RU2637355C1 - Centrifugal nozzle - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: centrifugal nozzle comprising a body, an insert with tangential channels, a swirl chamber connected to tangential channels, a nut, a nozzle, according to the invention is provided with a screw having stepped cylindrical and conical parts, an axial channel is made in the cylindrical part, and channels made in the conical part are positioned at an angle to axis of symmetry of the nozzle and connected with axial channel, filter having longitudinal section of U-shaped form installed on end surface of the screw and pressed to it by the nut in which an axial hole is made for a key, and the insert is made in form of cylindrical bushing installed for thrusting by one end into step of conical part of screw, and the second end into the bottom of the cylindrical chamber made in the body, forming side surface of the latter and with its outer cylindrical surface an annular chamber connected to tangential channels.

EFFECT: extension of fleet of technical means for liquid spraying.

4 cl, 1 dwg

Description

The invention relates to the field of fire fighting equipment and is intended to extinguish fires using finely atomized water.

As a prototype, a centrifugal vortex nozzle from the description of the invention to the patent of the Russian Federation 2533099, published on 11/20/2014, is considered. This nozzle contains a housing, a union nut, a liner, a nozzle and a disk adjacent to the end face of the liner.

The insert has at least three tangential channels tapering along the stream located in a plane perpendicular to the axis of the housing, as well as a swirl chamber connected to the tangential channels, a throttle hole coaxial to the housing located in the lower part of the insert, to the end of which from the side of the tangential channels perpendicular to the axis of the housing adjacent disk.

In the end surface of the union nut, a central bore is made axisymmetrically to the body, consisting of a cylindrical part and a conical part. A plate spray gun is mounted axisymmetrically to the body end face of the cap nut, consisting of two plates perpendicular to the axis of the body, one of which has a central hole, and the second plate is solid and attached to the first by means of fasteners including a screw and calibrated washers installed between the plates, as well as between the end surface of the union nut and the first plate. The second plate of the plate spray is not made flat, but convex or concave, and the top of the convex surface can be directed both towards the end surface of the union nut and away from it. In addition, the second plate of the plate spray gun is perforated in the area limited by the calibrated washers installed between the plates of the plate spray gun.

A disadvantage of the known nozzle is the complexity of the design, low reliability and high complexity of manufacturing.

The present invention solves the problem of simplifying the design, increasing reliability and reducing the complexity of manufacturing.

The technical result consists in expanding the arsenal of technical means for spraying liquid.

To achieve the technical result, the proposed nozzle, as closest to it, contains a housing, an insert with tangential channels, a swirl chamber connected to the tangential channels, a nut, a nozzle, in contrast to the prototype, equipped with a screw having stepped cylindrical and conical parts in a cylindrical part of which the axial channel is made, and in the conical part there are channels located at an angle to the nozzle symmetry axis and connected to the axial channel, a filter having a longitudinal section U-image shaped, mounted on the end surface of the screw and pressed against it by a nut, in which a turnkey axial hole is made, and the insert is made in the form of a cylindrical sleeve mounted with the possibility of abutment with one end in the step of the conical part of the screw, and with the second end in the bottom made in the housing of the cylindrical chamber and forming the lateral surface of the last and its outer cylindrical surface of the annular chamber connected to the tangential channels.

The drawing shows a longitudinal section of the inventive centrifugal nozzle.

The centrifugal nozzle consists of a housing 1 in which a nozzle 2 and a cylindrical chamber (a position not shown in the drawing) are made, connected to a nozzle 2, a thread is made in the upper part of the side surface of which. In the said cylindrical chamber, a nut 3, a screw having stepwise cylindrical 4 and conical 5 parts are fixed coaxially with a threaded connection, and an insert 6, a filter 7, having a U-shaped longitudinal section and located on the end surface of the screw to which it is mounted preloaded by nut 3, in which an axial key hole is made. The filter 7 is made mesh and is designed to purify water from mechanical impurities.

The insert 6 is made in the form of a cylindrical sleeve installed with the possibility of abutment with one end on the step of the conical 4 part of the screw, and the second end - in the bottom of the cylindrical chamber (position not shown in the drawing), made in the housing 1. The insert 6 has at least three tangential channels 8, which are made at the end abutting against the bottom of the cylindrical chamber.

The outer cylindrical surface of the liner 6 and the lateral surface of the cylindrical chamber of the housing 1 is formed of an annular chamber 12.

In the cylindrical 4 part of the screw, an axial channel 9 is made, connected to at least four channels 10, made in the conical part of the screw at an angle to the axis of symmetry of the nozzle and connected to the annular chamber 12, connected through tangential channels 8 to the swirl chamber 11.

In the swirl chamber 11 is located the upper part of the conical 5 part of the screw, the top of which is directed towards the nozzle 2.

The nozzle works as follows.

Water under high pressure enters the axial channel 9, from which it enters the annular chamber 12 through the channels 10, from which into the tangential channels 8, during which water receives a twist relative to the symmetry axis of the housing 1 and enters the swirl chamber 11, and along the conical surface 5 parts of the screw, the rotating flow enters the nozzle 2, at the exit of which under the action of centrifugal forces a torch of finely atomized water is formed.

The inventive nozzle allows you to:

- to simplify the design and increase reliability due to fewer parts compared to the prototype;

- reduce the complexity of manufacturing by simplifying the design.

In the prior art, no solution has been identified that has features that match the distinguishing features of the claimed technical solution, which indicates its compliance with the criterion of "novelty."

In the prior art, no solutions have been identified that have features that match the distinctive features of the claimed technical solution, which indicates its compliance with the criterion of "inventive step".

Claims (4)

1. A centrifugal nozzle containing a housing, an insert with tangential channels, a swirl chamber connected to the tangential channels, a nut, a nozzle, characterized in that it is provided with a screw having stepped cylindrical and conical parts, in the cylindrical part of which the axial channel is made, and in the conical parts of the channel are made, located at an angle to the axis of symmetry of the nozzle and connected to the axial channel, a filter having a longitudinal section of a U-shaped, mounted on the end surface of the screw and the nut pressed against it oh, in which the turnkey axial hole is made, and the insert is made in the form of a cylindrical sleeve mounted with the possibility of abutment with one end on the step of the conical part of the screw, and the second end - in the bottom made in the body of the cylindrical chamber and forming the lateral surface of the last and its outer cylindrical the surface of the annular chamber connected to the tangential channels. 2. The nozzle according to claim 1, characterized in that the filter is mounted with the possibility of stopping the end of the side wall into the protrusion of the step of the cylindrical part of the screw. 3. The nozzle under item 1 or 2, characterized in that the filter is mesh. 4. The nozzle according to claim 1, characterized in that the nut is made round and threaded on the outer cylindrical surface.

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