DE112007001824B4 - Pneumatic Materialzerstäuberkopf - Google Patents

Abstract

A compressed air material atomizer head, comprising: a nozzle (2) to which a pressurized material to be atomized is supplied and which at its atomizer end takes the form of a narrowed pipe (6) through which the material to be atomized flows outward from the atomizer head ; and an air cap (3) surrounding the nozzle (2) to which compressed air is supplied and which generates at least one outer jet of air (12) which atomises the material flowing out of the nozzle through the restricted conduit, characterized in that the material atomizing head further comprises means in The form of oblique passages (16) in the narrowed pipe section of the nozzle (2), which are distributed around the narrowed pipe (6), having at least one internal compressed air jet (17, 19) to that within the restricted pipe (6) directed to atomizing material, wherein the pressure of the internal compressed air jet (17, 19) is higher than the pressure of the material to be sputtered and the internal compressed air jet is able to fluidize the material in the restricted pipe (6) and to atomize the restricted pipe (6) communicates with the air cap (3) to block the internal compressed air jet (17) from the compressed air which supplies the air cap (3) and which generates the outer jet (12).

Description

The present invention relates to a compressed air atomizing head for substances such. As paints, enamels, paints, etc.

• – eine Düse, welcher ein unter Druck stehendes, zu zerstäubendes Material zugeführt wird und welche an ihrem Zerstäuberende die Form einer verengten Rohrleitung annimmt, durch welche das zu zerstäubende Material aus dem Zerstäuberkopf nach außen strömt, und
• – eine die Düse umgebende Luftkappe, welcher Druckluft zugeführt wird und welche mindestens einen äußeren Druckluftstrahl erzeugt, welcher das aus der Düse durch die verengte Rohrleitung ausströmende Material zerstäubt.

Known atomizer heads include:

• A nozzle to which a pressurized material to be atomized is supplied and which at its atomizer end takes the form of a narrowed pipeline through which the material to be atomized flows outward from the atomizing head, and
• - An air cap surrounding the nozzle, which compressed air is supplied and which generates at least one outer compressed air jet, which atomizes the effluent from the nozzle through the narrowed pipe material.

Such a spray head is out of the JP 8-141 448 A known. This shows a low-pressure spray gun with a sputtering head in which a mixing chamber is formed in a front end downstream of a narrowed pipe in which the material to be sputtered is maintained at atmospheric pressure or lower and fluidized by air jets from an annular slot surrounding the mixing chamber and mixed , Another compressed air jet forms an outer shaping air jet. These are two completely independent compressed air jets.

The US 6 161 778 A also shows a Zerstäuberkopf with a constricted pipe and a stream of compressed air, wherein the liquid to be atomized is first passed into a narrowed pipe, from there into an expansion chamber, in which compressed air is added, and then back into a narrowed pipe or from a constricted pipe into a chamber in which compressed air is added and from which the liquid-air mixture exits directly. The compressed air used is diverted from the compressed air for the outer air cap.

The DE 273 511 A discloses a paint sprayer having a central tube for a jet of color which is narrowed at its front end with a centrally longitudinally displaceable hollow needle through which air can be supplied. Furthermore, an external compressed air jet is directed to the color jet emerging from the nozzle for shaping and atomization. However, the two air jets are fed via separate lines to the atomizer.

In general, these known atomizer heads ensure good atomization; however, they require high airflows and high pressures. Further, they form a mist of the material to be sputtered in the sputtering direction; they are loud and pollute quickly at and near the narrowed nozzle pipeline. They are also not good for atomizing thixotropic materials such. Waterborne paints, which are more in use, rather than less thixotropic solvent-based paints whose emissions should be reduced.

• – den Luftstrom und den Luftdruck, den sie für den Betrieb brauchen, zu verringern,
• – ihre Effizienz zu verbessern, in dem der Nebel an zerstäubtem Material verringert wird,
• – ihre Betriebsgeräusche zu verringern,
• – ein Verschmutzen der Düse zu verhindern, und
• – die Zerstäubung thixotroper Materialien zu vereinfachen, aber gleichzeitig eine exzellente Zerstäubung sicherzustellen.

The object of the present invention is to improve the known atomizer heads in order to

• - to reduce the airflow and the air pressure they need for operation,
• To improve their efficiency by reducing the amount of atomized material,
• - to reduce their operating noise,
• - To prevent fouling of the nozzle, and
• - to facilitate the atomization of thixotropic materials, while ensuring excellent atomization.

For these purposes, the atomizing head of the present invention further comprises means in the form of oblique passages in the narrowed pipe section of the nozzle which are distributed around the restricted pipe and which direct at least one internal stream of compressed air toward the material to be atomized within the restricted pipe. wherein the pressure of the internal compressed air jet is higher than the pressure of the material to be atomized and the internal compressed air jet is capable of fluidizing and atomising the material in the restricted conduit, the restricted conduit communicating with the air cap to communicate the internal compressed air jet From the compressed air, which supplies the air cap and which generates the outer beam.

Thus, in the present invention, the material to be sputtered is subjected to two successive atomizations, namely, a first atomization within the narrowed tube of the nozzle due to the inner jet, and then a second atomization outside the nozzle by the outer jet. Considering that it is carried out second atomization of a material to be sputtered, which has already been whirled up and has already been at least partially atomized in the first atomization, as a result of this second atomization should be particularly effective and ensure excellent subsequent atomization. Further, the fluidizing action in the restricted conduit allows fluidization of the thixotropic materials to be sputtered, thereby increasing their sputtering efficiency.

In a further embodiment of the present invention, the Material atomizing head further means in the form of oblique passages in the narrowed pipe section of the nozzle, which are distributed around the restricted pipe and which direct at least one internal compressed air jet to the material located within the restricted pipe to be atomized, the pressure of the internal compressed air jet is higher when the pressure of the material to be sputtered and the internal compressed air jet is capable of fluidizing and atomising the material in the restricted conduit, the material atomizing head being further provided with a needle slidably disposed within the nozzle to define the passage area for the flow passage to control material to be atomized within the restricted pipe, wherein the needle has inside a continuous channel through which an internal compressed air jet is supplied by means of the needle to the restricted pipe, and wherein the internal compressed air jet in the material atomizer head from the compressed air that supplies the air cap is tapped.

The attached figures illustrate the embodiment of the present invention. In these figures, identical reference numerals denote the same components.

1 is a partial sectional view of a known atomizer head,

2 is a similar view as 1 an embodiment of a sputtering head of the present invention,

3 shows an enlarged part of the embodiment of 2 to explain their function,

4 is a similar view as 3 a modified embodiment of the atomizer head of the present invention.

The well-known atomizer head 1 which is in 1 is shown, is capable of materials such. As paints, enamels, paints, etc., to atomize and has a central nozzle 2 on which of an air cap 3 is surrounded. The air cap is detachable by means of a mounting flange 5 on the housing 4 of the atomizer head 1 attached.

At its atomizer end, the nozzle takes 2 the shape of a narrowed channel or pipeline 6 at. A sliding needle 7 (see double arrow 8th ) is inside the nozzle 2 formed and controls the flow cross-section of this narrowed pipe 6 namely between complete opening and complete closure.

The pressurized material to be atomized 9 gets inside the nozzle 2 fed and from this nozzle to the restricted pipeline 6 discharged in the form of a jet, which by the arrow 10 is designated.

The air cap 3 is also supplied with compressed air - the pressure of this air is higher than that of the material to be sputtered - as indicated by the arrows 11 indicated, and due to this compressed air produces the cap - outside of the atomizer head - air jets 12 passing through openings 13 which are around the material to be sputtered 10 around, which is from the narrowed pipeline 6 exit, are formed. The outer compressed air jets 12 atomize the material stream 10 outside of this atomizer head 1 and mix with this material beam.

If necessary, the air cap 3 also their compressed air source 11 used for transverse compressed air jets 14 . 15 to produce which are capable of the cross section of the material beam 10 to form, which by the compressed air jets 12 is atomized.

The same components 2 to 7 and 13 as above with respect to the known atomizer head 1 are also discussed with the atomizer head 1.1 present in the present invention, which in the 2 and 3 is shown.

But what the atomizer head 1.1 refers to the nozzle 2 also oblique passages 16 on which around the narrowed pipeline 6 are distributed around and a connection between the latter and the air cap 3 form. In this way, the passages can have many internal pressurized jets 17 generate which of the compressed air (arrows 11 ) tapping the outer atomizing jets 12 generated. The pressurized material to be sputtered (arrows 9 ) is thus initially swirled up and at least partially in the restricted pipeline 6 through the internal compressed air jets 17 atomized and then the effect of the outer atomizing rays 12 outside the narrowed pipeline 6 be subjected. The double atomization of the material to be sputtered is therefore highly effective.

The same components 2 to 7 and 13 as before regarding 1 are also in the atomizer head 1.2 present in the present invention, which in 4 is shown.

What the atomizer head 1.2 concerns, points the needle 7 however, a continuous channel 18 on which at least one inner pressure jet 19 Access to the restricted pipeline 6 allows. The inner pressure jet 19 Advantageously taps the total compressed air supply to the atomizer head 1.2 on, what the compressed air 11 and the atomizing rays 12 entails.

Consequently what will be the atomizer head 1.2 concerns the material to be atomized 9 whirled up and a first and at least partial atomization in the constricted pipeline 6 subjected due to the action of the inner beam 19 , and then a second atomization outside the nozzle 2 due to the external compressed air jets 12 ,

Claims (2)

Compressed air material atomizer head, comprising: a nozzle ( 2 ) to which a pressurized material to be atomized is supplied and which at the end of its atomizer is in the form of a narrowed pipeline ( 6 ), through which the material to be atomized flows outward from the atomizing head; and one the nozzle ( 2 ) surrounding air cap ( 3 ), which compressed air is supplied and which at least one outer air jet ( 12 ), which atomizes the material flowing out of the nozzle through the restricted pipeline, characterized in that the material atomizing head further comprises means in the form of oblique passages (FIGS. 16 ) in the narrowed pipe section of the nozzle ( 2 ), which around the constricted pipeline ( 6 ), which has at least one inner compressed air jet ( 17 . 19 ) to within the restricted pipeline ( 6 directed to be atomized material, the pressure of the internal compressed air jet ( 17 . 19 ) is higher than the pressure of the material to be atomized and the internal compressed air jet is able to move the material in the restricted pipeline ( 6 ) and to disperse, whereby the narrowed pipeline ( 6 ) with the air cap ( 3 ) is connected to the internal compressed air jet ( 17 ) from the compressed air, which the air cap ( 3 ) and which the outer beam ( 12 ) generated. Compressed air material atomizer head, comprising: a nozzle ( 2 ) to which a pressurized material to be atomized is supplied and which at the end of its atomizer is in the form of a narrowed pipeline ( 6 ), through which the material to be atomized flows outward from the atomizing head; and one the nozzle ( 2 ) surrounding air cap ( 3 ), which compressed air is supplied and which at least one outer air jet ( 12 ), which atomizes the material flowing out of the nozzle through the restricted pipeline, characterized in that the material atomizing head further comprises means in the form of oblique passages (FIGS. 16 ) in the narrowed pipe section of the nozzle ( 2 ), which around the constricted pipeline ( 6 ), which has at least one inner compressed air jet ( 17 . 19 ) to within the restricted pipeline ( 6 directed to be atomized material, the pressure of the internal compressed air jet ( 17 . 19 ) is higher than the pressure of the material to be atomized and the internal compressed air jet is able to move the material in the restricted pipeline ( 6 ) and to atomize, wherein the material atomizing head further with a needle ( 7 ) which is displaceable within the nozzle ( 2 ) is arranged to the passage cross section for the material to be sputtered within the constricted pipeline ( 6 ), the needle ( 7 ) inside a continuous channel ( 18 ), via which an internal compressed air jet ( 19 ) by means of the needle ( 7 ) to the restricted pipeline ( 6 ), and wherein the internal compressed air jet ( 19 ) in the material atomizing head of the compressed air, which the air cap ( 3 ) is tapped, tapped.

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