SU896316A1 - Injection nozzle - Google Patents

Description

(54) SPRAYER

Claims (2)

The invention relates to a device for spraying a liquid and can be used mainly in installations for burning liquid fuels. The technical solution closest to the invention is a nozzle comprising a cylindrical body with a central nozzle and coaxially mounted for longitudinal movement with a swirl with helical ribs forming turbulent grooves 1. A disadvantage of the known nozzle is the low efficiency due to the narrow range of torch geometry control. The purpose of the invention is to increase efficiency by expanding the range of adjustment of the torch geometry. This goal is achieved by the fact that the screw ribs are made through one with the height gradually decreasing to zero. In addition, the best working conditions, the nozzles are achieved by making the number of swirl ribs even even to ensure its geometric symmetry. The drawing shows a nozzle, a general view. The nozzle contains a cylindrical body 1 with a tip 2 having a central nozzle 3 and coaxially mounted with the possibility of longitudinal movement of a swirler 4 with screw ribs 5 forming swirling grooves 6. Inside the swirler 4 an adjusting needle 7 is installed along its axis. The nozzle works as follows. The fluid, under pressure, passes through the internal cavity of the housing 1, enters the swirl grooves 6 of the swirler 4. In the grooves 6, the liquid twists sharply and approaches the nozzle 3 as a swirling flow, at the outlet of which the spray is sprayed as an expanding cone with a certain spray angle . At the same time, the flow rate is established by choosing a certain position of the needle 7 in the living section of the nozzle 3. The change in the angle of taper of the sprayed liquid is achieved by reciprocating movement of the swirler 4. When moving the swirler 4 from the cavity of the body 1 to the tip 2, the passage of the groove 6 becomes the speed in them, since at this position the swirler 4 has a minimum cross section for its passage and constitutes only the total cross section of the grooves 6. At the same time, the angle of taper of the sprayed liquid is maximum flax, as it depends on the fluid velocity in the inlet section swirler grooves. When the swirler 4 moves from the tip 2 into the cavity of the nozzle body 1, the slots between the screw ribs 5 and the body 1 gradually open for the passage of fluid. The cross section for the passage of fluid increases and the fluid velocity decreases, resulting in a decrease in the angle of taper of the sprayed fluid at the outlet nozzles 3. Performing screw ribs with a gradually decreasing height to zero along the flow course allows the inlet section to change in the swirler for the passage of fluid, while changing the velocity of the fluid in the inlets ah, that allows to extend the range of the angle adjusting disclosure torch, and this leads to more effective spraying is. Claim 1. A nozzle comprising a cylindrical body with a central nozzle and coaxially mounted with the possibility of longitudinal movement by a swirler with helical ribs forming swirling grooves, characterized in that, in order to increase efficiency by extending the torch geometry control range, the ribs are made through one with the height gradually decreasing to zero. 2. The nozzle according to claim 1, wherein the number of helical ribs of the swirler is even. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2771572, cl. F 23 D11 / 10, 1979.