RU2020130160A - AUTOMATIC SAFETY DEVICE IN EMERGENCY SITUATIONS - Google Patents

Claims (2)

1. An automatic safety device for safety systems in emergency situations, containing a system of sensors and an electrovalve, it contains a protected object that needs to be transferred from normal operation to emergency operation as a result of a development hazard, an emergency, which is connected to an actuator, the operation of which a signal is received from the control device, made in the form of an electrovalve, the body of which is located vertically, and the device for electric start of the electrovalve is mounted on a locking nut fixed in the upper part of the electrovalve body and contains two contacts: a central contact located in an insulating sleeve coaxial with the piston, and contact "body", while inside the body of the solenoid valve, coaxially with it, a piston is installed, fixed in the standby state by a latch located perpendicular to the axis of the piston, and fixed in the piston hole and two holes coaxial with it in the solenoid body valve, and when the solenoid valve is actuated, the piston acts as a cutter that cuts off the latch, made in the form of an annealed wire with a diameter of ∅ 1.0 mm, while one end of the latch is fixed on the body of the solenoid valve, and the other - on the end of the trigger lever connected to the starting spring, and the actuator is activated only in emergency mode from the power button, which is part of the actuator launch system, which includes a trigger lever, at one end of which a starting spring and a latch are fixed, and at the other end there are two holes: a hole for a safety check and a hole for mounting, the axis of the trigger lever, and the end of this end of the lever is shaped, for example, along the Archimedes spiral, and interacts when triggered with the power button that starts the actuator, while the axis of the trigger lever is fixed on a bracket rigidly connected to the body of the actuator, and on the lever there is ma marking "B" and "H" of the trigger lever for the correct orientation of its profile end interacting with the button for turning on the actuator, while the angle of orientation of the parallel planes "B" and "H" of the trigger lever should be about (5÷10) ° relative to the axis a power button located in a horizontal plane, and the solenoid valve is connected to the hazardous area probing system, which includes sensors configured to exceed the maximum permissible concentrations of chemically hazardous substances present in this zone, and a probe configured to exceed the maximum permissible levels of radioactive, substances, the signals from which are fed to a common microprocessor that processes these signals and issues a control signal to turn on the solenoid valve, and a chemical air-foam fire extinguisher containing a housing with a lid filled with an aqueous alkaline solution, a polyethylene container with an acid mixture located inside the housing, and mounted locking and starting device on the cover body, the body is made of steel and contains 9 liters of an aqueous alkaline solution in the form of a mixture of sodium bicarbonate NaHCO ₃ and licorice extract, and a polyethylene container is filled with an acid mixture in the form of sulfuric acid H ₂ SO ₄ and iron sulfide FeSO ₄ , which increases the volume and strength of the resulting foam , while the polyethylene container is rigidly connected to the valve seat, fixed in the lower part of the glass, rigidly connected to the lid of the steel case, to the upper part of which is attached a handle for operating in the fire extinguisher operating mode, and in the upper part of the case there is an outlet pipe, on which foam generator, while the glass is installed inside the body, axisymmetric to it and the polyethylene container, and the valve is connected to the stem, placed axisymmetrically in the glass and spring-loaded by a spring, while at least three holes are made in the lower part of the glass, above the valve, providing a connection between the alkaline and acid parts of the fire extinguisher, and on the housing cover it extinguishes In addition, a shut-off and starting device is mounted, the shut-off and starting device includes a spring-loaded stem with a valve and a starting handle sealed and fixed on an earring by means of an axis, while the earring is rigidly mounted on the cover, and the starting handle consists of two parts: round, interacting with the axis and the crank pivotally connected to the rod, and wedge-shaped - for turning the handle up by hand at an angle of 180 °, while the crank is connected to a hole made in the round part of the starting handle and located with eccentricity with respect to the axis, and the value of the eccentricity is chosen in such a way that when the handle is turned up by 180°, the crank also moves up by 180°, opening the valve and thereby ensuring the connection of the alkaline and acid parts of the fire extinguisher through the holes in the glass, characterized in that the fire extinguisher is placed on a platform equipped with mechanisms rotation around the axis of the fire extinguisher, and its vertical movement, while the operation of these mechanisms is synchronized with the infrared radiation sensor. 2. The automatic safety device for emergency safety systems according to claim 1, characterized in that the foam generator of the chemical air-foam fire extinguisher contains a hollow body, consisting of a cylindrical part with an external thread for connecting to a fitting of a distribution pipeline for supplying liquid, and fixed in lower part of the housing, a union nut with a liquid flow divider, and in the body, coaxially to it, a cylindrical hole is made, in the upper part of which a strainer is installed, and in the lower part - a throttle washer with a jet, and to the end surface of the union nut, axisymmetric to the body, a liquid flow divider is attached, which consists of three coaxial, coaxially arranged pyramidal shells in the form of generating grids: external, intermediate and internal, each of the shells contains a wire frame of two bases in the form of a square and side ribs of a truncated pyramidal surface, while the outer shellits large base is attached to the body, and its second smaller base is simultaneously the large base of the intermediate shell with side ribs, and its smaller base is simultaneously the large base of the inner shell with a smaller base, moreover, generating grids in the form of truncated pyramidal surfaces are located in such a way that all vertices they lie on an axis coinciding with the axis of the body, and the direction of the tops of the outer and inner generating grids coincides, and the top of the intermediate generating grid is directed opposite to the tops of the outer and inner generating grids, and towards the throttle with a jet, while the perforation on the outer shell, with side of attachment of its truncated pyramidal surface to the end surface of the union nut, is made with a finer pitch and a larger diameter of holes that enhance the ejection effect, perforation of the inner shell on the base, facing away from the throttle washer with liquid clearer, and made in the form of a square, has a larger diameter of holes that enhance the ejection effect and the range of the sprayed flow.