RU2609486C1 - Kochetov safety structure for fencing buildings in case of emergency - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to protective devices used in hazardous and radioactive facilities, such as easily resettable panels and roofs, explosion-proof fencings and dampers, overpressure valves. In the safety structure for fencing the buildings in case of an emergency situation, containing reinforced concrete panels, each of which consists of the collapsing and the indestructible parts, while the indestructible part is made in the form of bearing ribs disposed along the collapsing part contour, and the collapsing part is made in the form of at least two coaxially located recesses in the wall of the building, one of which, the external one, is formed by planes of the regular quadrangular truncated pyramid with the rectangular base, and the other, the internal one, represents two inclined surfaces connected by an edge, with the formation of the groove, wherein the thickness of the wall from the edge to the outer surface of the building fence must be no less than d=20 mm, while at impact of the shock or explosive load this section of the wall can be divided into separate parts; at least three horizontal rods on which the armored screen fixed on the rods by locking elements is located, are attached to the bearing structure ribs placed along the contour of the orderly collapsing structure, and the orderly collapsing structure comprises the built-in emergency alert system, which is made in the form of the security indicator fixed between the flanges, one of which is rigidly fixed on the bearing ribs located around the contour of the orderly collapsing structure, and the other one is on the armoured screen, on the side of inclined surfaces connected by an edge, turned to the screen, and the armoured screen is fixed to the rods via the elastic elements by the locking elements, the flanges being connected by the element on which the security indicator is fixed, made in the form of a sensor responsive to the deformation, the output of which is connected to the signal amplifier, and the signal amplifier output is connected to the input of the emergency alert system device.

EFFECT: invention improves the security of personnel work in hazardous areas.

2 dwg

Description

The invention relates to protective devices used in explosive and radioactive objects, such as easily erasable panels and roofs, explosion-proof panels, explosion-proof fences that prevent the development of an emergency.

The closest technical solution to the claimed object is an explosion protection device according to the patent of the Russian Federation No. 2548427, class. EB04 1/92 (prototype), containing destructible and non-destructible parts. The nondestructive part is made in the form of bearing ribs (200 × 150 mm), placed along the contour of the ORC. The collapsing part is made in the form of at least two coaxially located niches (recesses in the wall of the building), one of which, the outer one, is formed by the planes of a regular quadrangular truncated pyramid with a rectangular base, and the other inner one is two inclined surfaces connected by an edge, with the formation of a groove, while the wall thickness from the rib to the outer surface of the building enclosure should be at least δ = 20 mm.

A technically achievable result is an increase in the reliability of personnel in explosive rooms.

This is achieved by the fact that in the safety structure for enclosing buildings in case of an emergency, there are reinforced concrete panels, each of which consists of a collapsing and non-collapsing parts, while the non-collapsing part is made in the form of load-bearing ribs placed along the contour of the collapsing part, and the collapsing part made in the form of at least two coaxially located recesses in the wall of the building, one of which, external, is formed by planes of regular quadrangular truncated ramids with a rectangular base, and the other, the inner one, is two inclined surfaces connected by a rib to form a groove, while the wall thickness from the rib to the outer surface of the building enclosure should be at least δ = 20 mm, while under the impact, explosive load this section of the wall can be divided into separate parts, at least three horizontal rods, on which the armored plate is located, are attached to the bearing ribs of the structure, placed along the contour of the organically collapsing structure The th screen, which is fixed on the rods by locking elements, and the structure that is collapsing in an organized manner, contains an integrated emergency warning system, which is made in the form of a safety indicator fixed between flanges, one of which is rigidly fixed to bearing ribs placed along the contour of the structure of collapsing structure, and the other is on the armored screen, on the side of inclined surfaces connected by an edge facing towards it, and the armored screen is fixed to the rods through the control other elements with locking elements, while the flanges are connected by an element on which a safety indicator is mounted, made in the form of a sensor that responds to deformation, the output of which is connected to a signal amplifier, and the output from the signal amplifier is connected to the input of the emergency warning system.

In FIG. 1 shows a diagram of an explosion-proof plate for protecting the roof of buildings in the event of an emergency inside the building, FIG. 2 is a diagram of a collapsing safety structure in side rails of buildings.

The explosion-proof plate (Fig. 1) consists of an armored metal frame 1 with armored metal sheathing 2 and a filler - lead 3. In the coating of the object at the aperture 8, four support rods 4 are mounted symmetrically with respect to the axis, telescopically inserted into the fixed support tubes 6, embedded in stove. To fix the limit position of the plate, stop plates 5 are welded to the ends of the support rods 4. In order to damp (soften) shock loads when the panel is returned, the filler is made in the form of a dispersed air-lead system, moreover, the lead is made in the form of crumbs, and the support rods 4 are resilient. The filler may be made in the form of spherical chips of one diameter; or in the form of spherical crumbs of different diameters. The filler can be made in the form of crumbs of arbitrary shape of different diametric (maximum external, arbitrary shape, contour of the crumb) size. To the stop sheets 5, on the side facing the metal frame 1 with the armored metal casing 2, additional elements 7 are attached, damping the effects of the shock wave. Additional elements 7 may be made of elastomer, for example polyurethane. Additional elements 7 can be made combined (not shown in the drawing), for example, elastic-damping in the form of an elastic element, for example, a spring filled with polyurethane.

Between the additional elements 7 and the metal frame 1 with the armored metal sheathing 2, on the support rods 4 there are bushings 9 made of quick-breaking material, for example, triplex glass.

Safety collapsing fencing design (Fig. 2) of phononless buildings (organized collapsing structure - ORK), in which there are no window openings, consists of reinforced concrete panels measuring 6000 × 1800 mm. For most gas-air mixtures (DHW), the maximum explosion pressure in a closed volume p _max at μ = 1 is 0.7 ÷ 1.0 MPa, i.e. 6 ÷ 9 times atmospheric pressure. Such pressure creates a load significantly exceeding the bearing capacity of structures (walls, floors) of industrial buildings. To do this, when developing a production project, openings are provided.

The safety structure for enclosing buildings in the event of an emergency consists of collapsing and non-collapsing parts. The nondestructive part 10 is made in the form of load-bearing ribs (200 × 150 mm), placed along the contour of the ORC. The collapsing part is made in the form of at least two coaxially located niches (recesses in the wall of the building), one of which, the outer one, is formed by planes 11, 12, 13, 14 with a regular quadrangular truncated pyramid with a rectangular base, and the other, the inner one, represents two inclined surfaces 15 and 16 connected by a rib 17, with the formation of a groove, while the wall thickness from the rib 17 to the outer surface of the building enclosure should be at least δ = 20 mm. Due to these grooves in the wall of the building, under the influence of shock, explosive load, this section of the wall can be divided into separate parts. The collapsing parts of the panel in the grooves are connected by fittings (not shown in the drawing) in such a way that the plates do not deform during transportation, installation and wind load. At least three horizontal rods 21 are attached to the supporting ribs 18, placed along the contour of the organically collapsing structure, on which an armored screen 20 is located, which is fixed to the rods by stop elements 19.

The collapsible safety structure of the fence is equipped with a built-in emergency warning system with a safety indicator, which consists of a “weak link” attachment point in the safety system of an explosive facility that responds to an emergency, and is designed as a safety indicator 26, mounted between flanges 23 and 24 , one of which is rigidly fixed on the supporting ribs 18, placed along the contour of an organically collapsing structure (flange 23), and the other (flange 24) - on the armor Wann the screen 20 by the inclined surfaces 15 and 16, connected by an edge 17 facing toward him. The armored screen 20 is fixed to the rods 21 through the elastic elements 22 by the locking elements 19 and serves to reflect fragments of the structure flying during the explosion. Flanges 23 and 24 are connected by an element 25, for example, a stud with nuts, on which a safety indicator 26 is mounted, made in the form of a sensor that responds to deformation, for example, a strain gauge (strain gauge), the output of which is connected to a signal amplifier, for example a strain gauge 27, and the output of the strain gauge 27 connected to the input of the emergency warning system device 28.

A built-in emergency warning system with a safety indicator works as follows.

The emergency response unit, made in the form of a safety indicator sensor 26, mounted on an element 25 connecting the flanges 23 and 24, for example, in the form of a stud with nuts, and on the stud there is a section of a smaller cross section, on which a strain gauge is fixed, which experiences a discontinuous the deformation and the signal from which is fed to the input of the amplifier 27, and the output from the amplifier 27 is connected to the input of the emergency warning device 28.

Safety design for fencing buildings in case of emergency works as follows.

The main scenarios leading to the ignition of combustible systems (HS) for compressed gases are depressurization of equipment with the formation of gas-air mixtures; for LVH - emergency liquid spill with formation of vapor-air mixtures; for dusts - dust accumulation on the surfaces of structures and equipment with the formation of dusty air mixtures.

In an explosion inside a production building (not shown in the drawing) by the action of a shock wave, the safety collapsing guard structure is first opened, equipped with a built-in emergency warning system, while its fragments hit the armored shield 20, which is pushed away from the supporting ribs 18 by the rods 21, placed along the contour of an organically collapsing structure, towards the elastic elements 22 located between the locking elements 19 and the armored screen 20, it works with Stem notification of the occurrence of an emergency situation arising due to deformations of the sensor the security indicator 26 mounted on the element 25, the connecting flanges 23 and 24.

If after this the excess pressure in the building continues to increase, then it is discharged through the open opening 8 due to the rise of the explosion-proof plate from the action of a more powerful shock wave. After the explosion and the drop in excess pressure, dropping down, the plate closes the opening 8 and harmful substances do not enter the atmosphere. To fix the limit position of the plate, abutment sheets 5. In order to damp (soften) shock loads when the plate is returned, the filler of the metal frame 1 is made in the form of a dispersed air-lead system, moreover, the lead is made in the form of crumbs, and the support rods 4 made elastic. In addition, the additional elements 7 have a damping effect of the shock wave, but first the plate overcomes the resistance of the sleeve 9 made of rapidly breaking material, for example, triplex glass.

Using the proposed technical solution allows the prevention of explosive objects from destruction and the reduction of harmful substances into the atmosphere during an accidental explosion.

Claims (1)

Safety structure for fencing buildings in case of emergency, containing reinforced concrete panels, each of which consists of a collapsing and non-collapsing parts, while the non-collapsing part is made in the form of load-bearing ribs placed along the contour of the collapsing part, and the collapsing part is made in the form of at least at least two coaxially located recesses in the wall of the building, one of which, the outer one, is formed by the planes of a regular quadrangular truncated pyramid with a rectangular novation, and the other, the inner one, is two inclined surfaces connected by an edge with the formation of a groove, while the wall thickness from the edge to the outer surface of the building enclosure should be at least δ = 20 mm, while under the influence of shock, explosive load this a wall section can be divided into separate parts, characterized in that at least three horizontal rods on which the armored screen is located are attached to the bearing ribs of the structure, placed along the contour of the organically collapsing structure wounds, which are fixed on the rods by stopping elements, and an organized collapsing structure contains a built-in emergency warning system, which is made in the form of a safety indicator fixed between the flanges, one of which is rigidly fixed to the supporting ribs placed along the contour of the organized collapsing structure, and the other - on the armored screen, from the side of inclined surfaces connected by an edge facing towards it, and the armored screen is fixed on the rods through elastic elements with locking elements, while the flanges are connected by an element on which a safety indicator is fixed, made in the form of a sensor that responds to deformation, the output of which is connected to a signal amplifier, and the output from the signal amplifier is connected to the input of the emergency warning system.

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