Electricity: electrical systems and devices – Discharging or preventing accumulation of electric charge
Reexamination Certificate
2001-07-03
2004-04-06
Jackson, Stephen W. (Department: 2836)
Electricity: electrical systems and devices
Discharging or preventing accumulation of electric charge
C361S220000, C361S230000
Reexamination Certificate
active
06717792
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention is directed to ion generators and, more specifically, to an emitter assembly having outwardly extending ionizing pins. These ion generators are related generally to the field of devices that neutralize static charges in workspaces to minimize the potential for electrostatic discharge.
In many manufacturing and processing environments, it is desirable to prevent the accumulation of charge within a workspace. To prevent the accumulation of charge both positive and negative ions are guided into the workspace to neutralize any charge which may be building up. One example of an industry in which the accumulation of charge in production areas must be avoided is the disk drive industry where it is critical to maintain high manufacturing yields.
FIG. 1
shows, an emitter assembly
10
′ of the type commonly used in ion air blowers. The emitter assembly
10
′ is mounted so that air is propelled or drawn through an air guide
30
′ which is formed by an annular ring
22
′. Ionizing pins
32
′ extend generally radially inwardly from the annular ring
32
′ so that their tips are positioned in the air flow to allow ions to be blown or drawn off of the ionizing pins
32
′ and out of the ion air blower (not shown) which houses the emitter assembly
10
′.
It is common to use a fan (not shown) to drive or draw the air through the air guide
30
′. The diameter of the area swept out by the fan blades of the fan assembly is approximately equal to the inner diameter of the annular ring
22
′. Due to the position of the tips of the ionizing pins
32
′ being proximate to the outer edge of the fan blades, the ions from the emitter assembly are released into a slower portion of the airflow generated by the fan.
Conventional emitter assemblies
10
′ use relatively complicated point to point wiring
26
′ to supply power to the ionizing pins
32
′. The miniaturization of the ion air blower housing (not shown) which encloses the emitter assembly
10
′ is limited by the size of the air guide
30
′ of the emitter assembly
10
′. Due to the high voltage being transferred through the wiring
26
′ to the ionizing pins
32
′, it is necessary that the housing of the ion air blower be spaced a minimum distance from the outside of the air guide
30
′ to prevent the arcing or other leakage of electricity from either the pins
32
′ or the wiring
26
′ to the ion air blower housing (metal housings are preferred for electrical shielding purposes).
The size of the annular ring
22
′ is also limited by the size of the fan to be used with the emitter assembly
10
′. If the diameter of the annular ring
22
′ is smaller than the diameter of the fan, then the amount of air forced through the air guide
30
′ is reduced and the efficiency of the ion air blower is detrimentally effected.
The emitter assembly
10
′ requires relatively complicated molding, tooling, and assembly of the annular ring
22
′ to accommodate the wiring
26
′ and the mounting of the ionizing pins
32
′. In order to properly mount the ionizing pins
32
′ on the annular ring
22
′, it is necessary to manufacture sockets (not shown) for receiving the ionizing pins
32
′ that are disposed within the body of the annular ring
22
′. The tooling necessary to form the relatively complicated annular ring
22
′ as well as the complicated point to point wiring and size limitations associated with the emitter assembly
10
′ imposes several design limitations on devices using the emitter assembly
10
′.
What is needed, but so far not provided by the conventional art, is an emitter assembly that is easy to manufacture, that allows an ion air blower incorporating the emitter assembly to be miniaturized without the risk of causing electrical arcs from the emitter assembly, that allows the ion air blower housing which encloses the emitter assembly to be miniaturized to a size comparable to that of the housing used by the fan of the ion air blower, and that facilitates the removal of ions from the ionizing pins by disposing the tips of the ionizing pins in the relatively faster portion of the airflow generated by the fan.
BRIEF SUMMARY OF THE INVENTION
The present invention is an emitter assembly having outwardly extending ionizing pins. The emitter assembly of the present invention supports ionizing pins that extend generally radially outwardly from an annular assembly ring. The prior art recognized the use of ionizing pins supported by a ring structure; however, the prior art did not recognize that pointing the pins inwardly would be a limiting factor for reducing the size of the assembly.
The emitter assembly of the present invention is preferably, but not necessarily, used as part of an ion air blower and is preferably contained inside of an ion air blower housing. Also enclosed in the ion air blower housing is a fan that is used to force air or draw air over the ionizing pins. The ionizing pins extend from the outer surface of the annular assembly ring with the ionizing pin tips positioned in the air guide proximate to the point of fastest airflow generated by the fan blades. This facilitates the stripping of ions from the ends of the ionizing pins by the propelled or drawn air. Additionally, the generally outwardly orientation of the ionizing pins allows for the increased miniaturization of an ion air blower using the emitter.
The emitter assembly of the present invention also allows for simplified manufacturing and assembly. Because of the geometry and reduced complexity of the layout, it facilitates the use of a relatively simple mold for the manufacture. Further, by not requiring the central portion of the assembly to be open, an embodiment of the present invention reduces the complexity of the wire routing. Another embodiment eliminates conventional wiring altogether by utilizing pre-fabricated connectors, which may be a printed circuit board, for joining the ionizing pins to a power supply.
REFERENCES:
patent: 4363072 (1982-12-01), Coggins
patent: 5055963 (1991-10-01), Partridge
patent: 5249094 (1993-09-01), Hayakawa et al.
patent: 5508880 (1996-04-01), Beyer
patent: 5795131 (1998-08-01), Crowhurst et al.
patent: 5973905 (1999-10-01), Shaw
patent: 6118645 (2000-09-01), Partridge
patent: 6137670 (2000-10-01), West et al.
patent: 2 085 510 (1971-12-01), None
patent: 1 305 382 (1973-01-01), None
patent: 327982 (1998-03-01), None
patent: 392988 (2000-06-01), None
European Search Report for EP Application No. 01128494.0, mail date: Feb. 21, 2002, 3 pages.
Gorczyca John
Jacobs Michael
Miller King K.
Akin Gump Strauss Hauer & Feld & LLP
Illinois Tool Works Inc.
Jackson Stephen W.
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