RU2036382C1 - Injector - Google Patents

Abstract

FIELD: devices for spraying liquids, for example, in fuel burning units and sprinkling units. SUBSTANCE: injector has housing 1 with exit nozzle made in form of convergent and divergent sections 2 and 3 which are engageable through clamping; resonators 4 located around outlet section of housing and connected to divergent section 3 of nozzle by means of holes in its wall. Resonators 4 are made in form of blanked off branch pipes with bevel cuts 5 of open ends directed towards convergent section 2 of nozzle; branch pipes are mounted in above-mentioned holes in inclined position relative to nozzle axis; their bevel cuts are received by chamber of nozzle in plane perpendicular to its axis. Injector may be additionally provided with cylindrical inserts 8 of varying height which are located in branch pipes 4 in area of blanked off ends 6. EFFECT: enhanced reliability. 14 cl, 3 dwg

Description

 The invention relates to devices for spraying liquid, and can be used to work in sprinkler installations, fuel-burning devices.

 Known centrifugal nozzle with the supply of the sprayed medium into the swirl chamber through tangential channels. In this device, the medium is sprayed by hydrodynamic forces, while the film of the medium is crushed into small droplet-like fractions and cones at a certain opening angle to the preparation zone. However, the design of the nozzle is quite complicated due to the presence of tangential channels.

 A nozzle is also known, comprising a housing with an output nozzle in the form of confused confuser and diffuser sections, located around the output section of the housing, resonators connected to the diffuser section of the nozzle through holes in its wall.

 This device does not provide a sufficient degree of spraying when changing the conditions determining the spray (flow parameters, type of spray medium, etc.) due to the absence of powerful forced pulsations in the effluent stream reaching the central part of the stream, which in turn leads to a decrease in operating efficiency devices.

 The aim of the invention is to increase efficiency while increasing the degree of spraying.

 In FIG. 1 shows the proposed nozzle, a longitudinal section; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 section BB in FIG. 1.

 The nozzle comprises a housing 1 with an output nozzle in the form of a confused and diffuser portions 2, 3 conjugated by a pinch, resonators 4 arranged around the output portion of the housing, connected to the diffuser portion 3 of the nozzle through openings in its wall. The resonators 4 are made in the form of muffled nozzles with beveled sections 5 of open ends facing the nozzle confuser section 2, and nozzles 4 are installed in these holes with an inclination to the axis of the nozzle and with their beveled sections 5 placed in the cavity of the nozzle in a plane perpendicular to its axis . The nozzle may be further provided with cylindrical inserts 8 of various heights, located in the nozzles 4 in the area of the muffled ends 6.

 The nozzle works as follows.

 The sprayed medium from the nozzle confuser section 2 enters the diffuser section 3. Additionally, the medium enters the plugged nozzles 4, which act as resonators, converts its constant pressure to variable and exits through the diffuser section 3 in the form of a highly turbulent jet with a large spray angle and a large degree of atomization . The pulsations of the flow formed in the plugged nozzles 4 penetrate deep into the outflowing jet, thereby increasing the degree of atomization of the medium.

 To ensure regulation of the degree of spraying, installation is carried out in the nozzles 4 of the cylindrical inserts 8 of a certain predetermined height, providing a change in the volume of the nozzles 4, and, accordingly, a change in the frequency of flow oscillations.

 Thus, the effectiveness of the use of the invention is to increase the degree of atomization of the medium due to the additional effects of pulsations on the inside of the sprayed medium.

Claims (2)

 1. NOZZLE, comprising a housing with an output nozzle in the form of confused confuser and diffuser sections, located around the output section of the body of the resonator connected to the diffuser section of the nozzle through openings in its wall, characterized in that the resonators are made in the form of plugged nozzles with beveled open sections the ends facing the confuser portion of the nozzle, and the nozzles are installed in these holes with an inclination to the axis of the nozzle and with the placement of their beveled sections in the cavity of the nozzle in a plane STI perpendicular to its axis.  2. The nozzle according to claim 1, characterized in that it is additionally equipped with cylindrical inserts of various heights, located in the nozzles in the area of the muffled ends.

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