RU60569U1 - BIG SPAN BUILDING-SHELTER - Google Patents

Abstract

The utility model relates to construction and can be used to arrange prefabricated shelter buildings in civil engineering.

The objective of the utility model is to reduce the material consumption and the complexity of installation when creating large-span structures.

In a large-span building-shelter comprising a supporting belt of curved shape 1 of spatial slabs of cover 2, each of which is made of two mutually convex longitudinally shaped sheets or of two layers of planks 3, 4 connected by a spatial grid 5, according to a utility model, adjacent spatial coating plates are interconnected by additional prestressed puffs 6. 2 ill.

Description

The utility model relates to construction and can be used as prefabricated shelter buildings or attic of civil buildings.

Known building cover plates, which consist of upper and lower zones, made of curved wooden boards and intermediate elements. Thus, a spatial plate for coating a sparse structure is known, including the upper and lower belts mutually convex in the longitudinal direction, which are made of wooden strip elements (boards) and intermediate elements located between the belts (RU 2163283 C2, 7 E 04 B 1/343, 7 / 20. Grigoryev S.V., Endzhievsky L.V., Grigoryev V.P., Maryshev A.Yu., Novikov O.F. priority dated 05/05/1999, analogue).

The disadvantage of the design of the analogue is the limitation of the overlapping span by the length of the produced boards.

The closest solution in terms of physical nature and the final result is a block-truss of the coating, which consists of an upper belt, supporting braces and a lower core belt (RU 2275478 C1. Endzhievsky L.V., Drachevsky S.V. priority from 04.11.2004, prototype )

The disadvantage of the design of the prototype when covering large spans is the high material consumption, which is due to the need to create a developed system of reinforcing braces.

The objective of the utility model is to reduce the material consumption and the complexity of installation when creating large-span structures.

The problem is solved in that in a large-span building-shelter comprising a supporting belt of curvilinear shape from spatial coating plates, each of which is made of two mutually convex longitudinally shaped sheets or of two layers of boards,

connected by a spatial rod grating according to the invention, adjacent spatial coating plates are interconnected by additional prestressed puffs.

In Fig.1 - large-span building-shelter (general view); figure 2 is a transverse section.

The large-span building-shelter includes a supporting belt of curved shape 1, additional prestressed puffs 6. A supporting belt of curved shape 1 consists of several, for example six, spatial slabs of cover 2. The upper 3 and lower 4 belts of spatial slabs of cover 2 are pre-stressed spatial rarefied structure formed by alternating strip elements 3, 4 and intermediate elements 5. When joined together, the spatial plates of the coating image Coziness is a curved surface, and the connection nodes are hinged 7. Preliminary bending of the upper 3 and lower 4 belts significantly increases the bearing capacity of the spatial coating plate 2 when it is used in construction as a compressed-flexible element. The shape of the structure is held by additional prestressed puffs 6.

The manufacture of a large-span building shelter is as follows. Set the support nodes. Then the spatial plates of the coating 2 are assembled at the points of their joining 7. The system is lifted from several spatial plates of the coating starting from the middle of the structure until the design angle is formed and the adjacent spatial plates are fastened with additional prestressed puffs 6.

The proposed utility model allows you to create long-span coatings with a span of 30 m or more, as well as reduce the complexity of installation, to achieve ease of transportation and the possibility of manufacturing by flow technology.

Claims (1)

A large-span building-shelter comprising a supporting belt of a curved shape from spatial coating plates, each of which is made of two mutually convex longitudinally profiled sheets or from two layers of boards connected by a spatial bar grid, characterized in that the adjacent spatial coating plates are interconnected by additional preliminary tight puffs.