SU1756494A1 - Ferroconcrete roof, assy - Google Patents

Abstract

Usage: b construction, namely for reinforced concrete roofs of residential and public buildings, the prefabricated reinforced concrete roof includes two extreme modular elements having cantilevers interconnected in the lower level of the bottom, and in the upper plane with an infantile-free modular element niyu support. The truss system is located purlin and roof purlins. The hinged-fixed support is made in the form of articulated metal rods with mounting plates. The connection of the plug with the modular elements is carried out with a pin and patch plates 7 or

Description

The invention relates to the construction, in particular to reinforced concrete roofs of residential and public buildings.

A reinforced concrete roof is known, including reinforced concrete triangular elements of the same type, interconnected by metal plates and bolts, purlins of reinforced concrete sheathing, longitudinal links and asbestos-cement roofing.

The disadvantage of this design is the high consumption of materials due to the need to install eaves, floor slabs and longitudinal links, as well as connecting elements

The reinforced concrete roof is known and includes longitudinal walls, gables, rafters, lathing and covering panels, while gables are made in the form of two eaves and ridged triangular elements, and rafters, longitudinal walls and lathing are formed by identical trusses with parallel sides themselves, while the height the ridge triangular element is equal to the height of the truss, and the height of the vertically located leg of the eaves triangular element is twice the height of the truss, and the triangular elements are provided with paired uprights, Åre between which farm and floor panel supported on a farm with his long face.

The drawbacks of the technical solution are the high labor intensity, material intensity and complexity of the construction technology.

The purpose of the invention is to reduce material consumption and labor intensity of manufacturing and installation.

The goal is achieved by the fact that in a precast concrete roof, including a composite truss of interconnected modular triangular curtain and ridge elements, runs and

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roof covering — each eaves modular element is made with two consoles, one of which acts as a eaves overhang, and the other console is connected to the ridge modular element by a fixed connection, while the eaves modular elements are rigidly connected by means of a tie, the ratio of length to the length of the console connected to the console module is 1.5-2.5.

Making the eaves modular elements with consoles and connecting them together with each other, apart from the complete unification of the elements and the possibility of their production in one typical form-equipment, makes it possible to ensure the construction of the eaves without additional mounting elements, and also to avoid the need to build trusses supporting (truss) and thereby reducing the labor intensity of manufacturing and installation.

The fixed support ensures the geometrical invariance of the entire system during operation, which guarantees the stability of the forces in the truss rods and full compliance with the design scheme, and also significantly reduces the intensity of the node.

When uneven loads are applied to the upper one by the composite truss, the resulting horizontal forces are perceived by internal splits of the cornice elements and transfer them to the braces, thereby achieving the compensation of additional stresses from bending moments. The ratio of the bracing length to the length of the console connected to the console module is (1.5-2.5), allows to significantly reduce the bending moments in the upper over the composite truss from uneven loads and ensure their equal strength and stability, thereby with Iža material-elements in general 10-15%

So, for example, when the ratio of the length of the puff to the length of the console is less than 1.5, the bending moments in the upper section increase 1.8-2.3 times, and if the ratio exceeds 2.5, they already increase 2.5-3, 7 times or more. With such bending moments, it is not possible to ensure equal strength and stability of the calculated cross sections, i.e. it is necessary to increase by more than 1.5 times the calculated cross section and, accordingly, the material consumption of the element as a whole.

FIG. 1 is given a prefabricated reinforced concrete roof with a mansard, general view; in fig. 2 - the same, but without the attic; in FIG. 3, node I in FIG. 1 (during installation), figure 4 - the same, during operation; in fig. 5-knot II on

FIG. one; in fig. 6 shows section A-A in FIG. five; on

FIG. 7 is a section BB in FIG. five.

The prefabricated reinforced concrete roof is made of two extreme cornice modular elements 1 having cantilevers 2 interconnected in the lower plane by rigidly pulling 3, and in the upper plane they are connected to an ridgeless modular element 4 via a fixed fender.

The trusses of the reinforced concrete obreshetka 6 are located along the forming truss system, and the asbestos cement roof 7 is located along them.

5 attic, its enclosing elements 8 are erected. The roof is mounted on walls 9 and the ceiling 10 is suspended from it.

The fixed support is made in the form of articulated metal rods 11,

0 welded at the end of the modular elements. The pads 12 are used for their installation. The rigid connection of the plug 3 with the modular elements 1 is carried out by the fixing pin 13 and the overlapping plates 14.

5 Make a precast concrete roof as follows.

At the construction site, an integral supporting truss is assembled, for which purpose the extreme modular elements 2 are rigidly connected with the fastening 3 in the lower plane, and in the upper plane they are connected to the non-console modular element 4, forming a fixed support 5, strengthening it with mounting plates 12. Then, by means of lifting mechanisms, the assembled supporting truss is mounted on the bearing walls and the reinforced concrete purlin girders are laid along the truss system formed. 6. The fastening of the purlin mesh is welded,

0 for example, using rebars produced from rafters. The asbestos cement sheets of the roof 7 are fastened to the girders 6 by means of metal bolts

5 The gables can be made of reinforced concrete elements, asbestos cement sheets or wood elements. Ceiling 10 is expediently carried out in a suspended version.

0 Consoles 2 extreme modular elements 1 form a cornice overhang.

Claims (1)

The proposed technical solution allows for the complete unification of prefabricated elements and the possibility of their production in a single-dimensional form, as well as reducing the consumption of materials by 15-25% and the labor costs for manufacturing and installation up to 30%. Invention Formula Prefabricated reinforced concrete roof comprising a composite truss of connected Between the modular triangular core and ridge elements, the girders and the roof covering, so that, in order to reduce the consumption of materials and the labor of manufacturing, each eaves modular element is made with two consoles, one of which performs the role of eaves, and another friend it is connected to the ridge modular element by a fixed link, while the eaves modular elements are rigidly connected by means of a tie, the ratio of which to the length of the arm, which is connected to one end of the module, is em 1.5-2.5. ; 4Pipe f five FIG; g Fig 3 ff FIG 4