DE3417229A1 - Atomiser head for spray guns for pneumatically spraying liquids - Google Patents

Abstract

The invention relates to an atomiser head for spray guns for pneumatically spraying liquids in the form of an attachment component for conventional spray guns, which component brings about a substantial reduction in noise emission. The nozzle openings (4) for the liquid are shaped in such a way that a flat jet of liquid is formed. The nozzle openings (15) for the compressed air are arranged on the two sides of the nozzle openings (14) at a small distance such that the compressed air atomises the liquid in the jet of liquid which is flowing out and spreads it out in a fan-like manner. Further nozzles (16) for the compressed air assist the intake of the liquid. The nozzle openings (15) extend at the angle () of 0 DEG or greater than 0 DEG with respect to the direction of the axis of the spray jet and extend away from the direction of the axis of the spray jet at an angle (b) of 0 DEG or greater than 0 DEG . The nozzle openings (16) extend at the angle () of 0 DEG or greater than 0 DEG away from the direction of the axis of the spray jet. The nozzle opening (14) can be shaped as a gap or can be formed from bores lying one next to the other. The attachment component (11) can be fitted onto conventional spray guns in place of an air cap and can be screwed tight by means of a holding ring. <IMAGE>

Description

Atomizer head for spray guns for pneumatic atomization

of liquids The invention relates to an atomizer head for pneumatic atomization of liquids according to the preamble of claim 1.

This occurs with conventional air atomizing spray guns atomizing liquid from a circular nozzle (Figure 1). The one for liquid atomization The required compressed air flows out of an annular gap that concentrically forms the liquid nozzle surrounds. When liquid is supplied from a beaker, this air flow sucks by extending it the nozzle pin at the same time the liquid from the nozzle orifice. Usually air pressures between approx. 2 bar and 6 bar are used. Because of the supercritical The pressure ratio to the ambient air increases the outflowing air to supersonic speed accelerated. The liquid flow that mixes with the initially annular air flow is atomized after just a few millimeters due to the high air speeds.

The resulting fine liquid particle spectrum forms together with the air flow a conical spray jet with a circular cross-section.

To produce the elongated ones used in spraying practice Cross-sectional shape of the spray jet (flat jet) becomes additional air jets directed at the spray jet with the aim of making its circular cross-section accordingly to deform. Those from the opposite horns of the air cap at angles between approx. 500 and 700 air jets hitting the spray jet form through the collision a flat beam. More air jets from the so-called Control bores that are largely parallel to the spray jet axis from the air cap emerge, serve, if necessary, to regulate the irregularly deformed spray jet.

The atomization processes and the formation of the spray jet conventional air atomizing spray guns include

described in detail in the following works: Thomer, K.W. and employees: Optimal application conditions for spray painting: Influences and possibilities.

Maschinenmarkt 84 (1978) 26, pages 443-446.

N.N .: paint spraying and coating technology.

Company brochure of De Vilbiss GmbH, Dietzenbach, page 3-6.

Schene, H .: The atomization process when spraying paint.

Industrial paint shop 28 (1960) 7, pages 207-216.

Outflowing free jets, such as the spray jet from air atomizing Spray guns generate noises, especially at supersonic speeds of the exiting air jets can be attributed to the turbulence of the jet flow are. With conventional air atomizing spray guns, the Air jets from the annular gap and the control bores, noise level up to approx. 5 dB (A), measured at a distance of 1 m from the spray jet axis at the level of the atomizer head.

This spray jet noise is caused by the meeting of the air jets from the annular gap and the control bores with those from the horn bores considerably reinforced. Through the formation of a pronounced turbulent mixing zone increase the noise emissions by approx. 10 dB (A) to approx. 95 dB (A).

Avoiding the noisy impact effects between the spray air jets thus leads to considerable reductions in noise emissions. Constructive measures must be designed in such a way that by appropriate guidance of the exiting Air and liquid flows such intensive mixing zones are avoided while at the same time taking into account the air volume flow required by the application and printing as well as the flat jet image.

Such an atomizer head is the subject of DEOS 28i1436.

In this atomizer head, the liquid must be at a pressure of 1 bar to 3 bar can be pressed out of the nozzle mouth. A separate atomizer nozzle is used for this of hydrostatic spray guns with larger. Nozzle mouth cross-section used. For atomizing the liquid and forming a flat spray jet two functionally differentiated compressed air jet systems are used. The for Liquid atomization required air volume flows are 3 hm to 9 at Air pressures between 1 bax and 4 bar. To a Sauyh effect of the air jets There is no reference to pumping the liquid from gravity cups or suction cups.

The object of the invention is to provide an atomizer head for pneumatic Atomizing liquids according to the preamble of claim 1 in such a conceptual way to develop that conventional air atomizing spray guns by replacing them the air cap can be converted against an attachment according to the invention with simple measures are that in this one-piece attachment the liquid nozzle and a compressed air jet system are integrated so that the liquid can also be conveyed without pressure from a cup can that only a common compressed air jet system for liquid atomization, Jet shaping and liquid suction is required and that under Beibehaltuflg the operating conditions required for conventional pneumatic atomization significantly lower in terms of air volume flow and pressure as well as flat jet pattern Noise emissions develop.

This object is achieved according to the invention by the in the characterizing part of claim 1 listed measures solved. Further refinements of the invention are described in the subclaims.

The invention is illustrated in the following on the basis of an exemplary embodiment Drawings explained in more detail. They show: FIG. 1 a section through the atomizer head a conventional air atomizing spray gun Fig. 2 plan views and sections by the attachment according to the invention in connection with the liquid nozzle vpn conventional air atomizing spray guns In Figure 1 is a section through the atomizer head of a conventional, air-atomizing spray gun is shown. It consists of an air cap 1 with a retaining ring, not shown, the on paragraph 2 of the air cap sits airtight on the spray gun body, not shown can be screwed on. The nozzle 3 is for most liquids to be injected from a feed channel 10 for the liquid with a diameter of approx. 7 mm ... 10 mm, which is inserted into a circular opening with a diameter between approx. 0.5 mm and 2.5 mm in the pin 4 merges. The pin 4 has an outer diameter from approx. 2 mm to 4 mm. The structural details in the area of the pin 4 are in Detail A of Figure 1 is shown enlarged. The valve needle that is used to seal of the feed channel for the liquid in the pin 4 is not shown.

Through the outer wall of the pin 4 and a hole in the air cap 1, an annular gap 6 is formed through which compressed air exits, which carries the liquid atomized from the nozzle 3 and, if necessary, promotes by suction. To increase the suction for the liquid, the pin 4 protrudes about 1 mm from the Air cap 1 out. When the liquid is supplied under pressure, the end face of the pin 4 also finish flush with the surface of the air cap. At the periphery of the nozzle 3, the compressed air is via a storage space 5 to the annular gap 6 and any existing one Control bores 7 and 7 'out.

Through the horn bores 8 and 8 ', compressed air also emerges from the Spread the spray jet. This compressed air is passed through two separate storage spaces 9 and 9 'and can be regulated independently of the compressed air in the storage space 5. The resulting flat spray jet is removed from the by the escaping compressed air Annular gap, the horn bores and control bores as well as through the atomized liquid educated.

In Figure 2, in section A - B is an embodiment of the attachment 11 shown, which is applied to the nozzle 3 of a conventional, air atomizing spray gun, as shown in Figure 1, for example. The shape of the outer contour the attachment 11 is not the subject of the description with the exception of paragraph 17 and can according to the fluid dynamics requirements for trouble-free Suction of ambient air for the spray jet can be formed.

This attachment part 11 contains a coupling part 12 in its bore 13 the pin 4 of the nozzle 3 of a conventional air atomizing spray gun protrudes liquid-tight. The bore 13 goes into a slot-shaped nozzle opening 14 according to alternative 1 and section C - F or in linearly arranged holes 14 ' according to alternative 2 and section G - J over. The slot-shaped nozzle opening 14 can e.g. produced by means of a side milling cutter. The gap length of the nozzle opening 14 is smaller on the inside than on the outside. The linearly arranged Nozzle openings 14 'are at angles bO ... n of 0 ° or greater than 0 ° from the Direction of the spray jet axis away with the same or different diameters drilled on the order of about 0.5 mm. As shown in Figure 2, can e.g. 5 bores 14 'can be arranged linearly next to one another.

The nozzle openings 15 for the compressed air are near the long sides the gap-shaped opening 14 or the linear arrangement of the bores 14 'attached. The hole angle a is 0 ° or greater than 0 ° to the direction of the spray jet axis the angle p is 0 ° or greater than 0 ° away from the direction of the spray jet axis.

As shown in Figure 2, e.g. 3 holes 15 of approx. 1.5 mm diameter on both sides symmetrically to the long sides of the gap-shaped opening 14 or the linear arrangement of the bores 14 '. The nozzle openings 16 for the compressed air are in the area of the narrow sides of the openings 14 and 14 ' at an angle of 0 ° or greater than 0 ° from the direction of the spray axis arranged. As shown in Figure 2, for example 1 hole 16 of about 0.8 mm Diameter on both sides symmetrical to the narrow sides of the gap-shaped opening 14 or the linear arrangement of the bores 14 '. For suction conveyance and atomizing the liquid as well as forming the flat spray jet thus only one compressed air blasting system is required.

The attachment 11 can be designed according to claim 5 to 7 so that that it can be placed on conventional spray guns instead of the air cap 1. For this purpose, it is provided with a circumferential shoulder 17, which is attached to the not shown Retaining ring for the air cap 1 is adapted.

When considering the features of the invention are opposite conventional, air atomizing spray guns with corresponding air and liquid volume flows, Injection air pressures and flat jet characteristics Noise reductions in the order of magnitude of approx. 5 dB (A) ... 10 dB (A) achievable (microphone distance 1 m to the atomizer head, Alignment perpendicular to the spray jet axis at the level of the atomizer head).

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Claims (7)

Claims 4;) Atomizer head for spray guns for pneumatic Atomization of liquids such as paint, varnish and the like and for generating a fan-shaped spray jet (flat jet), consisting of a centric arranged, slot-shaped nozzle for the exiting liquid and an air cap, by the compressed air for atomizing and sucking the liquid and for shaping of the spray jet is emitted, characterized in that an attachment (11) it is provided that instead of the air cap (1) on conventional, air-atomizing Spray gun, which can be attached, has nozzle openings (14, 14 ', 15, 16) for the liquid and contains the compressed air, such that the nozzle opening (14) and the nozzle openings (14 ') are shaped for the liquid so that a flat liquid jet in front of the attachment (11) forms that the nozzle openings (15) for the compressed air arranged very close on both sides of the nozzle opening (14) or nozzle openings (14 ') are, such that the compressed air, the liquid in the outflowing liquid jet atomized and the atomized liquid at the same time to a fan-shaped spray jet (Flat jet) forms and expands and that further nozzle openings (16) for the compressed air are arranged on the nozzle opening (14) or the nozzle openings (14 ') in such a way that as a result, the liquid is drawn in from the nozzle opening (14) or the nozzle openings (14 ') is supported by the nozzle openings (15). 2. Atomizer head according to claim 1, characterized in that the Nozzle openings (15) with the same or different diameters at an angle (a) from 0 ° or greater than 0 ° to the direction of the spray jet axis and at an angle (p) of '00 or greater than 0 ° away from the attachment part 11 from the direction of the spray jet axis exit and that the Nozzle openings (16) at an angle (y) of 0 ° or greater than 0 "emerge from the attachment part away from the direction of the spray jet axis. 3. Atomizer head according to claim 1 and 2, characterized in that the coupling part (12) integrated in the attachment 11 has a bore (13), which merges into a slot-shaped nozzle opening (14). 4. Atomizer head according to claim 1 and 2, characterized in that instead of the nozzle opening (14) linearly arranged bores (14 ') with the same or different diameters open into the bore (13) of the coupling part (12), wherein the bores (14 ') at angles (60 6 n of Oe or greater than 0 ° from the direction exit the spray jet axis away from the attachment (11). 5. Atomizer head according to claim 1 to 4, characterized in that the attachment (11) is designed so that it instead of an air cap (1) conventional, air atomizing spray guns can be attached, whereby the pin (4) the conventional nozzle (3) integrated in the bore (13) of the 1 in the attachment (11) Coupling part (12) can be connected to the attachment part in a liquid-tight manner. 6. Atomizer head according to claim 1 to 4, characterized in that a simplified adapter part instead of the conventional nozzle (3) for the liquid with a corresponding shut-off needle for the liquid-tight connection of the attachment (11) Used with conventional air atomizing spray guns. 7. atomizer head according to claim 1 to 6, characterized in that the attachment (11) on conventional, air-atomizing spray guns by means of a retaining ring, which is airtight on a circumferential shoulder (17) of the Vorsatztelis sits on, can be screwed tight.