RU2165310C2 - Swirl sprayer - Google Patents

Abstract

FIELD: agriculture, medicine. SUBSTANCE: proposed swirl sprayer has housing, nozzle in form of cylindrical tube with blind tip at outlet end and through holes over circumference, and cylindrical air chamber with swirl chamber arranged inside. Air channels are made in swirl chamber housing parallel to its bottom and tangentially to its inner circumference. Air pressure-fed through branch pipe, gets into air chamber and passes along channels into swirl chamber tangentially to its inner surface. As a result, rotating air stream is formed along inner surface of chamber inside which zone of rarefaction is created. Material to be sprayed gets into rotating air stream through holes in cylindrical tube and, being acted upon by centrifugal forces, turns into aerosol and gets sprayed. EFFECT: simplified design, improved quality of spraying. 2 dwg

Description

 The invention relates to a device for spraying liquids and can be used in various industries, construction, agriculture, medicine.

 Known atomizer A. B. Ermilova A. as USSR N 1666195, class B 05 B 1/06, 1989, comprising a central nozzle with an expanding conical nozzle and an expanding air outer nozzle with an expanding nozzle fixed to its outlet end with an expansion angle smaller than the expansion angle of the outer nozzle. The outer nozzle forms an annular Laval nozzle with a protruding relative to it output nozzle of the central nozzle, in the critical section of which through perforation is made in the output nozzle. The disadvantages of the known atomizer are the complexity of the design and the insufficiently high quality of atomization.

 The technical result achieved by the invention is the simplicity of design and high quality spray.

 This technical result is achieved in that the vortex atomizer, comprising a housing, a nozzle located inside it and an air chamber formed by the housing and the nozzle, is provided with a vortex chamber located inside the air chamber, in the housing of which guide air channels are made parallel to the bottom tangentially to its inner circumference, and the nozzle is made in the form of a cylindrical tube, at the outlet end of which there are through holes around the circumference, while the nozzle is located inside the vortex chamber, and the end face of the outlet end of the cylindrical tube is made hollow.

 Comparative analysis with the prototype shows that the claimed technical solution is characterized in that the vortex atomizer is equipped with a vortex chamber located inside the air chamber, in the casing of which guiding air channels are made parallel to the bottom tangentially to its inner circumference, and the nozzle is made in the form of a cylindrical tube at the exit the end of which there are through holes around the circumference, while the nozzle is located inside the vortex chamber, and the end face of the output end of the cylindrical tube is made blind.

 Comparison of the claimed solutions not only with the prototype, but also with other technical solutions in this technical field did not allow to reveal in them this combination of features. And only the above set of features allows you to achieve the necessary technical result - simplicity of design and high quality spray.

 In FIG. 1 shows a vortex atomizer, a longitudinal section; in FIG. 2 is a view A in FIG. 1.

 The vortex atomizer comprises a housing 1, a nozzle 2 made in the form of a cylindrical tube, at the outlet end of which there are through holes 3 around the circumference, a cylindrical air chamber 4 formed by the nozzle 2 and the housing 1, a vortex chamber 5 located inside the air chamber 4. In the housing 6 of the vortex chamber 5 parallel to its bottom and tangential to the inner circumference, guide air channels 7 are made. The housing 1 is equipped with a pipe 8 for supplying compressed air. And the end face of the output end of the cylindrical tube is made deaf.

 Vortex atomizer operates as follows.

 Air from the air line under pressure through the pipe 8 enters the air chamber 4, from where it rushes along the guide air channels 7 tangentially to the inner surface of the cylindrical vortex chamber 5. As a result, there is a rotating air flow along the inner surface of the cylindrical vortex chamber 5, inside the rotating air stream a rarefaction zone is formed. The rotation speed and power of the rotating air flow depend on the pressure of the supplied air, the diameter and number of air channels 7. The greater the pressure of the supplied air, the diameter and number of air channels 7, the greater the speed and power of the rotating air flow. A spray material is supplied through the nozzle 2, which through the through holes 3 at the end of the cylindrical tube enters the rotating air stream and, due to centrifugal forces, turns into an aerosol and is sprayed onto the surface to be painted.

 The use of a rotating stream of air for spraying liquids makes it possible to obtain finer particles of the sprayed material than when using the principle of pulverizer. Therefore, the quality of the coloring is improved. When using a vortex atomizer as a humidifier, instead of paint, water or other liquids are supplied that must be sprayed indoors or in the surrounding area. In addition, the principle of operation of the vortex chamber allows you to use the device as a pump, since a vacuum occurs inside the rotating air stream, which is used to pump liquids.

Claims (1)

 A vortex atomizer comprising a casing, a nozzle located inside it and an air chamber formed by the casing and the nozzle, characterized in that it is provided with a vortex chamber located inside the air chamber, in the casing of which there are guiding air channels parallel to the bottom tangentially to its inner circumference, and the nozzle is made in the form of a cylindrical tube, at the outlet end of which there are through holes around the circumference, the nozzle being located inside the vortex chamber, and the end face of the outlet end of the cylindrical tube BKI is made deaf.

Images