RU2190483C1 - Jet nozzle - Google Patents

Abstract

FIELD: apparatuses for spraying liquids. SUBSTANCE: jet nozzle includes body with diffuser outlet nozzle, insert with central confusor duct mounted in inlet portion of body with possibility of axial motion and restricting together with body annular resonating cavity. Jet nozzle is also provided with box embracing with gap outlet portion of body. Said box is provided with feed branch pipe having regulator of its flow-through cross section and V-shaped nozzle adaptors made in zone of diffuser outlet opening of body and mounted in such a way that their one flange is inserted to feed branch pipe and their other flange adjoins to inner surface of diffuser nozzle. Deflection flaps are mounted over outlet cut of nozzle adaptors; said flaps are secured to inner surface of diffuser nozzle. Deflection flaps and flanges are directed to confusor duct. EFFECT: enhanced efficiency of spraying due to increased turbulizing action of control medium upon sprayed fluid at their mutually opposite striking. 2 dwg

Description

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

 A centrifugal nozzle is known (V. Adamov. Burning fuel oil in boiler furnaces. - L.: Nedra, 1989, p. 39) with the supply of the sprayed medium into the swirl chamber through tangential channels. In this device, the spraying of the medium is carried out due to 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 known nozzle (see RF patent 2036379, Mcl P 23 D 11/34, B 05 B 17/06, 1995), comprising a housing with a diffuser outlet nozzle, an insert with a central confuser channel installed in the input section of the housing with the possibility of axial movement and with the formation of an annular resonating cavity with it, covering the outlet section of the housing with an annular gap, the duct is equipped with an inlet pipe with a regulator of its flow cross section and V-shaped nozzle nozzles inserted by one shelf into the openings made in the housing in the area of its diffuser nozzle and installed with the adjoining other shelf to the inner surface of the diffuser nozzle.

 This device provides an insufficient degree of atomization of the liquid due to the ineffective turbulizing effect of the control medium with the sprayed medium when the control medium is injected into the boundary layer of the outflowing jet, which, in turn, reduces the efficiency of the device.

 The aim of the invention is to increase the degree of atomization.

 This goal is achieved by the fact that in the nozzle containing the housing with a diffuser outlet nozzle, an insert with a central confuser channel mounted in the input section of the housing with the possibility of axial movement and with it the formation of an annular resonant cavity covering the output section of the housing with an annular gap box, equipped with a supply pipe with a regulator of its flow area and V-shaped nozzle nozzles, brought one shelf into the holes made in the housing in the area of its diffuser nozzle and installed Reflective visors mounted on the inner surface of the diffuser nozzle are mounted adjacent to the other surface of the diffuser nozzle adjacent to the outlet sections of the nozzle nozzles, and the reflective visors and shelves of the V-shaped nozzle nozzles mounted adjacent to the inner surface of the diffuser nozzle are directed toward the confuser channel.

 Figure 1 shows a nozzle, a longitudinal section; figure 2 is a section aa in figure 1.

 The nozzle contains a housing with a diffuser outlet nozzle 3, an insert I with a central confuser channel 2, mounted in the input section of the housing with the possibility of axial movement and with it the formation of an annular resonating cavity 4. The nozzle is additionally equipped with a box 7 covering the output section of the housing with an annular gap 6, 7 equipped with a supply pipe 8 with a regulator 9 of its flow area and V-shaped nozzle nozzles II, wound by one shelf in the holes 3 made in the housing 3 in the area of its diffuser nozzle 3 and mounted with the adjoining other shelf to the inner surface of the diffuser nozzle 3. Above the exit sections 12 of the nozzle nozzles II, reflective visors 13 are mounted, fixed on the inner surface of the diffuser nozzle 3. Moreover, the reflective visors 13 and the shelves of the V-shaped nozzle nozzles II are installed adjacent to the inner the surface of the diffuser nozzle 3, directed towards the confuser channel 2.

 The nozzle works as follows.

 The sprayed medium from the central confuser channel 2 enters the annular resonating cavity 4, where the constant pressure is converted to variable, and exits through the diffuser outlet nozzle 3.

 If necessary, control the quality of the spray insert I is moved relative to the housing, thereby changing the volume of the annular resonating cavity 4 and, as a consequence, the oscillation frequency.

 To expand the range of regulation of the degree of spraying, the control medium is injected into the flowing stream from the source of control medium 10 through the pipe 8 through the regulator 9 of its flow area, box 7, openings 5, nozzles II.

 The trickles of the control medium at the end of the output sections 12 of the nozzle nozzles II expire with the reflective visors 13 in depth and towards the outflowing stream of liquid. In the counter collision of flows, intense turbulization and crushing of the outflowing fluid occur.

 Thus, the effectiveness of the use of the invention consists in increasing the degree of atomization due to a more increased turbulizing effect of the control medium on the atomized medium during their counter interaction (in comparison with the prototype where the satellite interaction occurs in the boundary layer).

Claims (1)

 An injector comprising a housing with a diffuser outlet nozzle, an insert with a central confuser channel mounted in the inlet portion of the housing with the possibility of axial movement and with it the formation of an annular resonating cavity, covering the outlet portion of the housing with an annular gap, a box provided with an inlet pipe with a regulator of its passage sections and V-shaped nozzle nozzles brought by one shelf into openings made in the housing in the area of its diffuser nozzle and installed adjacent to another shelf to the inner surface of the diffuser nozzle, characterized in that reflective visors are mounted on the inner surface of the diffuser nozzle above the exit sections of the nozzle nozzles, and the reflective visors and flanges of the V-shaped nozzle nozzles mounted adjacent to the inner surface of the diffuser nozzle are directed towards the confuser channel .

Images