RU2646079C1 - Method for security assurance of explosive objects - Google Patents

Abstract

FIELD: protective devices.

SUBSTANCE: invention relates to protective devices used in explosive and radioactive facilities, such as easy detachable panels and roofs, blast guards and shields, excess pressure valves. Method of ensuring the safety of explosive objects is that over opening of protected object a protective device is installed in the form of anti-explosion panel consisting of armored metal frame with armored metal lining and filler-lead. At the same time, in the cover of the protected object, symmetrically in relation to the axis of the opening, rigidly fix at least three pivotally-screwed combined rods telescopically inserted into fixed pipe-supports rigidly embedded in the metal frame of the anti-explosion panel, each of hinged-screw combination rods consists of smooth and screw part, smooth part of rods is being limited by the stopping sheets in the upper part and the movable stops in the middle part which are connected to the resilient damping elements, and the lower screw portion of rods is disposed in the fixed nozzles-supports, in which equidistant and congruent helical surfaces are performed with the same parameters as for screw part of the hinged-screw combination rods, wherein articulated-pin combination rods are bounded at both ends by upper and lower hinge elements. Lower hinge elements are disposed in the coating of the object to be protected and connected to the guide supports of the rods, and the upper hinge elements are connected to the ends of the smooth part of the rods and to the stopping sheets, which in turn are connected to each other via resilient damping elements, each of the resiliently damping elements is rigidly connected to the coating of the object to be protected by means of stretch marks, one end of which is rigidly connected to the middle of the elastic-damping elements, and the other is tightly embedded in the coating of the protected object.

EFFECT: higher reliability of explosion-resistant device operation during emergency explosion at the facility, and ensured return of these device to the original position after explosion.

1 cl, 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.

The closest technical solution to the claimed object is a protective device for explosive objects according to the patent of the Russian Federation No. 2334063, Cl. EB04 1/92, B.I. No. 28 dated 09/20/2008 (prototype), consisting of an armored metal frame with armored metal casing 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.

A technically achievable result is an increase in the reliability of operation of the protective device 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 method of ensuring the safety of explosive objects, namely, that over an open opening of the protected object, a protective device is installed in the form of an anti-explosion panel consisting of an armored metal frame with armored metal sheathing and lead filler, in the coating of the protected object, at its aperture, symmetrically relative to the axis of the aperture, at least three pivotally-screw combined rods are telescopically inserted into fixed support tubes rigidly sealed in the metal frame of the explosion-proof panel, wherein each of the hinged-screw combined rods consists of smooth and screw parts, and the smooth part of the rods is limited by stop plates in the upper part and movable stops in the middle part, which are connected to the elastic-damping elements, and the lower, screw part, rods are placed in fixed branch pipes-supports, in which equidistant and congruent screw surfaces with the same parameters as the screw clock are made ty of hinge-screw combined rods, while the hinge-screw combined rods are limited at both ends by upper and lower hinge elements, while the lower hinge elements are placed in the coating of the protected object and connected to the guide bearings of the rods, and the upper hinge elements are connected to the ends of the smooth part rods and with stop plates, which in turn are interconnected via elastically damping elements, while each of the elastically damping elements is rigidly connected to the coating the protected object by means of extensions, one end of which is rigidly connected to the middle of the elastically damping elements, and the other is tightly walled up in the coating of the protected object.

In FIG. 1 shows a diagram of a device for ensuring the safety of explosive objects, FIG. 2 is a diagram of the strapping of the support rods of the anti-explosive panel by elastic damping elements.

A device for implementing the method of ensuring the safety of explosive objects (Fig. 1) is made in the form of an anti-explosion panel, which consists of an armored metal frame 1 with armored metal casing 2 and a filler - lead 3. In the coating of the protected object 7, its opening 8 is symmetrical with axes 9 of the aperture, at least three pivotally-screw combined rods 4 are rigidly fixed, telescopically inserted into fixed nozzles-supports 6, rigidly embedded in the metal frame 1 implicit panel.

Each of the hinged-screw combined rods 4 consists of a smooth and screw parts, and the smooth part of the rods is limited by the stop sheets 5 in the upper part and the movable stops 15 in the middle part connected to the elastic damping elements 10, and the lower, screw part of the rods is located in fixed nozzles-bearings 6, in which the equidistant and congruent helical surfaces are made with the same parameters as the screw part of the joint-screw combined rods 4.

The hinged-screw combined rods 4 are bounded at both ends by the upper 16 and lower 14 hinge elements, while the lower hinge elements 14 are located in the coating of the protected object 7 and are connected to the guide supports 19 of the rods 4, and the upper 16 hinge elements connect the ends of the smooth part of the rods 4 with abutment sheets 5, which in turn are tied (connected) to each other through elastic damping elements (Fig. 2), for example 11, 12, 13, in the case of three rods 4, each of the elastic damping elements 11, 12, 13of a tight covering 7 are connected to the object to be protected by means of extensions 21, 22, 23, one end of which is fixedly connected with the middle elastic-damping elements and the other tightly sealed up in the coating 7 of the protected object.

The lower part of the rods 4, located in the guide supports 19 of the lower hinge elements 14, is heat-treated with modes for a pair of sliding friction, and the upper part of the rods 4 interacts with the transmission 20, for example, by the type of belt or chain drive, driven by the engine 17 installed in the niche of the coating 7 on the vibration-isolating system 18, the inclusion of which is carried out along line 25 from the command device 24, which processes signals from sensors 26, 27, 28 that control the parameters of the working area, respectively about temperature, harmful emissions and atmospheric pressure.

A device for implementing the method of ensuring the safety of explosive objects works as follows.

When an explosion occurs in a hazardous area of a production room (not shown in the drawing), the framework 1 of the explosion-proof panel with armored metal casing 2 and filler 3 are raised due to the operation of sensors 26, 27, 28 that control the parameters of the working area from the effects of the shock wave and through an open opening 8 excess pressure is released. In this case, the lifting of the framework 1 of the explosion-proof panel is carried out due to the control signal from the command device 24 through line 25 to the engine 17, which includes the transmission 20 for rotation of the hinged-screw combined rods 4, which raise the framework 1 of the explosion-proof panel to the required level to relieve excess pressure through the opening 8. In this case, the elastic damping elements 10 are compressed, extinguishing the energy of the explosion.

After the explosion and the fall of excess pressure, the command device 24 on line 25 gives a signal to the engine 17 to reverse and returns the explosion-proof panel to its original state to close the opening 8 and harmful substances do not enter the atmosphere.

Elastic-damping elements 11, 12, 13, in the presence of three hinged-screw combined rods 4, increase the reliability of protection in case of uneven distribution of explosive energy, for example, if the skeleton of the metal frame 1 of the explosion-proof panel with armored metal casing 2 is skewed.

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.

A method of ensuring the safety of explosive objects is as follows.

Above the open opening 8 of the protected object 7, a protective device is installed in the form of an explosion-proof panel consisting of an armored metal frame 1 with armored metal casing 2 and a filler - lead 3. In the coating of the protected object 7, at its opening 8, it is symmetrical about the axis 9 of the opening, at least three hinged-screw combined rods 4 are rigidly fixed, telescopically inserted into the fixed support pipes 6, rigidly embedded in the metal frame 1 of the explosion-proof panel.

Each of the hinged-screw combined rods 4 consists of a smooth and screw parts, and the smooth part of the rods is limited by the stop sheets 5 in the upper part and the movable stops 15 in the middle part connected to the elastic damping elements 10, and the lower, screw part of the rods is located in fixed nozzles-bearings 6, in which the equidistant and congruent helical surfaces are made with the same parameters as the screw part of the joint-screw combined rods 4.

The hinged-screw combined rods 4 are bounded at both ends by the upper 16 and lower 14 hinge elements, while the lower hinge elements 14 are located in the coating of the protected object 7 and are connected to the guide supports 19 of the rods 4, and the upper 16 hinge elements connect the ends of the smooth part of the rods 4 with abutment sheets 5, which in turn are tied (connected) to each other through elastic damping elements (Fig. 2), for example 11, 12, 13, in the case of three rods 4, each of the elastic damping elements 11, 12, 13of a tight covering 7 are connected to the object to be protected by means of extensions 21,22,23, one end of which is fixedly connected with the middle elastic-damping elements and the other tightly sealed up in the coating 7 of the protected object.

The lower part of the rods 4, located in the guide supports 19 of the lower hinge elements 14, is heat-treated with the modes for “sliding friction pairs, and the upper part of the rods 4 interacts with the transmission 20, for example, by the type of belt or chain drive, driven by the engine 17 installed in the niche of the coating 7 on the vibration-isolating system 18, the inclusion of which is carried out along line 25 from the command device 24, which processes signals from sensors 26, 27, 28 that control the parameters of the working area, respectively about the temperature, emissions and atmospheric pressure.

Claims (2)

1. A method for ensuring the safety of explosive objects, namely, that a protective device in the form of an anti-explosion panel consisting of an armored metal frame with armored metal sheathing and lead filler is installed over the open opening of the protected object, characterized in that in the coating of the protected object, its opening, symmetrically with respect to the axis of the opening, at least three pivotally-screw combined rods are telescopically inserted into fixed patras support flanges, rigidly sealed in the metal frame of the explosion-proof panel, each of the hinged-screw combined rods consists of smooth and screw parts, and the smooth part of the rods is limited by stop sheets in the upper part and movable stops in the middle part, which are connected with elastically damping elements, and the lower screw part of the rods is placed in fixed branch pipes-supports, in which equidistant and congruent screw surfaces with the same parameters as the screw part of the joint are made nir-screw combined rods, while the hinged-screw combined rods are limited at both ends by upper and lower hinge elements, while the lower hinge elements are placed in the coating of the protected object and connected to the guide bearings of the rods, and the upper hinge elements are connected to the ends of the smooth part of the rods and with abutment sheets, which in turn are interconnected via elastically damping elements, each of the elastically damping elements being rigidly connected to the coating aschischaemogo object by means of extensions, one end of which is rigidly connected to the middle of elastic-damping elements and the other tightly walled in the coating of the protected object. 2. A method for ensuring the safety of explosive objects according to claim 1, characterized in that the lower part of the rods located in the guide supports of the lower hinge elements is heat-treated with modes for a “sliding friction pair”, while the upper part of the rods interacts with the transmission, for example, the type of belt or chain transmission driven by an engine, which is installed in a niche of the coating on a vibration-isolating system, and the engine is turned on from a control unit that processes signals from sensors that monitor the parameters of the working area, respectively, according to temperature, harmful emissions and atmospheric pressure.

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