SU985317A1 - Air-water ejector for mine cutter-loader - Google Patents

Description

(54) WATER AIR EJECTOR FOR MINING COMBINE

The invention relates to the mining industry and can be used to reduce the dustiness of the air, improve ventilation and improve heat removal during the operation of borehole miners of coal mines.

Known water-air ejector, comprising a cylindrical body, made with a slit on the convex surface in the exhaust part of the ejector, and irrigation nozzle l.

However, this ejector has a small jet range.

Closest to the present invention is a water-air ejector dd of mining combines, including a housing and a water nozzle 2.

A disadvantage of the known ejector is the small angle of the solution of the water-jet plume and the low efficiency of dust suppression.

The purpose of the invention is to increase the efficiency of dust suppression and improve the cooling of the executive body of the combine.

This goal is achieved by the fact that the water-air ejector for a mining combine includes a housing and a water nozzle, is equipped with a hollow nozzle mounted coaxially inside the housing

with the formation of an annular gap between the inner surface of the housing and the outer surface of the nozzle, and the deflection of blades placed in the annular gap, with one end of the deflecting vanes fixed to the tip and others on the inner surface of the housing.

FIG. 1 depicts the proposed

10 is a device for supplying an airborne flow of a drilling combine, longitudinal section in FIG. 2 is the same longitudinal section of the version with a cylindrical-conical body in FIG. 3 - cut

15A-A in FIG. 1, in FIG. 4 is the same, an example of the installation of a device for supplying a water-air flow on a boring machine.

The device for supplying the water-flowing stream 20 includes a housing 1 and a water nozzle 2. The housing 1 of the device for supplying the water-air flow can be of any shape — as shown in FIG. 1, the cylinder is conical, as shown in FIG. 2, conical, toroidal, but regardless of the shape of the body 1, a feature

devices for the supply of water-air flow boring combines30

Claims (2)

It appears that it is equipped with a hollow nozzle 3 located inside the housing coaxially with the nanometer. The nozzles 3 are designed to be formed along the axis of the housing 1 of the central continuous flow 4 at high output speed and long range. The outer surface of the nozzle 3 and the inner surface of the housing 1 form an annular radial space 5 of the peripherally rotating flow 6. In order to create rotation of the peripheral flow in order to increase its opening angle in the annular space 5, deflecting vanes 7 are installed, whose single ends 8 are fixed on the nozzle, and the other 9 are on the inner surface of the casing 1. The device operates as follows. A device for supplying a water-air flow is installed on the driving drill 10 after the fan 11 directly on the fencing shield 12, which separates the protective space 13, where the actuator 14 rotates from the rest of the production. The device for supplying the airborne flow of the drilling and drilling combine works together: with suction of dusty air from behind the fencing shield 12, for which a dust collecting unit 15 is installed in the preparatory excavation, the output of the device for supplying the airflow flow is directed to the bottomhole 16. Simultaneously, with the inclusion of the dust suppressor unit 15 is supplied with water by means of a water nozzle 2 and switches on with a fan 11 connected to a device for supplying a water-air flow. The air from the fan 11 enters the device, mixes with the water, resulting in a water-air flow 17. The water-air flow in turn consists of two FLOWS centrally of the flow-through stream 4 and the peripherally rotating flow b. Air with water, having passed through the hollow nozzle 3, forms the central continuous flow 4, which is directed to the central part of the bottom and is characterized by a large initial axial velocity and long range. This water-air stream moistens the central part of the bottom, displaces air from it, ventilates this most distant part, and carries off heat; from the furthest part of the executive body, entering the dust collection unit to remove dust. A part of the air with water passes through the annular radial space 5. Here, under the action of the deflecting vanes 7, the air and water acquires a rotational motion. Water-flow due to centrifugal force from rotation has a large flare opening angle, as a result of which a peripherally rotating water-air tray b provides an increase in the area of coverage of the actuator and the resulting increase in dust suppression efficiency, improved cooling and improved ventilation in the peripheral areas of the non-. regulatory body. The proposed device for supplying the air-water flow of a boring combine harvester provides improved ventilation of the protective space, cooling of the actuator and suppression of dust behind the barrier shield, reduces the load on the dust-collecting unit. Improved ventilation and improved cooling, in addition to improving working conditions, reduce the heating of the cones of the actuator, thereby increasing their service life. A water-jet ejector for a mining combine, including a housing and a water nozzle, characterized in that, in order to increase the efficiency of dust suppression and improve cooling of the executive body of the combine, the water-air ejector is equipped with a hollow nozzle installed coaxially inside the housing to form an annular gap between the inside of the body and an annular gap inside the body and between the body and the body. the body and the outer surface of the nozzle, and deflecting vanes located in the annular gap, with one end of the deflecting vanes attached to the nozzle e, and others - on the inner surface of the case. Sources of information taken into account during the examination 1. USSR author's certificate №589429., Cl. E 21 F 5/00, 1973. 2. Equipment and devices for complex dedusting of coal mines, cuts and processing plants. Catalog. M., 1974. . . .. J . 4 mouths /. 4 D-LJLI- I "T 3 & and FIG. f / /(9 / 7 R  / J NT-n N7 / -t t FIG. at /five h  FU8.