SU1735596A1 - Atomizer - Google Patents

Abstract

The invention relates to the mining industry. The goal is to increase the efficiency of the nozzle by improving the quality of the spray pattern. To do this, on the housing with a nozzle, inside which is placed a swirler, is mounted concentrically in front of the nozzle an annular electret with a mechanism for its longitudinal movement. Ring electret made with the ratio of the difference of the radii of its external and internal surfaces to its thickness of 1: 1. During the operation of the nozzle, the liquid twists in a swirler and disintegrates into droplets after exiting the nozzle to form a plume. An annular electret is installed so that the spray plume fits into its outer surface. In this case, the droplets of the outer layer of the torch, hitting the end surface of the ring electret, are crushed, charged, and provide an increase in the dispersion of the largest drops of the peripheral part of the torch. This improves the spray quality of the fluid and increases the effectiveness of dust suppression. 2 Il.

Description

The invention relates to the mining industry and can be used in irrigation systems for the deposition of dust.

A nozzle is known that includes a housing with a nozzle, a swirler and an electrolyte equipped with brackets whose electrolyte is made in the form of an electret ring, the ring being fixed to the housing by means of brackets, the angle between the inner surface of the ring with the direction of droplet movement being 30-40 °.

The disadvantage of the nozzle is that when the droplets hit the outer layer of dispersed water generated by the centrifugal nozzle, the angle of the flare solution decreases, resulting in a decrease in the amount of air dedusted in the flare. In addition, it is impossible to plunge

shock crushing of all large droplets of the outer layer without a sharp decrease in the angle of the torch solution.

The purpose of the invention is to increase the efficiency of the nozzle by improving the quality of the spray pattern.

FIG. 1 shows a nozzle, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The nozzle consists of a cylindrical body 1 with a nozzle and an external thread, inside which a swirler 2 is rigidly mounted, an annular electret 3 with an internal 4 and end b surfaces for impact crushing of droplets rigidly attached by means of brackets 6 to a disk 7 with a central threaded hole for installation on housing 1 concentric and fixing the ring electret 3 in not

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Lockable position 8. The ratio (RB-RBH): h 1: 1 must be observed. RB, RBH are, respectively, the outer and inner radii of the ring electret, h is its thickness.

The nozzle works as follows.

The water supplied to the nozzle under a pressure of more than 0.6 MPa is twisted in a swirler 2 and disintegrates after leaving the nozzle into drops, forming a torch in the form of a hollow umbrella. The largest droplets move in the peripheral layers of the torch. The ring electret 3 is installed in such a position that the cross section of the torch fits into its external cross section. In this case, the droplets of the outer layer of the torch, hitting the end surface 5, are crushed, charged and reflected beyond the torch, increasing the angle of the solution. The droplets of the layer adjacent to the outer layer, striking the inner surface 4, are crushed, charged, and fill the internal volume of the torch.

The presence of an end reflecting surface makes it possible to subject a larger number of drops to the peripheral layer of the plume to impact crushing, and, consequently, to obtain a thinner spray. With a single reflective surface, it is not possible to subject all the drops of the peripheral layer to secondary crushing, since effective impact crushing takes place at a distance from the edge of the reflective surface no more than 4-6 mm. Kro

Moreover, the end reflective surface creates a zone saturated with a hydrosol around the plume, which contributes to the preliminary saturation of the dust ejected air ejected into the plume.

Thus, the proposed nozzle makes it possible to increase the dust collection efficiency both by increasing the dispersion of the droplets and by saturating the ejected dusty air before entering the flare.

The best impact crushing effect is achieved when the ratio of the thickness (h) to the width of the ring electret 3 (b RB - RBH) is 1: 1. A change in the ratio leads to a deterioration in spray quality. This is due to the fact that only at this ratio are the front and internal reflective surfaces of the ring electret used for impact crushing of droplets.

Claims (1)

The invention includes a nozzle body with a nozzle, inside which is placed a swirl and mounted on the body concentrically in front of the nozzle an annular electret with a mechanism for its longitudinal movement, characterized in that in order to improve the efficiency of the nozzle by improving the quality of the spray of the liquid, the ring nozzle the electret is made with the ratio of the difference between the radii of its external and internal surfaces to its thickness of 1: 1. ± i ..; .. .. ..  " 5 J $ L & :: - N ..: ..- ..  h; - ::: eight 7-1 fe.7