RU2299769C1 - Spraying jet - Google Patents

Abstract

FIELD: processes for spraying liquid media, possibly used in liquid coolers, in air conditioning systems, water sprinkling plants, fuel combusting apparatuses, fire extinguishing systems.

SUBSTANCE: spraying jet includes housing provided with nozzle and having inlet opening for sprayed fluid. Nozzle has at least one outlet opening that is closed by means of trough like screen arranged at inner side of jet and turned by its cavity to outlet opening. Two edges of said screen arranged one opposite to other abut to spraying jet surface and two other edges of said screen form two mutually opposite openings.

EFFECT: possibility for enhancing dispersion degree of sprayed fluid, improved operational reliability, simplified design of jet.

12 cl, 7 dwg

Description

The invention relates to a technique for spraying liquid media and can be used in liquid coolers, such as cooling towers, in air conditioning systems, in sprinklers, in fuel burning devices, in fire extinguishing systems, and also as equipment for other technological processes.

Known nozzle containing 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 flow discharge direction elements towards the outlet section of the diffuser section connected to the diffuser the nozzle section, while in order to increase the degree of liquid spraying, the elements of the flow discharge direction are made in the form of a trump covering the diffuser section with the formation of an annular gap an arch consisting of arched trapezoidal rotary plates pivotally attached to the diffuser section in front of its lateral outlet openings, the plates being mounted one over the other overlapping, and the visor is equipped with a flow reflector made in the form of flanges attached to the plates, bent towards each other, and placed on the flanges of unidirectional ribs (RF Patent No. 2101615, IPC F23D 11/34, B05B 17/06, publ. 01/10/1998). 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 containing a housing with a mixing chamber, a nozzle and a swirl-liner made with channels along the periphery and with radial ribs at the end facing the nozzle, while to improve the performance of the nozzle, the mixing chamber is made with a cylindrical section that passes 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 said radial ribs are made of arcs shaped, wherein the chamber located upstream of the nozzle portion is tapered (RF Patent №2205703, IPC V05V 1/34, publ. 10.06.2003). The disadvantage of this nozzle is also the design complexity due to the complex structural design of the swirl insert.

A simpler design, compared with the previous ones, has a nozzle containing a housing with an output nozzle in the form of a confuser and diffuser sections mated with a pinch, and a resonator connected to the diffuser section of the nozzle and made in the form of a blanked pipe with a cut of the open end facing the confuser section nozzles, while to increase the degree of atomization of the liquid, the resonator is formed by the inner side surface of the diffuser section, the side surface of which is coaxially located in the diffuser a part with the formation of an annular gap of a thin-walled flow diffuser and a diffuser section and a diffuser conjugated with large bases along their perimeters in the plane of the output section of the diffuser section of the flat ring (RF Patent No. 2101616, IPC F23D 11/34, B05B 17/06, publ. 10.01.1998 )

As a prototype, a nozzle was selected comprising a housing having a longitudinal axis with an inlet for a sprayed 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 outlet end face of the housing is located inside the nozzle cavity and is beveled (A .С. USSR No. 1819681, IPC V05V 1/02, 1/34, publ. 07.06.1993). This nozzle has a simple design, but it does not provide a sufficient degree of dispersion of the sprayed medium. This is due to the fact that when the sprayed medium flows out of a spherical nozzle, the outlet openings in which are made in the form of simple perforation, a high degree of flow turbulence is not achieved. In addition, the axial movement of the nozzle relative to the housing during the operation of the nozzle reduces the reliability of the latter.

The technical result of the claimed invention is to increase the degree of dispersion of the spray medium and the reliability of the nozzle design while maintaining the simplicity of the design.

The specified technical result is achieved in that the nozzle containing a nozzle housing with an inlet for a spray medium having at least one outlet, according to the invention, the outlet is blocked by a groove-shaped screen placed on the inside of the nozzle and facing its cavity to the outlet while two opposite edges of the screen are adjacent to the surface of the nozzle, and the other two form two opposed holes.

The specified technical result is also provided in cases where at least one outlet screened by the screen is made in the nozzle and / or in the side surface of the housing.

The achievement of the specified technical result is also facilitated by the fact that the outlet has a plan view of a parallelogram, rhombus, rectangle or square.

The specified technical result is also ensured by the fact that the screen has an arched, U-shaped, trapezoidal or triangular profile.

The achievement of the specified technical result also contributes to the fact that the screen is made in one piece with the walls of the nozzle.

The specified technical result is also provided in cases where the nozzle is made removable or integrally with the body.

By supplying the nozzle with a gutter-shaped screen that overlaps the outlet, placed on the inside of the nozzle and facing its cavity to the outlet, provided that two opposite edges of the screen are adjacent to the surface of the nozzle, and the other two form two opposed holes, increasing the degree dispersion of the sprayed medium. This is explained by the fact that the sprayed medium, before it enters the outlet, is first crushed, colliding with the surface of the gutter-shaped screen that overlaps the outlet and protrudes into the nozzle, and then it flows into the opposed openings formed by the screen in separate streams running towards each other, which collide with each other screen cavity in the area of the outlet. As a result of the collision of these flows, crushing and intensive turbulization of the sprayed medium occurs, leading to the formation of smaller drops at the outlet of the outlet, in comparison with the prototype.

The execution of the outlet, which has a plan view of a parallelogram, rhombus, rectangle or square, as well as a screen of a gutter-like shape with an arched, U-shaped, trapezoidal or triangular profile, are particular forms of nozzle implementation that ensure the achievement of the specified technical result.

The execution of the screen in one piece with the walls of the nozzle is also one of the possible options for the implementation of the nozzle, providing an increase in the degree of dispersion of the sprayed medium, and at the same time, contributing to an increase in the manufacturability of its manufacture.

The implementation of the nozzle as a removable, or in one piece with the body, together with the other above distinctive features of the invention are possible private forms of implementation of the nozzle, ensuring the achievement of the specified technical result.

The invention is illustrated by the drawings shown in figures 1-7.

Figure 1 is a longitudinal section of a nozzle with an outlet made in the nozzle;

figure 2 - section aa in figure 1;

figure 3 is a longitudinal section of a nozzle with exhaust holes in the side surface of the housing;

figure 4 - section bB in figure 2;

figure 5 is a longitudinal section of a nozzle with a nozzle made in one piece with the body;

6 is a section bb in figure 5;

Fig.7 is a section GG in Fig.5.

The nozzle comprises a housing 1 provided with a nozzle 2 and having an opening 3 for supplying a spray medium. The housing can be made, for example, in the form of a body consisting of diffuser and cylindrical sections (figure 1), or have a simple cylindrical shape (figure 3 and 5). The nozzle 2 can be made as removable and connected to the housing 1, for example, by means of a threaded connection (Figs. 1-3), and in one piece with it (Fig. 5). Performing a removable nozzle is more preferable, since in this case routine inspection and cleaning of the inner surface of all kinds of deposits, which worsen the operation of the nozzle, are facilitated. The nozzle is provided with at least one outlet 4 opening, which is blocked by a trough screen 5 located on the inside of the nozzle and facing its cavity to the outlet 4 hole, with two opposite edges of the screen 5 adjacent to the surface of the nozzle, and two others - form two opposed 6 and 7 holes. One or more outlet 4 holes can be made, for example, only in the nozzle 2 (Fig. 1), which is made, for example, with a flat end surface, or only in the side surface of the housing 1 (Figs. 3 and 4), or in the nozzle and the side surface of the housing at the same time (figure 5). In the case of the exhaust 4 holes only in the side surface of the housing and the execution of the nozzle with a removable nozzle 2, the latter is solid and acts as a cover to ensure preventive inspection of the nozzle (figure 3). In the case of completing the nozzle in one piece with the body, it is its end wall (figure 5). The outlet 4 nozzle openings can be made in a shape having, for example, a square, a rectangle, a parallelogram (not shown in the drawing) or a rhombus (not shown in the drawing) in plan, and a gutter-shaped screen, for example, with an arched, U-shaped, triangular or trapezoidal profile. In the embodiment of the nozzle shown in Fig. 1, for example, the nozzle 2 is removable and has a flat end surface, and one outlet 4 hole is made only in the nozzle, has a square view in plan and is overlapped by a gutter-shaped screen 5 having an arcuate profile. In another possible embodiment of the nozzle shown in FIGS. 3 and 4, for example, four outlet 4 openings are in plan, for example, in the form of a rectangle and are made only in the side surface of the housing 1 and are overlapped by trough-like screens 5 having a triangular profile. In this case, the nozzle 2 is solid (without holes) and, like the first embodiment, is removable, but, in this case, plays the role of a cover for routine inspection of the nozzle. In a further embodiment of the nozzle shown in FIGS. 5, 6 and 7, the nozzle 2 is integral with the housing 1 and is its end wall. In this embodiment, the outlet 4 openings all have a plan view of a rectangle as well, and one of them is made in the nozzle 2, which is the end wall of the casing, and is blocked by a trough-like screen 5 with a U-shaped profile, and three are in its side surface and are covered by trough-like screens 5 with a trapezoidal profile. To improve the manufacturability of the manufacture of the nozzle, the screens 5 are made in one piece with the walls of the nozzle, for example, by cold stamping. The screens can also be made separately and attached to the surface of the nozzle by any known method, for example, glued or soldered.

Outlets and screens may have a different shape than the one presented in the above examples. The number of outlet openings blocked by the trough screen both in the nozzle and in the side surface of the housing, as well as their orientation may also differ from that shown in the above nozzle implementation examples. For example, in the nozzle, several outlet openings may be made overlapped by screens oriented radially (not shown in the drawing).

The nozzle works as follows. The sprayed medium in the form of a liquid, for example, water from the water supply network through the opening 3 enters the housing 1. In the housing 1, the flow of the sprayed medium collides with its internal walls, resulting in partial turbulization of the flow. Further turbulization of the flow and its crushing occurs when it collides with screens 5 overlapping those made in the nozzle 2 (Figs. 1 and 2) or in the side surface of the housing 1 (Figs. 3 and 4), or in the nozzle and in the side surface 2 case 1 (Fig.5, 6 and 7). After that, individual streams of the sprayed medium enter the opposite openings 6 and 7 formed by the screens 5, move towards each other and collide with each other in the cavity of the screen 5 in the zone of the outlet 4 of the hole. As a result of their collision, further crushing and turbulization occurs, which ultimately leads to an increase in the degree of dispersion of the sprayed medium, which leaves the nozzle out through the 4 outlet holes in the form of tiny drops.

Thus, the inventive nozzle, in comparison with the prototype, while maintaining the simplicity of the design provides an increase in the degree of dispersion of the sprayed medium and has higher reliability due to the lack of structural elements requiring mutual displacement in its design.

Claims (12)

1. The nozzle containing a nozzle housing with an inlet for a spray medium, having at least one outlet, characterized in that the outlet is blocked by a groove-shaped screen placed on the inside of the nozzle and facing its cavity to the outlet, two opposite edges of the screen are adjacent to the surface of the nozzle, and the other two form two opposed holes. 2. The nozzle according to claim 1, characterized in that at least one outlet screened by the screen is made in the nozzle and / or in the side surface of the housing. 3. The nozzle according to claim 1 or 2, characterized in that the outlet has a plan view of a parallelogram, rhombus, rectangle or square. 4. The nozzle according to claim 1 or 2, characterized in that the screen has an arched, U-shaped, trapezoidal or triangular profile. 5. The nozzle according to claim 3, characterized in that the screen has an arched, U-shaped, trapezoidal or triangular profile. 6. The nozzle according to any one of claims 1, 2 or 5, characterized in that the screen is integral with the walls of the nozzle. 7. The nozzle according to claim 3, characterized in that the screen is integral with the walls of the nozzle. 8. The nozzle according to claim 4, characterized in that the screen is integral with the walls of the nozzle. 9. The nozzle according to any one of claims 1, 2, 5, 7 or 8, characterized in that the nozzle is removable or integrally with the body. 10. The nozzle according to claim 3, characterized in that the nozzle is removable or integral with the housing. 11. The nozzle according to claim 4, characterized in that the nozzle is removable or integral with the housing. 12. The nozzle according to claim 6, characterized in that the nozzle is removable or integral with the housing.

Images