RU2018105951A - METHOD FOR EXPLOSION PROTECTION OF BUILDINGS - Google Patents

Claims (4)

1. The method of explosion protection of industrial buildings, which consists in installing explosion-proof and fire-hazardous equipment, explosion-proof elements, explosive and fire-hazardous equipment installed on the building foundation in the building envelope, in which explosion-hazardous and fire-hazardous equipment operates, and explosion-proof elements are performed in the side and upper barriers of the industrial building moreover, for side fences, explosion-proof elements are arranged in the form of safety collapsing structures of the building fencing, for upper fences - in the form of explosion-proof plates on the roof or attic of the building with explosive objects inside it, and explosion-proof elements are made in the form of an explosion-proof plate containing a metal armored frame with metal armor plating and lead filler, which has four fixed nozzles at the ends -supports, and four support rods that are telescopically inserted into fixed nozzles-supports of the panel are rigidly sealed in the building’s cover, while the filler is made in the idea of a dispersed air-lead system, whereby the lead is made in the form of crumbs, and the support rods are made elastic, and the explosion-proof elements are made in the form of a safety collapsing fencing structure containing reinforced concrete panels, each of which consists of collapsing and non-collapsing parts, while non-collapsing the part is made in the form of bearing ribs placed along the contour of the collapsing part, and the collapsing part is made in the form of at least two coaxially located recesses in the wall Denmark, one of which, the outer one, is formed by the planes of a regular quadrangular truncated pyramid with a rectangular base, and the other is the inner one, consists of two inclined surfaces connected by an edge to form a groove, while the wall thickness from the edge to the outer surface of the building enclosure should not be less than δ = 20 mm, while, under the influence of shock, explosive load, this wall section can be divided into separate parts, to bearing ribs placed along the contour of an organically collapsing structure, at least three horizontal rods are placed on which an armored shield is placed, which are fixed on the rods by stop elements, while to the bearing ribs placed along the contour of the organized collapsing part of the structure, the armored screen is fixed through a sealing gasket covering the collapsing part, made in the form of a niche formed by the planes of a regular quadrangular truncated pyramid with a rectangular base, and tighten it with springs, one end of which rests against the locking element ent, and the other in an armored shield, characterized in that in the upper part of the support rods of the explosion-proof plate a damping plate is fixed, designed to damp the shock loads of the panel against the abutment sheets, to which, opposite the panel, and in the direction of the shock wave, a buffer device is attached, made in the form of a cone, the apex of which is located on the axis of the aperture of the protected object, and the damping plate is made with an internal cavity, which is filled with a three-layer symmetric disperse system, while ntralny layer being a layer of three-dimensional body symmetry damping plate with an internal cavity and the surfaces equidistant surfaces of the panel, is made of vibration damping material and the adjoining air layers are filled with lead-dispersed system. 2. The method of explosion protection of industrial buildings according to claim 1, characterized in that the central layer of the damping plate is combined, consisting of three layers: the middle layer is made of hard vibration-damping material, for example of the type "Agate" or "Anti-vibration", and symmetrically located relative to him, the upper and lower layers are made of a continuous damping material in which sponge rubber is used, or needle-punched material of the type “Vibrosil” based on silica or aluminoborosilicate fiber, or not the first vibration-damping material. 3. The method of explosion protection of industrial buildings according to claim 1, characterized in that the sealing gasket covering the collapsing part, which is made in the form of a niche formed by the planes of a regular quadrangular truncated pyramid with a rectangular base, and pressed by springs, is made of vibration damping material, for example polyurethane. 4. The method of explosion protection of industrial buildings according to claim 1, characterized in that the buffer device, which is attached to the damping plate of the opposite panel, and in the direction of the shock wave, is made in the form of an elastic corrugated element, for example a bellows, the cavity of which is filled with a vibration-damping material, for example polyurethane .