SU1113176A1 - Liquid sprayer - Google Patents

Abstract

1. A LIQUID SPRAY containing a cylindrical body with an outlet nozzle, a cup mounted in the shell, with a blind end facing the outlet nozzle and having channels in the side wall connecting the inlet cavity of the cup with an intermediate chamber located in the annular gap between the housing and the cup, and the chamber a swirl located between the blind end of the glass and the exit nozzle, characterized in that, in order to improve the quality of spraying and reduce the flow rate of the liquid by providing a pulsating spraying mode, iemnoy cavity glass slide member is mounted, spring-loaded relative to the bottom of the cavity, 2.Raspylitel pop.1 characterized in that the slide member is a ball. 3. Sprayer according to claim 1, characterized in that the spool element is designed as a piston. 4. Sprayer pop.1, which is distinguished by the fact that the brief (L on the camera is formed by spiral channels, made on the outer surface of the side wall of the glass. Vl with:

Description

The invention relates to the technique of spraying a liquid and can be applied in ship water protection systems (SVZ), in agriculture for spraying preparations and water, for decorative fountains, in fire fighting, in airless paint spraying equipment, in boiler rooms, diesel and other nozzles, in devices for fire extinguishing in diesel gas ducts, in trawling devices for spraying, for example, duspergents over a water surface filled with oil products to create surface and underwater active air curtains collecting oil from the water surface, in shower mixers both saving valves and without. them, in valves, in contact steam generators and contact condensers. A liquid sprayer is known, comprising a housing with channels for supplying compressed air and a fluid in which a sprinkler is installed in the form of a spring mounted on a spring-loaded stem, in which axial and radial channels are made, communicating with the compressed air supply channel C1. This sprayer provides a pulsating spraying of a liquid, but with the help of air, which limits its scope. The closest to the proposed technical essence and the achieved result is a liquid dispenser containing a cylindrical body with an outlet nozzle, a glass mounted in the body. With a deep end facing the outlet nozzle and having channels in the side wall connecting the inlet cavity of the glass with an interstitial chamber located in an annular gap, between the body and the glass, and a vortex chamber located between the blind end of the stack and the exit nozzle 2. The known atomizer ensures that the liquid is sprayed into the form DC torch, which causes a large flow rate and low quality spray. The purpose of the invention is to improve spray quality and reduce fluid consumption by providing a pulsating spray mode. The goal is achieved by the fact that a liquid atomizer comprising a cylindrical body with an outlet nozzle, a cup facing the output nozzle in the housing and having channels in the side wall connecting; the input cavity of the glass with an intermediate chamber, spaced in the annular gap between the body and the glass, and the swirl chamber located between the blind end of the glass and the output nozzle, in the receiving cavity of the glass is installed a spool element, spring-loaded relative to the bottom of the cavity. Moreover, the spool element is designed as a ball. In addition, the spool element is designed as a piston. In addition, the intermediate chamber is formed by spiral channels formed on the outer surface of the side wall of the glass. FIG. 1 shows a liquid sprayer with a continuous spray. la; in fig. 2 - a glass; in fig. 3 view A in FIG. 2; in fig. 4 shows a spray gun with a hollow spray cone; FIG. 5 spool element in the form of a piston. The atomizer comprises a housing 1 with an outlet nozzle 2, a cup 3 mounted in the housing, with a blind end facing the outlet wall of the channel 4, connecting the inlet cavity a of the cup. 3 with an intermediate chamber 5 placed in the annular gap between the body and the cup 3, and the swirl chamber 6 located between the blind end face of the cup 3 and the outlet nozzle 2. In the receiving cavity a of the cup 3 there is a spool element that can be made in the shape of a ball 7 or a piston 8. A spring 9 is placed between the spool element and the bottom of the cavity a. By varying the height of the piston 8, the frequency of the pulses for the liquid to be sprayed and, consequently, the flow rate of the sprayed liquid is adjusted. Facing the nozzle 2, the end of the glass 3 is made flat with the grooves 10 or conical. The intermediate chamber 5 is formed by spiral channels 11 formed on the outer surface of the side wall of the glass. The spray works as follows. The fluid supplied under overpressure acts on the golden element 7 or 8, compressing the spring 9. At the same time, the spool element moves to the bottom of the cavity and opens the liquid to the receiving cavity a of the cup 3, from which it passes through the channels 4 and 11 into the chamber 6 swirls. From the latter, the liquid, whirling, expires through the output nozzle 2 in the form of a hollow or solid spray. When the fluid flows through the nozzle 2 in the cavity a, pressure drops and compresses, the spring 9 returns the spool element to its original position, closes the channels 4. At the same time, the supply of liquid for spraying stops, after which the pulsating supply of liquid to its spray is repeated.

The proposed liquid sprayer provides a pulsating supply of fluid to the exit nozzle, as a result of which the flow rate is reduced, the liquid and the quality of the spray is improved.

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Claims (4)

1. A LIQUID SPRAY containing a cylindrical body with an output nozzle, a glass installed in the body, facing the output nozzle with a blind end and having channels in the side wall connecting the glass inlet cavity with an intermediate chamber located in the annular gap between the body and the glass, and a swirl chamber located between the blind end of the glass and the outlet nozzle, characterized in that, in order to improve the quality of the spray and reduce the flow rate of the liquid by providing a pulsating spray mode, the cavity of the glass has a spool element spring-loaded relative to the bottom of the cavity. 2. The sprayer according to claim 1, characterized in that the spool element is made in the form of a ball. 3. The sprayer according to claim 1, characterized in that the spool element is made in the form of a piston. 4. The sprayer according to claim 1, characterized in that the intermediate chamber is formed by spiral channels made on the outer surface of the side wall of the glass. g ° ns Figure 1