SU924295A1 - Three-dimensional rod structure - Google Patents

Description

The invention relates to the construction and can be used in the supporting structures of coatings, floors and walls of buildings and structures.

Known constructive solution "December Space", which is ^co-: fight of two-plate grating with square mesh belt in grids that are interconnected by struts, and one of which is offset relative to the other half of the cell [1 3 ×

The spatial core structure is also known, including pyramidal elements with square, bases, the edges of which are halves divided along the length of the belt rods. In the process of assembling the edges of the bases of adjacent pyramids are interconnected along the entire length, in _? as a result, hollow rods of one of the belt meshes are formed. The tops of the pyramids are connected by separate rods that form another

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belt net. Due to the mating of the edges of the bases of adjacent pyramids, there is no need for special node devices to ensure the joint operation of the pyramids [2].

The disadvantage of these solutions is that the design includes elements of different types in shape (pyramids and rods), which complicates the manufacturing technology. The main drawback of this solution lies in the constructive complexity of the conjugation of the vertices of the pyramids and the rods, due to the large saturation of the rods converging in the node.

The closest technical solution to the proposed is a spatial core structure, including lattice pyramidal elements interconnected at the corners of the bases, and rods connecting the vertices of the pyramidal elements arranged in mutually perpendicular directions.

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Each base of the base is made with one end, released console beyond the base, and is rigidly attached to the base of the adjacent pyramids [3 ₅

The disadvantages of the known solution are · the distribution of the base rods of the pyramids, which leads to the appearance of additional bending moments and, consequently, to the overrun of the material, _0, ala, as well as the presence of spatial and core elements of different types, which require for the interconnection of complex node junctions,

"which increases the complexity of the manufacture of the Structure. In addition, the cantilever sections of the rods, being only connecting elements, require additional material consumption. ·

The purpose of the invention - reduction Part ₂₀ rialoemkosti and reducing the complexity of manufacturing.

The goal is achieved by the fact that in a spatial core structure including lattice- _25th pyramidal elements interconnected at the corners of the bases, and rods connecting the vertices of the pyramidal elements ^ are located

in mutually perpendicular direction "" 301

In these cases, pyramidal elements are made in the form of tetrahedra, with adjacent tetrahedra being vertices in opposite directions, and the side edges of the faces of the pyramids are pairwise joined together. ³⁵

The pair opposite sides of each tetrahedron are made in the form of flared plates.

. FIG. 1 shows a construction in axonometry; FIG. 2 shows section A-A ⁴⁰ in FIG. one; on fn 3 - rod pyramidal element such as a tetrahedron in axonometry; figure 4 - plate rod tetrahedron in axonometry.

The core pyramid element <5 of the tetrahedron type 1 consists of four lateral ribs 2 with sections from a single corner, which are parts (halves) of braces, waist bar 3 of the upper waist mesh and 50 waist rod 4 of the lower waist mesh. When assembled, the side edges of the faces of adjacent pyramidal elements are pairwise joined to one another and form braces with a cross section in the shape of a composite brand. In the plate-. The core version of the tetrahedron triangular plates 5 are provided with flanging 6 for connection with the plates of adjacent pyramidal elements.

Pyramidal elements may be. made of steel, aluminum alloys, wood, plastics, cement, reinforced concrete or combinations of these materials.

The lateral edges of the faces of the pyramidal elements are involved in the perception of longitudinal forces, with a hollow section and do not require additional docking parts, which ensures a reduction in material consumption. The combination of load-bearing and enclosing functions in the same designs assembled from lamellar-rod modules also reduces material consumption designs,

The presence in the spatial design of one type of module allows to reduce the complexity of manufacturing and increase productivity. The production of pyramidal elements can be organized on specialized production lines. The assembly of structures from identical pyramidal modules of full factory readiness also leads to a reduction in labor costs.

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Claims (2)

Claim 1. Spatial core design, including lattice pyramidal elements interconnected at the corners of the bases, and rods connecting the vertices of the pyramidal elements located in mutually perpendicular directions, different the fact that, in order to reduce material consumption and reduce the complexity of manufacturing, the pyramidal elements are in the form of tetrahedra, with adjacent tetrahedra facing vertices in opposite directions, and the side edges of the pyramids are pairwise joined together. 2. Design by π. 1, characterized in that the pair opposite sides of each tetrahedron are made in the form of flared plates.