SU1480884A2 - Spraying device for applying liquid onto articles - Google Patents

Abstract

The invention relates to a device for the spraying of liquids and can be used in the national economy for the application of coatings from fine sprays on various products. The goal is to expand technological capabilities, reduce energy consumption for spraying, and improve the efficiency and quality of spraying of different viscous fluids by providing the possibility of smoothly changing the angle of the spray pattern due to the smooth change of the radii of curvature and the angle of the paraboloids of the swirl chamber and nozzle. For this, the spray device for applying liquid to the products is equipped with two coaxially arranged elastic washers and an adjusting nut axially displaced on the spray head. One of the washers is made in the form of a paraboloid of the vortex chamber with an outer edge connected to the spray head from the side of its end. The other washer is made in the form of a paraboloid nozzle with an outer edge connected to an adjusting nut. The direction of the turns of the spiral spring of the check valve and the screw swirler are the same. A change in the angles of opening of the paraboloids to the concave surfaces of the washers determines the change in the angle of opening of the spray cone, and the change in the radii of curvature of the surfaces of the washers determines the vortex intensity of the rotating fluid flow in the vortex chamber and in the nozzle. In this connection, the intensity and degree of fragmentation of droplets of the sprayed liquid under the action of centrifugal forces in the nozzle area, as well as uniformity and monodispersity of the spray in the flare will change. 1 hp f-ly, 1 ill.

Description

one

The invention relates to a device for spraying a liquid, can be used in folklore for coating fine sprays on various products, in particular with surfaces of complex configuration, and is an improvement of the device according to the author. St. Х ° 602231.

The purpose of the invention is to expand technological capabilities, reduce energy consumption for spraying and increase the efficiency and quality of spraying of different liquids by providing the possibility of a smooth change in the angle of the spray pattern due to the smooth change in the curvature curves and riia ™ ri6o N)

swirl chamber loids and nozzles.

The drawing shows the spray device, a General view.

The spray device for applying liquid to the product contains a supply pipe 1 connected to it by means of a flexible elastic pipe 2, for example, rubber-Q spirals of which coincides with the directional hose, body 3 mounted in it, a shut-off valve in the form of a ball 4 pressed by a coil spring 5 placed in the channel 3 made in the housing for the flow of the sprayed liquid.

The spraying head 6 is hermetically connected to the housing 3 with the swirl chamber 7 and the nozzle 8 expanding towards the exit.

The turbulence chamber 7 and the nozzle 8 are made in the form of symmetrical and oppositely directed paraboloids, the opening angle oi of the paraboloid of the rotational chamber 7 is 45-60, and the opening angle of the paraboloid of the nozzle 8 is 100-120 °.

In the cavity of the spray head 6 is installed multiple spiral swirl 9.

The spray device is also provided with two coaxially arranged elastic washers 10 and 11 and mounted on the spray head 6 with the possibility of axial movement of an adjusting nut 12.

One washer 1-0 is made in the shape of a paraboloid of the swirl chamber 7 with an outer edge connected to the spray head 6 on the side of its end, and the other washer 11 is made in the shape of a paraboloid of a nozzle 8 with an outer edge connected to the adjusting nut 12. Central holes 13 goals 10 and 11 are the same. The directions of the turns of the spiral spring 5 of the check valve and the screw swirl 9 are the same.

The spray device for applying liquid to the product works as follows.

The sprayed liquid is supplied under pressure from the supply pipe 1 through the flexible pipe 2 into the housing 3. By overcoming the force of the spring 5 and squeezing the ball 4 of the shut-off valve, the fluid flow rushes into the cavity of the housing 3 and interacts with the helical coils of the spring 5, under the effect of rotation of the fluid after the passage of the spring 5, the flow acquires an even more intense rotational motion in the same direction and

15 enters the chamber 7 swirls. Moving in chamber 7 and washing the washer 10, the rotating flow takes the form of a symmetric paraboloid corresponding to the profile of the concave surface of the washer 10 from the chamber 7 side and is displaced to the outlet 13 of the washers 10 and 11 through which it enters the nozzle 8. Under the action of centrifugal force intensively rotating

25, the flow outside the orifice 13 is destroyed in the nozzle 8 and forms a plume of fine spray, which takes the form of a paraboloid, respectively, the concave surface of the tip 30. 11. The resulting plume of a spray of liquid has an opening angle equal to the opening angle ρ of the nozzle paraboloid 8, i.e. the opening angle of the paraboloid to the concave surface of the washer 11.

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Simultaneously with the rotational and axial movement of the fluid inside the spray head 6, disbalance flows arise, under the influence of the reactions of which the body 3 begins to move. Due to the fact that the housing 3 is mounted on a flexible elastic pipe 2, the movement of the spray head 6 together with the housing 3 occurs along a circular path, and their common axis describes the surface of the cone, which provides an increase in penetrability of the spray nozzle when applying coatings from the sprayed liquid to hard-to-reach surfaces of products of complex configuration.

If it is necessary to change the opening angle of the spray or dispersion of the spray, or both, when spraying, for example, a different fluid with a different viscosity, the profiles of the concave surfaces of the washers 10 and 11 are modified.

which twists, i.e. acquires a rotational motion relative to the axis of the device.

Moving further, the flow of liquid enters the spray head 6 and interacts with the evacuator 9. Washing the helical guide surfaces of the swirler 9, the direction

rotation of the fluid after it passes the spring 5, the flow acquires an even more intense rotational motion in the same direction and

enters the chamber 7 swirls. Moving in chamber 7 and washing the washer 10, the rotating flow takes the form of a symmetric paraboloid corresponding to the profile of the concave surface of the washer 10 from the chamber 7 side and is displaced to the outlet 13 of the washers 10 and 11 through which it enters the nozzle 8. Under the action of centrifugal forces intensively rotating

the flow outside the opening 13 is destroyed in the nozzle 8 and forms a plume of fine spray, which takes the form of a paraboloid, respectively, the concave surface of the washer 11. The resulting plume of the spray of liquid has an opening angle equal to the opening angle ρ of the paraboloid of the nozzle 8, i.e. the opening angle of the paraboloid to the concave surface of the washer 11.

Simultaneously with the rotational and axial movement of the fluid inside the spray head 6, disbalance flows arise, under the influence of the reactions of which the body 3 begins to move. Due to the fact that the housing 3 is mounted on a flexible elastic pipe 2, the movement of the spray head 6 together with the housing 3 occurs along a circular path, and their common axis describes the surface of the cone, which provides an increase in penetrability of the spray nozzle when applying coatings from the sprayed liquid to hard-to-reach surfaces of products of complex configuration.

If it is necessary to change the opening angle of the spray or dispersion of the spray, or both, when spraying, for example, a different fluid with a different viscosity, the profiles of the concave surfaces of the washers 10 and 11 are modified.

Claims (2)

1. A spray device for applying a liquid to a product according to auth. St. No. 602231, characterized in that, in order to expand technological capabilities, reduce energy consumption for spraying and improve the efficiency and quality of spraying of water-viscous liquids, the ability to smoothly change the angle of the spray pattern due to the smooth variation of the radii of curvature and angle of the paraboloids turbulence chamber and nozzle, it is equipped with two coaxially arranged elastic washers and is mounted5 on the spray head with the possibility of axial movement of an adjusting nut, with th one of the washers is made in the form of a paraboloid vortex chamber with the outer edge, o connected to the spray head from the side of its end, and the other - in the form of a paraboloid nozzle with an outer edge connected to the adjusting nut. 2. The device according to p. Is distinguished by the fact that the directions of the coils of the coil spring of the check valve and the screw evichritel are selected to be the same.