Rotary spray atomizer

Fluid sprinkling – spraying – and diffusing – Electrostatic type – With fluid entrainment

Reexamination Certificate

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Details

C239S700000, C239S703000

Reexamination Certificate

active

06439485

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention
The invention relates to a rotary spray atomizer for applying electrically conductive paint, in particular water-based paint, to surfaces, including a housing, a drive motor disposed in the housing for rotary actuation of a spray head fitted on the front, receiving a supply of paint and discharging the supplied paint in a spray mist as a result of rotation, and at least two concentrically disposed electrodes extended parallel to a longitudinal axis of the housing towards the front, accommodated in electrode holders, fed by at least one high-voltage source and generating an electric field applying the spray mist discharged by the spray head to an application surface.
Rotary spray atomizers have long been generally known in the prior art for electrostatic coating with electrically conducting paint (German Patent DE 31 30 096 C2 or German Patent DE 31 51 929 C2). In the case of such a device, the paint to be applied is supplied to a rotatably mounted spray head which is driven by a motor, preferably by a motor operated with compressed air, and propelled away as a result of the rotationally induced centrifugal force. That involves using an electric field which is generated all around the grounded spray head with the aid of concentrically disposed point electrodes supplied from a common high-voltage source.
In that case, the paint droplets being propelled away are charged in the electric field which forms between the high-voltage electrodes and the grounded spray head by ions that are produced by ionization processes at the point electrodes.
In that case, the surface to be coated is connected to a lower potential, usually ground, so that, as a result of the potential difference induced in that way, the paint particles charged by the electric field are accelerated towards the application surface, where they adhere.
That technique has proven successful and is in widespread use.
The charging principle means that it is technically necessary for parts grounded in the atomizer (spray head, turbine and ground lead) to be electrically insulated from parts carrying high voltage (electrodes, high-voltage lead and device for distribution). That is extremely problematical with the high voltage (up to 100 kV) and the small distances between the parts carrying high voltage, in particular on the back plate. If there is inadequate insulation, a disruptive discharge occurs, which leads to failure of the atomizer.
Since the geometry of the point electrodes is never entirely the same, the field strengths in front of the individual point electrodes and consequently the ionization current are never the same. That brings about a non-uniform charging of the paint droplets around the atomizer and increases the possibility of soiling. That non-uniformity is further intensified during operation by the effects of wear and soiling. The different field strengths at the point electrodes cannot be corrected with the existing technology.
The functional-principle is such that an electric current flows from the spray head to ground. That current may be up to 1000 &mgr;A. If an air-cushioned turbine is used, there is no galvanic connection between the spray head and the ground lead. The current commutates through the air cushion in the turbine. That causes erosion effects, which lead to damage and consequently interruptions in spray operation with the rotary atomizer caused by malfunctions.
In order to partly overcome the problem explained above, it has been proposed to decentralize the high-voltage supply of the electrodes and, instead of a single external high-voltage source which supplies all of the electrodes, to provide a permanently installed separate high voltage source in each electrode. In that way, it is possible to dispense with the high-voltage insulation of the rotary atomizer.
However, whenever there is a malfunction, it is then necessary to exchange the complete electrode unit, that is to say the electrode holder with the electrode, irrespective of which component is damaged. That is neither economical nor environmentally friendly, since in the event of a malfunction being discovered, it is generally the case that only either the electrode or the high-voltage source, or else part of the high-voltage source, but not both main components, which are affected by any damage.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a rotary spray atomizer, which overcomes the hereinafore-mentioned disadvantages of the heretofore-known devices of this general type in a simple way.
With the objects of the invention in view, there is also provided a rotary spray atomizer for applying electrically conductive paint, in particular water-based paint, varnish or lacquer, to surfaces, comprising a housing having a front and a longitudinal axis; a spray head fitted on the front of the housing for receiving a supply of paint and discharging the supply of paint in a spray mist as a result of rotation; a drive motor disposed in the housing for rotary actuation of the spray head; at least two electrode holders disposed along a concentric circle, having an end, and extended towards the front parallel to the longitudinal axis of the housing; at least two electrodes each accommodated in and protruding from the end of a respective one of the at least two electrode holders; and at least two high-voltage sources constructed as a cascade and each plugged into a respective one of the at least two electrode holders for receiving a low-voltage current, feeding a respective one of the at least two electrodes and causing the at least two electrodes to generate an electric field applying the spray mist discharged by the spray head to an application surface.
The invention therefore provides that in each electrode holder there is disposed an insertable or plugable cascade as the high-voltage source, which feeds the associated electrode respectively disposed on the front. Consequently, the high voltage is present only at the tip of the electrode holders.
This type of voltage supply achieves the effect that, on one hand, long high-voltage supply lines with a voltage of about 100 kV are avoided and, on the other hand, simple exchanging of the locally disposed high-voltage generator is possible at any time. Operational availability is distinctly improved as a result.
In this case, the voltage supply of the high-voltage source disposed in each electrode holder is provided according to the power demand by a d.c. voltage source of low voltage directly alongside the rotary atomizer, for example a storage battery, or through a low-voltage line. Consequently, the requirement for elaborate high-voltage insulation is restricted to the electrode holder.
In addition, it proves to be advantageous that the housing of the rotary atomizer is insulated in accordance with the protection class for insulated housings known in installation technology. At least certain portions of the retained metallic rotor shaft are used as a conductor for the required grounding. A current flow does not take place through the air gaps in the bearings since the housing is insulated and is accordingly at floating potential, that is to say it does not have any differential potential with respect to the rotor shaft.
In order to discharge possible ground currents, it is sufficient to place a ring of electrically conducting material which encloses the shaft and is connected to a ground conductor, at the rear end of the shaft. The gap width of the annular air gap in this case may be greater than in the case of a shaft bearing, since no current flows there for the reasons explained above.
In accordance with another feature of the invention, the high-voltage source respectively disposed in the electrode holders for feeding the associated electrode is constructed as a cascade including diodes and capacitors, which serves as a voltage amplifier. In addition to the cascade, a transformer and an inverter may also be integrated into the high-voltage source for generating the a.c. voltage required for feeding the

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