RU2163283C2 - Spatial roof slab - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: spatial rarefied-structure roof slab has top and bottom equal-length ledges bent in longitudinal direction and built of strip members of top and bottom equal- section ledges within each ledge. Spatial rarefied structure of top and bottom ledges is formed due to the fact that any two adjacent strip members of one ledge are separated in slab ends by member of other ledge mounted between strip members. Strip members are joined at ends of spatial roof slab by means of lugs with holes that ensures jointing of strip members of top and bottom ledges in transversal direction of roof slab by driving through pin or bolts into holes and turning strip members relative to each other when moving apart top and bottom ledges in the course of slab manufacture. Intermediate members are mounted in span between top and bottom ledges. EFFECT: reduced material input; reduced cost and weight of roof. 4 dwg

Description

 The invention relates to the construction, namely the coating of buildings and structures, and can be used in industrial and agricultural construction.

 Known coatings for buildings that use flat, wooden, lenticular trusses placed along a building with a step equal to the column pitch (see Dr. Rene Steiger, Schweiser Fichtenholz auf dem Prufstand // Shweizer Holzbau 1/98, p. 33; A.M Kovalchuk et al. Wooden structures in construction, M, SI, 1995, p. 64). The disadvantage of this constructive solution is the lack of spatial work and, consequently, increased material consumption.

 The closest technical solution (prototype) is a spatial coating plate, including curvilinear belts of profiled sheets, and at the ends of the plate, the corrugations of the upper belt are located in the corrugations of the lower belt and are interconnected (see ed. Certificate. 1479584 USSR. The spatial coating plate and installation method / Krasnoyarsk PromstroiNIIproekt; auth. V.P. Grigoriev, S.V. Grigoriev. Publ. BI 1989, No. 18).

 The disadvantage of this technical solution is the high cost of the metal profiled sheet from which the structure belts are made.

 The aim of the invention is to create an effective coating design by reducing the cost, material consumption and weight of the coating by imparting a lens-like structure to a spatial rarefied structure formed by strip elements of standard sections, for example, wooden boards.

 The goal is achieved in that a spatial rarefied structure is formed in the spatial coating plate of the curvilinear belts, formed of strip elements of the upper and lower zones, curved in the longitudinal direction, alternating at the ends, provided at the ends with tips with openings interconnected in the transverse direction of the spatial plate coatings through holes with a rod or bolts to ensure rotation of the strip elements of the upper and lower zones relative to each other when they are a slide, and the strip elements of the upper and lower zones are separated in the span by intermediate elements.

 The implementation of a spatial coating plate, including belts of curvilinear shape and intermediate elements located between the belts, in which, to form a spatial rarefied structure, the belts are formed from strip elements of the upper and lower belts, curved in the longitudinal direction, alternating at the ends equipped with tips with holes at the ends, interconnected in the transverse direction of the spatial coating plate through the holes with a rod or bolts to ensure rotation of the strip elements of the upper and lower zones relative to each other when they are sliding, and the strip elements of the upper and lower zones are separated in the span by intermediate elements, allows you to create an effective design by reducing the cost, material consumption and weight of the coating.

 In FIG. 1 shows a coating plate, side view, in FIG. 2 - node A in FIG. 1, in FIG. 3, 4 - variants of the nodal connections of the waist elements (tips) at the ends of the plate.

 The spatial coating plate includes (see Fig. 1) the upper 1 and lower 2 curvilinear shapes curved in the longitudinal direction of a belt of equal length from strip elements of the same cross section within each of the belts, and intermediate elements 3 - racks, which may have a continuous and a cross-section located in the span of the spatial coating plate between the belts (see Fig. 2). The upper 1 and lower 2 zones of the spatial rarefied structure are formed by strip elements of the upper 4 and lower 5 zones. The spatial rarefied structure of the upper 1 and lower 2 zones is created by the fact that at the ends the strip elements of the upper 4 and lower 5 zones alternate with each other. This ensures that the gap along the span of the spatial slab of the coating cover between any two adjacent elements of the same belt is equal to the width of the element of the opposite belt located between them at the ends of the spatial slab of the coating (see Figs. 2, 3, 4).

 At the ends of the spatial coating plate, tips 6 with holes are attached to the ends of each of the strip elements of the upper 4 and lower 5 belts (see Figs. 3, 4). Tips 6 with holes are fastened to each other in the transverse direction using a through rod 7 passing through the holes of the tips 6 (see Fig. 3), or the tips 6 with the holes of adjacent strip elements are connected in pairs using bolts 8 (see Fig. 4) .

 Tips 6 with holes are designed in such a way that they enable rotation of the waist elements relative to each other around a transverse axis passing through the supporting part of the spatial coating plate, when the upper 1 and lower 2 belts are sliding apart during manufacturing.

 The manufacture of a spatial coating plate is as follows. At the ends of each of the strip elements of the upper 4 and lower 5 belts are attached tips 6 with holes. Then the strip belt elements of the upper 4 and lower 5 belts with attached tips 6 with holes are laid on a horizontal surface. After that, the tips 6 are connected with the holes between them in the transverse direction of the spatial plate by passing through the holes 6 of the through rod 7 (see Fig. 3), or the adjacent tips 6 are pairwise mounted through the holes using bolts 8 (see Fig. 4). Then the strip elements of the upper 4 and lower 5 belts are moved apart relative to each other due to rotation around an axis passing through the holes of the tips. In this case, any two adjacent strip elements 4 and 5 of the upper 4 and lower 5 belts are moved apart in the opposite direction, thus forming the upper 1 and lower 2 belts of the spatial block of the coating of the sparse structure. Then, between the upper 1 and lower 2 belts of the spatial rarefied structure, intermediate elements 3 are installed (see Fig. 2).

 The spatial coating plate is a block section of a precast coating.

 The spatial rigidity of the spatial coating slab is provided by an intermediate element system and roofing.

 Possible roof options: 1) a roof made of a flat metal sheet attached to the strip elements of the upper belt 4; 2) a roof made of a metal profiled sheet oriented with corrugations along a plate attached to the strip elements of the upper belt by 4 lower corrugations of the corrugations; 3) a soft roof made of rolled materials along a plank diagonal flooring made in the upper zone of 1 spatial coating plate.

 The invention allows to create an effective coating design, reducing the consumption of material for the coating up to 15%, reducing the weight of the coating by 10-15% and reducing its cost to 30%.

Claims (1)

 A spatial coating plate, including curvilinear belts and intermediate elements placed between the belts, characterized in that for forming a spatial rarefied structure, the belts are formed from strip elements of the upper and lower belts, curved in the longitudinal direction, alternating at the ends, provided with ends with openings at the ends interconnected in the transverse direction of the spatial coating plate through the holes with a rod or bolts to ensure rotation of the strip x elements of the upper and lower zones relative to each other when they are sliding, and the strip elements of the upper and lower zones are separated in the span by intermediate elements.

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