SU1450875A1 - Liquid sprayer - Google Patents

Abstract

The invention relates to a technique for the dispersion of liquids and can be used in heat and mass transfer apparatus of the chemical, energy and other industries and in agriculture during irrigation. The goal is to increase the uniformity and degree of dispersion of the sprayed liquid. For this purpose, the nets installed in the cone-shaped nozzle of the grid are spherical in shape with the center coinciding with the center of the nozzle orifice (CO). The distance from the CO center to the first grid is chosen to be at least 10 CO diameters. The size of the grid cells and the distance between them were chosen decreasing in the direction from the CO. In the center of the grids there is a hole with a diameter equal to the diameter of the CO. 1 hp f-ly, 1 ill.

Description

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ate

The invention relates to devices for spraying liquids and can be used in heat and mass transfer apparatus of the chemical and energy industries, as well as in agriculture during irrigation.

The aim of the invention is to improve the uniformity and degree of dispersion of the expansion: Pb lazy liquid.

The drawing shows the spray liquid.

The sprayer includes a housing 1 with a fluid supply channel 2 and a nozzle outlet 3. On the housing 1, a cone-shaped nozzle 4 is installed coaxially with the nozzle hole 3 with nets 5 installed in series with it. The grids 5 are spherical in shape with the center of the nozzle orifice 3

I The distance from the center of the nozzle orifice 3 to the first grid 5 is made I equal to not less than 10 diameters of the nozzle hole 3. The size of the grid cells and the distance between the grids 5 are decreasing in the direction from the nozzle hole 3.

: In the center of the grids 5 there is a hole 6 1c with a diameter equal to the diameter of the nozzle hole 3.

The spray works as follows.

I The sprayed liquid under pressure flows through the channel 2 of the housing 1 and exits through the nozzle hole 3 in the form of a jet with an opening angle equal to the angle of the cone-shaped nozzle 4. At a distance of 8-10 diameters of the nozzle hole, the jet disintegrates into droplets, the image is a coarse torch by spraying a liquid.

When a stream of liquid droplets flows through the cells of the first grid, large droplets are crushed and smaller droplets flow to the next grid. With the further movement of the liquid droplets, grids with a smaller cell size meet and the droplet crushing continues.

The location of the first grid at a distance from the center of the nozzle orifice equal to at least 10 diameters of the nozzle orifice provides the preliminary splitting of the jet into drops and the possibility of their

re-crushing when hitting the net

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The implementation of spherical grids with the center coinciding with the center of the nozzle orifice determines the equality of the speeds of movement of the droplets at the moment of hitting the grids over their entire area, which increases the uniformity of dispersion over the cross section of the torch.

Reducing the size of the grid cells and the distance between them in the direction from the nozzle orifice increases the likelihood of the droplets colliding with the nets as the droplets move away from the nozzle orifice, which increases the degree of dispersion.

Making grids with a central hole helps to remove mechanical inclusions from the grids and to increase the uniformity of spraying over the cross section of the flare.

The cone-shaped packing prevents air from being ejected into the sprayed torch, which reduces the inhibition of liquid droplets and increases the crushing effect when striking the grid.

When the fuel is sprayed, the cone-shaped nozzle eliminates burning in the coarse atomization zone and the occurrence of detonation in the secondary crushing zone, which 5 increases the efficiency of fuel combustion.

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When using the spray gun in cooling apparatus, an enhanced cooling effect of the circulating water is achieved.

Claims (2)

1. A liquid sprayer, comprising a housing with a fluid supply channel with a nozzle outlet and a conical nozzle with successively installed nets on the housing coaxially with the nozzle orifice, which, in order to improve the uniformity and degree of dispersion of the fluid, the nets are spherical in shape with the center coinciding with the center of the nozzle orifice, while the distance from the center of the nozzle orifice to the first mesh is equal to at least 10 diameters of the nozzle orifice, The er, ec nets and the distance between them are chosen decreasing in the direction from the nozzle orifice. 2. Sprayer according to claim 1, characterized in that a hole with a diameter equal to the diameter of the nozzle is made in the center of the grids