RU63827U1 - BUILDING CONSTRUCTION FROM MULTILAYER PANELS - Google Patents

Abstract

The utility model is aimed at stabilizing the required air-heat conditions indoors by minimizing the possibility of the occurrence of "cold bridges".

The specified technical result is achieved by the fact that the building structure of multilayer panels contains walls of interconnected panels, a roof frame and roof panels fixed to the roof frame, as well as installation elements in the form of waterproofing wedge-shaped porous aggregates installed in the gap between the roof panels and wall panels and between mating roof panels. 6 C.p.F., 5 ill.

Description

The utility model relates to construction, namely the construction of structures from multilayer panels and can be used in panel housing construction.

Known building structure of multilayer panels, touching edge to edge, and each includes a sheet of polymer concrete having a repeating embossed pattern on its open surface.

Convention application 919766. Registration application number RU 94030371, EV 2/72. Date of publication: 1996.06.27.

The relief pattern imitates the appearance of brickwork and repeats itself essentially without a break through the joints between the panels, which improves the appearance of the structure.

However, this concrete structure requires a lot of labor for its construction.

This disadvantage is overcome in another known building structure of multilayer panels comprising walls of interconnected panels, a roof frame and roof panels fixed to the roof frame.

Patent RU 2098578, Е04Н 1/02, 1996

The building is made with exhaust ducts and an exhaust shaft, and the outer walls and roof with a ventilated air gap between the layers of panels, which provides good ventilation properties with the simplicity of design.

This technical solution for the technical nature and the achieved result is closest to the claimed utility model and is taken as a prototype.

This panel construction is easy and quick to erect.

The disadvantage of this design is the lack of heat-saving ability.

The technical result of the proposed utility model is the stabilization of the required air-heat conditions indoors by minimizing the possibility of the occurrence of "cold bridges".

This goal is achieved in that the building structure of multilayer panels, containing walls of interconnected panels, the roof frame and roof panels, mounted on the roof frame, further comprises installation elements in the form of wedge-shaped porous aggregates and flat keys, the panels are made of porous plates, lined with oriented chipboard, and wedge-shaped aggregates are installed in the gap between the roof panels and wall panels and between the mating roof panels and are waterproofed from them her, while the walls and roof of the structure use panels interconnected by flat keys and separated by waterproofing. It is advisable if the roof frame is made in the form

consecutively installed truss trusses, and the panels are mounted on rafters.

It is also advisable if the frame is made in the form of end truss trusses connected by a ridge run and longitudinal beams on which panels are fixed.

It is advisable to use expanded polystyrene or polyurethane foam as the porous material of the panels and wedge-shaped fillers.

It is also advisable to perform dowels made of wood, oriented chipboard or plywood.

In addition, it is advisable to install thermal barriers from sheet material on the inner surface of wall and roof panels.

In this case, it is desirable to perform thermal barriers from sheets of drywall or gypsum fiber.

The use of waterproofing installation elements in the form of wedge-shaped aggregates made of porous materials, for insulation of ceiling plates from wooden structural elements and keyed connection of panels to each other with the possibility of pairing their heat-insulating layers allows minimizing the occurrence of "cold bridges" through which heat leakage from the room and moisture leading to heat loss, decay and damage to the structure. In addition, the use of layers of panels that are homogeneous in composition, both for walls and roof ceilings, connected by mounting elements made of layers of materials homogeneous in composition, avoids the occurrence of thermal gradients inside the panels, which also prevents the formation of “cold bridges” and heat leakage.

The utility model is illustrated by drawings.

Figure 1 presents a General view of the structure;

Figure 2 shows a variant of the roof frame;

Figure 3 shows the connection of the wall panel with the roof panel;

Figure 4 presents the connection of the roof panels;

Figure 5 shows the connection of the panels with keys.

The building structure of multilayer panels contains wall panels 1 (Fig. 1), Mauerlat timber 2, roof panels 3 and roof frame 4, which can be made in the form of successively installed truss trusses, while roof panels are mounted on rafters 5. Frame , can also be made in the form of end truss trusses (figure 2), connected by a ridge run 6 and longitudinal beams 7, on which roof panels are fixed. All panels are made of porous plates 8 (Fig. 3) of expanded polystyrene or polyurethane foam and are lined on both sides with identical thickness sheets of oriented chipboard 9. Wedge-shaped porous fillers 10 are installed in the gap between the wall panels and the roof panels and are separated from them by waterproofing 11. Wedge-shaped porous aggregates 12 are installed in the gap between the mating roof panels

(figure 4). On the inner surface of the wall and roof panels, thermal barriers are installed from sheets of drywall or gypsum fiber 13. All panels are interconnected by flat keys 14 (Fig. 5) made of wood, oriented chipboard or plywood.

The installation of the building structure begins with laying on the foundation a tie-rod (not shown in the drawing), on which the wall panels 1 are mounted. After that, a Mauerlat beam is installed on the sides on which the roof frame 4 will rest. 2. Roof panels are mounted on the roof frame 3. In the embodiment of the device shown in FIG. 1, the panels are mounted on rafters 5. In another embodiment of the device shown in FIG. 2, the roof panels are mounted on the ridge run 6 and the longitudinal beams 7. In the gap between the wall panels and the panels roof (figure 3) wedge-shaped aggregates are installed 10. The joining places are pre-coated with waterproofing 11. In the gap between the mating roof panels (Fig. 4), wedge-shaped aggregates are installed 12. The joining places are pre-coated with waterproofing 11. The same porous material is taken as the material of all types of wedge-shaped aggregates, as plates 8 of the porous layer of the panels, i.e., from polystyrene foam or polyurethane foam. The panels are interconnected by dowels 14 (Fig. 5), which are mounted in pairs on opposite sides of the panels in contact with the inner surface of the oriented chipboard 9. The joints of all the installation elements are pre-coated with waterproofing 11. Thermal barriers of sheets are installed on the inner surface of the wall and roof panels drywall or gypsum fiber 13.

When operating a building structure from the same composition of multilayer panels using waterproofing installation elements made of materials of the same name as the panel material, it prevents heat leakage through the "cold bridges" and thereby maintain a uniform temperature field inside the structure, which improves its operational properties.

The use of a building structure from multilayer panels, according to the proposed technical solution, allows to improve the thermal, hygienic and other operational properties of the structure and expand the possibilities of panel housing.

Claims (7)

1. A building structure of multilayer panels, comprising walls of interconnected panels, a roof frame and roof panels fixed to the roof frame, characterized in that it further comprises mounting elements in the form of wedge-shaped porous aggregates and flat keys, the panels are made of porous plates, faced with an oriented chipboard, and wedge-shaped fillers are installed in the gap between the roof panels and wall panels and between the mating roof panels and are separated from them by waterproofing, while Whether the walls and roof are interconnected flat splines are separated and waterproofing. 2. The building structure according to claim 1, characterized in that the roof frame is made in the form of sequentially installed truss trusses, and the panels are mounted on rafters. 3. The building structure according to claim 1, characterized in that the frame is made in the form of end truss trusses connected by a ridge run and longitudinal beams on which the panels are fixed. 4. The building structure according to claim 1, characterized in that polystyrene foam or polyurethane foam is used as the porous material of the panels and wedge-shaped fillers. 5. The building structure according to claim 1, characterized in that the dowels are made of wood, oriented chipboard or plywood. 6. The building structure according to claim 1, characterized in that thermal barriers of sheet material are installed on the inner surface of the wall and roof panels. 7. Building construction according to claims 1 and 6, characterized in that the thermal barriers are made of sheets of drywall or gypsum fiber.