RU2648091C1 - Explosion-proof structure damping system - Google Patents

Abstract

FIELD: methods of explosion protection.

SUBSTANCE: invention relates to protective devices used in explosive facilities, such as easy detachable panels and roofs, blast guards. Explosion-proof structure damping system, containing at least three horizontally located rods, by the ends of which disks are fixed, which pass through the holes in the structure protective screen, wherein the disks located on the right side of the rods, are embedded into the building enclosures, and to the disks located on the left side of the rods disposable shock absorbers with collapsible elements are attached. Between the shock absorbers and the protective screen there elastic elements are located pressing the protective screen against the building enclosure through an elastomeric, for example, polyurethane, sealing layer, wherein each of the system shock absorbers is made disposable with collapsible elements made in the form of a placed on the rod bushing, wherein to the disks located on the left side of the rods the shock absorbers damping base is attached by screws, to which a collapsible disposable element bushing is coaxially attached to the rod by screws by means of a flange, made of a brittle quick-collapsible material, for example, porcelain or "triplex" glass, which strength is designed for a certain overpressure in the building enclosure, and the shock absorber resilient part is made in the form of at least three leaf springs placed between the left disk and the bushing-type clamping element with an internal thread cooperating with the threaded section on the rod, at that, on the side facing the left disc the clamping element is provided with grooves for fixing one of the springs ends, at that, the second end of each spring is secured to the left disk by means of hinges, and the springs are arranged with a slope of about 15÷45° in the direction of the collapsible disposable element, at that, on the collapsible disposable element bushing side surface the safety indicator in the form of a resistance strain gage is fixed, signal from which is sent to the strain amplifier via the communication line, and from the strain amplifier is to the emergency operation mode warning system unit.

EFFECT: higher reliability of collapsible explosion-proof devices during emergency explosion at site.

1 cl, 3 dwg

Description

The invention relates to protective devices used in explosive objects, such as easily erasable panels and roofs, explosion-proof fencing.

The closest technical solution to the claimed object is the depreciation of the explosion-proof design according to the patent of the Russian Federation No. 2522841, Cl. Е04В 1/92, (prototype), containing reinforced concrete panels consisting of 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.

A technically achievable result is an increase in the reliability of the operation of collapsing explosion-proof devices during an emergency explosion at the facility.

This is achieved by the fact that in the shock-absorbing system of the explosion-proof structure each of the shock absorbers of the system is made of a one-time action with collapsing elements made in the form of a sleeve, contains a rod, disks are rigidly fixed to both ends: left and right, while the right disks are walled up in the building enclosure, and the damping base of the shock absorbers is attached to the left disks by screws, to which the collar of the collapsing element of a one-time action is fixed by screws through the flange made of brittle, rapidly decaying material, such as porcelain, or triplex glass, and the elastic part of the shock absorber is made in the form of at least three leaf springs placed between the left disk and the clamping element of the sleeve type with an internal thread interacting with the threaded section on the rod, on the clamping element, from the side facing the left disk, grooves are made for fixing one of the ends of the springs, while the second end of each spring is hinged to the left disk, and the springs positioned with an inclination of the order of 15 ÷ 45 ° in the direction of the collapsing element of a single action.

In FIG. 1 is a general diagram of an explosion proof collapsing structure; FIG. 2 is a diagram of an arrangement of a protective screen; FIG. 3 is a diagram of a shock absorber of a shock-absorbing system of an explosion-proof structure.

The depreciation system of the explosion-proof structure for the enclosure (Fig. 1) of non-phonon buildings in which there are no window openings consists of reinforced concrete panels 1 with a size of 6000 × 1800 mm. Each panel consists of collapsing and non-collapsing parts. The non-destructible part is made in the form of load-bearing fencing ribs 9 of the building (200 × 150 mm) placed along the contour, and the non-destructible 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 2 , 3, 4, 5 with a regular quadrangular truncated pyramid with a rectangular base, and the other, the inner one, is two inclined surfaces 6 and 7, connected by a rib 8 to form a groove, while the wall thickness from rib 8 to the outer surface of the building enclosure It should be less than 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.

Opposite the collapsing part, on the outside of the building’s enclosure, there is a protective shield 10 (Fig. 2) made of high-strength material, such as armored material, which is fixed to at least three horizontally located and perpendicular to the building’s enclosure rods 11, at the ends of which are fixed disks 12 and 13, and which pass through holes 14 made in the protective shield, the disks 13 located on the right side of the rods being walled up in the enclosures 9 of the building, and to the disks 12 located on the left side of the rod 11, attached shock absorbers 15 single-use with collapsing elements. Between the shock absorbers 15 and the protective screen 10, elastic elements 27 are located, supporting the protective screen 10 to the fencing 9 of the building through the sealing layer 26 of an elastomer, for example polyurethane.

The recesses in the wall of the building (niche), one of which, the outer one, is formed by planes 2, 3, 4, 5 of a regular quadrangular truncated pyramid with a rectangular base, and the other, the inner one, is two inclined surfaces 6 and 7, connected by an edge 8, are filled heat and sound absorbing material 16 and closed with a decorative panel 17 that easily collapses during an explosion.

Each of the shock absorbers 15 of the damping system of the explosion-proof structure is made of a one-time action with collapsing elements 19 made in the form of a sleeve (Fig. 3), contains a rod 11, to the both ends of which the disks are rigidly fixed: left 12 and right 13, while the right disks 13 are walled in the enclosure 9 of the building, and the damping base 18 of the shock absorbers 15 is attached to the left disks 12 by screws 22. The collapsing element 19 of the disposable element 19 is attached by means of a flange 20 with screws 21 to the damping base 18 by a flange 20 Corollary made of a brittle material-decomposing example porcelain, or "triplex" glass. The elastic part of the shock absorber 15 is made in the form of at least three leaf springs 23 located between the left disks 12 and the clamping element 24 of the sleeve type with internal thread interacting with the threaded section on the rod 11. On the clamping element 24 from the side facing the left the disk 12, grooves are made for fixing one of the ends of the springs 23, while the second end of each spring 23 by means of hinges 25 is mounted on the left disk 12, and the springs are inclined about 15 ÷ 45 ° towards the collapsing element 19 of the disposable action.

The shock absorption system of the explosion-proof design works as follows.

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. Permissible pressure in the room (Δp _add = 5 kPa). The safety structures are opened at a relatively small overpressure and thereby provide the possibility of intensive outflow of gas (combustion products and unreacted parts of the hot water supply) through the formed openings from the room to the outside atmosphere.

The one-time shock absorber of the explosion-proof damping system is made with collapsing elements (Fig. 3) and works as follows.

From the action of the shock wave, the protective screen 10, moving to the left of the guard 9, begins to compress the elastic elements 27, supporting the protective shield 10 to the guard 9. With the further movement of the protective shield 10, it destroys the sleeve of the damper 15, which is destroyed by the elements, made of brittle, rapidly decaying material , for example, porcelain, and also compresses the elastic part of the disposable shock absorber 15, made in the form of at least three leaf springs 23, while the option of releasing the ends of the springs 23 from the ditch is allowed to the clamping element 24. In the case of a large (more than 5 kPa) pressure of the blast wave, either the welding joint that secures the rod 11 to the disk 12 is cut off, or the rod 11 is jammed and ruptured, which also helps to reduce the damage to the building.

It is possible that a damping base 18 (Fig. 3), coaxially attached to the rod 11, is fastened by means of a flange 20 with screws 21 a sleeve of a collapsing element 19 of a one-time action, made of brittle rapidly decaying material, such as porcelain, or triplex glass, the strength of which is calculated for a certain excess pressure in the enclosure 9 of the building, while on the side surface of the sleeve of the collapsing element 19 of a one-time action, a safety indicator is fixed in the form of a strain gauge (not shown), a signal from the cat Orogo via the communication line is sent to the strain gauge, and from the strain gauge to the emergency warning system unit.

Claims (1)

An explosion-proof structure damping system comprising at least three horizontally spaced rods, at the ends of which there are fixed disks that pass through holes in the protective screen of the structure, and disks located on the right side of the rods are walled into the enclosures of the building, and to the disks located on the left sides of the rods, disposable shock absorbers with collapsing elements are attached, characterized in that between the shock absorbers and the protective screen there are elastic elements supporting a shield screen to the building enclosure through a sealing layer of elastomer, for example polyurethane, each of the shock absorbers of the system being made of one-time action with collapsing elements made in the form of a sleeve placed on the rod, and the damping base of the shock absorbers is attached to the disks located on the left side of the rods to which, coaxially to the shaft, screws are fastened by means of a flange a sleeve of a collapsing element of a one-time action, made of a brittle quick-breaking I am a material, such as porcelain, or triplex glass, the strength of which is designed for a certain excess pressure in the building enclosure, and the elastic part of the shock absorber is made in the form of at least three leaf springs placed between the left disk and the clamping element of the sleeve type with internal thread, interacting with the threaded section on the rod, while on the clamping element from the side facing the left disk, grooves are made for fixing one of the ends of the springs, while the second end of each spring by means of nirov is mounted on the left disk, and the springs are inclined on the order of 15 ÷ 45 ° towards the collapsing element of the one-time action, while on the side surface of the sleeve of the collapsing element of the one-time action, a safety indicator is fixed in the form of a strain gauge, the signal from which is sent to the strain gauge through the communication line, and from the strain gauge - to the emergency warning system unit.

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