SU855144A1 - Multispan building lantern-type covering - Google Patents

Description

(54) LAMP COVERAGE OF MULTI-FLIGHT

BUILDING

The invention relates to building structures, in particular to coatings of perennial industrial buildings with lanterns. A lantern covering is known, which includes roof structures, reinforced concrete slabs and U-shaped light aero lanterns (1). The disadvantages of such a coating are the high material consumption of the structure of the coating and the complexity of its device. Closest to the invention is a multi-span building covering, including supporting structures, covering plates laid on them and longitudinal lights connected to them and connected to them with a frame made of internal and. external longitudinal and transverse elements, with glazed sashes and reinforced concrete fencing plates (2). The disadvantages of this design are the high consumption of materials and the complexity of the construction of the coating. The purpose of the invention is to reduce the material and labor intensity of the construction of the coating. The goal is achieved by the fact that in the lantern cover of a multi-span building, including supporting structures, the covering plates laid on them and placed on them and connected to them are longitudinal lights with a frame of internal and external longitudinal elements with glazed doors, and the internal longitudinal elements are installed under angle to each other and to the slabs of the coating, the inner longitudinal elements of the lamp are made of reinforced concrete slabs attached by lower ends to the supporting structures, and the upper ends of interconnections established in increments equal to the width of the cover plates. FIG. 1-building; cross section; in fig. 2 shows section A-A in FIG. I; in fig. 3 Node I on FIC 1. The coating includes carrier beams 1 placed on the KQV lines, on which the plates 2 of the coating rest (on the end sections of these plates in the places of the lantern device

the shelf is removed), the longitudinal elements of the frame 3, the plates 4 of the fencing, the sash 5 glazing, the externally arranged connections of the supporting tables 7 (for connecting the lantern fencing plates to the supporting structures).

Installation of coating D is generally carried out in the following sequence.

On the Ustayavlivak columns (vehicle longitudinal beams 1, on which plates 2 "are mounted on the span. Then, elements 3 of the plate 4 of the fence of the lantern 5 are installed. After connecting them to the plates 2 and between them, connections 6 can be either corner or round steel.In this case, in the case of a round steel communication device, they must be equipped with tensioning elements in order to sample the sagging. The connection of the elements of the covers i between them is done by welding through embedded parts. Features of the static work of the proposed design Coatings are as follows.

The coating has two stages of operation: assembly and operation. In the assembly stage, the plates 2 operate from their own weight and the snow load on the bend, as continuous single-span structures. An operational load, including the weight of insulation, roofing, snow load on the lamp, overhead transport, etc., is applied after the lantern device. Moreover, the lamp structure becomes an integral part of the supporting structure of the coating that converts it into a continuous multi-span system. Consequently, the design of the lamp has a relieving effect on the supporting structure of the coating under the action of the operational load. In this case, the elements of the lamp 3 and the links 6 work under tension, and the plates 4 work in the transverse direction at the points of attachment of the links 6, in compression.

The efficiency of the lamp discharge on the plates 2 is more / less than the greater part of the total load is the operational load. Therefore, the installation of the coating must be done, based on these considerations. In addition, in order to increase the unloading effect of the lantern superstructure, communication 6 can be arranged with prestressing. AT

In this case, part of the installation load can be transferred to the operational stage. Known methods can be used to create prestressing in connection with, b, for example, using tension devices such as harnesses or electrothermal methods.

Externally located links 6 have an additional unloading effect on the supporting structures of the coating in the winter period with a decrease in temperature, which causes a decrease in the length of these connections, since it is in the winter period that the operational load on the coating increases due to the snow load.

The use of this device reduces the laboriousness of erection of the coating, reduces the consumption of materials — mainly steel, by eliminating the internal steel elements of the lamp structure, and has a unloading effect on the supporting structures of the coating.

Claims (2)

1. Samoylo A. I. Industrial buildings. M., stroiizdat. 1977, p.24. 2. Maceline.R. N. Sheath Panels ((in reinforced concrete precast coatings., StroiizD t, 1968, p. 16, fig. Pa. r - / l b. "6 v: 9v vvco / x4V / iN at fig.g ./