SU723296A2 - Liquid and suspension spraying nozzle - Google Patents

Description

The invention is suited to the technique of spraying liquid tepl, pulp and other suspensions and can be used in the alumina, cement, and chemical industries. From the main author. No. 565716, a well-known nozzle for spraying liquids and suspensions, comprising a housing with an axial nozzle and a cylindrical twisting chamber coaxially located therein with tangential channels in its walls enclosed from the outside in a rotary sleeve with holes longitudinal slits, and the holes in the sleeve are in the form of spiral grooves inclined with respect to the slits at an angle of 15-75. However, the impossibility of a smooth control of the flow rate of the fluid, as well as an independent control of the flow rate and the shape of the flame, impedes the control of the process. The purpose of the invention is to expand the range of regulation. This is achieved in that the axis of the twisting chamber is installed with the possibility of longitudinal movement and equipped on the output end with a regulating needle rod, the diameter of which is 0.20, 7 from the diameter of the twisting chamber. The drawing shows a spray nozzle for liquids and suspensions, a longitudinal section. The nozzle includes a housing 1 with an axial nozzle 2 and a cylindrical twisting chamber 3 coaxially disposed therein with tangential channels 4 in its walls made in the form of longitudinal slits. The twisting chamber 3 is enclosed from the outside into a rotary sleeve 5 with openings 6 made in the form of spiral grooves inclined with respect to the tangential channels 4 at an angle of 1575. A shaft 7 is mounted along the axis of the swirling chamber 3, provided with an adjusting needle 8 on the output end and connected to the mechanism 9 for longitudinal movement. The nozzle works as follows. The sprayed liquid under pressure is fed into the internal cavity of the housing 1 and then through the channel.

formed by the intersection of the hole 6 in the rotary sleeve 5 with the tangential channel 4, enters the twisting chamber 3, acquiring a rotational motion.

Next, the swirling flow moves along an annular channel formed by the inner, walls of the swirl chamber 3 and rod 7 in the direction to the exit nozzle 2 and is ejected into the environment in the form of a spray torch.

The shape of the flare is adjusted by turning the sleeve 5. This moves along the axis of the intersection of the hole b in the form of a spiral groove with tan channels and 4, the distance between the nozzle 2 and the fluid inlet channel into the swirl chamber 3 changes, which causes the flare angle to change at the outflow from the nozzle 2. The flow rate of the fluid is controlled by the longitudinal movement of the rod 7 with the adjusting needle 8 at the exit end using the movement mechanism 9, which allows changing the degree of overlap of the nozzle 2 and allows Perform the flow rate by changing the nozzle flow area 2.

It has been established that when the diameter of the rod 7 is 0.2-0.7 of the diameter of the swirl chamber 3, the optimum atomization condition is ensured.

Claims (1)

Invention Formula A nozzle for spraying liquids and suspensions according to bus no. 565716 characterized in that, in order to expand the range of adjustment, along the axis of the swirling chamber, the rod with a regulating needle, equipped with a regulating needle, is provided with a regulating needle at the outlet end, 2-0.7 diameters of the twisting chamber. “- / L  / W t t $$$$$ w / L .X t - T1 X N. X X N1