SU374427A1 - METHOD OF FORMING SHELL COATINGS - Google Patents

Description

The invention relates to the design and construction of prefabricated coatings for various purposes, such as sports, exhibition halls, special structures, etc. By a known method, relating only to spherical surfaces, faceted spherical domes are formed from triangular elements in the form of polyhedra, and the spatial element, the sizes of the sides and the number of their sizes are determined by geodesic cutting the sphere into elements, in connection with which a large number of sizes appear. The purpose of the present invention is to use elements with the same triangular faces for making coatings of arbitrary curvature and outline in plan. This is achieved by the fact that the faces of the elements are joined at a given angle in such a way that their edges do not lie in the same plane, but the tops of the polyhedra are routed to the inside of the coating. Options are provided when part of the vertices are turned out. Sometimes, the elements are single-layered and multi-layered with framing edges, and when adjacent faces have a common edge, through or non-through. The elements forming the outline of the coating may be located either in the same plane or in different planes. When available, a part of the coating elements are made translucent. The elements in the shape of polyhedra are closed, with the number of triangular faces ranging from three to twelve. Individual elements can be taken open. The joints between the triangular faces are made at specified angles. Conventionally, the indicated joints between the faces on the accompanying drawings of coating options are indicated as follows: a joint with an outer angle of -180. joint with an external angle of 180 °. FIG. 1 - the plan of the shell with a broken outline, close to the square; in fig. 2 - a general view of the shell, indicating the various forms of the junction of the faces of the three spatial elements; in fig. 3 is a plan of the shell, indicating the different shapes of the edges of the two spatial elements; in fig. 4 shows the shell facade in FIG. 3. The coating is composed of spatial elements in the form of closed and open polyhedra. Faces / are made with common edges 2. If polyhedrons are closed or open, then two such faces do not have common edges and make up the contour of coating 3. The covering includes polyhedrons with vertex 4, which are made with four edges and

four edges. The external angles between the faces are 180 °.

Another type of polyhedra with vertex 5 (see Fig. 3) is performed with eight edges and eight edges. Outer corners of the meladu adjacent edges take alternately 180 ° and 180 °.

The third type is dihedrals with apex 6 near the support contour of the coating.

The fourth type is polyhedra with vertex 7, made with four edges and faces. The external angles between the faces are 180 °.

The fifth type is polyhedra with vertex 8, made with ten faces and edges. Outer angles between adjacent faces are alternately taken; il80 ° and -180 °.

The elements of the coatings can be made of aluminum alloy, steel, plastics, etc., etc., and the use of thin-sheet, loose materials, the elements of the coatings are obtained by stamping with an additional cut into part of the section along the edges, and each of the same faces can be in turn , additionally stamped, in particular, can be a three-sided regular pyramid on a triangular base.

Non-flexible sheets are connected by one of the following methods: welding, gluing along the seams, etc.

The control of the position of the faces relative to each other is carried out according to the pattern used in the pre-assembly or when installing multi-faceted elements in place.

During installation, it is possible to use locking struts, which are removed after installation of the coating.

Subject invention

1. Method of forming coatings for buildings and structures by joining edges

spatial elements in the form of polyhedra, i.e., their triangular faces, characterized in that, in order to use elements with the same triangular faces to make coatings of arbitrary curvature shape and outline in the plan, the connection of the faces of the drying elements works at given angles in such a way that their edges do not lie in one plane, but vertices

polyhedrons are scraped inside the coating.

2. A method for forming coating shells, characterized in that a part of the vertices of the polyhedrons crack outwards.

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