SU709769A1 - Three-dimensional rod-type lattice structure - Google Patents

Description

(54) SPATIAL ROD STRONG STRUCTURED CONSTRUCTION

one

The invention relates to the construction and is intended for the construction of the frame of residential, civil and industrial buildings.

Closest to the invention is a spatial bar-shaped lattice structure, comprising nodes, connecting posts and braces, and connecting elements.

The disadvantages of this design are the difficulty of connecting individual elements in the assembly, which are not unified, and ensuring the rigidity of the structure at the expense of large sections of the elements.

The aim of the invention is to simplify installation, the perception of concentrated loads and the unification of the structure.

This is achieved by the fact that in a spatial bar-shaped lattice structure, including nodes, connecting racks and braces, and connecting elements, each node is made up of rigidly connected racks and braces, the free ends of which form the tips of the tetrahedron, each free end of the rack and bracing of a single knot, combined

along the length with the free end of the stand and the brace of the other node by the connecting element made in the form of a coupling

FIG. 1 shows a fragment of a spatial rod lattice structure; in fig. 2 - unit of spatial rod lattice-h construction; in fig. 3 - spatial structure, general view.

The spatial rod lattice structure includes nodes 1, which rigidly connect the individual elements of the uprights 2 and diagonals 3.

Axes of struts and braces are located one relative to another at an angle of 109 ° 28.

The free ends of the uprights 2 and braces 3 are provided with a cylindrical part 4.

The assembly of the structure is reduced to a simple docking of the free ends of the braces and the struts of one knot with the free ends of the braces and the struts of the other knots.

When building up the lattice of the structure in any direction, the coupling sleeve 5 advances on the cylindrical part 4 of the free end of the stand or strut.

At the end of the cylindrical section, a prochal patch is placed and the free end of the stand or strut of another adjacent node, respectively, is pushed into the coupling, expanding the node to the desired position to form a regular cell and split pin.

For shnlintovki coupling 5 on the racks and braces made lugs 6.

Coupling 5 is also provided with lugs 7, which are connected to the lugs 6 with a wire, cable, etc.

Coupling 5 is a piece of steel pipe whose inner diameter is greater than the diameter of the cylindrical part 4 of the free ends of struts and diagonals so that the coupling can freely slide, slide, and allow bending at the joints within the cushioning of the gaskets.

During the operation of the structure, the concentrated load on the node is distributed and scattered over the cycles of the hexagons in twelve intersecting planes in the structure space, and is uniformly distributed over the entire structure in the direction of the center from all four joints.

The peripheral parts connected to the system by three or two joints, partially work on bending in the place of the most thickened central part of the part. The peripheral part receives a smaller load compared to the deep part due to its deviation due to the gaskets and articulated bending at the joints.

In the case of a shock wave, instead of a general unidirectional movement of the entire structure, fragmented and stretched in time shock absorption of all parts within gaps in the most diverse directions, which consume the entire motion from the shock wave, transforming it into a molecular one, occurs.

The main advantage of the tetracyclic structure is that on the build; Only one type of work is left to the second stage - installation without the use of welding, bolts, rivets, mortar-concrete fillings.

and other works.

Constructions of such a tetracyclic structure do not need foundation elements, fit into any relief and allow to avoid disturbances of the established natural environment.

The ability of a spatial structure to transform the tensile forces into the pressure forces of the lattice components on each other makes it possible to build objects with many kilometers of ground, water and space, and to create tens and hundreds of meters inside the system of premises without supporting proletality.

Claims (1)

Invention Formula Spatial rod lattice structures, including nodes, connecting racks and braces, and connecting elements, characterized in that, in order to simplify installation, to perceive concentrated loads and unify the structure, each node is made in the form of rigidly connected racks and braces, free the ends of which form the vertices of the tetrahedron, each) the free end of the stand and the brace of one knot are combined in length with the free end of the stand and the brace of the other knot by a connecting element made in the form couplings. Sources of information taken into account during the examination 1. Metallic lattice spatial structures abroad. M., TsINIS, 1974, s / 35. J -. "