SU1067165A1 - Suspension roof for building - Google Patents

Abstract

1. HANGING COATING OF BUILDINGS, including a membrane, a closed outer contour, a central plate and a system of radial reinforcing elements, characterized in that, in order to reduce the consumption of materials, laboriousness of manufacturing and installation by incorporating the reinforcing elements into the overall work of the spatial structure, the reinforcements These elements are made in the form of a strip, the ends of which are rigidly connected to the outer support contour and the central plate, 2. The coating according to claim 1, characterized in that the central plate is made in the form of a concentrate of annually installed annular beams, joined by radial beams, to the top along which they are attached, installed at the membrane level. 05 Oi ate

Description

The invention relates to the construction and design for covering buildings of various purposes with a round and oval shape. In plan.

It is known to have a covering of buildings and structures, including 1, its membrane, a closed supporting contour, and an odioopic system of reinforcing elements attached to the supporting contour, on which membrane 1 is laid.

The disadvantage of this coating is the high labor intensity of installation and high consumption of materials.

The closest to the proposed one is a higher covering of buildings and structures. On a round or oval playa, including a membrane, a closed outer supporting coir, a central plate and a system of radial reinforcements in which the reinforcements are made in a pair of unidirectional a farm attached to the central plate, supported by orthogoyolo located beams 2.

The disadvantage of lime coating is a high consumption of materials and high labor intensity due to the complicated construction of the central plate and reinforcing elements that are not involved in the overall operation of the spatial coating system.

The purpose of the invention is to reduce the consumption of materials, the labor intensity of manufacture and installation by incorporating reinforcing elements into the overall work of the spatial structure.

This goal is achieved by the fact that in a hanging building covering, including a membrane, a closed outer bearing shell, a neutral plate and a system of radial reinforcing elements, the supporting elements are made in the form of a strip, the ends of which are rigidly connected to the outer supporting contour and the central plate.

At the same time, the central plate can be made in the form of concentrically mounted annular beams, joined by radial beams, to the top, along which the sheathing is attached, mounted at the membrane level.

FIG. 1 shows schematically the coating; in fig. 2 shows section A-A in FIG. one; FIG. 3 - central plate; in fig. 4 — node I FIG. one; in fig. 5 is a section BB in FIG. four.

The lower surface includes support contour 1, outer columns 2, membrane 3, radial reinforcement elements 4, annular reinforcement elements 5, central plate 6 consisting of two concentrically mounted annular beams 7 combined with radial beams

8, to the upper shelves of which is attached the sheathing 9.

The installation of the membrane coating is carried out in the following order. , Along the perimeter, columns 2 are placed, on which support contour 1 is installed. In the center of the coating on the temporary mounting support is placed a plate 6, which is made of radial-circular beams 7 and 8 with thin-sheet trimming 9 along their top N regiments. Radial 4 and ring 5 reinforcing elements are mounted. The radial reinforcements 4 are made of a metal strip, one end of which is provided by the shank 10, by tightening the radial element into the design position. After aligning the geometry of the system of mounted reinforcements, the latter are firmly attached to the outer contour 1 and the central plate 6 by welding. A radial-ring system thus designed is designed to provide installation of a scaffolding-free coating, which greatly simplifies installation and reduces labor costs by 25–30%. On the assembled system of bed elements, lay membrane sheets 3, which are attached to the outer contour 1, central plate 6, and are joined to each other on radial reinforcing elements 4. Combining the separate panels membrane with each other and radial bed elements. t by welding, high-strength bolts or rivets, ensuring the combined operation of the membrane and radial crane elements.

The rear membrane coating of such a structure is a spatial structure that combines simultaneously the supporting and enclosing functions. The entire transverse load on the coating is perceived by the tensile spatial membrane and the radial elements of the basement due to their structural design, ensuring compatibility of the work. The radial reinforcement elements thickening towards the center increase the reduced thickness of the span structure, which corresponds to the plot of the distribution of the main forces in the shell. The horizontal components of the chain forces with the span structure are perceived by the compressed outer contour and the extended plating of the central plate.

0 Stabilization of the shell provides its own weight of the coating and roof. Such a constructive solution can be applied both in sagging shells of positive Gaussian curvature on the round and oval planes, and in tent-type shells on the round Building Plan. The hanging membrane coating of the proposed constructional solution allows reducing the consumption of materials for the span structure by including the radial reinforcement elements in the joint operation of the operational loads, and the distribution of the span structure corresponds to the plot of forces in the shell; reduce by 32% the labor costs for the manufacture and installation of the coating, since the membrane is made of a given thickness, and the reinforcing elements and: strips produced by the metallurgical industry, without additional factory redistribution of the material;

reduce material consumption by 40% and reduce the laboriousness of manufacturing the central plate by facilitating ring and radial beams due to the fact that significant chain forces transmitted from the span structure to the central plate during installation and operation are perceived mainly by the expanded KOI.

The economic effect from the application of the proposed suspension of an area of 31,400 m will be 5,07830 rubles.

/ 1cpuff .Z

fig 4

eri 8. 5

B- 6

Claims (2)

1. DANGEROUS COATING OF THE BUILDING, including a membrane, a closed outer contour, a central plate and a system of radial reinforcing elements, characterized in that, in order to reduce the consumption of materials, the complexity of manufacturing and installation by including reinforcing elements in the overall work of the spatial design, reinforcing the elements are made in the form of a strip, the ends of which are rigidly connected to the external support contour and the central plate. 2. Coverage by π. 1, characterized in that the central plate is made in the form of concentrically mounted annular beams joined by radial beams, to the upper chords of which a sheath is mounted, installed at the level of the membrane.