SU1574278A2 - Centrifugal nozzle - Google Patents

Abstract

The invention relates to spray devices and can be used in various industries. The purpose of the invention is to increase the range of the torch when using viscous liquids. For this, the centrifugal landings are provided with an overlay (H) placed on the inner end surface of the bottom. The surface H facing toward the bottom is inclined to the axis of the vortex chamber at an angle chosen equal to the angle of inclination of the inner end surface of the bottom, and the opposite surface H is made concave in the shape of a half ovoid, taken along its axis of symmetry. In the centrifugal nozzle, the radius of twisting of the fluid supplied to the vortex chamber is increased, which led to an increase in the friction force of the fluid on the walls and bottom of the swirl chamber, as well as an increase in the coefficient of fluid flow, a decrease in the radius of the air vortex and a decrease in the torch angle. H can be placed with the possibility of rotation and fixation, which provides adjustment of the direction of the torch and ease of use. 1 hp f-ly, 1 ill.

Description

The invention relates to spray devices and can be used in the chemical and other industries of the industry and is additional to the basic author. St. No. 1386313.

The purpose of the invention is to increase the long-lasting plume when using viscous liquids.

The drawing shows a centrifugal nozzles, a longitudinal section.

The centrifugal nozzle contains a vortex chamber 1, a cover 2 with a nozzle 3, a tangential nozzle 4 and a bottom 5 mounted for axial movement and removal, which is achieved by a threaded connection of the bottom 5 with the chamber 1. The inner end surface of the bottom 5 is inclined to the axis of the vortex chamber 1 The centrifugal nozzles are also provided with an overlay 6 placed on the inner end surface of the bottom 5 facing the bottom 5, the surface of which is inclined to the axis of the vortex chamber 1 at an angle chosen equal to the angle of inclination of the bottom surfaces. a 5, and the opposite surface 7 of the lining 6 is made concave in the shape of a half ovoid, taken along its axis of symmetry. Pad 6 can be placed with the possibility of rotation and fixation.

Centrifugal nozzles works as follows.

Supplied under pressure into the tangential nozzle 4, the liquid enters the vortex chamber 1, in which it is twisted, as a result of which an air vortex is formed in the center of the vortex chamber and the jet leaves the nozzle 3 in the form of a twisted film disintegrating on the drop. When the bottom 5 is rotated together with the cover 6, the position of the air vortex changes, and consequently, the shape of the irrigated area, i.e., by changing the amount of rotation of the bottom 5, the areas of different configurations are irrigated. Expansion of the range of Conel 1

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Irrigation areas can be shaped using a set of interchangeable bottoms of 5 with different angles of inclination. When the bottom 5 is rotated, the height H of the chamber 1 is also changed, which additionally provides an extension of the range of irrigated area configuration. The use of interchangeable bottoms 5 is advisable, for example, in studies whose purpose is to determine the optimum angle of inclination and position of the bottom 5 relative to the housing 1 for specific conditions of operation of the nozzle. Due to the fact that the bottom 5 is additionally equipped with an overlay 6 with a concave surface 7 made in the form of a half ovoid, taken along the axis of symmetry, when using viscous liquids, the torch's long range increases due to the possibility of increasing the twist radius of the liquid jet in the vortex chamber 1, at the same time, by turning the bottom 5 together with the cover 6, it is possible to achieve adjustment of the range of this flow, flowing from the nozzle 3, with a simultaneous change in direction (since the ovoid is a curve with one axis of symmetry) with a minimum lnymi hydrodynamic lossy (ovoid since the circular curve of smoothly mating circular arcs). Due to the lining 6, the radius of curvature of the swirling flow increases, which leads to the occurrence of frictional forces on the walls of the vortex chamber

especially when using viscous liquids), directed towards the flow velocity of the fluid. When this happens, the radius of the air vortex decreases, the flow coefficient increases and the torch angle decreases, and the torch range increases. The rotation of the bottom 5 together with an overlay 6, one of the surfaces of which is made with an inclination angle equal to the angle of the bottom allows for a simultaneous rotation of the overlay 6 with the bottom 5 to adjust the distance of the torch.

Claims (2)

1. Centrifugal nozzles on aut. St. No. 1386313, characterized in that, in order to increase the flare range when using viscous liquids, it is provided with an overlay placed on the inner end surface of the bottom facing the bottom, the surface of which is inclined to the axis of the vortex chamber at an angle chosen equal to the angle of inclination of the inner end surface the bottom, and the opposite surface of the lining is made concave in shape ovoid half, taken along its axis of symmetry. 2. The pad according to claim 1, characterized in that the pad is placed so that it can be rotated and fixed. / /