SU1724893A1 - Sprinkler - Google Patents

Abstract

Usage: in the mining industry to reduce the dustiness of the air during the destruction of mountain ranges by mining machines and when overloading the rock mass. SUMMARY OF THE INVENTION: The device comprises a reflector in front of an axial channel for supplying fluid. The reflector is made in the form of a plate. The protrusions and grooves alternating between them are located on the surface of the plate. The surface of the protrusions is made concave in the direction of the axial channel. The projection of the longitudinal axis of the axial channel onto the plate surface is perpendicular to the longitudinal axis of the grooves. 3 ill., 1 tab.

Description

The invention relates to the mining industry and can be used to combat dust in the destruction of a mountain range or at points of overload.

Nozzles are known, comprising a housing with a cylindrical fluid supply channel and an insert with intersecting grooves. However, these nozzles have a low efficiency of dust pressure, especially for the growing dust.

A device for suppressing dust is known, which includes a water supply pipe, a sleeve with an outlet nozzle and a threaded nozzle with a reflector, the diameter of which is equal to the diameter of the outlet nozzle. The dimensions of the torch and the dispersion of liquid droplets are controlled by changing the gap between the exit nozzle and the reflector.

A disadvantage of the known device is the low efficiency of the dust pressure associated with a low total dynamic density of the droplets.

The aim of the invention is to increase the efficiency of irrigation by increasing the content of fine droplets in the irrigation plume.

For this purpose, in an irrigation device comprising a housing with an axial channel and a reflector installed in front of the axial channel with a holder, the reflector is made in the form of a plate, on the surface of which are alternating protrusions and grooves, with the surface of the protrusions being concave towards the axial channel and the projection of the longitudinal axis of the axial channel onto the plate surface is perpendicular to the longitudinal axis of the grooves.

FIG. 1 shows the proposed device, a longitudinal section; in fig. 2 - part of the surface of the reflector; in fig. 3 shows a projection of the longitudinal axis of the axial channel onto the surface of the reflector.

The device comprises a housing 1 with an axial channel 2 and a thread for connection to the pipeline. The reflector 3 with the help of the holder 4 is mounted on the housing in front of the axial channel 2 and fixed in a predetermined position by the pressure nut 5. The reflector is made in the form of a plate with side walls 6 to shape the liquid torch, on the surface 7 of which there are alternating projections 8 and grooves 9 The axial channel 2 and the reflector 3 are arranged so that the projection of the longitudinal axis of the channel 2 onto the plate surface is perpendicular to the longitudinal axes of the grooves 9 (a 90 °). The surface of the protrusions 8 in the direction of the axial channel 2 is made concave. The opposite surface of the protrusions may be convex or flat. In order to obtain on the surface of the reflector 3 the effect of cavitation of the liquid, it must correspond to the known ratio

,

where S is the distance between the protrusions, mm

h - height of protrusions, mm

The device works as follows.

Water under pressure enters the housing 1 and is directed along the axial channel 2 to the surface 7 of the reflector 3. Upon impact of the surface 7, the water stream is converted into a flat torch, and some of the water, following the Coanda effect, flows around the concave surface of the protrusion 8 and enters the grooves 9 where vortices with ventilated air occur

caverns As the cavities move and grow, the air from them goes into the liquid and additional bubbles form, due to which

the content of fine droplets increases and the overall dynamic density of droplets in the plume increases. Comparative tests of the proposed and known devices are carried out at a water pressure of 1.5

MPa and the flow rate of each irrigator is 18.7 l / min with an initial air dustiness of 1000 mg / m3. The irrigation device has an axial bore diameter of 3 mm and a height of protrusions on the reflector plate of 0.8 mm. The table shows the test results.

Analysis of the data in the table shows that the proposed device has a higher dust suppression efficiency by residual dust by 1.48 times, and the dynamic density of fine droplets increases by 1.8 times.

Claims (1)

Invention Formula Irrigation device comprising a housing with an axial channel for feeding fluid, attached to the housing holder, on which in front of the axial channel is a reflector, characterized in that, in order to increase irrigation efficiency due to an increase in the content of fine droplets in the irrigation plume, the reflector is made in the form of a plate, on the surface of which alternating between the protrusions and grooves, while the surface of the protrusions is made concave towards the axial channel, and the projection of the longitudinal axis of the axial channel on the surface of the plate is perpendicular longitudinal axis of grooves. H FIG. i Phage.2 .-: y t, ... j - F Fi.3