RU1791575C - Three-dimensional covering of building, rectangular in plan - Google Patents

Abstract

Usage: as a bearing spatial coatings and ceilings of buildings and structures. SUMMARY OF THE INVENTION: A spatial structural coating consists of lattice pyramids having oval openings in the lower planes. The pyramids are connected with each other by cross-shaped elements with guide blocks for flexible elements that provide prestressing in the structure. 13 ill.

Description

The invention relates to construction and can be used as supporting spatial structures for coatings and ceilings of buildings and structures.

A planarly shaped spatial coating is known in the form of a structural plate formed by a spatial rod system and supported by supports at the corners of the coating.

The disadvantage of this solution is that with an increase in the grid of supports, the forces in the rods of the structural plate increase significantly, which leads to an increase in the consumption of material and to the complication of the interface units of the rods.

The closest technical solution to the proposed one is the spatial coverage of a building of a rectangular shape in plan, including a structural plate of upper and lower rails formed by trellised pyramids, interconnected by sheet nodal elements, inside of which are attached diagonally attached to the corners of the screws to which are attached structural plate.

However, the drawback of this design is the TOS, that the forces in the structural plate rods are reduced unevenly, the attachment of the structural plate to the shafts complicates installation, which leads to an increase in material consumption and labor cost, causing a rise in cost of coating. whole.

The purpose of the invention is to increase the bearing capacity, reduce the metal consumption and simplify installation.

This goal is achieved in that the spatial coverage of the building is rectangular in plan view, including a structural plate of upper and lower rails formed by trellised pyramids and lower core waist elements with horizontal oval holes, interconnected by cross-shaped nodal elements with holes, as well as flexible elements, equipped with guide blocks with sliding elements, and flexible elements are made in the form of concentric polygons, in the fracture angles of which are installed enes sliding elements, wherein the flexible elements are arranged on the lower structural slabs se.

In FIG. 1 and 3 depict spatial coverage, plan view; in FIG. 2 and 4C / U

with

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Joint venture

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sections aa and bb; in FIG. 5 and 6 - lattice pyramids; in FIG. 7 - node I; in FIG. 8 - view BB; in FIG. 9 - a cross-shaped nodal element; in FIG. 10-node II; in FIG. 11 is a view of GG; in FIG. 12 - core element of the lower region; in FIG. 13 is a guide block with a sliding element.

The spatial coverage of a rectangular building in plan includes a structural plate of upper and lower

 J1. 2, ----- MF ..., .-,.-.-. ,;

owls formed by lattice pyramids, consisting of upper rod-shaped waist elements 1 with oval holes 2, tubular braces 3 and cruciform nodal elements with holes 4. Moreover, lattice pyramids are interconnected by means of lower waist elements 5 with holes 2 , cruciform nodal elements 4 in the upper and lower supports and bolts b mounted in holes 2.

The lattice pyramids connected in such a way form a spatial structural plate supported in corners on supports 7. Flexible elements 8 are located along the bottom plate of the plate 8 with tensioning devices 9 in the form of concentric polygons, in the corners of which they are broken into cross-shaped elements 4 of the lower belt guide blocks 11 fixed by means of sheet elements 10 with a sliding element 12 for adjusting the distances of the flexible elements from the axis of the lower center.

The spatial coverage of a rectangular building in plan is mounted as follows. The structural plate is assembled from prefabricated lattice pyramids and formed from the upper core elements 1, tubular braces 3 and cruciform nodal elements 4. Installation is carried out in stages, starting simultaneously with supports 7 and developing in all directions m in the coverage area, while

cone pyramids are fastened together using cross-shaped nodal elements 4, lower waist elements 5 and bolts b. At certain points, if necessary, the vertices of the pyramids are provided with guide blocks 11 attached by means of sheet elements 10 with sliding elements 12, through which flexible elements 8 in the form of concentric polygons are drawn by means of tensioning devices 9. During tension, the presence of horizontal oval holes 2 in both the upper and lower heights ensures that the spatial structural plate bends upward, thereby increasing and evenly distributing the pre-tensioning forces of the system as a whole, as well as fulfilling the condition of building structural lifting by about 1. 5 %.

Claims (1)

The use of the proposed spatial coating design allows to increase the bearing capacity, reduce metal consumption and simplify installation, which reduces the cost of construction by 15-20%. SUMMARY OF THE INVENTION Spatial coverage of a building of a rectangular shape in plan, including a structural plate of upper and lower rails formed by trellised pyramids and lower core waist elements with horizontal oval holes, interconnected by cross-shaped nodal elements with holes, as well as flexible elements , characterized in that, in order to increase the bearing capacity, reduce the metal consumption and simplify installation, it is equipped with guide blocks with sliding elements, and gy Kie elements are in the form of concentric polygons, the corners of which fracture mounted sliding elements, wherein the flexible elements are arranged on the lower structural slabs se. and. l I AM .g 2 4. 2 Sg12 Editor Compiled by 3. Kakhandadze Tehred M. Morgenthal Corrector M. Petrova Figs