RU2019105978A - TWO-STAGE DUST EXTRACTION SYSTEM - Google Patents

Claims (1)

A two-stage dust removal system containing a cyclone, as the first cleaning stage, having a housing, a peripheral gas flow inlet, a cover, a hopper and an outlet for the cleaned gas outlet connected to a filter element that performs the function of the second stage of cleaning the gas-air mixture from dust, the cyclone housing consists of two coaxial conical parts, while the upper conical part of the cyclone is made tapering to the bottom, and the lower conical part of the cyclone body is made to expand to the bottom and is connected to the platform for mounting the cyclone in the dust removal system, and coaxially to the body, in its upper part, there is an inlet assembly for dust flow inlet, having an inlet pipe, for example, in the form of a rectangular section, and an exhaust pipe that is connected by an air duct to the filter chamber of the bag filter, which is the second stage of the dust collection system, and the bag filter inlet is connected to the exhaust pipe outlet through a flange for inlet of the purified gas into the filtering camera bag filter in the form of a cabinet with a convenient recess through the side doors of vertically arranged filter elements in the form of filter sleeves, and the flange for the purified gas outlet is located in the purified gas chamber located above the filter chamber and has cross-sectional dimensions equal to the flange for the purified gas inlet in the filter, which is additionally equipped with a temperature sensor installed in the body of the filter section, and an emergency dust level sensor is installed in the dust collection hopper, a thermal automatic sensor-detector is installed in the outlet box of the filter section, the outputs from which are connected to the control controller, and in the outlet a collector with nozzles for connection to the fire extinguishing system is installed in the box of the filter section of the filter, the control unit of which is connected to the control controller, and the hopper for collecting dust is made of a conical or pyramidal shape with an angle of inclination of the walls exceeding the angle of repose. my dust, and the filter regeneration system includes valve blocks in which electromagnetic valves are mounted, the input of which is connected to the output of the control controller; impulse valves with impulse pipes and branch pipes, Venturi nozzles; a differential pressure gauge connected through a pressure sensor to the chamber for the outlet of the cleaned gas and through a pressure sensor to the filtering chamber for the inlet of the cleaned gas, as well as a set of fittings for supplying compressed air to the valve blocks, and the differential pressure gauge is connected to the control controller, characterized in that the nozzle of the built-in system fire extinguishing system installed in the filter chamber is made with a spray disc and contains a cylindrical body with a fitting rigidly connected to the body and coaxially located in the upper part of the body and having a cylindrical opening for fluid supply connected to an internal diffuser, an axisymmetric body and a fitting, and in the lower part of the cylindrical hole for fluid supply, a hollow conical swirler is fixed, the conical shell of which is fixed by means of at least three spokes fixed at one end on the conical shell of the swirler, in its upper part, and with the other end in the circular groove of the cylindrical screw a through screw thread is made on the outer surface of the hollow conical swirler, while a nipple for supplying compressed air to the internal diffuser is connected to the body, in its lower part, and an external diffuser is attached to the surface of the cylindrical body, a covering acoustic diffuser made in the form of at least three hollow rods fixed to the lower part of the body surface, while the rods are made hollow with resonant inserts that function as the necks of the Helmholtz resonators, which face the outlet section of the internal diffuser, while in the lower parts of the hollow rods of the acoustic atomizer are hermetically connected to the atomizing plate having a perforation in the axial section of the nozzle, and to the external diffuser enclosing the acoustic atomizer, in the lower part is attached a perforated disk located below the atomizing plate of the acoustic atomizer, which the second is made convex towards the perforated disk of the external diffuser.