RU141274U1 - STAND FOR MODELING AN EXTRAORDINARY SITUATION - Google Patents

Abstract

An emergency modeling stand containing a model of an explosive hazardous object mounted on racks with an explosion initiator installed in it, a protective cover and a pallet, while the cover with a pallet is a single closed structure formed around a model of an explosive object placed in a test box, This model is equipped with transport and suspension systems, and the protective cover is multilayer and consists of an aluminum layer facing inward to the model, as well as rubber and percale layers, characterized in that the model of the explosive object is equipped with the object studied on the stand: an explosion-proof element installed above the hole in the upper part of the layout, which consists of an armored metal frame with armored metal cladding and filler - lead, and in the upper part of the layout, at the hole, symmetrically with respect to its axis, four support rods are fixed, telescopically inserted into fixed support pipes, embedded in the panel of the explosion-proof element, and for fixing the limiting floor The panels are welded to the ends of the support rods.

Description

The utility model relates to safety systems that prevent the development of an emergency.

The closest technical solution to the claimed object is an emergency safety device according to the patent of the Russian Federation No. 120569 A62C 35/00, dated March 20, 12 (prototype), containing a system of elements installed in the danger zone of the protected object, which must be transferred from the usual emergency operation as a result of the danger of an emergency.

A disadvantage of the known solution is the relatively low information content for the control system for deciding on the introduction of an emergency mode of operation of the system and the inability to predict the development of an emergency.

A technically achievable result is an increase in the efficiency of protecting technological equipment and human resources from emergency situations by the ability to predict the development of an emergency in an accident at an explosive facility.

This is achieved by the fact that in the emergency simulator, which contains a model of an explosive hazardous object mounted on racks, with an explosion initiator installed in it, a protective cover and a pallet, while the cover with a pallet is a single closed structure formed around a model of an explosive object placed in a test box, while the layout is equipped with transport and suspension systems, and the protective cover is multilayer and consists of an aluminum layer facing inward to the layout, and e rubber and percale layers, the model of an explosive object is equipped with an object studied on the stand: an explosion-proof element installed above the hole in the upper part of the model, which consists of an armored metal frame with armored metal casing and lead filler, and in the upper part of the model, at the hole, symmetrically with respect to its axis, four support rods are fixed, telescopically inserted into fixed support pipes, embedded in the panel of the explosion-proof element, and for fixing the maximum on the position of the panel, stop plates are welded to the ends of the support rods.

Figure 1 shows a schematic diagram of a stand for modeling an emergency in an accident at an explosive facility, figure 2 - presents a diagram of an explosion-proof element.

The stand for modeling an emergency in an accident at an explosive facility contains a model 1 of an explosive hazardous facility mounted on racks 2, with an explosion initiator 3 installed in it, a protective cover 4 and a pallet 5, while the cover with a pallet is a single closed structure formed around layout 1 explosive facility located in the test box 6. In addition, the layout 1 is equipped with a transport 7 and suspension 8 systems, and the protective cover 4 is made of a multilayer and consisting of facing al to the layout 1 the yuminium layer, then the rubber and percale layers. The suspension system 8 consists of a set of brackets and extensions placed on a protective cover, as well as the required number of anchor hooks (loops) in the ceiling, walls and floor of the test box 6. The transport system 7 is designed to remove the broken layout 1 after testing from the test box 6 with protective cover 4.

The model 1 of an explosive object is equipped with an object studied at the stand: an explosion-proof element 9 (Fig. 2) installed above the hole 10 in the upper part of the model. Explosion-proof element 9 consists of an armored metal frame 11 with armored metal casing 12 and a filler - lead. In the upper part of the layout 1, at the hole 10, four support rods 13, telescopically inserted into the fixed nozzle supports 14, embedded in the panels of the explosion-proof element 9, are sealed symmetrically relative to its axis. For fixing the limit position of the panel, sheets are welded to the ends of the support rods 13 - stops 15. In order to dampen (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 13 can be made elastic E.

Outside of the support rods 13 are resiliently damping elements 16, one end of which abuts against an armored metal sheathing 12, and the other in the abutment sheets 15 located in the upper part of the support rods 13.

Elastic-damping elements 16 can be made in the form of cylindrical coil springs, the external helical surface of which is covered with vibration damping mastic, for example, type VD-17.

The filler may be made in the form of spherical chips 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.

Stand for modeling emergency works as follows.

In the test box 8 set the layout 1 of an explosive object. In the upper (ceiling) part of the layout 1, a hole 10 (aperture) is made, which is closed by an explosion-proof element 9 installed in a loose fit on three elastic pins 13, one end, each of which is rigidly fixed in the ceiling of the layout 1, and the horizontal is fixed on the second the crossbar in the form of stop sheets 15. After the initiator of the explosion 3 is triggered, the situation is analyzed, and after processing the obtained experimental data, an information database is formed on the development of the emergency in an accident at an explosive facility, were lent by the mathematical model, the predictive emergency prevention at the hazardous facility accident.

Explosion-proof element 9 operates as follows.

When an explosion occurs inside the layout 1, the panel of the explosion-proof element 9 rises from the action of the shock wave and overpressure is released through the open opening 10.

In this case, the elastic damping elements 16 are compressed, absorbing the energy of the explosion, and then return the panel 9 to its original state.

The outer screw surface of the elastic damping elements 16 is covered with vibration damping mastic, for example, type VD-17, which additionally contributes to the damping of the blast wave.

After the explosion and the drop in excess pressure, dropping down, the panel closes the opening 10 and harmful substances do not enter the atmosphere. To fix the limit position of the panel, stop sheets 15 are used. In order to damp (soften) shock loads when the panel is returned, the filler of the metal frame 11 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 13 can be made elastic.

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)

An emergency modeling stand containing a model of an explosive hazardous object mounted on racks with an explosion initiator installed in it, a protective cover and a pallet, while the cover with a pallet is a single closed structure formed around a model of an explosive object placed in a test box, This model is equipped with transport and suspension systems, and the protective cover is multilayer and consists of an aluminum layer facing inward to the model, as well as rubber and percale layers, characterized in that the model of the explosive object is equipped with the object studied on the stand: an explosion-proof element installed above the hole in the upper part of the layout, which consists of an armored metal frame with armored metal cladding and filler - lead, and in the upper part of the layout, at the hole, symmetrically with respect to its axis, four support rods are fixed, telescopically inserted into fixed support pipes, embedded in the panel of the explosion-proof element, and for fixing the limiting floor The panels are welded to the ends of the support rods.

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