RU171370U1 - NOZZLE - Google Patents

Abstract

The invention relates to the technique of spraying liquid media and can be used as equipment for technological processes associated with spraying products. The screen is made in the form of a static mixer formed by volumetricly connected to each other at least at two points of semicircular segments. A static mixer overlaps the inlet, and the outlet is connected to the inlet by a conical transition made in the nozzle body. Semicircular segments can be made with grooves.

Description

The utility model relates to techniques for spraying liquid media and can be used as equipment for technological processes associated with the spraying of products.

Known nozzle (RF patent No. 2101615, publ. 10.01.1998), comprising a housing with a nozzle consisting of confuser and diffuser sections, between which there is a resonator made in the form of an annular cavity, lateral outlet openings made in the diffuser section, and direction elements flow discharge towards the outlet cross section of the diffuser section, connected to the diffuser section of the nozzle, while to increase the degree of spraying the liquid, the elements of the flow discharge direction are made in the form of covering the diffuser section with a sample calling the annular gap of the visor, consisting of arcuate trapezoidal rotary plates pivotally attached to the diffuser section in front of its lateral outlet openings, the plates being installed relative to one another lap, and the visor is equipped with a flow reflector made in the form of flanges attached to the plates, bent towards to each other, and unidirectional ribs placed on the flanges.

The disadvantage of this invention is the design complexity due to the presence in the device of a large number of structural elements.

Known nozzle (RF patent No. 2205703, publ. 06/10/2003), comprising a housing with a mixing chamber, a nozzle and a swirl insert made with channels along the periphery and with radial ribs on the end face facing the nozzle, while to increase the productivity of the nozzle chamber mixing is performed with a cylindrical section, turning into an expanding conical section facing the swirl liner, made with a Central channel, and the peripheral channels of the swirl liner have a section inclined to the axis at an angle of 15 ÷ 20 °, and the mentioned The adial ribs are made arcuate, while the chamber portion located in front of the nozzle is conical.

The disadvantage of this nozzle is also the design complexity due to the complex structural design of the swirl insert.

Known nozzle (RF patent No. 2101616, publ. 10.01.1998) containing a housing with an output nozzle in the form of a mating confuser and diffuser sections, and a resonator connected to the diffuser section of the nozzle and made in the form of a muffled nozzle with a cut of the open end facing in side of the nozzle confuser section, in order to increase the degree of liquid atomization, the resonator is formed by the inner side surface of the diffuser section, the side surface of which is coaxially located in the diffuser section with the formation m of the annular gap of the flowing thin-walled diffuser and the diffuser section and the diffuser associated with large bases along their perimeters in the plane of the exit section of the diffuser section of the flat ring.

Known nozzle (ed. St. USSR No. 1819681, publ. 07.06.1993), containing having a longitudinal axis of the housing with an inlet for a spray medium, a hollow nozzle with a spherical surface, equipped with exhaust holes and mounted with the possibility of axial movement on the housing, while the output end of the housing is located inside the cavity of the nozzle and is made beveled.

The disadvantage is that it does not provide a sufficient degree of dispersion of the sprayed medium, as well as a complex structure.

Known nozzle adopted for the prototype (patent RU No. 2299769, publ. 05.27.2007). The nozzle comprises a nozzle housing with an inlet for a spray medium. The nozzle has at least one outlet. The outlet is blocked by a trough screen located on the inside of the nozzle and facing its cavity to the outlet. Two opposite edges of the screen adjacent to the surface of the nozzle, and the other two form two opposed holes.

The disadvantage is that it does not provide a sufficient degree of dispersion of the sprayed medium, and also this design is not reliable enough.

The technical result of the claimed utility model is to increase the degree of dispersion of the sprayed medium and increase the reliability of the nozzle design.

The technical result is achieved by the fact that in the nozzle containing the housing with an inlet for the sprayed medium, the screen inside the nozzle, the outlet, according to the utility model, the screen is made in the form of a static mixer formed by volumetricly connected to each other at least at two points of semicircular segments moreover, a static mixer overlaps the inlet, and the outlet is connected to the inlet by a conical transition made in the nozzle body.

The technical result is also achieved by the fact that in each semicircular segment grooves are made, when installed, located in the immediate vicinity of the nozzle axis.

The technical result is also achieved by the fact that the grooves are made in a rectangular shape.

The technical result is also achieved by the fact that the grooves are made of a triangular shape.

The technical result is also achieved by the fact that the grooves are made of complex shape.

The technical result is also achieved by the fact that the angle A between the semicircular segments take no more than 90 °.

The technical result is also achieved by the fact that the static mixer is removable.

The technical result is also achieved by the fact that the static mixer is made as one unit with the body.

The technical result is also achieved by the fact that the static mixer is made along the entire length of the inlet.

The nozzle is illustrated by drawings, where in FIG. 1 shows a longitudinal section of the device along the axis, in FIG. 2 shows an element of a static mixer, a top view of one of the semicircular segments, where

1 - nozzle body;

2 - the inlet of the nozzle housing 1;

3 - the outlet of the nozzle housing 1;

4 - conical transition in the nozzle housing 1 between the inlet 2 and the outlet 3;

5 - semicircular segments that, when connected at least at two attachment points, form a screen in the form of a static mixer;

6 - attachment points of semicircular segments 5 for forming a screen in the form of a static mixer (at least two points);

7 - grooves in the semicircular segments 5 can be rectangular, semicircular, triangular or complex;

And - the angle between the semicircular segments, taken no more than 90 ° from the outlet 3.

Thanks to the supply of the nozzle with a screen in the form of a static mixer formed of semicircular segments 5, which are connected in volume and placed on the inside of the nozzle body 1 and facing the outlet 3 with its blades, the nozzle is dispersed and the dispersed medium is increased and design simplified. This is observed provided that two adjacent semicircular segments 5 are located perpendicular to each other in volume and at an angle of not more than 90 ° from the side of the outlet 3. The edges of the semicircular segments 5 are adjacent to the inner surface of the inlet 2 of the nozzle body 1. Each semicircular segment 5 can be equipped with grooves forming a series of through holes along the length of the static mixer. Thus, the sprayed medium, before it enters the outlet 3, is first crushed, colliding with the surface protruding into the nozzle body 1 of the nozzle overlapping the inlet 2 of the semicircular segments 5, and then it enters the separate streams formed along the grooves 7 that travel along its surface. The streams collide with each other in the area of the outlet 3 and the cone-shaped transition 4. As a result of the collision of these streams, additional fragmentation and intensive turbulization of the sprayed medium occurs, which leads to the formation of smaller and uniform drops at the outlet of the outlet.

The nozzle contains a nozzle body 1, in the body of which an inlet 2 of the nozzle body 1 is made, an outlet 3 of the nozzle body 1 connected to each other by a cone-shaped transition 4 in the nozzle body 1. A screen made in the form of a static semicircular mixer is installed in the inlet 2 segments 5 connected in bulk at least at two points 6 of the attachment. In the semicircular segments 5, grooves 7 can be made, which can be rectangular, semicircular, triangular or complex. The dimensions and shape of the grooves are chosen experimentally, experimentally, or analytically, depending on the required pressure in the system and the allowable level of hydraulic resistance of the nozzle. The angle A between the semicircular segments is taken no more than 90 ° from the outlet 3 to reduce the hydraulic resistance of the static mixer. In each semicircular segment 5, grooves 7 can be made, when installed, located in the immediate vicinity of the nozzle axis. The grooves 7 can be made rectangular, triangular or complex. The shape of the grooves 7 is based on the viscosity characteristics of the dispersible medium. The screen in the form of a static mixer of semicircular segments 5 can be made removable for inspection during operation of the device. The screen in the form of a static mixer of semicircular segments 5 can be made integrally with the housing to increase the rigidity of the device. The screen in the form of a static mixer of semicircular segments 5 can be made along the entire length of the inlet 2 to increase the degree of turbulization of the stream.

The nozzle works as follows. The sprayed medium in the form of a liquid, for example water from a water supply network, enters the nozzle body 1 through an inlet 2. In the nozzle body 1, a stream of sprayed medium collides with its inner walls, resulting in partial turbulization of the stream. Further turbulization of the flow and its fragmentation occurs when it collides with the semicircular segments 5 of the static mixer. After this, individual streams of the sprayed medium enter the opposed channels of complex shape formed by semicircular segments 5, move towards each other and collide with each other in the cavity of the inlet 2, pass through the conical transition 4 and enter the outlet 3. As a result of their collision, further crushing occurs and turbulization, which ultimately leads to an increase in the degree of dispersion of the sprayed medium, which leaves the nozzle out through the outlet 3 in the form of tiny capes e.

The use of nozzles provides the following benefits:

 increasing the degree of dispersion of the sprayed medium;

 increasing the reliability of the nozzle design;

 simplification of the design of the device.

Claims (9)

1. The nozzle containing the housing with an inlet for the sprayed medium, a screen inside the nozzle, an outlet, characterized in that the screen is made in the form of a static mixer, formed voluminously connected to each other at least two points of semicircular segments, and the static mixer overlaps the inlet, and the outlet is connected to the inlet by a conical transition made in the nozzle body. 2. The nozzle according to claim 1, characterized in that grooves are made in each semicircular segment, when installed, they are located in close proximity to the axis of the static mixer. 3. The nozzle according to claim 1, characterized in that the grooves are made in a rectangular shape. 4. The nozzle under item 1, characterized in that the grooves are made of a triangular shape. 5. The nozzle under item 1, characterized in that the grooves are made of complex shape. 6. The nozzle according to claim 1, characterized in that the angle A between the semicircular segments is taken no more than 90 °. 7. The nozzle according to claim 1, characterized in that the static mixer is removable. 8. The nozzle according to claim 1, characterized in that the static mixer is made integrally with the body. 9. The nozzle under item 1, characterized in that the static mixer is made along the entire length of the inlet.

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