RU2019105964A - TWO-STAGE DUST COLLECTION SYSTEM WITH INERTIAL DUST SEPARATOR - Google Patents

Claims (1)

A two-stage dust collection system with an inertial dust separator, comprising a housing consisting of cylindrical and conical parts, an inlet for a dusty gas stream, a dust collection bin with a mechanical dust removal device, a curtain and a purified gas outlet, the curtain is made in the form of a chain package and at least one , solid barrier elements mounted on a plate suspended on elastic elements to the body, chain barrier elements are evenly distributed over the entire flow area of the body and along its length, and the solid barrier element is located with a gap relative to the walls of the body, a soft layer is applied to the surface of the body parts vibration damping material, for example VD-17 mastic, and the ratio between the thickness of the metal and vibration damping coating is in the optimal range of values: 1 / (2.5 ... 4), while the fine dust collection device includes a frame structure body with fences, a support a part with a hopper for collecting dust and a dust-collecting trolley installed on the base, as well as the inlet and outlet ducts of the filter section of the dust collector with bag-type filters, respectively, with inlet and outlet nozzles, while a collector with nozzles of the fire and explosion safety system with a block is installed in the inlet box of the dust collection device control unit, electronically linked to a common microprocessor, a baghouse filter regeneration system with a pulse blowing mechanism, which is equipped with a control unit for each solenoid valve of the blowdown nozzles and is connected to a common regeneration control unit, electronically linked to a common microprocessor, while the filter section is installed in the inlet box of the filter section a temperature sensor, in the dust collection bin there is an emergency dust level sensor, and in the outlet box of the filter section there is an automatic thermal sensor-detector, the outputs from which are connected to a common microprocessor located in the control cabinet neniya, characterized in that each of the nozzles of the system for ensuring fire and explosion safety of the device is made acoustic, containing a housing, a fitting and, coaxially located with them, a swirler insert, an expanding channel is made in the fitting for supplying liquid to a cylindrical hole, which is made axisymmetric to the body and smoothly goes into, coaxial with it, a figured hole made in the form of a diffuser, and in the cylindrical hole of the body, axisymmetrically to it, a cylindrical insert-swirler is installed, having external peripheral screw-shaped threaded channels, and along the axis of the insert-swirler there is a central axial hole with a screw thread on the inner surface opposite to the direction of channel cutting, while compressed air is supplied to the housing bore with a cylindrical swirler insert installed in it through a fitting fixed in the housing perpendicular to the nozzle axis, while the swirler insert is installed in the housing through the control carbon gaskets and is pressed by the fitting by means of a threaded connection body-fitting, external screw-shaped threaded channels and screw threads on the inner surface of the axial hole of the swirler insert are made with a variable pitch, and the swirler insert is made of wear-resistant material, or the swirler insert is made in the form of a package of coaxial cylindrical helical springs, or cylindrical helical springs with a variable pitch, or a swirler insert is made in the form of a package of coaxial cylindrical helical springs, and the direction of the helical lines of the springs in the package alternates through one, while the flow divider is axially symmetrically attached to the hole made in the form of a diffuser liquid, made in the form of a conical bell, in which a round mesh disk is fixed perpendicular to the axis of the bell, to which a mesh conical element is attached, on which the Helmholtz resonator is fixed axisymmetrically to the conical bell, made in the form of a rigid hollow spherical th surface, with resonator inserts located on it, located both in the direction of the two-phase gas-liquid flow, and perpendicular to it.