SU827719A1 - Suspended saddle-shaped roof - Google Patents

Description

The invention relates to the field of construction, namely to spatial coatings of industrial and public buildings.

Spatial coatings of various geometric shapes are known, consisting of a cross system of rods working both in compression and in tension, in particular, a circular mesh arch structure assembled from individual wooden elements, as well as wooden hyperbolic shell structures, the geometric shape of which allows the use of cross a system of stretched elements, usually made of cables and compressed elements, which can be made, for example, of reinforced concrete or wooden bars fastened with cables at the intersection [1].

The closest technical solution to the invention is a hanging saddle-like coating, including a support contour, cables located parallel to one of the diagonals of the structure, and rigidly fixed on the support contour and arched upward, arranged in rows parallel to another diagonal and connected to the cable-stayers at the intersection [2] .

Such a coating can be in the form of a hyperbolic paraboloid, or other geometric shape, but in any case, to ensure a given geometric shape, it is necessary to erect a supporting scaffolding or other devices for erecting the coating to ensure support and alignment during installation of the cable-stayed system and fastened with them in places intersections of compressed elements in the form of arches. The indicated difficulties arising in the construction of the coating, u · can reduce the complexity of the work and fully realize the advantages of this type of coating.

The aim of the invention is to reduce the complexity of installation of the coating.

This goal is achieved by the fact that in a hanging saddle-like coating for a rectangular or diamond-shaped structure in terms of a structure, including a support contour, cables located parallel to one of the diagonals of the structure, and rigidly fixed to the support contour and arched upward, arranged in rows parallel to another diagonal and connected to cables at the intersection, the arches are made of separate interconnected elements having a length equal to twice the distance between the cables, and 827719 mixed in adjacent rows with offset staggered.

This allows you to pre-harvest the cables with the compressed elements attached to them, to carry out their installation on the support contour, to reconcile the geometric shape of the coating, and then connect these elements, turning them into solid arches.

At the same time, the installation load is perceived by the cable-stayers, in addition, it becomes possible to conduct work in a certain sequence with the simultaneous laying of the flooring and exercising control over the geometry of the surface.

The drawing shows the proposed. Coating.

Guards 2 with compressed elements 3 are attached to the support contour 1. The length of the compressed elements is equal to twice the distance between the cables, they are attached to the cables with a step equal to twice the distance between them so that compressed elements attached to adjacent to the guys. Thanks to this design, ease of installation is ensured.

Installation is carried out in this order. The cables with the compressed elements fixed on them are attached to the support contour. In this case, the compressed elements can have any orientation in space. After fixing and aligning the cables, the compressed element of the first cable adjacent to the corner of the cable is attached with the end to the support contour and floorboards are laid on it. After that, the compressed elements of the second cable guy are attached to the support contour, floorboards are laid on them, then the compressed elements of the third cable guy are attached, the ends of which are connected to the ends of the elements of the first cable guy at the point of their intersection with the second cable guy, etc.

This ensures the continuity of the installation process using laid on the previous cable-stayed shields to accommodate workers.

The use of special supporting scaffolding or fixtures is not required.

This coating design in comparison with the known one has a number of advantages: the compressed elements (a.rki) are made from prefabricated bars of factory manufacture, while they are pre-attached to the cables, strung on them, forming garlands. At factory manufacturing, labor costs for manufacturing are reduced.

- the complexity of the installation is reduced Yu due to the fact that the lifting of the compressed elements to a height is carried out simultaneously with the installation of the cables on which they are fixed. This reduces the number of installation operations of cranes and makes it possible to better use its carrying capacity, since the installation is carried out not by the piece, but by whole garlands.

- there is no need for the use of supporting scaffolding in the construction of compressed elements (term). This provides an estimated cost reduction. A certain increase in the cost of construction associated with the need for joining of prefabricated elements is more than blocked by saving the cost of supporting forests.

Claims (2)

(54) DRAWN SADDLE-like COVERING of the displaced in adjacent rows with a shift in a staggered order. This makes it possible to prepare in advance the cables with compressed elements attached to them, to mount them on the support contour, to reconcile the geometric shape of the coating, and then to connect these elements, turning them into solid arches. In this case, the installation load is perceived by the cables, in addition, it becomes possible to conduct work in a certain sequence with the simultaneous laying of the flooring and the monitoring of the surface geometry. The drawing shows the proposed .coating. The cables 2 are attached to the support contour / with the elements 3 compressed. The length of the elements is equal to twice the distance between the cables, they are attached to the cables with a step equal to twice the distance between them, so that I can place the spaced elements attached to to the neighboring guys. Thanks to this design, ease of installation is provided. Installation is carried out in the following sequence. The guys with compressed elements attached to them are attached to the support contour. In this case, the compressed elements can have any orientation in space. After fixing and aligning the cables, the compressed element of the first adjacent to the corner of the covering of the guy is attached with an end to the support contour and floor boards are laid on it. After that, the compressed elements of the second guy are fastened to the support contour, the flooring shields are laid over them, then the compressed elements of the cable straps are attached, the ends of which are connected to the ends of the elements of the first cable at the intersection with the second guy, etc. the continuity of the installation process with the use of flooring shields laid on the previous cables to accommodate the workers. The use of special supporting scaffolding or fixtures is not required. Compared with the known, this structure of the coating has a number of advantages: pressed elements (arches) are made of prefabricated prefabricated bars, they are pre-attached to the shrouds, strung on them, forming a wire. In factory production, labor costs for manufacturing are reduced. -the complexity of the installation is reduced by the fact that the compressed elements are raised to a height simultaneously with the installation of the cables on which they are fixed. This reduces the number of installation operations of cranes and allows for better utilization of its load capacity, since the installation is carried out not by the piece, but by entire bends. - there is no need. in the use of supporting scaffolding during the construction of compressed elements (term). This reduces the estimated cost. Some increase in the cost of construction, due to the need to dock the prefabricated elements, is overlapped with savings in the cost of supporting forests. Claims of the invention A saddle-shaped roof for a rectangular or diamond-shaped structure, including a support contour, cables arranged parallel to one of the building diagonals, and arches rigidly fixed to the support contour, arranged in rows parallel to another diagonal and connected to the cables in places intersections, characterized in that, in order to reduce the complexity of the installation, the arches are made of separate interconnected elements having a length equal to twice the distance between the van s, and arranged in adjacent rows offset staggered. Sources of information taken into account in the examination: 1. Carlsen G. G. and others. Wooden structures. M., Gosstroyizdat, 1961, p. 324-342. 2. USSR author's certificate No. 222642, “l. E 04 B 7/14, 1967.