Fluid sprinkling – spraying – and diffusing – Electrostatic type – With impeller
Reexamination Certificate
2001-09-17
2003-05-20
Douglas, Lisa A. (Department: 3752)
Fluid sprinkling, spraying, and diffusing
Electrostatic type
With impeller
Reexamination Certificate
active
06565021
ABSTRACT:
BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a rotary atomizer with external charging, which can be used for applying conductive paints, in particular water-based paint, to a surface of a body to be coated. Rotary atomizers are described, for example, in German Patents DE 31 30 096 C2 and DE 31 51 929 C2 and in European Patent Application EP 0 829 306 A2.
The water-based paint is in these cases fed centrally to a bell that rotates at high speed (10,000 rpm to 70,000 rpm). The centrifugal force causes the paint to be taken to the edge of the bell and thrown out from there in the form of small drops. Consequently, in the first moment of flight, the droplets move parallel to the surface of the object to be coated, which is located in front of the atomizer. An air stream from the atomizer in the direction of the object to be coated then has the effect of directing the droplets in the direction of the object to be coated. The air is discharged from the atomizer behind the bell out of bores or slits. To achieve a high application efficiency, the droplets are electrostatically charged. This takes place by needle electrodes, which are provided radially around the bell and are at a negative d.c. voltage potential. The voltage lies in the range between −40 kV and −100 kV. The high field strengths occurring in this case in front of the needle tips (>25 kV/cm) lead to an ionizing of the air in front of the needle tips. The electrons produced as a result are deposited on air molecules and form negative ions, which move in the electric field to the bell, which is at an earth potential, and to the earthed object to be coated. On their way there, they cross the droplets and negatively charge them. A force in the direction of the object to be coated, which is induced by the interaction of the electric charge with the electric field, acts on the charged droplets. This force, and consequently the application efficiency, is in this case all the greater the greater the field strength and the charge. There is an upper limit for the applied voltage. As from a given voltage level, the uniform corona discharges change into so-called streamers. These on the one hand lead to a very uneven charging of the droplets and on the other hand can initiate the breakdown between the needle electrodes and the earthed bell.
A further problem is that turbulence at the edge of the bell causes the droplets to be directed in the direction of the atomizer body. It is therefore proposed in U.S. Pat. No. 5,775,598 to produce the directing air ring from a conductive material and connect it to the earth potential. Consequently, a space-charge cloud is produced between the atomizer body and the cloud of droplets sprayed out from the edge of the bell by the current flow of the ions from the needle tips to the earthed directing air ring. The repelling forces of the negatively charged droplets and the negative ions are intended to avoid soiling of the atomizer body. This configuration also has the advantage that the directing air openings can be made in a metallic part. This ensures greater uniformity of the directing air in comparison with plastic parts, since the production tolerances are greater in the case of plastic parts than in the case of metal parts. Furthermore, the sometimes observed discharges from the turbine through the directing air openings, which may lead to destruction of the latter, can be avoided.
However, the configuration has decisive disadvantages. The distance of the edge of the directing air ring from the needle tips is generally smaller than the distance of the edge of the bell from the needle tips. As a result, only a small part of the negative electrons generated at the needle tip is directed to the edge of the bell and the field strength in the region of the edge of the bell is low. Consequently, the charging of the droplets is not sufficient for high efficiency.
The edge of the directing air ring is connected to the plastic surface of the atomizer body. This produces boundary surfaces at which comparatively high-current discharges (streamers) occur, leading to the destruction of the plastic surface.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a high speed rotary atomizer with a directing air ring which overcomes the above-mentioned disadvantages of the prior art devices of this general type, with which an increased efficiency is achieved along with a reduced tendency for discharges to occur.
With the foregoing and other objects in view there is provided, in accordance with the invention, a high-speed rotary atomizer for applying electrically conductive paint, including water based paints. The high-speed rotary atomizer includes an electrode configuration having electrodes for electrostatic external charging, an atomizer housing formed of an electrically insulating material, driving devices disposed in the atomizer housing, and an electrically conductive spraying bell to be connected to an earth potential. The spraying bell is able to be set in rotation by the driving devices. A directing air ring formed of an electrically conductive material which operationally carries a high-voltage potential and is capable of blowing out directing air, is provided. A device is provided which forms an ohmic resistance in a range from 10 M&OHgr; to 500 M&OHgr; and establishes an electrical connection of the directing air ring to the earth potential through the ohmic resistance.
The measures according to the invention succeed in setting the directing air ring to a potential that lies between the earth potential (bell and turbine) and the high voltage potential of the needle tips. For this purpose, the directing air ring is not directly earthed (grounded) but is connected to the earth potential via an ohmic resistance.
In accordance with an added feature of the invention, the device includes at least one resistance component disposed for connecting the directing air ring to the earth potential.
In accordance with an additional feature of the invention, at least one spring element is disposed between the resistance component and the directing air ring for providing an electrical contacting of the resistance component.
In accordance with another feature of the invention, the directing air ring is formed from a high-impedance material, so that the directing air ring itself is used as the device for connecting to the earth potential. The directing air ring has an ohmic resistance in a range from 10 M&OHgr; to 500 M&OHgr; between an edge of the directing air ring facing the electrodes and a component carrying the earth potential.
In accordance with a further feature of the invention, an electrically insulating part covers the directing air ring in a region facing the spraying bell, whereby a minimum distance of 4 mm to 15 mm is set between an uncovered region of the directing air ring and the spraying bell.
In accordance with a further added feature of the invention, an electrically insulating part covers the spraying bell on its outer side, facing the directing air ring.
In accordance with a further additional feature of the invention, an insulating-material ring is provided and a part of the directing air ring facing the electrodes is covered by the insulating-material ring. A ring formed of a high-impedance material is inserted between the insulating-material ring and the directing air ring to reduce a field strength. Air gaps between the ring, the insulating-material ring and the directing air ring being avoided by suitable shaping of the ring, the insulating-material ring and the directing air ring.
In accordance with another further feature of the invention, an insulating part covers a partial region of a surface of the directing air ring. The insulating part covers an edge of the directing air ring facing the spraying bell to reduce a risk of electrical breakdowns between the directing air ring and the spraying bell.
In accordance with an added feature of the invention, the insulating part has openings formed therein such that addit
Börner Gunter
Georgi Steffen
Wittmann Josef
Yamabe Hidetoshi
ABB Patent GmbH
Douglas Lisa A.
Greenberg Laurence A.
Locher Ralph E.
Stemer Werner H.
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