RU2136387C1 - Method of spraying paint and nozzle used for realization of this method - Google Patents

Abstract

FIELD: paint spraying devices. SUBSTANCE: according to proposed method, paint is accelerated at paint line outlet to rate of 10 to 50 m/s and centripetal acceleration of 10⁵-10⁷ m/s² is imparted to paint; definite configuration of jet of paint escaping from paint line is set. Outlet end of narrowing section of paint line has sector opening of preset configuration; one side of this opening is limited plane. Diameter of passage of narrowing section of paint line ranges from 0.2 to 5 mm. Throat area of sector opening is equal to or is lesser than free area of narrowing section of paint line. EFFECT: enhanced efficiency. 3 cl, 6 dwg

Description

 The invention relates to a painting technique, in particular, to painting by airless spray.

 A known method of spraying paint, which consists in the fact that the paint flowing out of the spray duct, centripetal acceleration is reported, and it is fed to the surface from which it breaks off in the form of a film, which first breaks up into individual streams, and then into separate drops. The method does not provide fine spraying, necessary for high-quality painting. Finely dispersed spraying due to an increase in the outflow rate and a corresponding increase in centripetal acceleration leads to the formation of a chaotic spray of paint, unsuitable for painting work (SU 147488, class B 05 B 2/06, 25.06.62).

 Known nozzle, including a spray line with a narrowing and a limited plane in the form of a disk. The disadvantage of the nozzle is that upon receipt of finely dispersed spraying, a chaotic torch is formed, unsuitable for painting work (SU 147488, class B 05 B 2/06, 25.06.62).

 The purpose of the invention: to obtain a finely dispersed spray paint with a torch suitable for high-quality painting.

This goal is achieved by applying a method of spraying paint, in which centripetal acceleration is reported to the paint flowing from the spray line and fed to the surface from which it breaks off in the form of a film, which first breaks up into separate streams, and then into separate drops; when exiting the spray line, the paint is informed of an increased speed in the range of 10-50 m / s and a high centripetal acceleration in the range of 10 ⁵ - 10 ⁷ m / s ² and a certain configuration of the cross section of the paint jet flowing onto the plane is established.

 A nozzle including an air line with narrowing and a limited plane in the form of a disk; at the output end of the tapering part of the air line, a sector cut of a given configuration is made, one of the sides of which is a limited plane, and the diameter of the channel of the tapering part of the air line is made in the range of 0.5 - 2 mm, while the critical section area of the sector cut is equal to or less than the living section area of the taper parts of the spray line.

 In FIG. 1 shows a spraying method in two projections. In FIG. 2 shows a nozzle in two projections. In FIG. 3, 4, 5, 6 illustrate possible configurations of sector cutouts of the tapering part of the air line.

The method of spraying paint (Fig. 1) includes the following parameters: the speed of the paint in the transport spray line V ₁ , the speed of the paint in the tapering part of the spray line V ₂ , the speed of the paint in the sector cut-out V ₃ , the radius of rotation of the paint stream R, causing the centripetal acceleration.

 The nozzle (Fig. 2) includes: a transport tube 1 with a diameter D, a tapering part of a tube 2 with a diameter d and a length H, a limited surface in the form of a disk 3, a sector cut-out with an opening angle of a sector α of height h.

The method of spraying (Fig. 1) consists in the fact that the paint supplied through the transport spray line with a speed of V ₁ in the range of 0.1-2 m / s passes the tapering part of the channel with a speed of V ₂ in the range of 10-50 m / s, rotates under an average radius R in the range of 0.25-1 mm, acquiring centripetal acceleration in the range of 10 ⁵ -10 ⁷ m / s ² , expires on a limited surface, moves along it with a speed of V ₃ in the range of 10-50 m / s, breaks off from it in the form of a sector film with a decreasing thickness, which decomposes first into separate streams, and then on Linen droplets ranging in size from 10-50 microns. The size of the formed particles of paint will provide the highest quality paintwork identical to that obtained by pneumatic spraying.

 The effectiveness of the method of spraying paint and nozzle is that by the method of airless spraying by the proposed method and nozzle, high-quality coatings are obtained, including class 1, which is unattainable by known methods that provide coatings of no higher than class 2 quality. (General machine-building standard and guidance materials (OMTRM 7312-010-70). Painting of metal surfaces. Moscow. 1970, pp. 113, 236, appendix V). Replacing pneumatic spraying with airless when applying high-quality coatings will reduce the waste of paint when applied by reducing the loss of paint inherent in the specified method of spraying the so-called "fogging" from 20-40% to 8-15%.

Sources of information:
1. SU 14788, cl. B 05 B 1/06, 06.25.62.

 2. General machine-building standard and guidance materials (OMTRM 7312-010-70). Painting metal surfaces. Moscow. 1970, pp. 113, 236, appendix V.

Claims (3)

1. The method of spraying paint, which consists in the fact that the paint flowing from the spray duct, centripetal acceleration is reported and fed to the surface from which it breaks off in the form of a film, which first breaks up into separate streams, and then into separate drops, characterized in that when exiting the air line, the paint is informed of an increased speed in the range of 10-50 m / s and a high centripetal acceleration in the range of 10 ⁵ - 10 ⁷ m / s ² and a certain configuration of the cross-section of the paint jet flowing onto the plane is set.  2. A nozzle including an air line with narrowing and a limited plane in the form of a disk, characterized in that a sector cut of a given configuration is made at the output end of the narrowing part of the air line, one side of which is a limited plane, and the channel diameter of the narrowing part of the air line is made within 0, 5 - 2 mm.  3. The nozzle according to claim 2, characterized in that the critical sectional area of the sector cut-out is equal to or less than the living sectional area of the tapering part of the air line.

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