RU2624112C1 - Atomizer with active spreader - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: atomizer includes a housing, a fitting and coaxially disposed fitting swirl insert with an external helical thread and an expanding tapered holes inside. The fitting has an inlet straight hole connected to a diffuser formed axisymmetrically in the casing. At the bottom of the casing, a nozzle is located axisymmetrically to the casing, which is made with a two-stage and coaxial insert-swirl diffuser. The first diffuser stage is a continuation of the widening tapered hole formed inside the swirl insert which is made of wear-resistant material. The second diffuser stage is a continuation of his first stage, and a helical thread is made on its inner conical surface. The conical surface with a helical thread of the second diffuser stage is made perforated. In the bottom part of the casing, a cylinder course is fastened coaxially on which a flow divider is installed. The spreader is made in form of at least two rods located obliquely to the axis of the atomizer, connected to each other in the bottom part. A vertical rod is attached to the rods which a swirler is mounted on. The swirl is made in form of a cone with helical blades, enclosing a rod with clearance. The swirl is made supported with the fixed stop at the bottom, located horizontally and perpendicular to the rod.

EFFECT: improved liquid spray quality, sprayer performance, and hydraulic losses reduction.

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Description

The invention relates to techniques for spraying liquids.

The closest technical solution to the claimed object is the nozzle according to the patent of the Russian Federation No. 2411087, B05B 1/34, which contains a housing, a fitting and a swirl insert coaxially located with them connected to the nozzle (prototype).

A disadvantage of the known nozzle for spraying liquid is that at a high speed of rotation of the liquid, an air vortex arises in the nozzle of the nozzle, which worsens the fluid entry into the nozzle and reduces the productivity and quality of the liquid sprayed by the nozzle.

EFFECT: improved quality of liquid atomization, nozzle productivity, reduced hydraulic losses.

This is achieved by the fact that in the nozzle containing the housing, the nozzle and the coaxially located swirl insert with an external screw-shaped thread and an expanding conical hole inside, the inlet has a cylindrical inlet connected to the diffuser, made axisymmetrically in the housing, and in the lower part of the housing the nozzle is located axisymmetrically to the body, the nozzle is made with a two-stage and coaxial swirl insert-diffuser, while the first stage of the diffuser is a continuation of the expanding conical tverstiya formed within the insertion-swirler is made of wear-resistant material, wherein the second diffuser stage is a continuation of its first stage, while on its inner conical surface formed helical cutting conical surface with a helical thread of the second stage perforated diffuser.

The drawing shows a longitudinal section of a nozzle.

The nozzle for spraying liquid consists of a housing 1 and coaxially located and rigidly connected with it in the upper part of the fitting 2 with an inlet cylindrical hole 3 connected to the diffuser 4, made axisymmetrically in the housing 1. In the lower part of the housing is located axisymmetrically to the housing 1 nozzle 5. Nozzle 5 is made with a two-stage and coaxial swirl insert 6 with a diffuser, the first stage 10 of the diffuser being a continuation of the expanding conical hole 7 made inside the swirl insert 6, and the second stage 11 d ffuzora is a continuation of its first stage 10, the helical thread formed on its inner conical surface (in the figure shown on).

The swirl insert 6 is located in the central cylindrical hole 8 of the housing 1 and has external peripheral helical threaded channels 9, and inside the swirl insert 6, an expanding conical hole 7 is coaxially made for supplying liquid from the cylindrical hole 3 made in the fitting 2. The swirl insert 6 fixed in the lower part of the housing 1 by means of a nozzle 5. The insert-swirl 6 is made of wear-resistant material. The conical surface with a screw-shaped thread of the second stage 11 of the diffuser is perforated.

The nozzle for spraying liquid works as follows.

The fluid enters the housing 1 through the fluid supply channel 3 in the nozzle 2, and then into the central cylindrical hole 8. The fluid begins to swirl in the peripheral channels 9 of the swirl insert 6 and at the same time moves axially along the expanding conical hole 7. In the nozzle mixing chamber 5 formed by the first stage 10 of a two-stage diffuser, these flows interact with their additional turbulization and crushing to form a finely dispersed phase, and the second stage 11 of the diffuser with a helical threaded inside it enhances the effect of the atomization fluid.

Such a fluid flow at the exit of the nozzle 5 is well disclosed due to centrifugal forces arising from the rotation of the liquid, and is finely dispersed inside the cone-shaped plume due to the turbulent flow along the axis of the nozzle 5.

It is possible that in the lower part of the housing 1, a cylindrical shell 12 is fixed coaxially to it, on which a flow divider 13 is mounted, made in the form of at least two nozzles 14 and 15 located obliquely to the axis of the nozzle and connected to each other in the lower part to which a vertically located rod 16 is attached, on which a swirl is mounted, made in the form of a cone 18 with screw blades, covering the rod 16 with a gap and resting in the lower part on the stop 17, located horizontally and perpendicularly rod 16.

Claims (1)

A nozzle containing a housing, a fitting and a coaxially arranged swirl insert with an external screw-shaped thread and an expanding conical hole inside, wherein the inlet has a cylindrical inlet connected to a diffuser made axisymmetrically in the housing, and a nozzle located axisymmetrically to the housing made with a two-stage and coaxial swirl insert-diffuser, characterized in that the first stage of the diffuser is a continuation of an expanding conical hole, made inside the swirl insert, which is made of wear-resistant material, and the second stage of the diffuser is a continuation of its first stage, while on its inner conical surface there is a screw-shaped thread, and the conical surface with a screw-shaped thread of the second stage of the diffuser is perforated, characterized in that the lower part of the body coaxially fixed to it is a cylindrical shell on which a flow divider is installed, made in the form of at least two located on parallel to the axis of the nozzle of the rods connected to each other in the lower part, to which a vertically arranged rod is attached, on which a swirl is mounted, made in the form of a cone with screw blades, covering the rod with a gap and resting in the lower part on a stop located horizontally and perpendicular to the rod .

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