SU1051315A1 - Dust-trapping unit with water recirculation - Google Patents

Abstract

DUST COUPLING UNIT WITH WATER RECYCLING, including a dust extractor; Aspirator fan with impeller, housing and inlet pipe with a virtual collector and water-lifting tube, a splitter divider and water collector, a main collector and a water collector; a vortex generator, made in the video disk with blades with zamkami located on its inner surface, with the vortex generator connected to the water lifting one. The edges of the blades adjacent to the lifting tube are set tangentially to the circle coaxial with the lifting tube. with with O1

Description

The invention relates to mountain circulation and can be used in dust collecting units with recirculation of water for cleaning the air from dust in combine mining workings of coal mines. Known dust removal unit for airless dusting during the operation of roadheaders, including iTQp de-dusting valve and sludge separator. The disadvantage of this dust collector is that the sludge is drained onto the production soil, which: worsens the working conditions. Closest to the proposed technical essence and the achieved effect is a dust collecting unit with water recirculation, which includes a exhaust fan with an impeller, a housing and an inlet pipe with a water collector and a lifting pipe, a sludge separator and a C2 collector. The disadvantage of this device is poor water dissipation and low, operational reliability. The purpose of the invention is to improve water dispersion and increase operational reliability. . This goal is achieved by the fact that the dust collection unit with water recirculation, which includes a dust extraction fan with a waste wheel, a housing and an inlet pipe with a water collector and a water lifting tube, a sludge separator and a water collector, is equipped with a vortex plate, a dial and a discharger and a water collector, which is formed with a slot and a water pipe and a collector with a water pipe and a collector on its internal surface are blades with a lip, with the vortex generator connected to the water-lifting tube, and the edges of the trap adjacent to the water-lifting tube are set tangentially to the surrounding coaxially under the lifting tube. FIG. 1 shows a dust collecting unit with water recycling, a longitudinal section; FIG. 2, node I in FIG. 1, in FIG. 3 - tr, section A-A in FIG. 2. The water recycle dust collection unit consists of a dust extraction fan 1, a separator sludge 2 and a water collector 3. Dust suction fan 1 contains an impeller 4, a housing 5 and an inlet pipe 6. A circular water ring is located around the inlet pipe 7 with jB openings for exit. to which the water lift tube is connected 9. At the intake end in. before removing the tube 9, the transducer is installed 10. The cone of their transducer is. vortex formation above the surface of the water to raise the water. The vortex generator 10 is submerged in water 11, which has a gas collector 3 up to level 12. The vortex generator 10 is made in the form of a disk 13 and blades 15 located on its lower end 14. FIG. 3 shows the design of the blades 15 of a linear shape, however, the shape of the blades 15 may also be curvilinear. But, regardless of the shape and size of the disk 13 of the blades 15, their peculiarity is that the edges 17 of the blades 15 adjacent to the axis 16 of the lifting tube 9 are tangent to approx. 18, which is made coaxial with the intake end of the lifting tube 9. A pipe 19 serves to drain the sludge from the sludge separator 2 into the sump 3. FIG. 2 also shows the air flow 20, the direction 21 is rotated. no vortex and finely atomized droplets 22. The operation of the dust collecting unit with recirculation, water proceeds as follows. When the dust collecting unit is working together with air, the dust from the dust generation source is sucked in and the dust inlet pipe 1 is fed into the inlet pipe. Under the action of a vacuum created by the fan 1, in the inlet pipe 6, in the water collector 7 and the lifting pipe 9 a vacuum is also generated . When the dust collecting unit is operating, the level 12 of water 11 in the sump 3 is maintained below the lower end 14 of the disk 13 with the blade 15 partially submerged in water, resulting in free space for air to pass from the sump 3: IN the inlet pipe 6 through the inter-blade channels between the blades 15 vortex generator 10, the water-lifting tube 9, the water collector 7 and the holes 8. The air flow 20, the passage between the blades 15, creates rotation of the air flow, as a result of which a 1Q vortex generator appears on the surface there is a vortex with a rotation direction 21. Under the action of a whirlwind from the surface of the water in the form of finely dispersed droplets22 water is disrupted, picked up by the air flow, and through the water-lifting tube 9 the formed air-water flow enters the water collector 7. mixed with sucked dusty air. Part of the dust is moistened with water in the inlet pipe biv the form of water, dust and air and sludge enters the intergrip channels of the impeller 4. Here it is)

further air purification proceeds. from the dust, after which the air is fed into the sludge separator 2. After separation of the sludge goes into the atmosphere of production, and the sludge from the sludge separator 2 is discharged through the tube 19 into the collector 3, mechanical impurities 23 are deposited on the bottom of the catchment 3, and the clarified water enters the inlet pipe 6 for air purification from dust.

When moving the dust collection unit and feeding the dust collection unit with fresh iodine

possible change of water level in the sump. When the water level in the sump is reduced due to the vortex generator, the process of supplying water from the sump to the inlet pipe of the dust extraction fan does not stop, thereby increasing the operational reliability of dust cleaning. The operation of the dust collection unit with recirculation of water occurs without a pump, without any breakdowns associated with its presence, as a result of which the reliability of the dust collection unit of the unit is increased.

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Claims (1)

. WATER RECYCLING UNIT WITH A WATER RECIRCULATION, including | A suction fan with an impeller, a casing and an inlet pipe with a water collector and a water pipe, a sludge separator and a water collector, which can be heated up and sprayed, with the aim of improving water to increase operational reliability, it is equipped with a vortex generator made in the form of a disk with blades with yomki located on its inner surface, while the vortex generator is connected to a water-lifting tube, and the edges of the blades adjacent to water The volumetric tube is mounted tangentially to a circle coaxial with the water-lifting tube.