SU1291682A1 - Roof for multispan building - Google Patents

Abstract

The invention relates to the construction and can be used in the construction of industrial, agricultural and public buildings. The purpose of the invention is to increase the rigidity of the coating. The coating consists of two console plates 1 funnel-shaped, connected at the ends of the consoles. Each funnel-shaped roofing plate is supported along the entire length of the longitudinal ribs on the gable rafter beams 2 two d-spans at the same time. In this case, the connection of plates with beams in the plane of the support is rigid. For this, the slabs are made with a slope of the flange and the bottom surface of the longitudinal ribs equal to the slope of the top along the truss beams, and the truss beams are mounted with a step equal to the width of the slabs. 7 il. a & sl iu iC 05 00 td Water Fi .2.2

Description

The invention relates to the construction and can be used in the construction of coatings for industrial, agricultural and public buildings.

The purpose of the invention is to increase the rigidity of the coating.

FIG. 1 shows the proposed coverage; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows the node I in FIG. 2; in fig. 4 is the same as the embodiment; in fig. 5 is a section BB in FIG. four; in fig. 6 is a sectional view BB in FIG. five; in fig. 7 - placement of the water intake funnel.

The building covering consists of complex precast reinforced concrete two-console slabs 1 of a funnel-shaped form and gable trusses 2, supported by subrafter beams 3. Supporting beams 3 are installed on columns 4 and have an inverted trough-shaped section. In the dimensions of subrafter beams 3, collectors 5 of internal drainage are placed, connected to water intake funnels b, which are in each slab. The gable truss beams 2 are installed with a pitch equal to the width of the funnel-shaped slabs 1. The slabs 1 are made with a slope of the shelf and the bottom surface of the longitudinal ribs equal to the slope of the upper truss beams 2. Each of the slabs 1 is supported along the entire length of the longitudinal ribs on the truss beams 2 two adjacent spans at the same time. Plate 1 is rigidly connected with the rafter beams 2 in the plane of the bearing by welding the inserts 7, as well as among themselves at the ends of the cantilevers in the upper plane of the longitudinal ribs by welding the inserts 8.

In addition to welding the inserts 7, the rigid connection of the plates 1 with the beams 2 can also be made in the form of pyramidal concrete pins 9 formed by a capped side surface of the longitudinal edges of the plates 1 with vertical loops of the reinforcement of the beams 2 embedded in them.

Subrafter beams 3 may have a simpler, rectangular section. For this, the intake funnels 6 are located offset from the transverse axis of symmetry of the plates 1, and the collectors 5 of the internal drainage are located under the subrafter beams 3. The outer layer of the shelf of the plate 1 with this solution is performed with a variable ii b slope of the drainage surface in the longitudinal direction.

When mounting the plates 1, their rigid connection with the beams 2 can be made only in the spans of the beams 2 in the areas bounded by sections corresponding to the intersection points of the bending moments of the continuous beam with its zero line. This reduces labor costs during installation, as well as reduces the consumption of materials for fittings.

It is recommended that fittings (mortgages or keys) be placed in increments not exceeding the smallest of the heights of the longitudinal edge of the slab 1 or the truss beam 2 in the area between two adjacent fasteners, which ensures sufficient reliability of the rigid connection of the plates 1 with the beams 2 from the viewpoint of their compatibility .

Claims (1)

Invention Formula The covering of a multi-span building containing precast reinforced concrete bezrulonny beamless funnel-shaped plates supported on subrafter beams interconnected at the ends of the consoles in the upper plane of the longitudinal ribs, in order to increase the rigidity of the coating, the plates are made with a shelf slope equal to the upper slope Sa rafter beams, supported along the entire length of the longitudinal ribs on the rafter beams of two adjacent spans and rigidly connected to them in the zone of the bearing, with the step relying on the subrafter The truss beam is equal to the width of the slab. BUT Phage. to Y /:-./ f / 7 7 / or yT7: - / o; o / - / A Figm FIG. BB eleven AT ten FIG. five Bb YU / / ff .B Ftg