doorways with reinforcing frames fixed to anchors.  9. The wall according to any one of paragraphs.4 to 8, characterized in that the reinforcing mesh is made of welded, or knitting, or woven, or in the form of a mesh "netting".

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