RU2017121148A - EXPLOSION PROTECTOR STAND FOR EXPLOSION PROTECTION PARAMETERS IN EXPLOSIVE TEST LAYOUT - Google Patents

Claims (1)

A test bench for exploring the parameters of explosion-proof devices in a test model of an explosive hazardous facility, containing systems for monitoring and processing information received about the hazardous area, it contains a model of an explosive hazardous object placed in a test box with an explosive fragmentation element installed in it with an explosion initiator, a protective cover and a pallet, In this case, the cover with the pallet is a single closed structure formed around a model of an explosive object, and the model is equipped with a transport and suspension system. stems, while the protective cover is multilayered and consisting of the aluminum layer facing inward to the layout, then the rubber and percale layers, and the suspension system consists of a set of brackets and extensions placed on the protective cover, as well as the required number of anchor hooks in the ceiling, walls and the floor of the test box, and inside the model of the explosive facility, along its internal and external perimeters, video surveillance cameras are installed, made in explosion-proof design, and the outputs from the cameras are connected to the unit com of recording and recording equipment, the output of which is connected to the analyzer block of recorded oscillograms of the ongoing processes of changing technological parameters in the model of an explosive object, and in the ceiling part of the model there is an opening that is closed by an explosion-proof element mounted on a loose fit on three elastic pins, one end of each of which, it is rigidly mounted in the ceiling of the layout, and on the second there is a horizontal bar, and between the explosive fragmentation element and the opening made in on the front part of the prototype, and a closed explosion-proof element, along the front of the blast wave there is a three-coordinate pressure sensor in the explosion-proof design, the output of which is connected to the input of the recording and recording equipment, and temperature and humidity sensors are located on both sides of the pressure sensor, which monitor the thermal and humid conditions mock-ups, the outputs of which are also connected to the input of the recording and recording equipment unit, and the internal and external surfaces of the model fencing are glued load cells, the outputs of which are also connected to the input of the recording and recording equipment unit, characterized in that the layout contains a set of explosive fragmentation elements, consisting of at least two explosive fragmentation elements, respectively connected to the initiators of the explosion, while additional video surveillance cameras are installed made in explosion-proof execution, and carry out an additional assessment of the effectiveness of explosion-proof execution of explosive fragmentation elements, and determine at Ohm, by means of computer simulation, the scale of the emergency situation during explosions at the facilities for storing explosive fragmentation elements, and on the pins, to their horizontal crossbar, fix dynamometers designed to measure the explosive force developed by the explosion-proof element, which is installed by free landing on three elastic pins above the opening moreover, each of the dynamometers is made in the form of at least two leaf springs, one end of each of which is rigidly fixed on the support sheets, and the second - and freely placed and covering the pins, the sleeve, while the leaf springs perform arched type with a bulge directed away from the pins, and strain gages are fixed on the peripheral part of the bulge of each leaf spring, with one spring on the inside and on the other with external, for recording both compressive and tensile stresses, and to the horizontal crossbar of the pins, the upper part of the inductive displacement transducer is designed to measure the vertical lift of the explosion-proof element and from an explosive force through an opening located in the ceiling of the layout, the lower part of the inductive displacement sensor is rigidly fixed in the ceiling of the layout located next to the explosion-proof element, and the signal from the inductive displacement sensor is fed to the strain gauge, and from it to the recording unit recording equipment, the output of which is connected to the analyzer block of recorded oscillograms of the ongoing processes of changing technological parameters in the model of an explosive object.