RU2012135323A - ELEMENT OF A MULTILAYERED EASY BUILDING PANEL AND METHOD FOR ITS MANUFACTURE - Google Patents

Abstract

1. An element of a multilayer lightweight building panel containing an internal frame made in the form of a steel collapsible frame containing perforated horizontal lower and upper guide elements, between which perforated vertical rack elements are installed, located in a row in the longitudinal direction of the guide elements and rigidly connected with them fasteners and nodal connections, as well as the inner heat-insulating layer and the outer and inner cladding, while horizontal and vertical The vertical elements are made in the form of steel profiles, and the profiles of the vertical elements have a C-shaped section, characterized in that the frame frame elements are finished parts, while the horizontal parts are also made in the form of C-shaped sections and also include horizontal jumpers, vertical and horizontal parts are connected and have additional perpendicular bends of the trapezoidal shelves in the docking nodes, the perforation of the parts is made in the form of transverse and longitudinal notches under fillet metal, sheet or wooden carcass reinforcing elements, as well as technological cuts and guide pucks for reinforcing the docking unit with additional stiffening ribs, the internal heat-insulating layer is made three-layer in the form of two layers of cellulose insulation, between which there is an internal temperature-moisture-regulating insert with internal vertical air chambers, drainage channels and condensate collection channels interconnected into a single system, internal

Claims (31)

1. An element of a multilayer lightweight building panel containing an internal frame made in the form of a steel collapsible frame containing perforated horizontal lower and upper guide elements, between which perforated vertical rack elements are installed, located in a row in the longitudinal direction of the guide elements and rigidly connected with them fasteners and nodal connections, as well as the inner heat-insulating layer and the outer and inner cladding, while horizontal and vertical the vertical elements are made in the form of steel profiles, and the profiles of the vertical elements have a C-shaped section, characterized in that the frame elements of the frame are complete parts, while horizontal parts are also made in the form of profiles of C-shaped section and also include horizontal jumpers, vertical and horizontal parts are connected and have additional perpendicular bends of the trapezoidal shelves in the docking nodes, perforation of the parts is made in the form of transverse and longitudinal notches for shaped metal , sheet or wooden reinforcing elements of the frame, as well as in the form of technological notches and guide beams for reinforcing the docking unit with additional re by stiffness frames, the internal heat-insulating layer is made three-layer in the form of two layers of cellulose insulation, between which there is an internal temperature-moisture-regulating insert with internal vertical air chambers, drainage channels and condensate-collecting channels interconnected into a single system, the inner and outer claddings are prefabricated , in the form of parts with internal overhead joints and structural attachment points, external surfaces are attached to the outer surface of the outer lining e overhead joints and horizontal U-shaped profiles coated with an external heat-insulating layer. 2. An element of a multilayer lightweight building panel according to claim 1, characterized in that the frame frame parts are made of steel with a thickness of 0.5-1.2 mm. 3. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that the frame frame parts can be coated with at least one additional protective layer. 4. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that the fasteners of the nodal joints are made in the form of screw joints, riveted joints, as well as on the basis of soldering and welding or joints by cold stamping with the formation of a geometric and power short circuit . 5. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that it contains additional reinforcing elements - metal profiles, wooden elements and cladding parts elements - attached to the shelves of the frame parts in the form of a C-shaped profile using curved and concave "tongues", as well as punching, notches and guide poulevings of frame parts. 6. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that the connection of perforated technological transverse and longitudinal die-cuts (“tongues”) with the frame structure amplifiers is achieved through the use of adhesive, screw joints, and for profile metal amplifiers also for soldering, welding and cold stamping with the formation of geometric and power short circuits. 7. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that fastening units with additional milling and mounting holes are made on the details of the external and internal prefabricated facings. 8. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that a hollow metal core with a cap in which a through central hole is made is provided in the attachment unit for parts of the outer and inner prefabricated facings. 9. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that the parts of the outer and inner prefabricated facings are equipped with moisture-proof and fire-resistant seals. 10. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that in the three-layer inner heat-insulating layer, two outer layers of cellulose insulation are firmly connected to the internal temperature-moisture-regulating insert. 11. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that the condensate collecting channels have strips of vapor-permeable material with threads with a metallized coating woven into them. 12. An element of a multilayer lightweight construction panel according to claims 1 and 2, characterized in that it has landing sockets for docking with connecting elements. 13. An element of a multilayer lightweight building panel according to claims 1 and 2, characterized in that it has around the perimeter connecting grooves for the connecting elements: vertical, horizontal, angular. 14. The element of the multilayer lightweight construction panel according to claims 1 and 2, characterized in that the connection unit of the element of the multilayer lightweight panel and the connecting element forms a “labyrinth seal”. 15. A method of manufacturing an element of a multilayer lightweight building panel, according to which the elements of the steel frame of the frame are made in the form of C-shaped profiles, perforated, cut to length, the frame of the element of the multilayer lightweight building panel in the form of a collapsible frame is assembled from them, the nodes of the frame are connected, inside the frame is placed the inner heat-insulating layer, and on the outside the inner lining, as well as the outer lining, covered with an outer heat-insulating layer, characterized in that, as elements of the frame frame, finished parts are made in the form of C-shaped profiles with perforation in the form of notches, punching and pucking on one rolling mill by one technological process controlled by a software system, the frame frame is assembled from horizontal parts (guides: upper and lower and jumpers) and vertical parts (racks), while horizontal parts and vertical parts - racks in the form of C-shaped profiles are coated externally with fireproof, moisture resistant and heat-insulating with fillers, then vertical parts are fastened piece by piece with horizontal parts (jumpers and guides), the inner heat-insulating layer is made three-layer, in the form of two layers of cellulose insulation, between which there is a temperature-moisture-regulating insert, in which internal vertical air chambers, drainage channels and condensate collection channels connected to each other in a single system install this heat-insulating layer inside the jumpers vertically fragmented x parts - racks, after which these fragments are interconnected on the assembly table by horizontal parts (guides and jumpers) and rigidly fastened by fasteners, nodal joints with at least one automated technological process, the inner and outer claddings are prefabricated, while the details are internal cladding is placed on one surface of the frame and attach them to the frame with at least one automated process, after which the element is light multi-layer of the construction panel is turned over with the facing side down and the details of the outer cladding are fastened to the other surface of the carcass by at least one automated process through the sealant, on the outer surface they are horizontally installed external patch joints and a U-shaped profile, on the outer surface of the outer lining with a U-shaped an external heat-insulating layer is applied with a seal with a profile, then the element of the multilayer light panel is moved to the external decoration area, where DYT its final outer finishing. 16. The method of manufacturing an element of a multilayer lightweight building panel according to Claim 15, characterized in that the vertical strut parts and the horizontal parts — guides and jumpers of the C-shaped profile are made of steel with a thickness of 0.5-1.2 mm with possible subsequent application of at least at least one additional protective layer. 17. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that on the short shelves of horizontal parts - guides and jumpers in the form of a C-shaped profile, additional vertical bends of a trapezoidal shape are performed. 18. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that the fasteners of the nodal joints are made in the form of screw joints, as well as riveted joints, based on soldering and welding, or by cold forming to form a geometric and power short circuit. 19. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that additional reinforcing elements are mounted on the frame elements of the multilayer lightweight building panel attached to the shelves of C-shaped profiles of horizontal and vertical frame parts using curved and concave " tongues "(punching), as well as notches and guide puklevki details in the form of a C-shaped profile, - shaped metal, wooden elements and elements of the details of the lining with at least one automatic process technology. 20. A method of manufacturing an element of a multi-layer lightweight building panel according to claims 15 and 16, characterized in that the perforated technological transverse and longitudinal die cuts (“tongues”) are connected to additional reinforcing elements of the frame through the use of adhesive, screw joints, and for profile metal amplifiers also through the use of soldering, welding and cold stamping with the formation of geometric and power short circuits. 21. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that in the frame of the element of the building panel, prefabricated landing sockets for docking with connecting elements are performed. 22. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that the outer layers of the cellulose insulation are firmly connected to the inner temperature-moisture-regulating insert in the inner heat-insulating layer. 23. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that fastening units with additional milling and mounting holes are made on the details of the external and internal prefabricated facings. 24. A method of manufacturing an element of a multi-layer lightweight building panel according to claims 15 and 16, characterized in that a hollow metal core with a cap in which a through central hole is made is installed in the fastening assembly of the parts of the precast cladding. 25. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that the outer heat-insulating layer is made of ecowool and compacted by plane pressing with at least one non-waste automated process. 26. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that the prefabricated parts of the outer and inner prefabricated facings are provided with moisture-proof and fire-resistant seals. 27. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that strips of vapor-permeable material with threads with a metallized coating woven into them are made in the condensate collecting channels. 28. A method of manufacturing an element of a multi-layer lightweight building panel according to claims 15 and 16, characterized in that an identification marking is applied to all parts and elements. 29. A method of manufacturing an element of a multi-layer lightweight building panel according to claims 15 and 16, characterized in that in the prefabricated landing sockets of the connecting grooves of the frame of the element of the multi-layer lightweight building panel, the connecting elements are arranged in accordance with the marking, without matching and fitting: vertical, horizontal, angular included in the package with elements of a multi-layer lightweight construction panel. 30. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that the connection unit of the element of the multilayer lightweight building panel and the connecting element is formed to form a “labyrinth seal”. 31. A method of manufacturing an element of a multilayer lightweight building panel according to claims 15 and 16, characterized in that the design of the elements of the multilayer lightweight building panels and finished enclosing structures, manufacturing of frame parts and cladding parts, controlling the process of connecting the frame parts, attaching the cladding parts to the frame, density control of the application of internal and external thermal insulation layers, quality control of all technological processes and operations is carried out by at least one automated rogrammnym complex.