RU2582133C1 - Vehicle-process explosion-proof container - Google Patents

Abstract

FIELD: blasting.

SUBSTANCE: invention relates to storage and transportation of explosive substances (ES) and explosive, flammable liquid cargo. Proposed explosion-proof container includes vessel in form of metal tank with filling and emptying. Vessel is made in form of vertical cylindrical housing with elliptical cover and conical bottom, protective basket of pipes, wherein vessel is made of aluminium with yield point of not more than 155 MPa. Ratio of wall thickness to inner diameter of cylindrical part makes 0.003…0.004, and bottom taper angle is approximately 90°. Protective basket attachment points are located on cylindrical housing. Explosion-proof device is provided with safety indicator on breaking element mounted in hatch of container elliptical cover and comprises valve body, heat-insulating and disruptive elements, lined load gate covering hole in body of protected object. In upper cylindrical part of valve body there is heat-insulating element and sealing membrane pressed to valve body by cover articulated with lever interacting with baffle plate, and attachment point of breaking element is fixed with its upper part on lever, and lower part on upper cylindrical part of valve body. Breaking element consists of wire, locking bolt, fork, valve cover lever, nuts, two drums, located respectively in fork of valve cover plate lever and in upper cylindrical part of valve body. Wire ends are inserted into holes of drums and then, wound on them. Gap h between forks is about (1.5÷3) of wire diameter, and parameters of valve are within following optimum intervals of values: c = H/Dy = 2.5÷3.0, where Dy is diameter of upper cylindrical part of valve body, equal to maximum size of holes of housing of protected object; H is height of valve assembly. On wire of breaking safety indicator element is fixed in form of sensor responding to deformation, for example resistive strain gauge, output of which is connected with signal amplifier, for example strain-amplifier, and output of strain-amplifier is connected to input device warning on emergency situation. Wire breaking element, on which there is safety indicator sensor is made elastic and has several turns in part connected with safety indicator sensor.

EFFECT: invention allows improving explosion safety of container.

1 cl, 3 dwg

Description

The invention relates to the field of storage and transportation of explosives (BB) and explosive, flammable liquid cargo.

Known container for transporting, storing and mixing explosives. It is made in the form of a rigid rectangular metal case made of stainless steel, on top of which there is a loading hatch, and on the side there is a discharge opening with a hermetically sealed lid. The side and rear walls of the container have safety elements (membranes). The total surface of polypropylene membranes is up to 40% of the entire surface of the apparatus (RF patent No. 2327622 - prototype).

A disadvantage of the known container is that it cannot be used for transportation and storage of explosive liquid cargo, because the safety elements do not have a safety indicator to prevent an emergency explosive situation.

A technically achievable result is an increase in the explosion safety of the container during transportation and storage of explosive, flammable liquid cargoes, as well as explosives.

This is achieved by the fact that in a transport and technological explosion-proof container that includes a container in the form of a metal vessel with filling and emptying units, the vessel is made in the form of a vertical cylindrical body with an elliptical cover and a conical bottom, a protective basket of pipes, while the container is made of aluminum with a yield strength of not more than 155 MPa, while the ratio of the wall thickness of the tank to the inner diameter of the cylindrical part is 0.003 ... 0.004, and the angle of the bottom cone is about 90 °, and The enclosures of the protective basket are located on a cylindrical body, an explosion-proof device with a safety indicator on the bursting element is also provided, mounted in the hatch of the elliptical container lid and containing a valve body, heat-insulating and bursting elements, a lined cargo bolt covering the hole in the body of the protected object, and in the upper cylindrical part of the valve body there is a heat-insulating element and a sealing membrane pressed to the valve body by means of a cover pivotally connected to a lever interacting with the chipper, and the fastening element of the discontinuous element is fastened with its upper part to the lever and the lower to the upper cylindrical part of the valve body, and the discontinuous element consists of a wire, a locking bolt, a plug, a valve cover lever, a nut, two drums located respectively in the fork of the lever of the valve cover and in the fork of the upper cylindrical part of the valve body, while the ends of the wire are inserted into the holes of the drums and then wound on them, and the gap h between the forks with sets about (1.5 ÷ 3) of the wire diameter, and the valve parameters are in the following optimal ranges of values: c = H / Dy = 2.5 ÷ 3.0, where Dy is the diameter of the upper cylindrical part of the valve body equal to the maximum size openings of the enclosure of the protected object; H is the height of the valve assembly, while a safety indicator is fixed on the wire of the discontinuous element in the form of a sensor that responds to deformation, for example, a strain gauge, the output of which is connected to a signal amplifier, for example a strain gauge, and the output of the strain gauge is connected to the input of the emergency warning device, and the wire of the bursting element, on which the sensor of the safety indicator is fixed, is made elastic and has several turns in the part connected to the sensor of the safety indicator.

Transport and technological explosion-proof container (Fig. 1) consists of a tank 1 in the form of a vertical cylindrical vessel with a conical bottom 2 having an angle at the apex of 90 °, and an elliptical cover 3, hatch 4, basket (frame) 5 and unloading device 6. Capacity container - welded and made of aluminum with a yield strength of not more than 155 MPa. Basket 5 is a supporting and protective. It has vertical struts 9 with elastic supports 10 and the rings 8 of pipes connecting them. Vertical racks are mounted on the cylindrical body of a vertical vessel. For operations of loading and unloading the tank 1 on the elliptical cover 3 with a hatch 4, transportation elements 7 are fixed, for example, in the form of eye bolts.

After loading the liquid explosives, the hatch 4 closes, the container is sealed and loaded into the vehicle. After delivery to the place of unloading, the container is emptied, washed and sent for further use. During transportation, as well as in other technological operations, an unauthorized situation (for example, a fire or even an explosion) may occur inside the container, accompanied by an increase in pressure and a possible transition of combustion to detonation. In this case, an emergency depressurization of the container occurs by the breakdown (destruction) of the elliptical lid, since it is the least durable element in the container structure - the cylindrical and conical parts of the container due to their shape and the presence of container nodes adjacent to them have greater rigidity and strength.

The container is additionally equipped with an explosion-proof device with a safety indicator on the bursting element mounted in the hatch 4 of the elliptical cover 3 of the container. In this case, the pressure wave goes up, and not sideways, as in the prototype, and does not cause much damage to the enclosing structures. Thus, the discharge zone is localized above the container, thereby reducing the spatter of the liquid explosive on the sides. Depressurization and pressure drop impede the transition of combustion to detonation (explosion). The ellipse of the lid and the taper of the bottom with an angle of about 90 ° contribute to the formation of an upward wave, and the design of the container made of relatively soft aluminum with a yield strength of not more than 155 MPa smooths out pressure drops inside the vessel. When the ratio of the thickness of the walls of the tank to the inner diameter of the cylindrical part is less than 0.003, the capacity is not strong enough, the fracture zone is unpredictable, and if the ratio is more than 0.004, the design of the tank in terms of strength characteristics is technically and economically redundant. The use of a container of precisely this form and design is most appropriate for liquid explosives, especially those containing aluminum.

The presence of a protective basket increases the safety of the container in handling operations.

An explosion-proof device with a safety indicator on the bursting element is installed in the hatch body 4 of the elliptical cover 3 of the container (Fig. 2) and contains a lined cargo lock made in two layers: a layer of lining 20 covering the hole with a diameter of Dy in the body 11 of the protected object, and bulk cargo layer 12 in the form of crushed stone, gravel or sand. The valve body 13 is made in the form of a lower conical and upper cylindrical part, in which a heat-insulating element 14 and a sealing membrane 15 are placed, pressed to the valve body by means of a cover 6, pivotally connected to a lever 18 interacting with the chipper 17.

The node 19 of the fastening of the discontinuous element (Fig. 3) in the form of a wire is fixed with its upper part to the lever 18, and the lower one to the upper cylindrical part of the valve body 13. The fastener for the breaking element consists of a wire 26, a locking bolt 21, a plug 22, a valve cover lever 23, a nut 24, and two drums 25 located respectively in a fork 22 of the valve cover lever 23 and in a fork of the upper cylindrical part of the valve body 13. The ends of the wire 26 are inserted into the holes of the drums 25 and then wound on them when they are rotated with a conventional wrench. After sufficient wire tension, the drums 25 are fixed with locking bolts 21.

On the wire 26, in its middle (not shown in the drawing, i.e., as in the prototype), free of fasteners part, a security indicator 27 is fixed in the form of a sensor that responds to deformation, for example, a strain gauge (strain gauge), the output of which is connected to an amplifier a signal, for example, with a strain gauge 28, and the output of a strain gauge 28 is connected to the input of an emergency alert device 29.

A possible embodiment of the wire (Fig. 3) of the discontinuous element, on which the sensor of the safety indicator is fixed, is elastic and has several turns in the part connected to the sensor of the safety indicator.

It is important to note that the valve operating pressure depends only on the strength of the wire 26 and does not depend on its tension. So that valve actuation is not preceded by large plastic deformations of the wire, its length and, consequently, the clearance h should be minimal. The gap h should be of the order of (1.5 ÷ 3) d, where d is the diameter of the wire. So that the fastening of the ends of the wire is reliable and does not allow them to be pulled out of the holes in the drum, at least three turns must be wound on it. The hinged lid 16 through the lever 18 is held in a closed position with a bursting element 19, the role of which is performed by a calibrated section wire. To completely seal the valve, a membrane 15 of aluminum foil or of polymeric material is used. Under the action of pressure in the protected apparatus, the membrane is pressed against the cover and thus through the lever 18 all the pressure is transferred to the lever hinge and the bursting wire 19. The membrane itself is almost completely unloaded and the valve operating pressure (wire break 19) has a significant effect does not render. In this sense, the membrane is not a design element of the explosive valve design.

If processes take place in the protected tank at high temperatures, then two levels of thermal insulation are provided for thermal protection of the membrane 15 and other valve parts. The first of them is a cargo lock 12, lined with refractory material, and the second is mineral wool, asbestos chips or other heat-resistant porous material 14, laid in a basket of metal rods or strips. To obtain the highest explosion protection efficiency of production equipment, the explosion protection valve has parameters that are in the following optimal ranges of values: c = H / Dy = 2.5 ÷ 3.0,

where Dy is the diameter of the upper cylindrical part of the valve body equal to the maximum size of the hole of the body 1 of the protected object; H is the height of the valve assembly.

Explosion-proof device with a safety indicator on the bursting element operates as follows.

The pressure in the tank to be protected acts on the lid 16, since the shutter 12 closes the inlet opening leakingly and with a rapid increase in pressure, it can rise and the insulating layer 14 is porous.

When the valve is activated, the cover 16 is thrown as far as it will go into the chippers 17, the backfill 1 2 and the heat-insulating element 14 are ejected from the valve cavity by a gas flow. When this occurs, the safety indicator 27 in the form of a sensor that responds to the deformation of the gap, for example a strain gauge, the signal from which is fed to the signal amplifier 28, and then to the warning device 29 about the emergency.

In the case when the pressure increase in the object is insignificant, the cover 16 is still lifted, but without the ejection of a backfill 12 and a heat-insulating element 14, i.e. if a pre-emergency situation occurs, the safety indicator 27 is activated and the warning device 29 signals maintenance personnel about the violation of the process and the need to take measures to prevent the accident.

After the end of the gas discharge, the shutter and cover fall down and close the valve outlet. In this case, the valve tightness is not completely restored, however, an intensive intake of air from the atmosphere into the cavity of the protected device, which can cause a secondary explosion in the equipment, is eliminated.

After the valve is activated and the causes of the explosion in the equipment are eliminated, the valve must be restored, i.e. it is necessary to lay the insulating layer in the basket.

Claims (1)

Transport and technological explosion-proof container, which includes a container in the form of a metal vessel with filling and emptying units, the vessel is made in the form of a vertical cylindrical body with an elliptical cover and a conical bottom, a protective basket of pipes, while the container is made of aluminum with a yield strength of not more 155 MPa, while the ratio of the vessel wall thickness to the inner diameter of the cylindrical part is 0.003 ... 0.004, and the angle of the bottom cone is about 90 °, and the mounting points of the protective basket are p They are located on a cylindrical body, characterized in that it is additionally equipped with an explosion-proof device with a safety indicator on the bursting element mounted in the hatch of the elliptical container lid and containing a valve body, heat-insulating and bursting elements, a lined cargo bolt covering the hole in the body of the protected object, and the upper cylindrical part of the valve body is a heat-insulating element and a sealing membrane pressed to the valve body by means of a cover, a hinge connected to the lever interacting with the chipper, and the fastener for the bursting element is fastened with its upper part on the lever, and the lower one - on the upper cylindrical part of the valve body, and the bursting element consists of a wire, a locking bolt, a plug, a valve cover lever, a nut, two drums located respectively in the fork of the lever of the valve cover and in the fork of the upper cylindrical part of the valve body, while the ends of the wire are inserted into the holes of the drums and then wound on them, and the gap h between the forks is order (1.5 ÷ 3) of the wire diameter, and the valve parameters are in the following optimal ranges of values: c = H / Dy = 2.5 ÷ 3.0, where Dy is the diameter of the upper cylindrical part of the valve body equal to the maximum hole size enclosures of the protected object; H is the height of the valve assembly, while a safety indicator is fixed on the wire of the discontinuous element in the form of a sensor that responds to deformation, for example, a strain gauge, the output of which is connected to a signal amplifier, for example a strain gauge, and the output of the strain gauge is connected to the input of the emergency warning device, and the wire of the bursting element, on which the sensor of the safety indicator is fixed, is made elastic and has several turns in the part connected to the sensor of the safety indicator.

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