RU2551460C1 - Pneumatic vortex injector - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: proposed vortex injector comprises casing with auger pressed therein fluid and air feed elements. Said casing consists of two coaxial and coupled cylindrical sleeves: large diameter sleeves and small diameter sleeves, and inside the small diameter sleeve coaxially with it a auger is installed rigidly coupled with its internal surface, at that external surface of the auger is helical groove with right or left thread. Between the internal surface of the small diameter sleeve and external surface of the auger a helical external surface is created, it is connected by means of tube with the compressed air source, and inside the auger a hole is made with left or right thread connected with tube for liquid under pressure supply, at that direction of thread cutting in hole made inside the auger opposite to direction of the external helical groove of the auger, and in large diameter sleeve coaxially with it a shaped sleeve is located, its internal surface is created by cone and cylindrical surfaces, and it is rigidly secured in the large diameter sleeve via the sealing gasket creating the cylindrical chamber performing functions of the dampening tank for uniform compressed air supply to the helical external cavity, at that in the cylindrical cavity of the shaped sleeve a free end of the tube for liquid supply is provided, it is located in coaxial resilient ring served for dampening if the hydraulic impact in case of non-uniform liquid supply. In end part of the small diameter sleeve of the casing the diffuser is secured, at its end divider of the liquid flow is installed, it is made in form of the perforated ring coaxial with the diffuser.EFFECT: higher efficiency of liquid spraying.3 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 the Russian Federation No. 2509261, F02C 7/24, containing a housing with a chamber, into which the screw is pressed in, and a throttle hole is 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 of the liquid.

EFFECT: increased efficiency of liquid spraying.

This is achieved by the fact that in a pneumatic vortex nozzle containing a housing in which the screw is pressed in, and elements for supplying liquid and air, the housing consists of two coaxial cylindrical bushings connected to each other: a larger diameter sleeve and a smaller diameter sleeve, and inside the sleeve of smaller diameter, coaxial to it, is a screw, rigidly connected to its inner surface, for example, pressed into it, and the outer surface of the screw is a helical groove with right or left thread, while between the inner a screw outer cavity is formed by the surface of the sleeve of a smaller diameter and the outer surface of the screw, connected by a tube to a source of compressed air, and inside the screw there is a hole with a left or right screw thread connected to a tube for supplying fluid under pressure, while the direction of the screw thread of the hole, made inside the screw, may be opposite to the direction of the external screw groove of the screw, and in the sleeve of a larger diameter, coaxially to it, there is a shaped sleeve, the inner surface which is formed by conical and cylindrical surfaces, and which is rigidly fixed in a sleeve of a larger diameter, for example by means of a threaded connection, through a sealing gasket with the formation of a cylindrical chamber acting as a damper tank for uniformly supplying compressed air to the screw external cavity, and located in the cylindrical cavity of the shaped sleeve the free end of the fluid supply tube, placed in a coaxial elastic ring, used for damping water hammer in cases of uneven supply of liquid to the smaller diameter end portion of the hub body is fixed diffuser, which is mounted on a section of the liquid flow divider arranged in the form of a perforated ring coaxial with the diffuser.

The drawing shows a General view of the nozzle for spraying liquids.

Pneumatic vortex nozzle consists of a housing consisting of two coaxial, interconnected, cylindrical bushings: bushings 5 of larger diameter and bushings 4 of smaller diameter. Inside the sleeve 4 of a smaller diameter, coaxial to it, is a screw 1, rigidly connected to its inner surface, for example, pressed into it. The outer surface of the screw 1 is a helical groove with a right (or left) thread. Moreover, between the inner surface of the sleeve 4 of a smaller diameter and the outer surface of the screw 1, a helical external cavity 3 is formed, connected by a tube 12 to a source of compressed air, for example, a compressor (not shown in the drawing).

Inside the screw 1, a hole 2 is made with a left (or right) screw thread, connected to a pipe 9 for supplying liquid under pressure.

In this case, the direction of the screw thread of the hole 2 made inside the screw 1 can be opposite to the direction of the external screw groove of the screw.

In the sleeve 5 of a larger diameter, coaxial to it, is a shaped sleeve 7, the inner surface of which is formed by conical and cylindrical surfaces and which is rigidly fixed in the sleeve 5 of a larger diameter, for example by means of a threaded connection, through a sealing gasket 6 with the formation of a cylindrical chamber 10, which acts as a damper containers for uniform supply of compressed air to the screw external cavity 3.

In the cylindrical cavity of the shaped sleeve 7 is located the free end of the tube 9 for supplying fluid, placed in a coaxial elastic ring 8, which serves to dampen water hammer in cases of uneven fluid supply. In the end surface of the shaped sleeve 7 there are blind holes 11 for the key.

A diffuser 13 is attached to the end part of the sleeve 4 of a smaller diameter of the casing, at the cut of which a liquid flow divider 14 is mounted, made in the form of a perforated ring coaxial with the diffuser 13.

Pneumatic vortex nozzle for spraying liquids works as follows.

The fluid is supplied through a cylindrical hole of the tube 9 into the screw hole 2, forming an internal rotating fluid flow, and compressed air is supplied to the external screw cavity 3, forming an external rotating air flow.

At the exit of the nozzle, there are two rotating streams, with one stream, the internal one of the liquid, which rotates in the direction opposite to the external air stream. In the interaction of rotating flows at the outlet of the nozzle, additional droplets of liquid are crushed due to their collision in the associated or opposite rotating flows of liquid and air (external and internal). In this case, the total finely divided rotating stream at the outlet may have a direction of rotation, which is determined by the hydraulic resistance of the external or internal screw cavities, respectively, and may be stationary, in the case of the opposite direction of rotation of the flows, and the equality of their reduced mass velocities.

The nozzle screw 1 can be made of solid materials: tungsten carbide, ruby, sapphire. At an average pressure of the liquid supplied through a cylindrical hole in the tube 9 under a pressure of 6 ... 9 MPa, atomization of 400 to 1000 kg / h of liquid is ensured. The nozzle is easy to manufacture and maintain.

Claims (3)

1. A pneumatic vortex nozzle containing a housing into which the screw is pressed in and elements for supplying liquid and air, the housing consists of two coaxial, interconnected, cylindrical bushings: a larger diameter sleeve and a smaller diameter sleeve, and coaxially inside the sleeve of a smaller diameter she is located a screw, rigidly connected with its inner surface, and the outer surface of the auger is a helical groove with right or left thread, while between the inner surface of the sleeve of a smaller diameter and the outer The screw surface is formed by a screw external cavity, connected by a tube to a source of compressed air, and a hole with a left or right screw thread is made inside the screw, connected to a pipe for supplying liquid under pressure, while the direction of screw cutting of the hole made inside the screw is opposite to the direction of the external screw grooves of the screw, and in the sleeve of a larger diameter, coaxial to it, is a shaped sleeve, the inner surface of which is formed by a conical and cylindrical surfaces and the second one is rigidly fixed in the sleeve of a larger diameter through a sealing gasket with the formation of a cylindrical chamber that acts as a damping container for uniformly supplying compressed air to the screw external cavity, and in the cylindrical cavity of the shaped sleeve there is a free end of the fluid supply pipe placed in a coaxial elastic ring serving for damping hydraulic shocks in cases of uneven fluid supply, characterized in that to the end part of the sleeve of a smaller diameter housing a fixed diffuser, which is mounted on a section of the liquid flow divider arranged in the form of a perforated ring coaxial with the diffuser. 2. The pneumatic vortex nozzle according to claim 1, characterized in that the screw located inside the sleeve of a smaller diameter, coaxial to it, is rigidly connected with its inner surface, pressed into it. 3. The pneumatic vortex nozzle according to claim 1, characterized in that the shaped sleeve, the inner surface of which is formed by conical and cylindrical surfaces, is rigidly fixed in the sleeve of a larger diameter, by means of a threaded connection, through a sealing gasket.