SU909067A1 - Lattice dome - Google Patents

Description

(54) NET DOME

one

The invention relates to construction and is intended for coating buildings and structures round or polygonal in plan.

Known mesh dome, including the core elements, interconnected in nodes with the formation of a grid of closed cells, and the lower support ring connected to the grid core elements 1.

The disadvantages of this design are the high consumption of materials and the complexity of installation due to the large number of nodes in which the core elements are combined.

Closest to the present invention is a mesh dome, comprising an upper and lower support rings interconnected by meridional ribs, ring elements and connections connected in nodes with ribs 2.

The disadvantage of this solution is the high consumption of metal on the meridional ribs and rings.

The purpose of the invention is to reduce the material consumption of the dome due to prestressing and simplify installation.

The goal is achieved by the fact that in a mesh dome, including upper and lower support rings, interconnected by meridional ribs, ring elements and connections connected in nodes with ribs, each meridional edge is provided with a pre-stressed flexible element and columns, the free ends of which combined with a flexible element connected to the edge in the nodes.

FIG. 1 shows a schematic illustration of a dome, a plan view; in fig. 2 shows section A-A in FIG. one.

Net Dome includes meridional ribs 1, ring elements 2, diagonal connections 3, lower support ring 4, 15 upper ring 5, flexible elements 6, pillars 7.

The flexible element 6 is made in the form of a cable and placed under the edge 1 inside the dome. This flexible element is fixed to the upper support ring 5 by means of the stop 8, and to the lower support ring 4 by means of a tensioning device 9 fixed to the ring.

Racks 7 one ends fixed on the meridional edge, and their free

the ends are connected by a flexible element 6, while the flexible element is connected in nodes 10 by means of loops with an edge.

The flexible elements are prestressed with tension and tensioned during the entire period of operation of the dome.

As an extended member, the cable is stable and is an elastically flexible support for rigid struts that are spacers.

Due to the introduction into the structure of the structure 7, the free span of the meridional ribs 1 is reduced, thereby reducing the local bending moments and stress from bending in the span between the junction connections 10. Additional forces that the meridional rib 1 receives due to the preliminary stress of the structure allow eliminate the local bend of this element.

A flexible cable 6, stretched during operation, is rigidly fixed to the upper support ring 5, which is operated on compressed with bending, rigidly by means of the stop 8. Thus, the upper ring 5 also receives a preliminary effort, which is conducive to its work.

Ring elements 2 perceive normal forces arising from the operation of the dome as a whole, and also work as runs for local bending.

3

The connections of the dome 3 perceive the loads acting in the planes perpendicular to the planes of the meridional ribs 1.

The lower support ring 4 of the dome perceives the thrust that occurs in the system and works on stretching.

The effect that can be obtained by using the proposed technical growth is up to a 20% reduction in material intensity due to the reduction in cross sections of the meridional elements of the dome 1, which take less effort.

Claims (2)

1. Lipnitsky ME, Domes L., SI, 1973, p. 7, fig. five. 2. The modern state and prospects for the development of building structures abroad. Overview. M., TsINIS, 1969, p. 83, fig. 64. "Nl to I.