RU2302298C1 - Dust trapping unit with vibration cyclone - Google Patents

Abstract

FIELD: dust trapping processes and equipment, possibly used in chemical, food making, textile and other industry branches for cleaning dust-laden gases.

SUBSTANCE: dust trapping unit includes cyclone and filter mutually connected through air conduit in such a way that to provide connection of outlet of cyclone with inlet of filter. Cyclone includes inlet branch pipe, outlet branch pipe, helical lid, exhaust tube, cylindrical and cone portions of housing. Ring mounted on cylindrical portion of housing supports vibration exciter with control unit. The whole cyclone is suspended by means of springs with use of beam joined with outlet branch pipe. Filter is in the form of filtering cartridge.

EFFECT: enhanced efficiency of dust trapping.

2 cl, 1 dwg

Description

The invention relates to techniques for dust collection and can be used in chemical, textile, food, light and other industries for the purification of dusty gases.

The closest technical solution to the claimed object is a dust collection unit according to SU No. 1576458, containing a filter and a cyclone connected to each other by a duct so that the outlet of the cyclone is connected to the inlet of the filter, and the cyclone contains a cylindrical and conical part of the housing, inlet and outlet pipes, exhaust the pipe, and the filter contains a housing with a lid, a filter section, a hopper, inlet and outlet pipes, a pulse regeneration system and a regeneration control unit (prototype).

The disadvantage of the prototype is the relatively low efficiency of dust collection due to the partial return of fine dust to the axial nozzle.

The technical result is an increase in the efficiency of dust collection.

This is achieved by the fact that in a dust collecting unit consisting of a pre-filter and a thin filter interconnected by an air duct so that the outlet of the pre-filter is connected to the input of a thin filter, the pre-filter contains an inlet and an outlet, a screw-shaped cover, an exhaust pipe, a cylindrical part of the housing , the conical part of the body, and on the cylindrical part of the body is fixed a ring on which a vibrator with a control unit is mounted, and the entire cyclone is hung on the springs using a ba ki connected with an outlet, and a fine filter is designed as a cartridge filter.

The drawing shows a diagram of the proposed device.

The dust collecting unit consists of a cyclone 5 and a thin filter 20, interconnected by an air duct 7 with elastic elements so that the outlet 2 of the cyclone is connected to the input 13 of the thin filter. The cyclone contains an inlet pipe 1 and an outlet pipe 2, a screw-shaped cover 3, an exhaust pipe 4, a cylindrical part of the housing 5, a conical part 6. A ring 8 is mounted on the cylindrical part 5 of the housing, on which a vibrator 10 with a control unit 11 is mounted. The cyclone is hung on the springs 9 using a beam connected to the outlet pipe 2.

The thin filter 20 comprises a housing 19 with a cover 20, a filter section 16, a hopper 15, an inlet 13 and an outlet 23 pipe. The inlet pipe 13 is located tangentially to the housing 19 at the level of the filter section 16, consisting of filter cartridges, in its middle part. The filter section 16 is separated from the purified air section and the outlet pipe 23 by a rigid partition 17, in which the filter cartridges 16 are fixed with their upper flange. Each of the filter cartridges (not shown in the drawing) is made in the form of a cylindrical wire or rod frame with upper and lower flanges, on which by means of straps located in a plane perpendicular to the axis of the frame, the filter element is fixed. On the lower flanges of the filter cartridge, facing the hopper, deaf hollow plugs are fixed in the form of conical fairings, and on the lower flange of the filter cartridge, in its inner cavity, a conical shape displacer is fixed coaxially to the fairing (not shown in the drawing). On the cover 20 of the filter housing there is a pulse regeneration system with a receiver 21 of compressed air, electromagnetic valves 22, venturi nozzles, purge pipes 18 with nozzles at the ends and a regeneration control unit (not shown in the drawing) connected to a common microprocessor (not shown in the drawing) controlling the operation of the filter in all modes. The dust collecting hopper 15 is conical or pyramidal in shape with an angle of inclination of the walls greater than the angle of repose of the captured dust, and is connected to a lock feeder 12 or a mobile dust collecting container (not shown in the drawing).

A temperature sensor is installed in the filter block housing, an emergency dust level sensor in the dust collection bin, a thermal automatic detector detector in the output box, the outputs of which are connected to a common microprocessor located in the control cabinet (not shown in the drawing), and in the output a box has a collector with nozzles for connection to a fire extinguishing system, the control unit of which is connected to a common microprocessor, and the bag filter regeneration system contains a control unit that is electronically connected to using a microprocessor, a remote control panel for the unloading system, and a water supply system for ignition and a redundant powder fire extinguishing system (not shown in the drawing).

Housing and fencing parts are made of structural composite or polymeric materials, such as polyethylene, kapron, polyurethane by casting, stamping, welding, molding, and on the surface of the fencing parts a layer of soft vibration-damping material is applied, for example, type of mastic “VD-17” or “ Gerlen-D ”, and the ratio between the thickness of the material and the vibration damping coating is in the optimal range of values: 1 / (2.5 ... 4), and a layer of sound-absorbing material is fixed over the vibration damping layer la, for example the type "vinipor", "akmigran" with acoustically transparent protective film of the type "poviden".

The hopper 12 for collecting dust of a thin filter is made conical or pyramidal with an angle of inclination of the walls exceeding the angle of repose of the captured dust, and the hydraulic resistance of the filter section is not more than 50% of the hydraulic resistance of the entire filter, and the filter element of the filter cartridge is made in the form of a solid or corrugated a cylindrical shell made of paper filter material or woven materials with weaving methods: linen, twill, satin; with the types of fibers in the thread: staple, filament, textured; with surface treatment: smooth and brushed, or non-woven materials with fiber fixing methods: needle-punched, canvas-stitched and glued, obtained by the above methods from: natural fibers of animal and vegetable origin, artificial organic fibers: lavsan, nitron, nylon, chlorine, oxalone, polypropylene, polyvinyl chloride, ftoroplast, teflon, artificial inorganic fibers.

Dust collector works as follows.

The dusty gas stream is supplied to the installation through the pipe 1, is twisted by a tangential peripheral input and a screw-shaped cover 3. Then it is directed along a downward spiral line along the walls of the apparatus. As a result, dust particles under the action of centrifugal force move from the center of the apparatus to the periphery and, reaching the walls of the apparatus, are transported down to the conical part 6 of the housing to collect the captured dust. The purified air is discharged from the cyclone through the outlet 2. To accelerate the deposition of dust particles, they are vibrotransported by informing the hull parts of the cyclone of the vibration with the specified parameters using a vibrator 10 mounted on the ring 8. The parameters of the emerging vibrodynamic mode are controlled by the control unit 11. At the same time light, finely dispersed fractions of dust particles not trapped in the conical part of the housing are retained on a thin filter 17 associated with an elastic duct 7.

After preliminary cleaning in the cyclone 5, the gas enters the box 13 for entry on the surface of the filter elements 16. As a result, the aerodynamic resistance of the filter increases and its throughput decreases, to avoid which automatic regeneration of dusty filter cartridges 16 is provided by a pulse of compressed air. Dusty air enters the duct 19 through the pipe 13 into the housing 19 and passes through the filter cartridges collected on the baffle 17, while dust particles are trapped on their outer surface, and the cleaned air enters the compartment of "clean" air 19 and is discharged from the filter through the pipe 23. A compressed air receiver 21 with solenoid valves 22 is connected to the “clean” air compartment. Air from the receiver through the solenoid valves enters the purge pipes 18. The dusty filter cartridges are regenerated by a pulse of compressed air. Impulse purge cartridge filters are reliable and efficient dust collectors designed to capture fine dusts with a median particle diameter of at least 0.5 microns from air and non-combustible gases. Filters are used for cleaning non-aggressive, non-explosive and not prone to sticking and condensation of gas-dust mixtures; they allow you to return the purified air to the workshop, if it is not the dust of a substance of hazard class 1.

The specific gas load on the filter is selected taking into account the physicochemical properties of the dust and gas stream for each specific process.

In the apparatus there is a decrease in vibro-acoustic energy, since the filtering elements are simultaneously an aerodynamic silencer of active (sorption) type noise. Dust collectors of this type are designed for central aspiration systems.

The hydraulic resistance of the filter element is 15 ... 25% of the hydraulic resistance of the entire apparatus, and the material of the filter element has increased sound absorbing properties.

Claims (2)

1. Installation dust collecting, containing a filter and a cyclone, interconnected by a duct so that the outlet of the cyclone is connected to the inlet of the filter, and the cyclone contains a cylindrical and conical part of the housing, inlet and outlet pipes, an exhaust pipe, and the filter contains a housing with a cover, a filter section, hopper, inlet and outlet nozzles, pulse regeneration system and regeneration control unit, characterized in that on the cylindrical part of the cyclone body a ring is mounted on which a vibrator with bl control room, and the cyclone body is hung on the springs using a beam connected to the outlet pipe, the inlet of the filter is located tangentially to its body at the level of the filter section, consisting of filter cartridges, in its middle part, which is separated from the purified air section and the outlet pipe by a rigid partition , in which filter cartridges are fixed with their upper flange, each of which is made in the form of a cylindrical wire or rod frame with upper and lower flanges, on which by means of a strap A filter element is fixed on a plane perpendicular to the frame axis, and deaf hollow plugs in the form of conical fairings are fixed on the lower flanges of the filter cartridges facing the hopper, and on the cover of the filter housing there is a pulse regeneration system with a receiver of compressed air, electromagnetic valves , Venturi nozzles, purge pipes with nozzles at the ends and a regeneration control unit connected to a common microprocessor that controls the operation of the filter in all filtration modes and, moreover, the dust collection hopper is made in a conical or pyramidal shape with an angle of inclination of the walls exceeding the angle of repose of the captured dust, and is connected to a gate feeder or a mobile dust collecting container. 2. The dust removal apparatus according to claim 1, characterized in that the hydraulic resistance of the filter section is not more than 50% of the hydraulic resistance of the entire filter, and the filter element of the filter cartridges is made in the form of a continuous or corrugated cylindrical shell of paper filter material or woven materials with weaving methods : linen, twill, satin, with the types of fibers in the thread: staple, filament, textured, surface treatment: smooth and nap, or non-woven mat Series with methods for fixing fibers: needle-punched, canvas-stitched and glued, obtained by the above methods from natural fibers of animal and vegetable origin, artificial organic fibers: lavsan, nitron, nylon, chlorin, oxalon, polypropylene, polyvinyl chloride, fluoroplast, teflon, artificial inorganic fibers.