RU2019144526A - METHOD FOR DETERMINING EXPLOSION PROTECTION EFFICIENCY AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (3)

1. A method for determining the effectiveness of explosion protection, which consists in using a monitoring system with processing the received information, a model of an explosive object is installed in the test box, and video cameras are installed along its inner and outer perimeters, while the video cameras are explosion-proof, and the outputs from the video cameras through the inner cavity of the spacers, they are connected to the block, through which the ongoing processes of changing the technological parameters in the model are recorded and registered, after which the changes in the technological parameters in the model of the explosive object are recorded through the system of analyzers of the recorded oscillograms of the ongoing processes, and an opening is made in the ceiling of the model, which is closed an explosion-proof element, mounted on a loose fit on three elastic pins, one end of each of which is rigidly fixed in the ceiling of the model, and on the second, a horizontal crossbar is attached, between the explosive fragmentation element a three-coordinate pressure sensor in an explosion-proof design, the output of which is connected to the input of the recording and recording equipment unit, and on both sides of the pressure sensor there are temperature and humidity sensors that control the thermal and humidity conditions in the layout, the outputs of which are also connected to the input of the recording unit. and recording equipment, and the internal and external surfaces of the model fences are pasted over with strain gauges, the outputs of which are also connected to the input of the recording and recording equipment unit, after processing the obtained experimental data, an information database is formed on the development of an emergency situation in an accident at an explosive facility and a mathematical model predicting prevention of an emergency in case of an accident at an explosive facility, while a set of explosive fragmentation elements is installed in the layout, consisting of at least two explosive fragmentation elements, respectively the explosion, while the tests begin with an explosive fragmentation element, which is smaller in TNT equivalent compared to the subsequent ones, and additional video surveillance cameras made in explosion-proof design are installed, and an additional assessment of the effectiveness of the explosion-proof design of explosive fragmentation elements is carried out, and the scale is determined by means of computer modeling an emergency in case of explosions at storage facilities for explosive fragmentation elements, characterized in that a warning system is installed on the elements of the weak link in the emergency safety system, for example, an explosion-proof element, on the support rods of which bushings made of a rapidly disintegrating material, such as glass, of the "triplex" type, are installed about an emergency, while between the metal frame with armored metal sheathing and the upper part of the covering of an explosive object at the opening designed to relieve excess pressure, an indie is fixed safety catcher, which performs the functions of a weak link in the safety system of an explosive object, and reacts to the occurrence of an emergency, which is performed 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 amplifier, and the output of the strain amplifier is connected to the input of the device emergency warning systems. 2. A method for determining the effectiveness of explosion protection according to claim 1, characterized in that in order to fix the limiting position of the explosion-proof element, a damping element is attached to the ends of the supporting elastic rods with stop sheets, intended for damping the shock loads of the explosion-proof element about the stop sheets, and is attached opposite to the explosion-proof element and directed towards the explosion-proof element, and is made in the form of a volumetric body with an inner cavity and surfaces equidistant to the surfaces of the explosion-proof element, while its inner cavity is filled with a dispersed air-lead system, and the lead is made in the form of a spherical crumb. 3. A method for determining the effectiveness of explosion protection according to claim 1, characterized in that the damping element designed to damp the shock loads of the explosion-proof element against the stop sheets, and attached oppositely to the panel and directed towards it, contains an additional elastic-damping element in the form of a truncated cone, the smaller base of which is directed towards the explosion-proof element, and the larger one is fixed on the lower surface of the damping element.