RU2641281C1 - Centrifugal vortex nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: T-shaped throttle washer is rigidly fixed between the body and the nut. At least three throttle orifices are made in end cylindrical part of the washer. An axial throttle orifice with a perforated disc on its cut, which is fixed to axial cylindrical part of T-shaped throttle washer, is arranged in axial cylindrical part rigidly connected to the throttle washer. The hydraulic resistance of the throttle orifices and the axial throttle orifice are selected depending on the properties of sprayed liquid and the required degree of its spraying. Solution is supplied through an orifice in the nut fixed in upper part of the body. The bottom of the body with the central cylindrical axial chamber is closed by a perforated disc attached to the end bottom surface of the body. A hollow conical swirler is located in the cylindrical axial chamber axially symmetrical thereto. A conical shell of the swirler is fixed between perforated disc rigidly connected with the axial throttle orifice of the T-shaped throttle washer and the perforated disc fixed to end lower surface of the body. A through helical thread is made on the outer surface of the hollow conical swirler.

EFFECT: increased spraying efficiency, simplified structure and reduced material consumption.

2 cl, 1 dwg

Description

The invention relates to means for spraying liquids and solutions and can be used in engine building, chemical and food industries.

The closest technical solution to the claimed object is the nozzle according to the patent of Russian Federation No. 2339877, F02C 7/24, comprising a housing with a chamber, into which the screw is pressed in, with a throttle hole made in the bottom of the housing, and a fitting with a cylindrical hole, a diffuser and gasket (prototype).

A disadvantage of the known nozzle is that it does not provide a high degree of atomization.

EFFECT: increased spraying efficiency, simplified design and reduced material consumption.

This is achieved by the fact that in a centrifugal vortex nozzle containing a housing with a central cylindrical axial chamber connected to a nut in which a hole for supplying fluid is made, and a T-shaped throttle washer is rigidly fixed between the housing and the nut, in the end cylindrical part of which are made, at least three throttle openings, and in a rigidly connected axial cylindrical part there is an axial throttle hole with a perforated disk on its slice fixed to the axial cylindrical hour and a T-shaped throttle washer, while the hydraulic resistance of the throttle holes and the axial throttle hole is selected depending on the properties of the sprayed liquid and the required degree of spray, while the solution is supplied through a hole in the nut fixed in the upper part of the housing, while the bottom of the housing with a central cylindrical axial chamber closed by a perforated disk fixed to the end lower surface of the housing, and in a cylindrical axial chamber, axisymmetrically located along a conical swirl, the conical shell of which is fixed between the perforated disk rigidly connected to the axial throttle bore of the T-shaped throttle washer, and the perforated disk fixed to the end lower surface of the casing, through screw cutting is made on the outer surface of the hollow conical swirl.

In FIG. 1 shows a general view of a centrifugal vortex nozzle; FIG. 2 is a section AA of FIG. one.

The centrifugal vortex nozzle consists of a housing 1, with a central cylindrical axial chamber 3, connected by a threaded connection to a nut 2, in which a hole for supplying liquid is made.

Between the housing 1 and the nut 2, a T-shaped throttle washer 4 is rigidly fixed, in the end cylindrical part of which at least three throttle holes 5 are made, and in the axially cylindrical part that is rigidly connected to it, an axial throttle hole 7 with a perforated disk 6 on its slice fixed to the axial cylindrical part of the T-shaped throttle washer 4. The hydraulic resistance of the throttle holes 5 and the axial throttle hole 7 is selected depending on the properties of the sprayed liquid and the required degree her spray. The supply of the solution (liquid) is carried out through the hole in the nut 2, mounted in the upper part of the housing 1.

The bottom of the housing 1 with a central cylindrical axial chamber 3 is closed by a perforated disk 10 fixed to the end lower surface of the housing 1.

In the cylindrical axial chamber 3, axisymmetric to it, there is a hollow conical swirl 8, while its conical shell is fixed between the perforated disk 6, rigidly connected to the axial throttle hole 7 of the T-shaped throttle washer 4, and the perforated disk 10, fixed to the end bottom surface housing 1.

On the outer surface of the hollow conical swirl 8 is made through screw thread 9.

Centrifugal vortex nozzle operates as follows.

The fluid is supplied through the hole for supplying fluid made in the nut 2.

Through the T-shaped throttle washer 4, it enters simultaneously in two directions: through the axial throttle hole 7 to the top of the hollow conical swirler 8 with a through screw thread 9; and through the throttle holes 5, to the screw thread 9 of the hollow conical swirler 8 and then through the perforated disk 10, fixed to the end bottom surface of the housing 1, to the outside, where it meets a rotating fluid flow from the hollow conical swirl 8. When interacting with the rotating fluid flows, an additional crushing of liquid droplets due to their collision in associated or opposite rotating fluid flows.

With an average diameter of the axial throttle bore 7, which is in the range of 2.5-3.5 mm, and a liquid pressure of 6-9 MPa, spraying is provided from 400 to 1000 kg / h of liquid. The nozzle is easy to manufacture and maintain.

It is possible that the throttle holes 5 in the T-shaped throttle washer 4 are located tangentially, i.e. their axes are made parallel to the circumference of the end cylindrical part of the T-shaped throttle washer 4. This creates an inlet fluid flow effect of rotation when it enters the central cylindrical axial chamber 3 located in the housing 1.

Claims (2)

1. A centrifugal vortex nozzle containing a housing with a central cylindrical axial chamber connected to a nut in which a hole for supplying fluid is made, and a T-shaped throttle washer is rigidly fixed between the housing and the nut, at least three throttle are made in the end cylindrical part of it holes, characterized in that in the rigidly with the throttle washer of the associated axial cylindrical part there is an axial throttle hole with a perforated disk on its slice attached to the axial cylinder part of the T-shaped throttle washer, while the hydraulic resistance of the throttle holes and the axial throttle hole is selected depending on the properties of the sprayed liquid and the required degree of its spray, while the solution is supplied through the hole in the nut fixed in the upper part of the housing, while the housing with the central cylindrical axial chamber is closed by a perforated disk attached to the end lower surface of the housing, and in the cylindrical axial chamber axisymmetrically to it a hollow conical swirl is arranged, the conical shell of which is fixed between the perforated disk rigidly connected to the axial throttle hole of the T-shaped throttle washer and the perforated disk attached to the end lower surface of the casing, and a through screw thread is made on the outer surface of the hollow conical swirl. 2. The centrifugal vortex nozzle according to claim 1, characterized in that the throttle openings in the T-shaped throttle washer are located tangentially, i.e. their axes are made parallel to the circumference of the end cylindrical part of the T-shaped throttle washer, which creates the effect of rotation when the liquid enters the central cylindrical axial chamber located in the housing.

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