SU1409761A1 - High-pressure air-water ejector for dust suppression systems of mining machines - Google Patents

Abstract

The invention relates to the field of dust control in the mining industry and may be. used to ensure the air during the operation of combines and other machines in the mine workings. The goal is to increase the productivity and capacity of the ejector, as well as to increase the compactness of the structure. The high-pressure air ejector includes a guiding device (NL) mounted in the casing with blades 2 and an additional chamber (k) 3; 3. A nozzle 7 is fixed. When the ejector is operating, high-pressure water is fed through the nozzle 7 into the housing 1, where vacuum is formed and sucked air is sucked in. A slurry-air flow is formed due to wetting of the pump. IR psheobrazova- audio, the swirled flow on the blades 2on mb, increased flow cross-section. This makes dust dust more effective. The blades 2 of the HA are hollowed, and in them are placed the supply lines 6.2. f-ly, 4 ill. from 1

Description

The invention relates to the field of dust control in the mining industry, and can be used to provide air for the operation of combines and other machines in the mine workings of mines and mines.

The aim of the invention is to increase the productivity and efficiency of the ejector, as well as to increase the compactness of the structure.

Fig, 1 shows a high-pressure gector with an electric booster gas pump, section; FIG. 2 is a sectional view of FIG. in Fig. 3, a high-pressure ejector with hydraulic drive from the oil mating of a combine or mechanical support, expansion; Fig. 4 shows a high-pressure ekigor with hydraulic actuator operating by taking hydraulic power I from the irrigation system of the combine.

The high-pressure water-air ejector includes a guiding device mounted in the housing 1 with lobes 2 and an additional chamber 3,

which has a booster pump 4 and an electric motor 5, blades 2, which are stitching the wing profile, are fixed between the ejector body 1 and the additional chamber 3, the blades 2 can be made hollow, and supply lines 6 are located in them this irrigation systems to the booster 4: wasp 4 and electric power from the electrical unit of the machine or a separate start to the electric motor 5, At the end of the additional camera 3 installed: in front of the housing 1, the for- mous unit 7 is mounted.

In a high-pressure ejector with a booster pump 4, driven by a 1 Hydraulic motor 8, powered by a Yaslo station of a combine or mechanical support (| FIG. 3), aerodynamic flow ifcacTb and other component parts such as in the same ejector, That additional Yamera 3 is made with smaller size NJDH, as well as the size of the hydraulic motor 8 Smaller than the electric motor of the same power. Less camera 3. The distinct advantage of this design.

Fig, 4 shows the scheme of the ejector with | hydraulically powered booster pump 4, the hydromotor 8, supplied with water from the drainage conduit 9 of the 10 Ooroh Yeni system, for this irrigation water

.

with

Yu .

20

25

Jq 40

 . - -

35

50

the system should have a pressure of approximately I, .0 MPa greater than with conventional irrigation, t, its order of 2.0 MPa, and the flow rate of the ejector should be 15–20% of the total flow spent on irrigation. This additional power is communicated to the water in the pumping installation of the irrigation system located on the drift, transmitted through the bottomhole conduit to the combine and taken out by a high-pressure ejector. Pressure drop up to 2.0 MPa can be realized ... is a typical equipment of the irrigation system of increased reliability

(tko-so).

During the operation of the ejector, high-pressure water through the nozzle 7 is supplied to the housing 1 where a vacuum is formed, as a result of which the dusty air is sucked in. Sprayed water wets the dust and forms a slurry stream from which the sludge particles fall onto the working soil.

If the day off. the flow is ejected into the food source, the flow cross-section can be increased by twisting the flow on the blades 2 of the guide vane, which improves the efficiency of pressure reduction,

The first of the considered options is the most versatile, since electricity and tap water are available in all mechanized holes. The third option is designed for mechanisms equipped with hydrospoolers, tunneling and shearers,

The technical and economic advantages of the invention are that reducing water consumption for air ejection reduces the moisture content of the coal; a high pressure in the ejector allows to increase its dedusting efficiency, t, h, and mainly on the most dangerous for the health of fine dust, improve working conditions in the bottom and increase its performance, pressure drop directly in the ejector while using typical system equipment reliability irrigation costs much less than the well-known high-pressure irrigation equipment, in which a high pressure is created in the entire drift pump installation system.

Claims (2)

Invention Formula I. A high-pressure water-air ejector for systems of dust by pressure machines, including a guiding device mounted in a housing with a locking nozzles for spraying water and supply lines, in order to increase productivity and improve traction To achieve this, as well as to improve the compactness of the structure, the ejector is equipped with a camera mounted coaxially in the housing it is driven by a booster pump, while the blades of the guide vane are attached — between the ejector body and the chamber, and the nozzle is installed at its end, 2. The pop-3 ejector is different from the fact that the blades of the guide vane are hollow and the supply lines are located in them. 3, Ejector according to claim 1, characterized in that the booster pump is equipped with a hydraulic actuator with a hydraulic motor mounted in the chamber.  6 Mac ffomaf /// DUie.Z 4 Editor And, Rybchenko Compiler and Alpagulov Tehred L. Oliynyk Proofreader S. Cherni i Order 3462/32 Circulation 426 VNIIPI USSR State Committee on affairs of inventions and discoveries 113035, Moscow, Zh-35, Raushsk aab., d. 4/5 one/  t // W // fieL Subscription