SU551903A1 - Roof for explosion-hazardous rooms - Google Patents

Abstract

COATING FOR EXPLOSIVE-ROOM PREMISES of industrial buildings, including cells made of carried, silent elements and a floor attached to it, is distinguished by the fact that, in order to preserve the flooring during an explosion, the latter is performed as a pair of profiled shutters sheets installed nasch each cell can be rotated in opposite directions from the vertical axis, with the sash on one side are overlapped, and on the other attached to the supporting elements. (L S ^ e sd Q: o

Description

The invention relates to the construction, namely to the structures of the coatings installed above the explosion-proof premises of industrial buildings. Known. Coating for the production of buildings, including rigidly attached to the girders of profiled sheets, insulation and roll roofing. However, when using a bottom coating, it is necessary to increase the area of the exterior window openings, ensuring the discharge of excess pressure, which is not possible with a lot of space-planning solutions and, moreover, increases the cost of building. Coatings made of reinforced concrete structures with openings blocked by loosely laid asbestos cement sheets are also known, which are blown off when an explosion occurs under the action of an overpressure. Asbestos cement sheets in such coatings are laid on a reinforcing mesh located on reinforced concrete plates with holes, or on steel girders. Consequently, the coating requires the use of different types of building elements, which in turn complicates installation and increases labor intensity. In addition, asbestos cement sheets are destroyed during the explosion and new ones are used to restore the coating. Closest to the present invention is a coating for explosive premises of industrial buildings, including cells made of load-bearing elements and a flooring attached to them. The main disadvantage of such a coating is the destruction of the flooring in an explosion. The purpose of the invention is to preserve the flooring in an explosion. This is achieved by the fact that the flooring is made. In the form of a pair of shutters of profiled sheets installed above each cell can be rotated in opposite directions from the vertical axis, with the overlapping joints on one side of the sash, and attached to the supporting elements on the other. In Fig. 1 shows the proposed coverage plan; in fig. 2 shows a section A A in FIG. one; in fig. 3 - axonometric coverage cells. The coating is made with cells 1 and contains sashes 2 of profiled metal sheets, insulation 3 made of expanded polystyrene or other material and a roll roof 4. The cells can be located along the entire surface of the coating and interconnected butt-joint or at intervals, in which case they alternate with fixed sections 5, the profiled sheets of which are rigidly attached to the girders. The valves 2 are installed on each cell in pairs I and are paired with each other with the outer edges of the 7 overlap, On the opposite side of the flap 2 pr. and 8 facets of k-runs 6 are fastened. The junction of facets 7 is blocked by a bead 9. When an explosion occurs, under the effect of an overpressure of the flap 2, the cells 1 turn and open in opposite directions to form openings. Such an embodiment of the coating allows to relieve excess pressure and prevent the destruction of building structures. Opened sash cells after the explosion returns to its original position-. that does not require the installation of new sheets, and consequently, the additional costs caused by the repair work. In addition, the coating is made of the same type of parts, it is easily mounted on the bearing elements.

Claims (1)

, COVERING FOR EXPLOSIVE PREMISES OF INDUSTRIAL BUILDINGS, including cells made of bearing elements and attached to ^: a floor, characterized in that, in order to preserve the floor during an explosion, the latter is made in the form of a pair of leaves from profiled sheets installed above each cell with the possibility of rotation in opposite directions from the vertical axis, moreover, on one side of the sash are interconnected overlap, and on the other are attached to the supporting elements.