SU1322004A1 - Centrifugal atomizer - Google Patents

Abstract

The invention relates to a device for spraying liquids (L), can be used in power and chemical engineering, and allows you to expand the range of regulation. A guiding device is installed in the chamber (K) of the nozzle tightening. The latter is made in the form of hollow arcuate elements (DE) 5 of oval cross section attached to the wall K of the cavity 6 and communicated with the inlet manifold 7. The large axis of the DE 5 oval cross section is located in a plane perpendicular to the axis K. Hole 3 K bred in the annular groove. In the latter, the DE-5 is located with ensuring that they fit to the groove surface. W under pressure is fed to the collector 7, from where it enters the cavities 6 of the DE 5. At the same time, the DE 5 is bent to the K axis, making it possible to communicate with the groove and open it with the collector 7 and the cavity K. Due to the As a result, the difference between the pressure acting on the DE 5 from the side of the cavities 6, and the pressure in the swirling flow J acting on the camera side, the DE 5 increases the curvature of its bend to the K axis, further opening the F access to the twisting chamber from the collector 7 3) 1Л. about SL A-A SdE 1chE GhE ig

Description

The invention relates to devices for spraying liquids, and can be used in power and chemical engineering, as well as in other industries.

The purpose of the invention is to reduce the range of adjustment.

FIG. 1 shows a nozzle, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

The nozzle includes a housing 1, a cylindrical twisting chamber 2 arranged therein with inlets 3 in the wall and an outlet nozzle 4. A guide device is installed in the chamber 2, made in the form of 2 hollow arcuate elements 5 of oval cross section attached to the chamber wall with one end cavities 6 of which are in communication with the inlet manifold 7, while the bolt axis 8 of the oval section of the elements 5 is located in a plane perpendicular to the longitudinal axis of the twisting chamber 2, and the apertures 3 are led out into an annular groove 9 in which These are elements 5 with their fit to the surface of the groove 9.

The nozzle works as follows.

Prior to supplying a pressurized fluid to the manifold 7 and. As a result of abutment of the elements 5 to the surfaces of the bore 9, the openings 3 are blocked. When the fluid is supplied to the collector 7, under the action of the input section, it enters the cavities 6 of the element

five

5. Under the action of the inlet pressure, the elements 5 are folded over to the axis of the chamber 2 and allow the groove 9 and the openings 3 to communicate with the collector 7 and the cavity of the chamber 2. Due to the pressure difference resulting from this, i.e. the difference in pressure acting on the elements 5 from their cavities 6, and the pressure in the swirling fluid flow acting from the chamber 2, the elements 5 increase the curvature of their bend to the axis of the chamber 2, further opening the access of fluid to the chamber 2 from the collector 7. Thus Thus, the operation of the nozzle proceeds in a self-regulating mode, ensuring the change in the flow rate of the liquid is directly proportional to the change in pressure drop.

Claims (1)

Invention Formula A centrifugal nozzle comprising a housing, a cylindrical twisting chamber arranged therein, connected to a fluid supply collector by means of inlets in its wall and provided with an outlet nozzle, as well as a guide device in the form of hollow arcuate oval section elements communicated with the collector and attached at one end to the wall of the twisting chamber, characterized in that, in order to expand the adjustment range, the large axis of the oval section of the arcuate elements is located in the plane, perpendicular to oh longitudinal axis of the twisting chamber. A Figure 1 j Compiled by M. Zubkov Editor A. KozorizTechred I. VeresKorrektor., Matay Order 2744/31 Circulation 494 Subscription VNIIPI State Committee C (XP for Inventions in Inventions) 1 13035, Moscow, F - 35, Raushsk nab. 4/5 Production Polygraphic Plant, Uzhgorod, ul. Project, 4