SU971505A1 - Pneumatic nozzle - Google Patents

Description

The invention relates to pneumatic nozzles and can be used in the chemical, food and energy industries for spraying suspensions and solutions in the drying and absorption processes, as well as in spraying liquid fuel with compressed air or steam during its combustion.

A nozzle is known in which a slotted hole for supplying a sawn liquid and nozzles for supplying a sprayer are provided, the rows of nozzles being located on both sides of the slotted hole and the nozzles of opposite rows are angled towards each other C1J. ^fifteen

The disadvantage of this nozzle is that the oncoming jets of the atomizer collide, while losing a significant part of the energy not used for atomization. After the collision ^{20, the} jets merge, which leads to the formation of one narrow spray jet with a small opening angle. Merging jets and the formation of a narrow plume contribute to the intense coagulation of droplets, which reduces the quality of the spray.

Closest to the proposed nozzle is a pneumatic nozzle comprising a housing with a nozzle for supplying liquid and a liquid channel, having a sleeve with a central hole for introducing compressed air and an air channel, and a torch spray head with nozzles communicating with the liquid channel [2].

Its disadvantages are low quality (spray *, not uniform enough, with low intensification of spraying, the inability to obtain a multi-row rectangular torch with its disclosure in two planes.

The aim of the invention is to improve the quality of spraying and the possibility of obtaining a multi-row rectangular torch.

This object is achieved in that the pneumatic injector comprising kod pus with a nipple for supplying the liquid and a liquid channel having a hub with a central hole of the compressed air inlet and the air passage and flare spray head with nozzle com- _$-rotating with the liquid passage, but the invention agree equipped with a distributing element and nozzle inserts arranged between the sleeve and the flare spray head and nozzle inserts, while the flare spray head and the distributing element are fan-shaped grooves converging along the fluid, and nozzle inserts are installed in the grooves of the flare distribution head 15.

Nozzle inserts can be made expanding along the fluid.

Furthermore, both the flare raspylitel- ₂ 0 Nye head and dispensing element formed from two detachably mounted portions with the flat seal of the connector.

In FIG. 1 shows a general view of a pneumatic nozzle; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - section BB in FIG. 1; in FIG. 4 - section bb in Fig. ' 3 ^ in FIG. 5 is a section of G-Mr. figure 4.

The pneumatic nozzle contains a housing 1 with a nozzle 2 for supplying liquid and a liquid channel 3, having a sleeve 4 with a central hole 5 for introducing compressed air and an air channel 6 and a flare spray head 7 with nozzles 8 communicating with channel 3.

In addition, the pneumatic nozzle is equipped with a distributing element ₄₀ 9 located between the sleeve 4 and the head 7 and nozzle inserts 10, bounded by the straps 11, while the head 7 and the element 9 are made with grooves 12 and 13 fan-shaped diverging in the direction of the fluid, respectively.

The inserts J.0 'are made expanding in the direction of the fluid.

Both the head 7 and the element 9 are made of two parts 14 and 15 (16 and 3.7) that are removably mounted with a seal 18 along the plane of their connector. ⁵⁰ Pneumatic nozzle operates as follows.

Compressed air or steam enters through the opening 5, from where the air stream enters the element 9 of the housing 1, where it ⁵⁵ is divided into uniform parts, falling into the grooves 13.

At the exit of element 9, the flow is bred into a strip with a hole width of 5.

The head 7 distributes the flow of compressed air from the strip to a height, distributing it into fan-shaped diverging grooves 12, equal to several diameters of the hole 5.

In the grooves 12 to the head 7, compressed air passes through the nozzles 8 in the form of annular channels formed between the grooves 12 and the inserts 10 in communication with the channel 3 and the fitting 2.

Compressed air accelerates in nozzles. 8 and simultaneously draws in liquid and throws it out in the form of a square or rectangular cross section of the liquid plume.

In this way, an improvement in the quality of ’’ spraying, uniform distribution of the atomizer to obtain a multi-row rectangular torch.

Claims (2)

The invention relates to pneumatic nozzles and can be used in chemical, food and energy industries for the development of suspensions and solutions in the processes of drying and absorption, as well as. spraying liquid fuel with compressed air or steam when it is burned. A well-known nozzle, in which a slit opening is provided for supplying a sprayed liquid and nozzles for feeding a sprayer, the rows of nozzles are located on both sides of the right side and the nozzle side of the opposite rows are directed at an angle opposite to each other ClJ. The disadvantage of this nozzle is that rc implies that the opposing strings of the atomizer collide, resulting in a significant portion not used for spraying. After a collision, the jets merge, which results in the formation of one narrow spray cone with a small opening angle. The coalescence of jets and the formation of a narrow plume contribute to the intensive coagulation of droplets, which reduces the quality of the spray. Closest to the nozzle according to the invention, there is a pneumatic nozzle comprising a housing with a fitting for supplying a liquid and a liquid passage, having a sleeve with a central opening for introducing compressed air and an air passage and a flare spray head with nozzles communicating with the fluid passage 2. Its disadvantages are the low quality of the rasps, insufficiently uniform, with a small intensification of spraying, the impossibility of obtaining a multi-core rectangular torch with its opening in two planes. The aim of the invention is to improve the quality of spraying and to ensure the possibility of obtaining a multi-faceted 1F-carbon flare. This goal is achieved by the fact that a pneumatic nozzle containing a coopus with a nozzle for supplying a liquid and a liquid channel, having a sleeve with a central opening for introducing compressed air and an air channel and a flare spray head with nozzles communicating with the liquid channel, according to the invention, is provided with between the sleeve and the flare spray head, the distributing element and nozzle inserts, while the flare spray head and the distributing element are made with fan-shaped one by one along the motion of the fluid grooves, and nozzle inserts are installed in the grooves of the flare distribution head. The nozzle inserts can be made expanding in the course of the two packs of liquid. In addition, both the flare spray head and the dispensing element are made of two connectable parts that can be inserted along the plane of their connector. FIG. 1 shows a general view of a pneumatic nozzle; .on FIG. 2 - section A-A on. FIG. Ij in FIG. 3 shows a section BB in FIG. one; in fig. 4 shows a section B-B in FIG. 3: in FIG. 5 is a section of the G-Gn figure 4. The pneumatic nozzle includes a housing 1 with a fitting 2 for supplying a liquid and a liquid passage 3 having a sleeve 4 with a central opening 5 for introducing compressed air and an air passage 6 and a flare spray head 7 with nozzles 8 communicating with the passage 3. In addition, the pneumatic nozzle provided with a distributing element 9 and nozzle inserts 10, spaced between the sleeve 4 and the head 7, bounded by the strips 11, while the head 7 and the element 9 are made with a fan (5 differently diverging along the movement of the fluid by the grooves 12 and 13 respectively. JO / Inserts are made expanding with in the direction of fluid movement. Both the head 7 and the element 9 are made of two connectable parts 14 and 15 (16 and 17) with a seal 18 along the plane of their connector. The pneumatic FS operates as follows Compressed air or steam enters through the opening 5, from where the air flows into the element 9 of the housing 1, where it is divided into uniform parts, into the grooves 13. At the outlet of the element 9, the flow is separated into a strip with the width of the opening 5. Head 7 distributes compressed air flow and from the strip to the height, it is distributed in a fan-like consuming grooves 12, equal to the non-long diameters of the hole 5. In the grooves 12 to the head 7, the compressed air passes through the nozzles 8 in the form of annular channels formed between the grooves 12 and inserts 10 communicating with channel and choke 2. Compressed air is accelerated in the nozzles. 8 and at the same time draws in liquid and throws it out in the form of a square or rectangular section of the liquid plume. Thus, an increase in the quality of: spraying, the uniform distribution of the atomizer to obtain a multi-core rectangular flame is provided. Claim 1. Pneumatic nozzle comprising a housing with a nozzle for supplying a liquid and a liquid channel, having a sleeve with a central opening for introducing compressed air and an air channel and a flare spray head with nozzles communicating with the liquid channel, so that the spraying quality and the possibility of obtaining a multi-core rectangular flare, it is provided with a distribution element disposed between the sleeve and the flare spray head and the nozzle inserts In this case, the flare spray head and the distributing element are made with fan-shaped grooves diverging in the direction of the fluid flow, and nozzle inserts are installed in the grooves of the flare spray head. 2. A nozzle according to claim 1, characterized in that the nozzle inserts are made expanding in the course of the fluid flow. 3. The injector according to claim 1, characterized in that both the flare spray head and the rasprepleyuschy element are made of two parts installed with the possibility of a connector with sealing along the plane of their connector. Sources of information taken into account during the examination 1. USSR author's certificate NS 238855, cl. B 05 B 7/00, 1954. 2. USSR author's certificate number 568790, cl. F 23 D 11/12, 1974 (prototype). Xf FUG. g SF1 / g. ff