SU857382A1 - Three-dimensional ceiling of rectangular plan view - Google Patents

Description

one

The invention relates to construction and is intended to block large spans of rectangular buildings in terms of which, according to production technology requirements, a suspended ceiling is required, as well as heavy-duty suspension cranes.

It is known to cover the building and structure, including trusses, supporting elements and metal tapes adjacent to each other, located under the extended lower trusses themselves, attached to the trusses themselves and supporting elements 1.

The disadvantage of the coating is that the metal tapes forming the membrane are not included in the operation of the coating and have the ability to freely mix, without providing spatial rigidity.

Closest to the proposed technical sush.nost is the spatial coverage, rectangular in plan, including its cross-trusses, supporting elements, links, combining, and trusses, and a suspended ceiling 2.

The disadvantages of the known coating are the significant height of the coating, the presence of connections between trusses in the level of top 2

it and the lower belt and in the vertical planes to ensure spatial rigidity.

The purpose of the invention is to increase the spatial rigidity, increase the flooring capacity and reduce metal intensity.

The goal is achieved by the fact that the spatial coverage, rectangular in plan, including cross-trusses, united in blocks by links placed in the level of the lower farm, is equipped with rigid vertical diaphragms placed between adjacent blocks made from separate core sections. triangular shape, and the connections are made in the form of a membrane, pre-stressed in mutually perpendicular directions.

FIG. 1 shows the coating in the plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 - connection of blocks with a diaphragm.

The spatial coverage of the rectangular in plan includes cross trusses 1 and 2, membrane 3 attached to the trusses, and diaphragms 4 made of a triangular shape of rods 5.

The spatial operation of the cross-truss system is ensured by rigid vertical diaphragms 4 placed between adjacent blocks at the bottom and top of the trusses and making connections in the form of a membrane 3 attached to the bottom 6 of the truss 6 and truss 1 and 2.

The membrane in the proposed design is included in the work of the coating, increases its bearing capacity and, moreover, performs the functions of a suspended ceiling. The membrane, working as a stretched surface within a block formed by a system of cross-trusses and the entire coating, increases the spatial rigidity of coating B in general. This is achieved primarily by the fact that the main stresses in the square membrane are directed diagonally, i.e. the membrane bands of a certain width are working, which act as connections.

Before fastening to the lower one, the membrane is pre-stressed in two mutually perpendicular directions. At the same time, in addition to providing a flat horizontal surface of the ceiling, spatial blocks receive a building rise, the reverse of the deflection obtained by loading the coating with constant loads.

The horizontal chain forces of the membrane 3 create in the edges of the support contour of the trusses 1 and 2 a vertical bending moment of opposite sign with respect to the moment caused by the vertical load.

The coating is mounted as follows.

The 6-18 m wide membrane is made from sheet blanks by welding and forming a roll wound on a special drum. The rolled membrane sheets made in this way arrive at the installation site, where the semi-farms are assembled into a spatial unit, installed on a special stand, on which a membrane is laid and tensioned, after which the membrane is attached to the lower assembly by means of welding. for its docking in blocks. For welding, welding equipment may be used, for example, a TC-17 tractor.

The spatial unit assembled on the ground for half of the span or for the whole span is then installed by cranes or along an inclined trestle with the help of winches to the design position. After this, the membrane outlets are welded and a continuous membrane panel is created that performs the carrier and enclosing functions.

The formation of basic transverse spatial trusses is carried out by placing diaphragms between individual blocks. The diaphragm is a rigid structure assembled from individual rods, in the form of a triangular truss. The installation of these diaphragms, located at the top and bottom of the truss in a vertical plane in the transverse direction of the building, between the ends of the blocks ensures the operation of the cross-truss system in two directions and the spatial work of the entire coating.

The proposed coating gives a certain economic effect, since the calculations performed show a high bearing capacity of the coating at a small height.

In particular, compared with the known, the height of the proposed coating is reduced by 34 / o, which leads to a reduction in the volume of the building and, accordingly, the wall walling of the building, as well as the operating costs for its maintenance. In addition, the height of the coating (6.6 m) makes it possible to divide it into dispatch marks that fit into the railway envelope.

Thus, without increasing the mass of the metal, since the membrane performs the supporting and enclosing functions, the rigidity and carrying capacity of the coating as a whole increases.

Claims (2)

1. USSR author's certificate No. 320594, cl. E 04 B 5/10. 2. Project GPI "Ukrproektstalkonstruktstsi, order number 142732KM, 1977. R : i