RU2053444C1 - Nozzle - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: nozzle for spraying liquid has housing for supplying a gas spryer provided with cylindrical outlet and branch pipe for supplying liquid coaxially mounted inside the housing and provided with a swirler. A screw swirler for the sprayer is mounted inside the outlet. The swirler has axial opening. The swirler for liquid is mounted in the axial opening of the sprayer swirler. The outlet faces of the swirlers are conical and mounted to define the common conical surface. The top of the cone is facing into the flow. The outlet face of the branch pipe for supplying liquid abuts against the face of the spryer swirler. EFFECT: improved design. 1 dwg

Description

 The invention relates to nozzles for spraying liquids and can be used in the chemical industry for spraying water containing harmful substances in fire technology installations for thermal neutralization of industrial effluents.

Known nozzle for spraying a liquid, comprising a housing for supplying and distributing a gas atomizer, a housing for supplying and distributing a liquid, nozzles for supplying a gas atomizer with conical nozzles at an outlet, nozzles for supplying liquid with conical nozzles at an outlet located inside nozzles for dispensing a nozzle, atomizer swirls located in the annular gap between the nozzles for supplying the atomizer and nozzles for supplying the liquid [1]
However, due to the fact that the nozzle is equipped with conical nozzles for the atomizer, the spray torch is narrow and long, and the nozzle is not suitable for operation in small chamber furnaces, which are equipped with plants for the thermal treatment of industrial effluents, in addition, due to the fact that the nozzle is equipped with conical nozzles for liquids, and these nozzles are located inside the conical nozzles for the atomizer, then on the one hand the reverse central gas vortex does not reach the mouth of the liquid nozzles and cannot participate in the atomized and the liquid jet, and on the other hand, flowing out of the conical water jet nozzles has significant energy.

 These factors lead to the fact that in the center of the nozzle there is a breakthrough of large drops of water, and when the mode changes, even a compact jet, which leads to poor spray quality.

The closest to the proposed technical essence and the achieved effect is a nozzle containing a housing for supplying a gas atomizer with a cylindrical outlet section, inside of which there is a screw swirl for an atomizer with an axial hole, a pipe for supplying fluid with a swirl coaxially placed inside the housing, and a swirl for liquid located in the outlet portion of the nozzle, and the outlet portion of the nozzle is located in the axial hole of the swirl for the atomizer [2]
This nozzle also has poor spray quality. Due to the fact that the swirl for liquid is located in the outlet portion of the nozzle for supplying fluid, and the outlet portion of the nozzle is located in the axial bore of the swirl for the atomizer, the swirls for the liquid and the atomizer are spaced from each other by the wall of the nozzle, and taking into account the fact that the output nothing is provided for the ends of the swirls and the outlet section of the nozzle to create a single gas-liquid flow; at the outlet of the nozzle, separate “feathers” of liquid and atomizer are formed, which leads to n satisfactory quality spray.

 The objective of the invention is to improve the quality of the spray.

 To solve this problem, in a nozzle containing a housing for supplying a gas atomizer with a cylindrical outlet, inside of which there is a screw swirl for a nozzle with an axial hole, a nozzle for supplying fluid with a swirl coaxially placed inside the housing, a swirl for liquid is located in the axial hole of the swirl for a spray moreover, the output ends of the swirlers are made conical and installed with the formation of a single surface of the cone with a vertex directed towards the flow y, and an output end for supplying fluid nozzle placed adjacent the end of the swirler to the atomizer.

 This nozzle has a high spray quality, which is due to the following.

 Due to the fact that the swirl for the liquid is located in the axial hole of the swirl, and the outlet ends of the swirl are made conical and installed with the formation of a single surface of the cone with the apex directed towards the flow, the rotating jets of liquid are superimposed on the rotating jets of the atomizer, forming a single flow that produces a small uniform sprayed liquid.

 Due to the fact that the outlet end of the fluid supply pipe is placed adjacent to the inlet end of the swirl for the atomizer and is not brought out to the outlet ends of the swirl, there is no interference with the spray quality.

 The drawing shows the proposed nozzle, a longitudinal section.

 The nozzle contains a housing 1 for supplying a gas atomizer with a cylindrical outlet portion 2, a screw swirl 3 for an atomizer with an axial hole, a nozzle 4 for supplying liquid adjacent to the inlet end of the swirl 3 for the atomizer, a screw swirl 5 for liquid installed in the axial hole of the swirl 3 for sprayer. The output ends of the swirls are made conical and installed with the formation of a single surface of the cone with a vertex directed towards the flow.

 The nozzle works as follows.

 Through the housing 1, a gas atomizer is supplied (compressed air, water vapor, etc.). Having passed through the helical grooves of the swirler 3, the atomizer leaves section 2. A liquid 4 (for example, industrial effluent) is supplied through the nozzle 4, which, passing through the helical grooves of the swirler 5, is laid on the conical outlet end face of the swirler 3 and then on the rotating spray of the atomizer, a sprayer moving at high speed breaks the liquid into tiny drops.

Claims (1)

 A nozzle for spraying a liquid, comprising a housing for supplying a gas atomizer with a cylindrical outlet portion, inside of which there is a screw swirl for an atomizer with an axial hole, a nozzle for supplying liquid with a swirl coaxially located in the housing, characterized in that the liquid swirl is located in the axial opening of the swirl for the sprayer, and the outlet ends of the swirls are conical and installed with the formation of a single surface of the cone with a vertex directed towards current, and an output end for supplying fluid nozzle placed adjacent the end of the swirler nebulizer.

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