SU1006778A1 - Swirl nozzle for dust suppression - Google Patents

Abstract

VORTEX JETS FOR DUSTING, including a housing with an outlet and inserts with a central hole and external inclined grooves, which, in order to increase the efficiency of dust suppression, by controlling the water plume with increasing torch density in its central particle, the insert is made guiding step and on the side of the outlet opening is provided with a tubular nozzle, which is installed with the formation of an annular space between its outer surface and the guide stulen1) Yu vkladpia, the outer diameter of the tubular nozzle and the diameter of the liner w .schey stage are in a ratio of 0.3 5 07I where d - diameter of the outer tubular O) nozzle; D is the diameter of the guide step of the insert.

Description

The invention relates to the mining industry and can be used to control dust when working tunneling machines with drilling type executive bodies in coal mines. The nozzle is known, including the core and the body with outlets, and a cylinder liner with a central hole and external screw channels. 1 b The disadvantages of such a nozzle are its insufficient reliability and efficiency. : Closest to the invention in terms of technical essence: is a nozzle, comprising a housing with an outlet and an insert with a central hole and external inclined grooves 2. The disadvantage of such a nozzle is the low efficiency of dust suppression, due to the impossibility of controlling the density of the water plume. The purpose of the invention is to increase dust suppression efficiency by providing density control, water plume by increasing the density of the plume in its central part. This is achieved by the fact that in a vortex nozzle including a housing with an outlet orifice and with a central hole and outer grooves The liner is made with a guide step and is provided with a tubular nozzle on the side of the outlet orifice, which is installed to form an annular space between its outer surface and the direction L guide bushing stage, direct the outer diameter of the tubular nozzle and the diameter of the guide bushing stages are in the ratio: 0.3 0.7, where d - diameter of the outer tubular nozzle; O is the diameter of the guide step of the insert. ; Fig. 1 shows a vortex nozzle for dust suppression, a longitudinal section; figure 2 - the same, the version of execution; Fig. 3 is the same, another embodiment / in Fig. 4 is a section A-A in Fig. 1-3; Fig. 3 is a diagram of the installation of a vortex nozzle in a water-air nozzle. Vortex The nozzle for whitening contains a body 1 with an outlet 2 and a liner 3. The insert 3 has a Neuchravl stage 4 and a central hole 5. On the outer surface of the insert 3 there are external eddy grooves b, which tilt to the longitudinal axis 7 of the nozzle ensures a tangential appearance The component for rotating water passing through the outer vortex-forming grooves 6. The liner 3 on the side of the outlet opening 2 of the housing 1 is provided with a tubular nozzle 8, a through hole in which The bore hole 5, the tubular nozzle 8 can be made of different lengths and, in accordance with the length, be located inside the housing i (Fig.) inside the outlet 2 (fig.2j, or exit through the outlet 2 beyond the limits of the housing 1 (fig.Z), be stationary along body 1 or move, have a cylindrical outer surface or any other, for example conical or curvilinear, but regardless of its shape and size, it is intended to redistribute the density of the water plume by reducing the density of the water torch The spherical water plume increases in its central part along the longitudinal axis 7, which allows, depending on its length, to change the shape of the water plume formed and its density. The vortex nozzle for dust suppression works as follows. When the vortex nozzle is connected to the water stale, the water enters the central opening 5 and the external vortex-forming grooves 6 of the liner 3 under the action of pressure. The water leaving the central opening 5 has translational motion. The water leaving the outer eddy grooves 6, besides the translational motion, also has a rotational motion. The water flow 9 exiting from the outer vortex-forming grooves 6, by a tubular vortex nozzle 3, in a given degree, is isolated from the water flow 10 coming out of the central hole 5, therefore when leaving the grooves b the water flow rotates along the helix 9 does not have a rotational effect on the progressively moving water stream 10, as a result of which two water streams 9 and 10 are moving more or less in isolation. The isolated movement of the two streams continues also after the end 11 of the insert 3 in connection with the fact that behind the end 11 a trace appears - the interface 12 of the two streams. As a result, the rotating water stream 9 does not contribute to the rotation of the water stream 10 and the water from the stream 10 does not move to the periphery. Upon further movement at the nozzle exit, a water plume arises, consisting of two practically isolated parts 13 and 14. The central part 13 of the flow along the longitudinal axis 7 contains a large amount of water, and the periphery part 14 of the flow contains less water, i.e. . only the water that came out of the swirling outer grooves 6.

In operation, the vortex nozzle 15 in the water of the IIHom nozzle 16 is a pipe into which air is supplied by the fan 17, the water plume provides less resistance to air movement, since the central part 13 of the torch containing a large amount of water has & the direction coinciding with the direction of the air, and the peripheral part 14 of the torch, moving at an angle to the direction of the air, has

reduced amount of water due to redistribution of water plume density.

The vortex nozzle for dust suppression improves the productivity of the created air / air jet, increases the speed of the air / air jet at the exit of the nozzle, which improves the efficiency of dust suppression and ventilation of the protective space in which the drill body of the driving combine is located.

The use of the invention will allow to improve the working conditions in the tunnels of the drilling type.

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FIG. 2 1

Claims (1)

Vortex nozzle for dust pressure, including a housing with an outlet and contributions with a central hole and external inclined grooves, characterized in that, in order to increase the efficiency of dust suppression by providing regulation of the water torch with an increase in the density of the torch in its central part; the liner is made with a guiding step and is provided with a tubular nozzle on the outlet side, which is installed to form an annular space between its outer surface and the guiding step of the liner, while the outer diameter of the tubular nozzle and the diameter of the guiding step of the liner are in the ratio 0.3. <| Ί0.7, __ g where d is the outer diameter of the tubular nozzle; D is the diameter of the guide step of the liner. SU ... 1006778