SU1227776A1 - Three-dimensional roof - Google Patents

Description

The invention relates to the construction, in particular to prefabricated coatings of buildings and structures.

The aim of the invention is to simplify installation and expansion of the field of application.

FIG. 1. coating in axonometry, general view; pas figs. 2 — joint assembly of the upper and lower ends of the coating in a perspective view; in fig. 3 - connection unit of arcuate elements in the lower over se surface; in fig. 4 is an arcuate coating element.

A prostrate coating includes the upper 1 and lower 2 ce, consisting of mutually intersecting arcuate elements 3, interconnected in each direction with the formation of a grid with unequal rhombic cells in the form of intersecting spirals in plan, converging in the central ring 4. Sa 1 and 2 are interconnected by V-shaped pillars 5 supported at the junctions of the arcuate elements 3 by diagonals downwards by pa arcuate elements of one direction and diagonals upwardly located between the arcuate elements intersecting os ospravleni. The arcuate etsyments 3 are made of a Tauri section with a shelf 6 and are provided in places with a pair of shaped notches 7 in the wall, the depth of which is 1 / 2-2 / 3 of the height of the arcuate 3. The arcuate elements 3 are placed in the slots 7 intersecting direction. Doo-shaped elements of T-section 3 with shelves 6 at the top and bottom, respectively, in the upper and lower layers of the covering, connected by V-shaped struts, form in the cross section the covering of the I-beam truss. The slits 7 are located with a tag decreasing to the center of the coating, which is determined depending on the size of the coating and the number of petals in the letters, according to the formula

R ,, R, xj, Rde -i ×, / 2 t

0

five

0

five

0

five

p is the specified number of grooves in the arcuate element;

Rn is the distance from the center of the coating to the corresponding grooves in arcuate o; 1ments;

R is the radius of the projected coating;

m is the number of sectors- "petals", which are broken by the structure.

The central ring 4 consists of both upper and lower lanes, for example, in the form of discs connected by racks.

The installation of the space coating is carried out as follows.

From arcuate elements 3, ca 1 and 2 of the cover are assembled by interconnecting them in slots 7. Ca 1 and 2 are interconnected, fastening the struts of racks 5 in the junctions of elements 3. The mounted I-beam trusses are fixed to the central ring, forming a spatial coverage.

When the construction of the coating works, bending moments from loads of different directions are perceived by mutually intersecting trusses, which ensures a high load-bearing capacity of the coating for loading loads of different signs and greater resistance to lateral bulging. At the same time, equal moments arise in the coating elements, which makes it possible to manufacture a structure from uniform elements.

FIG g

Claims (1)

SPATIAL COATING, including the upper and lower belts connected by the uprights, one of which is made in the form of a grid with unequal rhombic cells from arcuate elements intersecting in plan, characterized in that, in order to simplify installation and expand the scope, the other belt is also made in the form of weaving of arcuate elements, while the arcuate elements of the upper and lower zones are made of T-section with slots in the wall with a shape identical to the cross section of the arcuate elements and depth. 1/2/2/3 of the height of the latter, and are arranged in steps determined by the formula R, ₁ = R-ip- ', where R „is the distance from the center of the coating to the corresponding slots in the arcuate elements; η is the specified number of slots in the arcuate element; R is the radius of the designed coating; ni — the number of sectors-petals in the grid, with intersecting arcuate elements located in the slots of the T-section wall with the formation of the T-section on the shelf of the T-section of the supporting surface of the upper and lower zones, and the posts are made V-shaped from two braces and are located diverging braces down on the arc-shaped elements of the same direction and converging braces up between the arched elements of the intersecting direction. SU „„ 1227776 Fig.]