RU1777933C - Dust trap - Google Patents

Abstract

Usage: in gas-air cleaning devices of metallurgical, chemical, mining and other industries, as well as in agricultural enterprises. SUMMARY OF THE INVENTION; a detachable-fiber filtering nozzle is mounted in the casing in the form of cloths fixed on gratings and rods. Above the grille and under the grill are grids. A rod is connected to the upper grill, connected by means of a worm gear to an electric drive. A curtain of airtight material, for example, of a plastic film, is fixed along the perimeter of the gratings. 1 C.p. f-ls, 6 ill.

Description

FIELD OF THE INVENTION The invention relates to a gas-air-purification device and can be used in the metallurgical, chemical, mining and other industries, as well as in agricultural enterprises. Dust collectors in the form of filters with a fibrous nozzle are known, comprising a housing in which filter nozzles and elements controlling the degree of compression of the fibrous layer are placed. Such filters do not have regenerating elements and the nozzle must be replaced when the aerodynamic drag reaches a critical value.

Known filters containing a housing with inlet and outlet pipelines and filter nozzles wound on two drums, as well as devices for regenerating the nozzle Moreover, in the first of

they use mechanical shedding of the threads, and in the second, due to air blowing of the web of thread of the nozzle. Such filters are cumbersome in design, have an imperfect regeneration system. Moreover, mechanical breaking away of the thread when passing through rows of shield openings is unlikely and fraught with gusts of threads, and purging the filter belt with compressed air in the transverse direction is ineffective, while the consumption of compressed air is high.

A gas purification filter is known, comprising a filter nozzle in the form of fibers fixed between horizontal gratings, the upper of which is movable. In this filter, the direction of gas flow during filtration and regeneration does not change, which reduces

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the ability to clean the fibers during regeneration due to the need to move the impurities up and accumulate them in the upper layers of the nozzle. In addition, in the peripheral zones of the nozzle nozzle, the leaks of contaminated gas will be large, which will reduce the overall efficiency of gas purification from impurities. An object of the invention is to reduce leakage of dusty air in the peripheral areas of the nozzle and to ensure efficient regeneration.

This goal is achieved in that a dust collector comprising a housing with nozzles for supplying purge and dusty air and exhausting cleaned, a filtering fiber nozzle located between the upper and lower grilles made of filaments fastened in the form of cloths, the lifting mechanism of the upper grill in the form of a vertical rod, and flexible the curtain located between the gratings is equipped with an air diffuser made in the form of a grating with slots and installed above the upper grate, while the bending of the curtain is located around the perimeter nozzles, and lattice slots are placed between the threads of the threads. In addition, the curtain is made of an airtight material, for example, of a plastic film, and its length is equal to the length of the threads.

In Fig.1 presents a dust collector with a breakout on the side wall of its housing, General view; figure 2 is the same side view; Fig. 3 shows a dust collector in longitudinal section with a raised upper nozzle grill (for its regeneration); in Fig.4 - node I in Fig.Z; figure 5 - group layout of dust collectors in plan; Fig. 6 is a graph showing the reduction in aerodynamic drag of the nozzle in the regeneration stages (1 — constant back-flush, 2 — pulse back-flush).

The dust collector consists of a housing 1 with nozzles 2,3 and 4, respectively, for the entry of dusty and the outlet of purified air, as well as for supplying air to the reverse regenerative purge. A filter nozzle 5 is mounted in the housing 1 and consists of a fiber filter nozzle 5, consisting of a lower lattice 6 fixed to the housing 1 and an upper movable lattice 7, between which filaments 9 are fastened on rods 8. Over the upper lattice 7 and under the lower lattice b, grids 11 are installed. A rod 12 is secured to the upper grill 7, which extends upward from the housing 1 through the pipe 13 with the gland seal 14 and connected by means of a gear transmission to the electric drive 15. Moreover, the rod 12 is attached to the grill 7 through the spring 16. In the upper partorpusa 1 below the nozzle 4 has a grille 17 with the slits 18, and at its center is fixed pipe 19 for the passage of the rod 12.

The nozzles 3 and 4 are equipped with valves 20, A curtain 21 made of an airtight material, for example, polyethylene film, is fixed along the perimeter of the gratings 6 and 7, and the drape of the curtain 21 is equal to the length of the thread 10 when they are kept 0 between the gratings 6 and 7.

The dust collector operates as follows.

Dusty air enters the housing 1 through the nozzle 2, passes through the filter nozzle 5, cleans of dust, and exits through the nozzle 3, in which the valve 20 is in the open state and the valve in the nozzle 4 is closed. The dust removal process is carried out with

0 the state of the filter nozzle 5, when its upper grill 7 is approximated by lowering the rod 12 to the lower grill 6 so that the webs 9 and individual threads 10 uniformly fill the entire space

5 between the gratings, form a multilayer nozzle with a branched network of channels for the passage of air. The presence of grids 11 at the inlet and outlet of the filter nozzle 5 provides a uniform layout of the webs 9 and

0 prevents them from falling down or blowing air up. In addition, the prevention of leakage of dusty air through the peripheral zones of the nozzle 5 is achieved by installing between the grilles

5 6 and 7 along their perimeter of the continuous curtain 21. Depending on the dispersion of the field particles, their amount in the air, the required degree of dust removal, the thickness and the hairiness of the filaments, a density

0 laying of threads and the height of the layer of the filter nozzle 5. It was experimentally established that when filling the spaces between the gratings with threads of at least 5%, the degree of air purification from

5 dust 2 microns in the amount of 99% and above.

As the filter nozzle 5 becomes clogged, its aerodynamic resistance to air passage increases. Upon reaching the critical value of this

0 resistance, usually determined by reducing the air flow through the nozzle by about 10% of the initial value, the regeneration of the filter nozzle 5 is required. This stops

5, the supply of dusty air by closing the valve 20 in the nozzle 3, turns on the electric actuator 5 and by means of the worm gear, the upper grill 7 is lifted up close to the grill 17 and the nozzle 5 is back-blown with air, which is supplied through the nozzle 4 with the valve open 20. The slots 18 of the lattice 17 are located opposite the channels between the webs 9 of the filaments 10, which creates an intense downward discharge of dust particles from the canvases of the filaments due to their vibrations and longitudinal blowing when the air stream is directed. The regeneration efficiency increases, and its cycle time is reduced, if the purge is intermittent, by pulses, which is achieved by closing-opening the valve 20 in the nozzle 4. The presence of a curtain 21 along the perimeter of the gratings 6 and 7 forms an air flow during regeneration through the channels between the sheets 9 and prevents the blowing of dust and its accumulation at the walls of the housing 1, thereby raising and lowering the grating 7 is not difficult.

The fixed installation of the grill 7 in the upper position is predetermined by the directional movement of the rod 12 through the holes in the pipe 19 and then through the pipe 13c with the packing 14 outward, the stroke of the rod 12 being determined by limit switches in the electric. drive. The attachment of the rod 12 to the grating 7 through the spring 16 prevents a hard collision of the gratings 7 and 17 when it reaches its upper position and gives a primary mechanical shaking impulse for the threads 10. After completion of the regeneration process of the nozzle 5 (it was experimentally determined that 3 ... 5 air pulses of 4, .. 5 seconds each) valve 20 in the nozzle 4 is closed, the upper grille 7 by means of the rod 12, moved el. with the drive 15, it lowers, the web 9 of the threads 10 unfolds, filling the space between the gratings 6 and 7 and the abutment close to the curtain 21, thereby creating a nozzle 5 suitable for a new dusty air filtration cycle, which starts to work when the valve 20 is opened in the nozzle 3.

The implementation of the filter nozzle in combination with a flexible curtain, reinforced along its perimeter, significantly improves the quality of the dust collector, because reduces leaks of dusty air in the peripheral zones of the filter nozzle due to its denser packing in these zones and elimination

air flow through slotted channels between the edges of the nozzle and the dust collector body. Efficient regeneration of the nozzle is ensured in the dust collector due to the fact that it has been previously stretched on

the entire length of the nozzle thread is blown by air flows, and they are fed along the threads from top to bottom by pulses that provide a stable discharge of dust particles to the hopper.

Simplification of the design of the dust collector is achieved due to the fact that the regeneration process is performed by air pulses instead of mechanical ones from the vibrator, which determined a complicated system of transmitting vibrations to the nozzle and protecting the dust collector body and supporting structures from them.

Claims (2)

1. A dust collector comprising a housing with nozzles for supplying purge and dusty air and removal of cleaned filter fiber nozzle located between the upper and lower grilles made of fastened in the form filaments of threads, the lifting mechanism of the upper grill in the form of a vertical rod and a flexible curtain placed between the grilles, characterized in that, in order to reduce leakage of dusty air in the peripheral zones of the nozzle and ensuring efficient regeneration, the dust collector is equipped with an air distributor made in the form of a grate with slots and installed above the upper grate, this flexible curtain is located around the perimeter of the nozzle, and slots of the lattice are placed between the threads of the threads. 2. The dust collector according to claim 1, characterized in that the curtain is made of airtight material, for example from a plastic film, and its length is equal to the length of the threads. i I am i /5 Vn O / "/ nineteen/ W IN 77 i 7 g / j 7 77 5 17 / - "Ј 3 / 20 f -7 -2 / Shg. 1 to is LALLUILLLLM v; -L I Fig. H Z ff- / fSOO fOOQ W ЈOQ too / 10 & Editor A. Egorova / g 6 Compiled by V. Sergeev Tehred M. Morgenthal F. Ts 4 -f $ Fig 5  used im / ww twenty 2 $ 30 d & t.ccK. Proofreader S. Lisina