RU2648068C2 - Centrifugal wide pattern nozzle - Google Patents

Abstract

FIELD: separation; mixing.

SUBSTANCE: invention relates to devices for spraying of liquids, solutions. Centrifugal wide pattern nozzle comprises a body with a vortex chamber and a nozzle insert. Body is provided with an inlet fitting having a hole coaxial with the inlet cylindrical chamber, a vortex chamber coaxial with the inlet chamber and made in the form of a cylindrical sleeve which has at least three tangentially arranged holes on the side surface, the axes of which are tangential to the vortex chamber, namely, there is a multi-channel tangential entry. Nozzle insert with an outer diameter D₁ is located coaxially with the vortex chamber_. there are three calibrated holes in the insert, arranged in series and coaxial to each other and to cylindrical surface of the vortex chamber: conical hole with diameter D of truncated cone lower base, central cylindrical hole with diameter d₂ and an outlet conical hole with a diameter d₃ truncated cone lower base. Diameter d₂ of the central cylindrical hole of the nozzle insert is equal to the diameter of the truncated cone upper base of the conical hole and the diameter of the truncated cone upper base of the output conical hole. Nozzle is further provided with a water filter for cleaning from mechanical impurities, which is made in the form of a ring, coaxial with the vortex chamber cylindrical surface and adjacent without gaps to its outer cylindrical surface, overlapping holes tangentially located in the vortex chamber, and the filter can be fastened by means of a clamp or the filter is made in the form of a sleeve, which is fitted without gaps on the vortex chamber outer surface.

EFFECT: technical result: increased spray efficiency.

1 cl, 2 dwg

Description

The invention relates to means for spraying liquids, solutions.

The closest technical solution to the claimed object is the nozzle according to the patent of the Russian Federation No. 2497043, F02C 7/24, containing a housing with a swirl chamber and a nozzle insert (prototype).

A disadvantage of the known nozzle is that it does not provide a wide spray pattern due to the insufficient degree of twist of the input fluid stream.

The technical result is an increase in spraying efficiency by increasing the spray pattern.

This is achieved by the fact that in a wide-flange centrifugal nozzle containing a housing with a swirl chamber and a nozzle insert, the housing is made with an inlet pipe having an opening coaxial with the inlet cylindrical chamber, a swirl chamber located coaxially with respect to the inlet chamber and made in in the form of a cylindrical glass having at least three tangentially located holes on the side surface, the axes of which are located tangentially with respect to the swirl chamber, i.e. there is a multi-channel tangential input, and a nozzle insert with an external diameter D ₁ is located coaxial with the swirl chamber, three calibrated holes are made sequentially located and coaxial with each other and the cylindrical surface of the swirl chamber: a conical hole with a diameter D of the lower base of the truncated cone, a central cylindrical hole diameter d ₂ and an outlet tapered hole with a diameter d ₃ of the lower base of the truncated cone, the diameter d ₂ of the central cylindrical the nozzle insert verst is equal to the diameter of the upper base of the truncated cone of the conical hole and the diameter of the upper base of the truncated cone of the outlet conical hole, it is additionally equipped with a filter for purifying water from mechanical impurities, which is made in the form of a ring, is located coaxially to the cylindrical surface of the swirl chamber and fits without gaps to its outer cylindrical surface, overlapping the openings tangentially located in the swirl chamber, while the filter can be mounted lyatsya a clamp or the filter is shaped as a sleeve, worn without gaps to the outer surface of the swirl chamber.

In FIG. 1 shows a general view of a nozzle for spraying liquids; FIG. 2 - section of the turbulence chamber along the tangential multichannel input.

A centrifugal wide-torch nozzle consists of a housing 1 with an inlet pipe 4 having an opening 3, an inlet cylindrical chamber 9 coaxial with it, a swirl chamber 11 located coaxially with respect to the inlet chamber 9 and made in the form of a cylindrical cup 2 having at least at least three tangentially located holes 10, the axes of which are located tangentially with respect to the swirl chamber 2, i.e. there is a multi-channel tangential input.

Coaxially to swirl chamber 11 is located a nozzle insert 5 having an external diameter D _1, made of hard materials: tungsten carbide, ruby, sapphire. Three calibrated holes are made sequentially located and coaxial to each other and to the cylindrical surface of the turbulence chamber 11 inside the insert: a conical hole 6 with a diameter D of the lower base of the truncated cone, a central cylindrical hole 7 with a diameter of d ₂ and an exit conical hole 8 with a diameter of d _{3 of the} lower base of the truncated cone . The diameter d _{2 of the} central cylindrical hole 7 of the nozzle insert 5 is equal to the diameter of the upper base of the truncated cone of the conical hole 6, and also the diameter d _{2 of the} central cylindrical hole of the nozzle insert is equal to the diameter of the upper base of the truncated cone of the conical hole 6 and the diameter of the upper base of the truncated exit cone tapered bore 8.

Inside the liner 5 there are three calibrated holes arranged in series and aligned with each other and the cylindrical surface of the swirl chamber: a conical hole with a diameter D of the lower base of the truncated cone, a central cylindrical hole 7 with a diameter of d ₂ and an outlet conical hole 8 with a diameter of d _{3 of the} lower base of the truncated cone, the diameter d _{2 of the} Central cylindrical hole of the nozzle insert is equal to the diameter of the upper base of the truncated cone of the conical hole 6 and the diameter of the upper the base of the truncated cone of the outlet conical hole 8.

For the operation of the nozzle in optimal mode, the following ratios of its parameters are provided:

the ratio of the diameter d _{3 of the} outlet conical hole 8 of the nozzle insert 5 to the diameter d _{2 of the} central cylindrical hole 7 lies in the optimal range of values: d ₃ / d ₂ = 1.5 ÷ 2.5;

the ratio of the outer diameter D _{1 of the} nozzle insert 5 to the diameter D of the lower base of the truncated cone of the conical hole 6 of the insert 5 lies in the optimal range of values: D ₁ / D = 1.2 ÷ 1.8.

The nozzle is additionally equipped with a filter 12 for purifying water from mechanical impurities, which is made in the form of a ring (not shown in the drawing), is located coaxially to the cylindrical surface of the swirl chamber 11 and adheres without gaps to its outer cylindrical surface, overlapping the openings 10 located tangentially in the swirl chamber 11.

In this case, the filter 12 can be fastened by means of a clamp (not shown in the drawing) or the filter is made in the form of a cup worn without gaps on the outer surface of the swirl chamber 11.

It is possible that the nozzle is additionally equipped with a swirl (not shown in the drawing), made in the form of a screw located on the outer surface of the filter 12 for purification of mechanical impurities, made in the form of a cup, worn without gaps on the outer surface of the swirl chamber 11, and the twist direction the fluid flow on the screw coincides with the twist direction of the swirl chamber 11.

Centrifugal wide-angle nozzle for spraying liquids works as follows.

The fluid is fed through the inlet 3, then passes into the inlet cylindrical chamber 9 and enters through a multi-channel tangential inlet through the openings 10 into the swirl chamber 11, made in the form of a cylindrical cup 2. A rotating fluid flow from the swirl chamber 11 passes through a calibrated conical hole 6 of the nozzle insert 5, the central cylindrical hole 7 and the exit conical hole 8 of the nozzle insert 5, as a result of which a spray of liquid is formed, the root angle of which is determined are the value of the angle at the apex of the cone of the outlet conical opening 8 of the nozzle insert 5.

The proposed design of a wide-torch nozzle with a central cylindrical bore diameter of 7 equal to 9 mm at a liquid working pressure of 150 ... 250 kPa provides an opening angle of the water plume up to 150 ° and maintains the plume stability at a liquid pressure in front of nozzles from 40 kPa and higher, while the nozzle performance Depends on the fluid pressure at the inlet inlet.

Claims (2)

1. A centrifugal wide-torch nozzle comprising a housing with a swirl chamber and a nozzle insert, the housing being made with an inlet nozzle having an opening coaxial with the inlet cylindrical chamber, a swirl chamber coaxially disposed with respect to the inlet chamber and made in the form of a cylindrical glass, having at least three tangentially located holes on the side surface, the axes of which are located tangentially with respect to the swirl chamber, i.e. there is a multi-channel tangential input, and a nozzle insert with an external diameter D ₁ is located coaxial with the swirl chamber, three calibrated holes are made sequentially located and coaxial with each other and the cylindrical surface of the swirl chamber: a conical hole with a diameter D of the lower base of the truncated cone, a central cylindrical hole diameter d ₂ and an outlet tapered hole with a diameter d ₃ of the lower base of the truncated cone, the diameter of the central cylindrical holes The diameter of the nozzle insert is equal to the diameter of the upper base of the truncated cone of the conical hole and the diameter of the upper base of the truncated cone of the outlet conical hole, characterized in that it is additionally equipped with a filter for cleaning water from mechanical impurities, which is made in the form of a ring, is located coaxially to the cylindrical surface of the swirl chamber and fits without gaps to its outer cylindrical surface, overlapping the openings tangentially located in the swirl chamber, while fixing fi tra can be performed by a clamp or the filter is shaped as a sleeve, worn without gaps to the outer surface of the swirl chamber. 2. A centrifugal wide-torch nozzle according to claim 1, characterized in that it is additionally equipped with a swirl made in the form of a screw located on the outer surface of the filter for purifying mechanical impurities from water, made in the form of a cup worn without gaps on the outer surface of the swirl chamber, the twist direction of the fluid flow on the screw coincides with the twist direction of the swirl chamber.

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