SU1135870A1 - Prefabricated spatial roof - Google Patents

Abstract

1. A SPATIAL COATING COLLECTION, referring to conjugate one another with double curvature and contours, characterized in that in order to reduce labor costs and material consumption of the cover when expanding its field of application, each shell is made of toroidal elements adjacent to one another at an angle with the formation of the surface of a variable profile in the direction perpendicular to the line of their abutment, with the elements inclined to the contours of the shells at the same angle. "&Amp; 9 DM 00

Description

2, Coverage pop, 1, distinguished by the fact that the toroidal elements are made of negative Gaussian curvature,

3, Coverage pop. 1, which differs from the fact that the toroidal elements are made of positive gausian curvature.

4, Coating in PP ,, characterized in that the line adjoining toroidal elements

located diagonally connecting the opposite-angles of the shells,

5, The coating according to claims, 1-4, characterized in that the variable profile of the surface formed by toroidal elements has a cycloid shape,

6, The coating according to claims 1-4, which is such that the variable profile of the surface formed by the toroidal elements has an arrow shape.

The invention relates to the construction industry and can be used as a coating for buildings and structures.

A spatial coverage is known, including, e, shells of negative Gaussian curvature with fractures pa: surfaces at a given angle fQ,

The disadvantage of this technical solution is the limited functionality of the coating.

The spatial coverage is also known, including the shell in the form of conjugate hypars; 2

The disadvantage of this technical solution is a significant amount of overlapping space.

The closest technical solution to the invention is a composite spatial coating having adjoining one with the other shells of double curvature with contours of s.

The disadvantages of the known technical solution are considerable labor costs and material consumption, as well as limited scope,

The purpose of the invention is to reduce labor costs and material consumption of a coating while expanding its field of application.

The goal is achieved by the fact that in a collective spatial coating having double curvature shells with contours adjoining one another, each shell is made of toroidal elements adjacent to one another at an angle with the formation of the surface of a variable profile in a direction perpendicular. the lines of their adjoining, and the elements are inclined to the contours of the shells at the same angle.

Moreover, toroidal elements can be both negative and positive Gaussian curvature.

The line of their abutment can be located diagonally connecting the opposite corners of the shells.

In addition, the variable profile of the surface formed by toroidal elements may have a cycloid or lancet shape,

Fig, 1 shows the combined spatial coverage, axonometrics; on Fig - the same plan; FIG. 3 ™, forming a coating envelope; Fig. 4 shows a coating of toroidal elements of negative curvature, axonometrics; Fig, 5 - the same, positive curvature, axonometrics.

The precast reinforced concrete spatial covering includes interconnected shells 1 with contours 2, each sheath consisting of toroidal elements 3 adjoining one another at an angle of 4, Elements 3 are inclined to the contours of the 2 shells at a constant angle tt.

The variable profile of the surface formed by toroidal elements 3, symmetrically located with respect to the line 4 of their abutment, may have a cycloidal 5 or lancet 6 shape.

3

The toroidal elements 3 are formed from the surface of the tori 7 and are limited by their abutting lines and the contours of the shells.

When arranging shells of precast reinforced concrete shells in the fields of shells, plates 8 are arranged with a rectangular plan, and along the intersection line of the toroidal elements of plate 9, mainly a triangular plan.

The construction of shells from adjacent toroidal elements with the formation of the surface of a variable profile makes it possible to expand the functionality and range of use of such structures by varying the geometry of the tori and their adjoining angles. This allows you to choose a variable profile of each shell, the best way to form the spatial and planning solutions of the building, as well as its acoustics. In addition, the variable profile provides the minimum required amount of overlap space.

Shells with a rhombic plan can be formed by two toroidal elements, have the same plan, but form different volumes of Figures 4 and 5.

The use of shells formed by three or more toroidal elements with several lines of their intersection further enhances the functionality of coatings of this type as a result of an increase in the variability of the volume and shape of the overlapped space.

Shells can have square, triangle and other form1F1 plans

704

The meridional-circular method of cutting the surface of toroidal elements makes it possible to assemble them from a small number of types of precast reinforced concrete slabs. The same tilt angle of the PLATES: to the contours of the shells leads to a decrease in labor costs in the construction of the coating due to the unification of the contour plates and nodes

adjoin them to the contours.

The presence of a fracture of the surface of the membranes at the sites of the reception &

shells, in some cases, the longitudinal forces in the

J contours.

Shells can be made of reinforced concrete, metal, plastics, as well as tent materials.

Installation of the coating can be carried out using an enlarged assembly method. First, the contour elements of the shells are installed on permanent and temporary supports; if necessary, stiffeners are also located along the lines of the adjoining toroidal elements.

Several cladding plates are combined below on an assembly stand 8 in an enlarged assembly block, provided with temporary tightening. The blocks are successively installed on the contour elements and on the stiffening ribs. When the joints between the plates and the edge zones are installed, temporary supports and tightening are removed.

The estimated economic effect from the introduction of the proposed invention should be 8 rubles / m of the coating.

Claims (6)

1. COMBINED SPATIAL COATING having paired one with another shell of double curvature with contours, characterized in that, in order to reduce labor costs and material consumption of the coating while expanding the scope of its application, each shell is made of toroidal elements adjacent to one another at an angle to form the surface of the variable profile in the direction perpendicular to the line of contact, and the elements are inclined to the contours of the shells at the same angle. 2. Coverage pop. 1, distinguished by the fact that the toroidal elements are of negative Gaussian curvature. 3. The coating according to claim 1, characterized in that the toroidal elements are of positive Gaussian curvature. 4. A coating according to claims 1 ~ 3, characterized in that the junction line of the toroidal elements is located diagonally connecting the opposite corners of the shells. 5. The coating according to claims 1 to 4, characterized in that the variable profile of the surface formed by the toroidal elements has a cycloid shape. 6. The coating according to claims 1 ~ 4, which consists in the fact that the variable profile of the surface formed by toroidal elements has a lancet shape.