RU2314168C2 - Acoustic dust-arrester installation of akf-2 type - Google Patents

Abstract

FIELD: different branches of industry and agriculture; production of the acoustic dust-arrester installations.

SUBSTANCE: the invention is pertaining to the equipment used for the dust collection. The dust-arrester installation includes the cyclone, the speaker with the generator of the sound vibrations disposed in its upper part. The lower part of the speaker is connected to the peripheral inlet of the gas stream from the cyclone. The installation is supplied with the fine filter containing the cyclone component, the peripheral inlet of the gas stream made in the form of the inlet fitting pipe, connected by the air duct with the axial outlet fitting pipe of the cyclone and connected at the right angle with the body of the cyclone component having two coaxial fitting pipes, on one of which the filtering component is fixed, and on the other - the storage bin used for the dust collection, which is made in the form of the dust-collecting bag. The filter contains the mechanism of the recuperation made in the form of the rigidly fixed on the coaxial with the filter shaft of at least two plates. The shaft is actuated in rotation by the drive gear fixed in the upper part of the wire framework of the filter. The cyclone component is supplied with the fixed on it fan; the inlet fitting pipe is fixed coaxially to the axis of the fan; and the fitting pipe to which the storage bin the dust collection is connected, has the length, which is at least, twice exceeding the length of the fitting pipe, on which the filtering component is fixed. The axes of these fitting pipes coincide with axes of the filtering component and the dust-collection bag. The technical result of the invention is the increased efficiency of the dust arresting.

EFFECT: the invention ensures the increased efficiency of the dust arresting.

2 cl, 3 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 containing a cyclone containing a housing consisting of a cylindrical and conical parts, a peripheral gas inlet and an axial outlet of the purified gas located in its upper part, an acoustic column with an acoustic oscillator located in the upper part (V. Strauss. Industrial gas purification. M: Chemistry, 1981, p. 532, Fig. 11-7a.) - 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 installation consisting of a preliminary and fine filters interconnected by an air duct in such a way that the output of the preliminary filter is connected to the input of a thin one, the preliminary filter contains a housing consisting of cylindrical and conical parts located in its upper part the gas flow inlet and the axial outlet of the purified gas, an acoustic column with an acoustic oscillation generator located in the upper part, an acoustic column in its lower part the second part is associated with peripheral bypass tap input gas stream, the generator of sound vibrations is associated with the control unit and the fine filter is designed as a bag filter from the regeneration system.

Figure 1 shows a General view of the dust collector, figure 2 is a section of a filter regeneration system, figure 3 is a structural diagram of a cyclone element.

A dust collecting unit consisting of a preliminary 5 and a thin 17 filters, interconnected by an air duct 7 so that the output 2 of the preliminary filter is connected to the input 13 of the thin filter. The pre-filter contains a housing consisting of a cylindrical 5 and conical 6 parts, a peripheral gas inlet 1 located in its upper part and an axial outlet pipe 4 of purified gas, an acoustic column 8 with an acoustic oscillation generator located in the upper part, and an acoustic column in its lower part connected bypass bypass with the peripheral input 1 of the gas stream, and the sound generator 8 is connected to the control unit 12, and the input of polluted air through the pipe 10.

The optimal parameters for sound processing are the sound pressure level in the range of 130 ... 145 dB, the frequency of sound vibrations in the range of 900 ... 2000 Hz, the sound time in the range of 1.5 ... 2.5 sec, the concentration of dust in the air stream not less than 2 g / m ³ .

The thin filter is designed as a dust collector with a cassette filter made of filter paper of cleaning class F9 and contains a housing including at least one rack 15, base 16 and a cyclone element 14 with a fan (not shown in the drawings) and an electric motor 24 with a circuit breaker 21 The peripheral input of the gas stream 13 is located in the Central part of the apparatus and is made in the form of an inlet pipe connected at right angles to the body of the cyclone element 14 having two coaxial pipes, one of which is fixed the filter element 18, made in the form of a cassette filter from pleated filter paper, placed in a wire frame, and on the other, a dust collection hopper, made in the form of a dust bag 17. The cyclone element 14 is made in the form of a snail type with it fixed a fan, the axis of which is parallel to the axis of the nozzles, and the inlet 13 is fixed coaxially to the axis of the fan. The nozzle 20, to which the dust collecting hopper 17 is connected, is made at least twice as long the length of the nozzle on which the filter element 18 is fixed, and the axes of these nozzles coincide with the axes of the filter element 18 and the dust bag 17, and in the nozzle 20 connected to the dust collection bin, there is an insert from the cylinder conical sleeve 29, coaxially to which in the nozzle connected with a dust bag 17, a reflective washer 30 is fixed. The insert includes a cylindrical sleeve 29 with a diffuser 28.

The filter element 18 contains a regeneration mechanism made in the form of at least two plates 25 and 26 rigidly fixed on a shaft 27 coaxial with the filter 18, and the shaft 27 being driven from the drive fixed in the upper part of the filter wire frame 19 and consisting of an electric motor 22 and gear 23, and the plates 26 and 25 are included in the hollows of the corrugation of the cassette filter 18 not more than 25% of the height of the corrugation.

The dust collection process proceeds in the optimal hydrodynamic mode with the following ratios of the main structural parameters of the proposed device:

The ratio of the diameter D _{2 of the} cylindrical part of the sleeve to the diameter D _{1 of the} pipe to which the dust collection bin is connected is in the optimal range of values D ₂ / D ₁ = 0.7 ... 0.9, and the ratio of the diameter D _{2 of the} cylindrical part of the sleeve to the diameter D _{3 of the} reflective washer is in the optimal range of values D ₂ / D ₃ = 0.8 ... 1.2.

The ratio of the diameter d of the inlet pipe to the diameter D _{1 of the} pipe to which the dust collection bin is connected is in the optimal range of values: d / D ₁ = 0.2 ... 0.7, and the ratio of the length A of the housing (not shown) to the cyclone element to its width B is in the optimal range of values A / B = 1.45 ... 2.35, and the ratio of the length A of the cyclone body to the distance C from the fan axis to the perimeter in this part of the cyclone body is in the optimal range of values A / C = 3.4 ... 3.6. The ratio of the height H of the apparatus to the height h of the location of the inlet pipe from the base of the apparatus is in the optimal range of values H / h = 1.4 ... 2.5. 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.

As the material of filtering bag elements, they are used as 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, and non-woven 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, capron, chlorine, oxalone, polypropylene, polyvinyl chloride , ftoroplast, teflon, etc.), artificial inorganic fibers (for example, glass fiber).

Dust collector works as follows.

The dusty gas stream is supplied through the pipe 10 to an acoustic column 8, the sound vibration parameters of which are adjusted from the control unit 12. In the sound column 8, dust particles are separated from the air, since under the influence of the sound field and the associated vibrational processes occurring in the air , dust particles coagulate, and large particles settle down the columns, from where the air stream enters the secondary cleaning in the cyclone through the duct 9 to the input 1.

Here it is twisted due to a tangential peripheral input and a screw-shaped cover 3. Then it is guided 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. Pre-cleaned air is discharged from the cyclone through the outlet 4. In this case, light, finely dispersed fractions of dust particles not trapped in the conical part of the housing are retained on the thin filter 17 by the connected air ducts 2 and 7.

After preliminary cleaning in the filter 5, the gas enters through the channel 7 into the nozzle 13 for entering a dusty gas stream, and then enters the cyclone element 14 through the nozzle 13, twists due to the tangential peripheral input and moves further along a downward spiral line along the walls of the nozzle, to which a dust bin 17 is attached. As a result, the dust particles under the action of centrifugal and inertial forces move from the center of the apparatus to the periphery and, reaching the walls of the apparatus, are transported down into the hopper (dust bag 17) to collect trapped dust. The purified air is discharged from the apparatus, bypassing the baffle plate 30, through the sleeve 29 and the filter cassette 18. At the same time, light, finely dispersed fractions of dust particles not trapped in the hopper 17 are retained on the filter element 18. In the apparatus there is a decrease in vibroacoustic energy, since the filter Element 18 is simultaneously an aerodynamic silencer of active (sorption) type noise. Especially for apparatuses equipped with filter cartridges, an automatic regeneration system 27 has been developed. The regeneration process, during which the inside of the filter cartridge is cleaned, starts automatically after the apparatus is turned off.

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. A dust collecting unit comprising a cyclone comprising a housing consisting of a cylindrical and conical parts, a peripheral gas inlet and an axial outlet of purified gas located in its upper part, an acoustic column with an acoustic oscillation generator located in its upper part, the acoustic column in the lower part is connected to the peripheral input of the gas stream of the cyclone, characterized in that the generator of sound vibrations is connected to the control unit, and the installation is equipped with a thin filter supporting a cyclone element made in the form of a snug-type housing, the peripheral gas flow inlet made in the form of an inlet pipe connected by an air duct to the axial outlet pipe of the cyclone and connected at right angles to the cyclone body having two coaxial pipes, one of which has a filter a cassette element made of corrugated filter paper folded in a wire frame, and on the other, a dust bin made in the form of a dust bag, etc. and this filter contains a regeneration mechanism made in the form of at least two plates rigidly fixed on a shaft coaxial with the filter, the shaft being rotated by a drive fixed in the upper part of the filter wire frame and consisting of an electric motor and gearbox, and the plates are in the corrugations of the corrugation, not more than 25% of the height of the corrugation, and the cyclone element is equipped with a fan fixed on it, the axis of which is parallel to the axis of the nozzles, the inlet pipe is fixed coaxially to the axis of the fan, and the nozzle to which is attached Inen dust collecting bin, made at least two times the length of the nozzle on which the filter element is fixed, the axes of these nozzles coinciding with the axes of the filter element and the dust bag, in the nozzle connected to the dust collecting bin, there is an insert made of a cylinder-conical sleeve, coaxially with which a reflecting washer is fixed in the nozzle. 2. Dust collecting plant according to claim 1, characterized in that as the material of the filtering sleeve elements are used as 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, and non-woven with methods of fixing fibers: needle-punched, canvas-stitched and glued, obtained by the above methods from natural fibers of animal or vegetable origin, artificial organic fibers: lavsan, nitron, nylon, chlorine, oxalone, polypropylene, polyvinyl chloride , fluoroplastic, teflon, artificial inorganic fibers, such as glass fibers.

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