SU601363A1 - Three-dimensional frame of sectional structure - Google Patents

Description

The invention relates to the construction, in particular to the length of 1 m of supporting structures of 1 m.

The spatial frameworks of the collapsible structure are known, which are balochnostochnuyu sistemu, on which the enclosing elemeity 1 are hung.

The disadvantages of this technical solution are: unreacted approach, caused by the removal of the load-bearing elements of the frame when blocking, the complexity of changing the engineering communications systems during the transformation of the structure, influencing the expediency of using it as a prefabricated unit.

The closest solution to the invention is with a spaced frame, 31 cubicles, mounted one on the other and shifted in each vertical row relatively lower than those installed in staggered order 2.

The main disadvantage of this spatial framework is that it is made of bent elements. This complicates the design, makes it non-industrial, increases the complexity of installation, and eliminates the possibility of re-using elements.

The aim of the invention is to increase the use of the construction volume of the structure and simplify its installation and dismantling.

This is achieved by the fact that the spatial frame of the collapsible structure contains installed one over the other and displaced in each vertical row relatively lower than those installed in a checkerboard pattern, filled with rods connected between each other with the possibility of a connector. The cells form vertical grids arranged parallel to one another and interconnected by cross links. To reduce the moment in the rods, the vertical grids are additionally connected by diagonal connections. Moreover, horizontal rods may be additionally installed inside each cell.

FIG. I shows the proposed frame, vertical section; in fig. 2 - the same, in a perspective view; in fig. 3 li 4 - embodiments of the framework with additional rods; mp; in fig. 5 - rod connection unit (node I of FIG. 1).

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The frame contains a series of vertical lattices /, installed parallel to each other and connected by opposite links 2. Each of the lattices is made with a six-cylinder; the cells 3 formed by the rods 4. The rods 4 are connected

The yens with the possibility of a connector with the node elements 5 and the bolts 6. To reduce the moments in the rods of the connecting nodes 1B, horizontal rods 7 or diagonal links 8 are installed. The frame elements, rods 4, 7 and links 8 are of the same type.

The monta; g and demoitage of the frame in the section of the WAY from the working conditions is carried out either by separate rods, or by grids, or by combined blocks.and, П; the number of connected cells is replaced by each other. For vertical and horizontal loads, all efforts are determined by the node elements 5 as concentrated vertical and horizontal loads and reprogramming (made into rods, with cusps at each node.

The design of the spatial frame is made of factory-made elements and with a unified / single node (m of the joint, having a small masooso. The elements of the xipage are interchangeable and can be used for the most part.

All communications buildings can be laid independently of the bearing and enclosing structures.

KaipiKac P | p, name1M for buildings and facilities for any purpose with varying requirements for bulk-structure.

The framework can be used for three construction projects, various works in areas with difficult reliefs, in hard-to-reach areas, permafrost areas, as well as for the construction of various platforms, bases, technical structures, etc.

The proposed spatial framework makes it possible to achieve savings in metal during the construction, for example, of auxiliary in-built memory up to 50%.

Claims (3)

1. The spatial frame is collapsible: th structure, including cells, mounted on one another and displaced in each house of the vertical row relatively lower than those installed in a checkerboard pattern, characterized in that, in order to increase the use of the building volume of the structure and simplify installation and disassembly, the caledon cell is made of rods connected between the interfacing (do the same with the connector, and the cells are combined into vertical grids parallel to each other and interconnected through each other. 2. A framework according to claim 1, characterized in that, in order to reduce the moment in the rods, the vertical slats are additionally connected by diagonal connections. 3.KapiKac according to claim 1, characterized therein that horizontal bars are additionally installed in the inside of each cell. Sources of information taken into account in the examination: 1. V.Nitov, N., et al. Architectural-planning decisions, “Industrial Construction and TejibCTiBO, No. 11, M., 97b, p. . 2. The patent of Germany L 811401, cl. 37 and 1/24 publ. Oe.07.1949. -XV 7 / / J at