EA008199B1 - Single storey building of prefabricated sections - Google Patents

Abstract

USE: for constructing single storey dwelling, civic, industrial, agricultural and special-purpose buildings from light prefabricated structures of complete delivery.SUBSTANCE: the building comprises wall, roof and gable panels, floors and attic floor. The panels are framed and provided with elements having holes, for fixing section panels therebetween. To reduce material consumption, labour-intensity of production process and operation costs roofing panels having only outer trimming are joined in the ridge by flange connections and fastened releasably by their cornice part to wall panels. The flooring is made of elements with sufficient bend rigidity and fixed to upper ends of the wall panels. The wall panels rest upon concrete floor thickening and fixed by anchor bolts. All releasable erection parts are connected by fixing threaded elements. Cover strips are used for protecting panel joints fixed to panels outer trimming.

Description

The invention relates to the construction and can be used for the construction of single-storey residential, civil, industrial, agricultural and special buildings from light integrated structures complete delivery.

Known solutions of collapsible buildings of various structural systems of frame-panel type of flat and linear elements, including columns, covering beams, half-timbered walls, wall and roof panels, partitions supplied and mounted on the construction site elementwise [GOST 22853-86 Buildings mobile (inventory). General technical conditions. Moscow, USSR State Construction Committee, 1986; I.V. Stepanov Mobile buildings and structures. Reference manual. M., stroiizdat, 1988].

The disadvantages of such solutions are increased consumption of materials and the complexity of the manufacture, transportation and installation of buildings due to the large number of sizes of mounting elements.

The closest in technical essence to the proposed solution is a warmed collapsible building system of the Installer, which includes concrete foundations, floors and three-layer wall, roofing and pediment panels with outer and inner plating and insulation between them, fixed to the metal frames of the panels, the outline elements of which are located on the outer side of the panels and are made of steel rolling sections with holes for bolting the panels together during installation of the building, as well as puffs for the perception of spacer efforts from its own weight of three-layer roofing panels connected in the ridge pivotally [Drawings of the working draft cipher 3093 - Prefabricated building measuring 9x18x4.2 m of the Installer system - developed by VNIImontazhspetsstroy SKB in 1988 (prototype)].

The disadvantages of this solution are increased consumption of materials due to the implementation of the gable and roofing panels with insulation and inner lining, which, unlike the insulated attic floor, leads to waste of materials due to both an increase in geometric parameters and an increase in the normalized heat transfer resistance to cover in comparison with garret overlapping by 25-30%; the need for the device puffs for the perception of spacer efforts due to the hinged connection of the roof panels in the ridge joint. In addition, the execution of the building without a warmed attic floor unnecessarily increases its heated volume by 20-30%, which leads to significant excess energy consumption for heating and ventilation of the building during its operation.

The objective of the invention is the reduction of material consumption, the complexity of manufacturing and operating costs of the building.

This task is achieved by the fact that the roofing and gable panels contain only contour elements and the outer casing, while the roofing panels are joined rigidly to each other in the ridge by means of flange joints and attached to their eaves to the wall panels to which the ceiling is detachably fixed with sufficient stiffness along the deflection, and the wall panels are detachably fastened to concrete piles of the floor located along the perimeter of the building, as well as to the floor panels in case of perform the floor in the form of three-layer insulated panels, equipped with the bottom side of the outline elements with holes for detachable connection of the floor panels among themselves and with wall panels.

The invention is illustrated in the drawing, where in FIG. 1 shows an axisymmetric cross-section of a building; in fig. 2 - a fragment of a longitudinal section of the building; in fig. 3 is a section A-A in FIG. one; in fig. 4 is a section BB in FIG. one.

The one-storey collapsible building contains three-layer insulated wall longitudinal 1 and wall end 2 panels provided on the outside with contour elements 5 with openings for detachable connection, for example, on bolts, panels between each other; single-layer roofing 3 and gable 4 panels; floor 6 and overlap 7. The longitudinal elements 8 of the roofing panels 3 in the upper ends are provided with flanges 9 with openings for joining the panels together in the ridge unit. The overlap elements 7, for example, steel profiled sheets with corrugation height providing stiffness along the deflection, are detachably fastened, for example, with screws or self-cutting screws, to the upper ends of wall 1 and 2 panels, which are detachably fastened to the concrete thickenings 10 of floor 6, by their lower ends, for example, anchor or self-locking bolts 11. In the case of floor 6 in the form of panels 12 with elements 13 framing along the contour, the latter are fixed detachably between themselves and to wall 1 and 2 panels. All detachable mounting connections are made using fastening threaded parts 14. In order to avoid moisture penetration, the joints between panels 1, 2, 3, 4 are protected, for example, with strips 15.

Installation of a collapsible building is performed as follows.

Concrete floor 6, including thickening 10 around the perimeter of the building, with the installation of anchor bolts 11. In the case of floor 6 using panels 12, they are fixed with framing elements 13 on the supporting concrete pads.

Fasten to the anchor bolts 11 and interconnect with fasteners 14 end 2 and two longitudinal 1 wall panels. To the upper ends of the wall panels fix the elements of the ceiling 7 and put on them insulation, for example, mineral wool mats. Perform on the court

- 1 008199 pre-assembly of the outermost roofing unit, which includes connecting fasteners 14 between each two gable 4 and two roofing 3 panels. The extreme roofing unit is installed on wall panels 1 and 2 and fasteners 14 are connected to them. They are fixed to the anchor bolts 11 and two next longitudinal 1 wall panels are connected to the already installed ones. The pre-assembly of the middle roofing block is carried out by connecting two roofing 3 panels in the ridge unit of the flanges 9. The middle roofing unit is installed on the longitudinal 1 wall panels and is connected to them and to the roofing 3 panels of the outermost block by fasteners 14.

Further installation is performed in the same sequence. Extreme roofing unit from the other end of the building is enlarged similarly to the first and installed after fixing the end 2 wall panels and floor elements 7. The joints of panels 1, 2, 3, 4 with each other cover splashes 15, which are fixed to the outer skin of the panels by means of fasteners 14.

The constructive solution of the building allows to reduce the consumption of materials by reducing the geometrical parameters of the thermal contour of the building. The complexity of manufacturing is reduced, since the roofing and gable panels are made only with external cladding. The construction of the building with insulated floors reduces the heated volume by 20-30%, which provides significant savings in energy consumption for heating and ventilation during the operation of the building.

Claims (2)

1. The building is one-story collapsible, including concrete foundations, floors and three-layer wall, roofing and pediment panels, equipped with outer and inner cladding with insulation between them, fixed to the metal frames of the panels, the contour elements of which are located on the outside of the panels and are made with holes for detachable connection of panels between themselves and wall panels with foundations, characterized in that the roof and pediment panels contain contour elements and the outer skin, while roofing nye panels are joined together rigidly by a ridge of flanges and its eaves part attached to wall panels which are releasably fastened with overlapping made of profiled elements with sufficient deflection by rigidity, and a concrete floor bulges situated along the perimeter. 2. The building according to claim 1, characterized in that the floors are made in the form of three-layer insulated panels equipped with contour elements on the underside with holes for detachable connection of the floor panels to each other and to wall panels.