RU2552426C1 - Shock absorber for explosion-proof objects - Google Patents

Abstract

FIELD: blasting operations.SUBSTANCE: shock absorber for explosion-proof objects comprises a metal armoured frame with a metal armoured shell and the filler which is made in the form of a dispersion system air-lead. Lead is shaped in the form of crumb. The frame has fixed support tubes in the ends. In the coating of the explosive object three support rods are rigidly embedded with sheet-abutments in the upper part, which are telescopically inserted in the fixed support tubes in the metal armoured frame. In the upper part of the support rods the elastic-damping elements are fixed, one end of which is rigidly connected with its base to the sheet-abutments and the other is located freely. Each of the elastic-damping elements is fixed by screws on its base, designed in the form of a circular disc made of rigid vibration damping material such as Agate, on sheet-abutments rigidly connected to the rods. The base of the elastic-damping element is connected to the sleeve of elastomer, having a central hole through which the rod passes. The sleeve has three openings coaxial with the rod, in which the elastic elements are located, such as cylindrical coil springs, the upper end of which is connected by fasteners to the base, and the lower is in pressed condition and protrudes beyond the lower face of the sleeve. The movable plate rests against the lower ends of the elastic elements, which is pivotally connected with three elastic elements, e.g., compression springs, the second ends of which are pivotally connected to the friction sleeve covering the rod with tension.EFFECT: invention enables to improve reliability of actuation of explosion-proof devices in case of emergency explosion.2 dwg

Description

The invention relates to protective devices used in explosive and radioactive objects, such as easily erasable panels and roofs, explosion-proof fences and dampers, overpressure valves.

Known explosive valve [1] (Fig. 4 on page 45), consisting of a body, a lined cargo bolt, movably connected to the valve body through at least three flexible connections, in the form of chains, and blocking the hole in the body of the protected object.

Known explosion-proof valve for technological equipment [2, 3], consisting of a body, a lined cargo lock, movably connected to the valve body through at least three flexible connections, in the form of chains, a heat-insulating element and a sealing membrane. A safety device is attached to the valve body, which is fixed with its upper part on the hinge lever, and the lower one on the upper cylindrical part of the body, having a bursting element in the form of a wire.

A disadvantage of the known device is that the membrane is used to seal the valve, i.e. it is almost completely unloaded, and does not significantly affect the valve operating pressure, and the installation of an additional safety device complicates the design, making it less reliable.

Known explosion-proof device according to the patent of the Russian Federation No. 130657 [4], comprising a valve body, heat insulating and bursting elements, a lined cargo bolt, movably connected to the valve body through at least three flexible connections, for example, in the form of chains, one end of which is pivotally connected to the body valve, and the other is pivotally connected to the cargo bolt, while the valve body is made in the form of a lower cylindrical, middle conical and upper cylindrical parts, with a lined gr tight shutter.

A disadvantage of the known solution is the relatively low reliability due to the fact that flexible connections made in the form of chains work jerkily, with blows, since there is no damping system for the cargo bolt.

Known explosion-proof device according to the patent of the Russian Federation No. 131841, class. F16D 3/04 [5], comprising a valve body, heat insulating and discontinuous elements, a lined cargo gate, movably connected to the valve body by at least three flexible connections, while the lined cargo gate is made with a damping system mounted on horizontal jumper rods, and facing the cargo bolt, and each of the three damping devices is made in the form of a circular disk on which the base of the damping device made of a hard vibration damper is fixed by screws Agating type material, which is connected to an elastomer sleeve.

Its disadvantage is the relatively low efficiency of the damping system of the cargo shutter due to the use of rigid vibration damping materials.

Known explosion-proof collapsing structure of the fence of buildings according to the patent of the Russian Federation No. 131757, class. Е04В 1/92 [6], consisting of an armored metal frame with armored metal sheathing and a filler - lead. In the coating of the object near the opening, four support rods are fixed, telescopically inserted into the fixed support pipes, embedded in the panel. To fix the limit position of the panel, stop plates are welded to the ends of the support rods.

The disadvantage is the relatively low reliability due to the low efficiency of the damping system of the cargo gate.

The closest technical solution to the claimed object is a protective device for explosive objects in publ. RF application No. 2012135793, class. Е04В 1/92 [7], (prototype), containing a metal armored frame with armored metal casing and a filler, which is made in the form of a dispersed air-lead system, moreover, lead is made in the form of crumbs, and the frame has fixed ends at the ends- supports, and in the coating of an explosive object, at least three support rods with stop sheets in the upper part, which are telescopically inserted into fixed support pipes in a metal armored frame, in the upper part of the support rods behind elastic-damping elements are fixed, one end of which is rigidly connected with its base to the abutment sheets, and the other is freely located, each of the elastic-damping elements being fixed by screws with its base, made in the form of a circular disk of a hard vibration-damping material such as Agate, on the abutment sheets, rigidly connected to the rods, and the base of the elastic-damping element is connected to a sleeve of elastomer having a Central hole through which the rod passes, and the sleeve has, at the edge at least three holes, coaxial with the rod, in which elastic elements are located, for example, coil springs, the upper end of which is connected to the base by means of fasteners, and the lower end is in an unpressed state and protrudes beyond the lower plane of the sleeve by a distance determined by the force developed shockwave.

The disadvantage of the prototype is the relatively low reliability due to the low efficiency of the damping system of the explosion-proof panel.

A technically achievable result is an increase in the reliability of operation of explosion-proof devices during an emergency explosion at the facility and ensuring the return of these structures to their original position after the explosion.

This is achieved by the fact that in the shock absorber for explosion-proof objects containing a metal armored frame with armored metal cladding and a filler, which is made in the form of a dispersed air-lead system, moreover, the lead is made in the form of a crumb, and the frame has fixed ends-supports at the ends and at least three support rods with stop sheets in the upper part, which are telescopically inserted into fixed support pipes in a metal armor, are rigidly embedded in the cover of an explosive object In this case, in the upper part of the support rods are fixed elastic-damping elements, one end of which is rigidly connected by its base to the abutment sheets, and the other is freely located, each of the elastic-damping elements being fixed by screws with its base, made in the form of a circular disk made of hard vibration damping material Agate type, on the abutment sheets, rigidly connected to the rods, and the base of the elastic damping element is connected to the elastomer sleeve having a central hole through which The rod passes through the rod, and the sleeve has at least three holes coaxial with the rod, in which elastic elements are located, for example, coil springs, the upper end of which is connected to the base by means of fasteners, and the lower end is in an unpressed state and protrudes beyond the lower the sleeve plane at a distance determined by the force developed by the shock wave, and a movable plate abuts against at least three elastic elements against the lower ends of the elastic elements e ends of which are pivotally connected to the friction sleeve covering with interference rod.

In FIG. 1 is a diagram of a shock absorber for explosion-proof objects; FIG. 2 is a diagram of an elastic damping element.

The shock absorber for explosion-proof objects (Fig. 1) consists of an armored metal frame 1 with armored metal casing 2 and a filler - lead 3. The filler can be made in the form of spherical crumbs of one diameter; 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.

In the coating of the object 7 at the opening 8 symmetrically with respect to the axis 9, at least three support rods 4 are embedded, telescopically inserted into the fixed nozzles-supports 6, embedded in a metal frame 1. To fix the limit position of the panel, the sheets are welded to the ends of the support rods 4 - stops 5. 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, and the lead is made in the form of crumbs. In the upper part of the support rods 4, elastic-damping elements 10 are fixed, one end of which is rigidly connected with its base 11 to the stop sheets 5, and the other is freely located.

Each of the elastic-damping elements 10 (Fig. 2) is fixed by means of screws 12 with its base 11, made in the form of a circular disk of a hard vibration-damping material such as Agate, on the stop sheets 5, rigidly connected to the rods 4. The base 11 of the elastic-damping element is connected to the sleeve 13 from an elastomer having a central hole through which the rod 4 passes. The sleeve has at least three holes 14, coaxial with the rod 4, in which the elastic elements 15, for example, coil springs, are located s face through which the fixing elements 16 is connected to the base 11, and the bottom is in the (nepodzhatom) state and protrudes beyond the bottom plane of the sleeve 13 on the distance determined forces developed explosive shock wave.

A movable plate 17 abuts against at least three elastic elements, for example, compression springs 18, the second ends 19 of which are pivotally connected to a friction sleeve 20, covering the rod 4 with interference, abuts against the lower ends of the elastic elements 15.

The shock absorber for explosion-proof objects works as follows.

In an explosion inside an industrial building (not shown), the carcass 1 rises with the armored metal casing 2 and the filler from the action of the shock wave, and overpressure is released through the open opening 8.

In this case, the elastic damping elements 10 are compressed, absorbing the energy of the explosion, and then return the panel to its original state.

After the explosion and the drop in excess pressure, dropping down, the panel closes the opening 8 and harmful substances do not enter the atmosphere. To fix the limit position of the panel, stop plates 5 are used. In order to damp (soften) shock loads when the panel 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 a crumb, and the support rods 4 can be made elastic.

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

Information sources

1. Kochetov OS Calculation of explosion-proof devices. The journal "Labor safety in industry", No. 4, 2010, pp. 43-49.

2. Durnev R.A., Kochetov O.S., Ivanova O.Yu. Explosion-proof valve // RF patent for utility model No. 120736. Published on September 27th, 2012. Bulletin of inventions No. 27.

3. Durnev R.A., Kochetov O.S., Ivanova O.Yu. A bench for testing the collapsing structural elements of buildings and structures // RF patent for utility model No. 123104. Published on December 20, 2012. Bulletin of inventions No. 35.

4. Durnev R.A., Ivanova O.Yu., Kochetov O.S. Explosion-proof device with a bursting membrane // RF patent for utility model No. 130657. Published on July 27th, 2013. Bulletin of inventions No. 21.

5. Ayubov E.N., Omelchenko M.V., Kochetov O.S., Tarakanov A.Yu., Skubak N.Yu., Polyakov I.A. Explosion-proof valve // RF patent for utility model No. 131841. Published on August 27th, 2013. Bulletin of inventions No. 24.

6. Durnev R.A., Ivanova O.Yu., Kochetov O.S. Explosion-proof collapsing construction of a building enclosure // RF Patent for Utility Model No. 131757. Published on August 27th, 2013. Bulletin of inventions No. 24.

7. Durnev R.A., Ivanova O.Yu., Kochetov O.S. Protective device for explosive objects // Application for invention No. 2012135793. Published 02.27.2014. Bulletin of inventions No. 6.

Claims (1)

Shock absorber for explosion-proof objects containing a metal armored frame with armored metal cladding and a filler, which is made in the form of a dispersed air-lead system, the lead being made in the form of crumbs, and the frame has fixed ends-supports at the ends, and in the coating of an explosive object at least three support rods with stop sheets in the upper part, which are telescopically inserted into the fixed support pipes in a metal armored frame, are rigidly embedded the fact that elastic damping elements are fixed in the upper part of the support rods, one end of which is rigidly connected by its base to the abutment sheets, and the other is freely located, each of the elastic damping elements being fixed by screws with its base, made in the form of a circular disk made of hard vibration damping material Agate type, on the abutment sheets, rigidly connected to the rods, and the base of the elastic-damping element, connected to an elastomer sleeve having a central hole through which the rod goes around, and the sleeve has at least three holes coaxial with the rod, in which elastic elements are located, for example, coil springs, the upper end of which is connected to the base by means of fasteners, and the lower end is in an unpressed state and protrudes beyond the lower plane bushings, and a movable plate abuts against at least three elastic elements, for example, compression springs, the second ends of which are pivotally connected to the friction in the lower ends of the elastic elements a sleeve covering the interference rod.

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