SU897987A1 - Skylight roof of multispan building - Google Patents

Description

one

The invention relates to building structures, in particular to coatings of multi-span industrial buildings with lanterns.

There are several known sides in which large-size slabs are used (such as Yu; (C or P). Such coatings include longitudinal beams or trusses, span plates supported on them for span and longitudinal lights consisting of transverse frames, fence elements and ribbon glazing l.

The disadvantage of this coating is that the concentrated load from the structure of the lamp is transmitted to the plate in the zone of maximum bending moment, weakened by the openings for the lamp. This entails the need to significantly increase the cross section of the longitudinal ribs and their reinforcement, i.e. leads to an increase in material consumption of the coating.

The closest technical solution to the proposed lamppost of a multi-span building, including supporting structures, laid on them / slabs covering the span and placed on them and connected with them longitudinal lights with a reinforced concrete frame, slabs fenced and glazed doors 2.

ten

The disadvantage of the known design; is that the design of the lamp participates in the joint work with the covering of the cover only in the course in which it is installed, due to the fact that the lamp structure is attached only to the cover plates, and not to the supporting structures, and it does not form one

20 is a longitudinal spatial structure.

The purpose of the invention is to reduce the material capacity of the coating.

3

The goal is achieved by the fact that a lantern cover of a multi-span building includes supporting structures, covering plates laid on them and longitudinal lights connected to them and connected to them with a frame, fencing plates and glazed sashes, the cover is provided with connecting elements for supporting the lamp and suspensions with tensioning devices with each connecting element located on the supporting structure in the gap between the plates laid on the latter, and the suspensions are located in the plane of the glazed sashes; Each of them is attached at one end to the frame of a lantern, and the other to the cover plate.

FIG. 1 shows a device, a cross-section; in FIG. 2 a section A-A in FIG. 1, in FIG. 3 - knot support frame lamp; in fig. 4 section bb in fig., 3.

The lamppost cover includes longitudinal structures, large-size 2-span for the span, a lamppost structure consisting of transverse frames 3, support elements 4, suspensions 5 with a tensioning device 6, links 7, fencing elements 8 and glazing 9,

On beams I are located slabs 2 on the span. On the same beams 1 by means of supporting elements 4, located in the seams between the nlits 2, supported transverse frames 3 lantern. The frame 3 is made in the form of a triangular reinforced concrete element, the lower assembly of which is connected to the supporting member 4, the upper assemblies of the frames 3 by means of hangers 5 located in the glazing plane 9 are connected to the longitudinal edges of the plates 2, as well as by the connections 7 to the lower assemblies adjacent to them frames Moreover, the frame 3 and the suspension 5 are placed in increments of 3 m, which corresponds to the width of the plates 2, the nodes connecting the suspensions and frames are provided for welding. The suspensions are equipped with tensioning devices 6 for controlling the forces in the plates 2 for the span. The supporting element 4 is made in the form of a T-shaped stand, equipped with a lower and upper plate, with which it is connected in welding to the embedded parts of the longitudinal beam 1 and the transverse frame 3 lantern. This design of element 3 allows

74

pitch it and pshah between the corners of the plates 2.

The frames 3 of the lamp are interconnected by inclined links 7, together with the longitudinal beam I and the elements of the fence 8, the lamp longitudinal spatial structure

Installation of the coating is performed in

following sequence.

Longitudinal beams 1 are mounted on the columns with supporting elements 4 attached to them. Then plates 2 are mounted on beams and lantern 3 transverse frames, suspensions 5, links 7 and fastener elements 8 are mounted, force is adjusted in plates 2 by tensioning devices 6 on suspensions 5.

A lantern structure is a longitudinal spatial structure in which compressive forces are perceived by the elements of the lantern fence and stretching by the longitudinal beam 1. Thus, in the sub-ceiling part only a part of the load of a given magnitude acts on the slab. The weakening of the slab cross section falls on the support zones, where the presence of suspensions and force control allows one to reduce the span of curvature in the edges of the plates. Preliminary calculations show that the proposed lamppost coverage with a grid of building columns of 12–18 m provides a saving of 8% on concrete and 10% on steel.

When using the invention in buildings with suspension pipelines or ducts in the transverse direction, communications can be passed through the holes in the shelves of the slabs and the lantern space. There is no need to increase the height of the building, which results in an additional economic effect.

Claims (2)

Invention Formula A lantern covering of a multi-span building, including supporting structures, covering plates laid on them and longitudinal lights connected to them and connected to them with a frame, fencing plates and glazed sashes, characterized in that, in order to reduce the coating material intensity, a lantern lamp and suspensions with tensioning devices, each connecting element being located on the supporting structure in the gap between the plates laid on the latter, and the suspensions located in the plane of the glazed flaps -with wherein each of them at one end 7d mountable to the frame lantern and the other - to the plate coating. Sources of information taken into account during the examination 1. Plates of type P of size 3х8 of lightweight concrete. Concrete and reinforced concrete, 1976, 10, 2. USSR author's certificate according to the application No. 2764329 / 29-33.979. // I B cpi / g t (rig. 3 ; ji, -iF-S