Coating apparatus – With means to apply electrical and/or radiant energy to work... – Electrostatic and/or electromagnetic attraction or...
Reexamination Certificate
2002-03-04
2004-12-07
Fiorilla, Chris (Department: 1734)
Coating apparatus
With means to apply electrical and/or radiant energy to work...
Electrostatic and/or electromagnetic attraction or...
C118S630000, C118S629000, C118S639000, C118S318000, C118S317000
Reexamination Certificate
active
06827780
ABSTRACT:
FIELD OF THE INVENTION
The present invention generally relates to apparatus and methods for applying powder coatings to interior surfaces of hollow objects, such as cylindrical motor stators.
BACKGROUND OF THE INVENTION
Powder coating technology has generally evolved over several years into several different coating techniques performed with various types of coating systems. Generally, a powder, such as a resinous polymer or paint, is initially adhered to an electrically conductive object. This initial coating process typically involves electrically grounding the object and electrostatically charging the powder particles such that the electrostatic attraction causes the powder to adhere to the object. In most applications, it is desirable to coat the object with a uniform coating thickness. This initial powder coating is then cured using heat or other techniques, such as infrared or ultraviolet light. This fully adheres the coating to the object.
Applying powder to internal portions of certain objects presents unique problems. For example, electric motor stators are often shaped cylindrically with inwardly facing slots configured to receive copper windings. There must be an electrically insulating layer between the copper windings and the metal defining the slots of the stator. Therefore, when conventional electrostatic powder coating techniques are used to provide a layer of insulation on these metal surfaces, the powder must penetrate evenly into the slots of the stator. In this regard, the propensity is for the powder to more heavily coat the nearest surfaces. In addition, the strength of the electrostatic field diminishes as the distance from the charging medium increases. Thus, for example, the surface of a large stator that is relatively close to an electrostatic powder coating bed will receive a thicker coating than a surface that is relatively far from the bed.
Motor stators of different sizes present different types of powder coating problems and challenges. Generally, it is more difficult to fully penetrate deep slots with a uniform coating than it is to penetrate shallow slots. Powder spray guns have been attempted in such situations, but spray guns tend to impart too much powder velocity and therefore blow too much powder out of the slots and off the edges of the slots. On the other hand, parts have been placed in a powder cloud formed by electrostatic fluidized beds with the cylindrical object, such as the stator, held and tumbled or rotated directly within the powder cloud. This is suitable for smaller stators but, as mentioned above, larger stators will present problems with coating uniformity. Large cylindrical objects, such as motor stators, can also present handling difficulties.
Other types of powder coating devices have been used to coat hollow objects, such as fluidized beds into which a preheated hollow object is dipped, and powder spraying devices which include diffusers inserted into the hollow interior of the object for radially discharging powder with a 360° distribution pattern. Unfortunately, heating an object such as a motor stator with slots tends to cause the slots to heat up more than outer areas of the stator and this results in too much powder coating build up within the slots. Powder sprayers with 360° diffusers are used for internal pipe coating applications in which a large, relatively imprecise build up of powder is required and these devices are therefore not suitable for precision coating applications, such as stator coating.
For the reasons stated above, as well as other reasons, it would be desirable to provide powder application techniques and apparatus which can more uniformly and precisely coat internal portions of a hollow object, such as a large cylindrical motor stator or other object, while preferably reducing the handling problems associated with such large, hollow objects.
SUMMARY OF INVENTION
The present invention generally provides apparatus for applying powder to at least an interior surface of a hollow object. The apparatus includes a powder discharge device adapted to receive powder and discharge the powder through an outlet. An object holder is configured to hold the object such that the outlet is positioned within the hollow object adjacent to its interior surface. A rotating mechanism is configured to engage and rotate the hollow object such that powder discharging from the outlet coats the interior surface as the interior surface rotates past the outlet. In the preferred embodiment, the hollow object may be a large electric motor stator and the interior surface thereof may include slots which are adapted to receive copper windings after the coating operation is complete.
Although other types of powder discharge devices may be used in accordance with the invention, the preferred embodiment includes a chamber with the outlet positioned in an upper portion of the chamber. The chamber is adapted to receive and fluidize a bed of powder to form a powder cloud emanating upwardly through the outlet. More specifically, the chamber includes a porous member positioned in its lower portion below the bed of powder and an electrostatic charging device positioned in an air flow path leading through the porous member. A pressurized air inlet is provided for directing pressurized air into the air flow path such that the air is charged by the electrostatic charging device and then passes through the porous member and into the bed of powder.
The object holder more specifically comprises a pair of rollers configured to engage generally opposite sides of the exterior surface of the hollow object. A motor is coupled to at least one of the rollers to facilitate rotating the hollow object via, for example, frictional engagement with the motorized roller. The outlet of the powder discharge device preferably comprises an elongate slot configured to extend parallel to the axis of rotation of the hollow object. In the preferred embodiment, when coating an electric motor stator, the length of the slot is longer than the dimension between the end faces of the stator. This allows powder emanating from the slot to coat the end faces as well. The elongate slot may be formed between converging walls of the chamber. A transfer mechanism is preferably coupled to the powder discharge device and transfers the powder discharge device from a position outside the hollow object to a position within the hollow object. To further reduce handling of the large hollow object, the object is preferably held only by the rollers during the entire coating operation and, therefore, need not be manually positioned by an operator.
In the preferred embodiment, a powder collection unit is configured to collect excess powder which has not been applied to the object. For example, the rollers may be mounted within a lower chamber or second chamber having an interior coupled to a powder collection unit supplied with vacuum. Thus, as the rollers rotate against the outside surface of the hollow object, such as the electric stator, excess powder on the outside surface of the object electrostatically adheres to the outside surfaces of the rollers. Powder removing devices may be positioned within the second chamber to remove the powder from the rollers for subsequent collection by the powder collection unit. For example, positive pressurized air may be directed at the outside surfaces of the rollers and/or brushes or scrapers may be engaged with the outside surfaces of the rollers to facilitate this powder removal function.
A method performed in accordance with the inventive principles generally includes positioning a powder discharge device having a powder discharge outlet within a hollow object, such as an electric motor stator; directing a stream of the powder through the powder discharge outlet; and rotating the object with the interior surface positioned adjacent the opening and in contact with the stream of powder. The method preferably comprises forming a powder cloud within the chamber and moving the powder cloud within the chamber generally toward the powder discharge outl
Fiorilla Chris
Koch George
Nordson Corporation
Wood Herron & Evans L.L.P.
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