RU206643U1 - SPATIAL COVERING PLATE - Google Patents

Abstract

The utility model relates to construction, in particular to the covering of buildings and structures with large spans, and can be used in industrial and agricultural construction. The technical result achieved by the utility model consists in increasing the bearing capacity of the spatial slab of the covering of a rarefied structure due to the use of the lower belt of metal strips as lengthy elements, as well as in expanding the arsenal of large-span spatial slabs of the covering. To achieve the technical result, a spatial slab of the covering of a rarefied structure is proposed, including the upper (1) and lower (2) belts of curvilinear shape, bent in the longitudinal direction, formed from long strip elements alternating with each other in belts, equipped at the ends with lugs with holes and connected at the ends with a rod (7) passed through the holes in the lugs with the ability to rotate the strip elements of the upper and lower chords relative to each other when they move apart, and between the chords intermediate elements (3) are rigidly fixed in the form of transverse struts. What is new is that the upper chord (1) is made of wooden planks (4) equipped with tips (6), and the lower chord (2) is made of metal strips (5) with bent ends fastened to them, forming tips (8) in in the form of loops with holes designed to connect the strip elements. 3 ill.

Description

The utility model relates to construction, in particular to the covering of buildings and structures with large spans, and can be used in industrial and agricultural construction.

Known spatial cover plate, including the upper and lower belts of a convex curvilinear shape, made of a profiled sheet with a longitudinal arrangement of corrugations, at the ends of the plate the corrugations of the upper belt are placed in the corrugations of the lower belt and are interconnected, and between the belts there are intermediate elements made of profiled thin-sheet strips attached by the shelves to the belts corrugation shelves (USSR author's certificate No. 1479584 A1, priority date 06/03/1987, publication date 05/15/1989, authors: V.P. Grigoriev and S.V. Grigoriev, RU).

The disadvantage of the known analogue is a complex and laborious manufacturing technology due to a large range of structural elements, as well as a limited scope due to the predominant use in spans of small and medium size, due to insufficient bearing capacity for a large-span slab.

The closest technical solution to the claimed design is a spatial slab of the covering of a rarefied structure, adopted as a prototype, including belts of curved shape and intermediate elements located between the belts, characterized in that, to form a spatial rarefied structure, the belts are formed from strip elements of the upper and lower belts, bent in the longitudinal direction, alternating at the ends, equipped at the ends with lugs with holes, connected to each other in the transverse direction of the spatial slab of the covering through the holes with a rod or bolts to ensure rotation of the strip elements of the upper and lower chords relative to each other when they move apart, and the strip elements of the upper and the lower belts are separated in the span by intermediate elements (RF patent No. 2163283 C2, priority date 05.05.1999, publication date 02.20.2001, authors: Grigoriev S.V., Endzhievsky L.V., Grigoriev V.P., Maryshev A. Yu., Novikov O.F ., RU, prototype).

The disadvantage of the prototype is its limited use as a large-span structure due to the low bearing capacity of the spatial slab of the covering of the rarefied structure, due to the insufficient rigidity of the strip elements that form it, such as wooden boards.

The technical problem solved by the utility model is the creation of a structure of a large-span spatial roof slab of a rarefied structure, which has spatial rigidity and increased bearing capacity when using long strip elements in chords.

To solve the technical problem, a spatial slab of a covering of a rarefied structure is proposed, including the upper and lower belts of curvilinear shape, bent in the longitudinal direction, formed from long strip elements alternating with each other in belts, equipped at the ends with lugs with holes and connected at the ends with a rod passed through holes in the lugs with the ability to rotate the strip elements of the upper and lower chords relative to each other when they move apart, and intermediate elements in the form of transverse posts are rigidly fixed between the chords. What is new is that the upper belt is made of wooden planks equipped with the aforementioned tips, and the lower belt is made of metal strips with bent ends fastened to them, forming tips in the form of loops with holes designed to connect the strip elements.

FIG. 1 schematically shows a spatial slab of the covering, general side view; in fig. 2 - node A in Fig. 1, isometric view; in fig. 3 - nodal connection of belt elements at the ends of the slab.

The inventive spatial cover plate, made of a sparse structure, contains the upper 1 and lower 2 belts of curvilinear shape, bent in the longitudinal direction, between which intermediate elements 3 in the form of rigidly fixed transverse racks are located evenly in the span size (Fig. 1). The upper 1 and lower 2 belts of the spatial rarefied structure are formed by strip elements 4 and 5, respectively, of the upper and lower belts. The strip elements 4 of the upper belt 1 are made of wooden planks equipped at the ends with metal lugs 6 fixed with fasteners to form holes for connecting the strip elements of both belts at the ends with a rod 7. The strip elements 5 of the lower belt 2 are made of metal strips fastened with them with bent ends, forming tips 8 in the form of loops with holes designed to connect the strip elements at the ends with a rod 7. In this case, the spatial rarefied structure of the upper 1 and lower 2 chords is created by the fact that at the ends of the strip elements 4 and 5, respectively, of the upper and lower belts alternate with each other. This ensures the presence along the length of the span of the spatial slab of the covering of the gap between any two adjacent elements of one chord, equal to the width of the element of the opposite chord, located between them at the ends of the spatial slab of the covering (Fig. 2, Fig. 3).

In the process of assembling the spatial coating plate, metal lugs 6 with holes at the ends of the strip elements 4 of the upper belt 1 are fastened to the lugs 8 of the type of loops of metal strip elements 5 of the lower belt 2 in the transverse direction using a through rod 7 passing through the holes of the lugs 6 and 8 (Fig. . 3). In this case, the holes formed in the tips 6 and 8 are arranged in such a way that they provide the possibility of rotation of the strip elements of the chords relative to each other around the transverse axis passing through the supporting part of the spatial cover plate when the upper 1 and lower 2 chords are moved apart during its manufacture. The fastening of the transverse wooden struts 3 between the belts is carried out using fasteners, such as self-tapping screws.

Thus, the technical result achieved by the utility model consists in increasing the bearing capacity of the spatial slab of the covering of a rarefied structure due to the use of the lower chord of metal strips as long elements, as well as in expanding the arsenal of large-span spatial slabs of the covering.

Claims (1)

Spatial slab of the covering of a rarefied structure, including the upper and lower belts of curvilinear shape, bent in the longitudinal direction, formed from long strip elements alternating with each other in belts, equipped at the ends with lugs with holes and connected at the ends with a rod passed through the holes in the lugs with the possibility ensuring the rotation of the strip elements of the upper and lower chords relative to each other when they move apart, and between the chords intermediate elements in the form of transverse struts are rigidly fixed, characterized in that the upper chord is made of wooden boards equipped with the mentioned tips, and the lower chord is made of metal strips with bent ends fastened to them, forming lugs in the form of loops with holes designed to perform the connection of strip elements.

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