SU735798A1 - Apparatus for sprinkling dust-generating surfaces - Google Patents

Description

. The invention relates to the mining industry and can be used to bind dust on the surfaces of ledges and dumps by a career, <a 'and also for fixing dusty surfaces of the tailings.

Known radial irrigation installation intended for irrigation of large areas of bulk, consisting of a housing mounted on a tripod, in which there is a rotating pipe with a tee, curved pipes and water spray nozzles [1].

The disadvantage of such a device is the low range of the jet _{A of the} irrigation fluid and the low productivity of work on fixing dusty surfaces.

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Closest to the invention is a device for irrigation of dusty surfaces in open cast mining., Consisting of a tank 25 for irrigation fluid mounted on the chassis of a car, a vortex pump and means for supplying irrigation fluid, made in the form of a set of flow hoses and a fire barrel [ 2].

The aim of the invention is to increase the productivity * of fixing dusty surfaces, ensuring the range of transfer of irrigating ’liquid to dusty surfaces and uniformity of their coverage by using the kinetic energy of a reactive gas-air jet, as well as preventing losses and changing the orientation of the jet of irrigating liquid.

This is achieved by the fact that the means for supplying the irrigation liquid is made in the form of a turbofan, equipped with a spray nozzle and mounted on a trailer trailer, and the tank for the irrigation liquid is equipped with a pneumatic emulsifier installed inside it, while the spray nozzle is made in. in the form of a chamber with an annular gap formed by an external conical and internal profiled casings, and a central slotted mixer equipped with ribs located on its outer surface and forming channels with a profiled casing for ejecting cold air into the jet gas jet, and installed inside the chamber.

The lower part of the annular gap at the ’exit of the spray nozzle is made with the possibility of overlapping, and the trailer trailer is equipped with an inclined and rotary platforms.

In FIG. 1 shows a device for irrigating dusty surfaces; in FIG. Fig. 2 shows a diagram of the supply of irrigation fluid from the tank to the spray nozzle; Fig. 3 shows a spray nozzle; in FIG. 4 shows a section A — A in FIG.

The device for irrigation of dusty surfaces consists of a car 1 with a tank 2 for irrigation fluid, a trailer trailer 3, on which a turbofan 4 is installed, equipped with a spray nozzle 5. The trailer trailer 3 is equipped with an inclined b and rotary 7 platforms, which allow changing the orientation of the jet of irrigating liquid. Inside the tank 2 giving irrigation fluid installed pneumatic emulsifier 8, which is a perforated pipe. Pump 9 is designed to supply irrigation fluid from the tank 2 to the spray nozzle 5.

The spray nozzle 5 consists of an internal profiled casing 10 and an external conical casing 11, forming a chamber giving the working mixture with an annular slot 12. A central slotted mixer 13 with ribs 14 and rectangular windows 15 is installed inside the chamber. Between ribs 1 4 of the slotted mixer 13 and the profiled casing 10 channels 16 are formed for ejecting cold air into a reactive gas-air jet. The spray nozzle 5 is attached to the turbofan 4 through the flange of the slotted mixer 13. To increase the range of the gas-air jet, blades 17 are installed at the outlet of the slotted mixer 13. The device operates as follows. '45 j When the turbo-engine is turned on. of the compressor 4, the compressed air enters “from the engine compressor into the tank” 2 giving the irrigation liquid and, passing to the tubes of the pneumatic emulsifier 8, mixes the reagents in the tank 2! After mixing in the tank 2, the irrigation liquid is pumped into the spray chamber of add-on 5 by pump 9. In the channels of the nozzle 5, the ejected air is divided along two circuits.

Part of the air enters through right-angle coal windows 15 of the slit mixer.

into the reactive gas-air jet, 'lowering it’’ temperature, and part of the ejected air forms an annular stream of cold air between the profiled casing 10 and the slotted mixer 13, which prevents the fixing reagents that are part of the irrigating liquid from overheating by the gases of the jet.

From the chamber of the spray nozzle 5, the irrigation fluid under pressure exits through the annular gap 12 into the reactive gas-air jet, is crushed and transferred to the dusty surfaces due to the kinetic energy of the reactive gas-air jet, while the annular gap overlaps by about 1/3 of the bottom at the bottom of the outlet spray nozzle helps prevent irrigation fluid loss. The orientation of the jet of irrigating fluid is carried out by changing the position of the inclined 6 and rotary 7 platforms. ''

- The proposed device for irrigation of dusty surfaces provides the transfer of irrigation fluid to distances of up to 150 m and uniformity of coverage of the treated surface.

Claims (2)

1..Catalogue-reference book Equipment.-And devices for complex dedusting of coal mines, cuts and processing plants, -M., 1975, p.208 2. Bogatyrev. CM. Machine for irrigation of mines in the quarries of the Altyn-Topkaksky combine. - Sat Questions of struggle with dust in quarries, M., 1963, p. 40-41 (prototype). El ig.2