Piezoelectric/electrostrictive device and method of...

Electricity: electrical systems and devices – Discharging or preventing accumulation of electric charge – Specific conduction means or dissipator

Reexamination Certificate

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C029S025410

Reexamination Certificate

active

06330146

ABSTRACT:

FIELD OF THE INVENTION
The invention relates to the field of air ionizers which may be used as static eliminators, and more particularly to a variable length ionizing bar and method of constructing the same, for neutralizing static electricity on moving materials, often in a form of a web or sheets of paper and/or plastic material.
BACKGROUND OF THE INVENTION
Ionizing bars are used to generate positive and negative ions which may be used to eliminate built-up electrostatic charges on various items such as paper and/or plastic film products. Typically, when used to eliminate built-up electro-static charges on paper or plastic film products, long webs or sheets of the paper or plastic film product are passed over or under the ionizing bar in order to remove static charges. Due to the variation in width of a wide variety of paper and plastic film products, the width of the running webs and sheets varies from a few inches to several feet. As a result, a wide range of lengths of ionizing bars must be custom manufactured, usually on a short notice.
Numerous ionizing bar designs and production techniques have been described in the art, including those set forth in the following U.S. patents: D. Koerke U.S. Pat. No. 3,551,743; D. Simons, U.S. Pat. No. 3,585,448; M. Iosue, et al., U.S. Pat. No. 3,652,897; H. Richardson, et al., U.S. Pat. No. 3,875,461; A. Testone, U.S. Pat. No. 3,921,037; A. Testone, U.S. Pat. No. 3,968,405; A. Testone, U.S. Pat. No. 4,031,599; H. Bennecke U.S. Pat. No. 4,048,667; D. Simons, U.S. Pat. No. 4,216,518; A. Testone, U.S. Pat. No. 4,263,636; B. Metz, U.S. Pat. No. 4,271,451; D. Saureman, U.S. Pat. No. 4,498,116 and U.S. Pat. No. 4,502,091; K. Domschat, U.S. Pat. No. 5,034,651 and U.S. Pat. No. 5,057,966; W. Larkin, U.S. Pat. No. 5,501,899.
Certain known ionizing bars are comprised of a single elongated central high voltage electrode. The high voltage electrode is covered with an insulative or semiconductive sleeve and conductive sleeves. Emitter pins for generating the positive and negative ions extend outward from the electrode. In this type of known ionizing bar. a tubular metallic grounded housing surrounds the high voltage electrode. The metallic grounded housing includes an arrangement of cylindrical openings through which the emitter pins extend from the high voltage electrode.
Other prior art ionizing bars are comprised of a metal housing in the form of an elongated hollow metallic channel having a longitudinally extended opening. In this type of prior art ionizing bar, a high voltage electrode consisting of cable with an inner conductive core formed by a plurality of stranded wires is contained within the metallic channel of the housing. Emitter pins are formed on the outer layer of the cable by conductive paint.
Still other known ionizing bars include two or more parallel rows of metal electrodes with sharp emitter pins extending therefrom for generating, positive and negative ions on alternate rows.
Most of these prior art ionizing bars have a high voltage cable that is integral to the ionizing bar assembly and which is connected to a remotely-mounted high voltage power supply for providing power to the bar assembly. Second, although several of prior art ionizing bars do have connectors for removeably coupling a high voltage power supply to the ionizing bar, each of these connectors are located at only one end of the bar and are only suitable for a cable connection to the bar. Accordingly, a cable is coupled between the connector and the high voltage power supply. Additionally, in all of these prior art designs, the ionizing electrodes are located in a single row (positive and negative emitter pins alternating) or in two parallel rows with positive emitter pins arranged in parallel with negative emitter pins. Finally, in each of these designs all components of the bar, especially the housing, inner cables or bus rods. and insulators arc custom manufactured to a desired length.
Accordingly, it is would be desirable to provide an ionizing bar design which does not have a cable for connecting a high voltage power supply that is permanently hard-wired to the bar. Such a design should preferably include universal connectors at each end of the ionizing bar for coupling the bar directly to a power supply, or for coupling the ionizing bar to a power supply via a disconnectable extension cable. What is further needed is an ionizing bar design wherein the emitter pins are not arranged in a single row or in two parallel rows but are arranged in a more efficient configuration. What is further needed is a ioinizing bar design wherein multiple ionizing bars can be daisy chained together in order to achieve alternate lengths. Finally, what is needed is an ionizing bar design and a manufacturing method with would allow to pre-assemble a long ionizing bar assembly that will be ready to be cut to a customer-specified length and quickly shipped to the customer, rather that having to be custom assembled to a desired length.
The objective of this invention is to provide an ionizing bar that is, a) more reliable in operation, b) more economical and easy to manufacture, c) easy to connect to a high voltage power supply directly or via an extension cable, and d) a method of fabrication that provides shorter lead time to deliver bars to the customers.
SUMMARY OF THE INVENTION
In accordance with the present invention, an ionizing bar assembly is comprised of a plastic housing and two individual ionizing electrode modules disposed on opposite sides of the housing. The first ionizing electrode module receives voltage of a positive polarity when coupled to a source of high voltage power, thereby generating ions of a positive polarity. The second ionizing electrode module receives voltage of a negative polarity when coupled to the source of high voltage power, thereby generating ions of a negative polarity. The ionizing electrode modules each include a plurality of printed circuit boards having signal traces thereon with ionizing electrodes or pins extending therefrom. The plurality of printed circuit boards are electrically coupled together by conductive rods or tubing which are preferably positioned adjacent to the traces on the boards and soldered at various positions along the traces. The ionizing electrode modules on each side of the housing are placed at opposing angles and are offset laterally from each other in such a way that the ionizing electrodes or pins extending from one side are located between the ionizing electrodes or pins extending from the opposite side, with the tips of each aligned along a common central linear axis.
Each ionizing bar assembly preferably slides into two end blocks, which are each located at opposite ends of the bar assembly. The end blocks each include a recess having two pins therein and two socket connectors coupled to the pins at 90 degree angles and extending through a base in each of the two end blocks. The opposite ends of each of the pins extend horizontally through a back end of the end block. The pins are designed to engage with the conductive rods or tubing when the ionizing bar assembly is placed into the recess of the end blocks. The sockets are designed to removeably couple to a high voltage power source. The opposite ends of each of the pins may terminate or may be used for coupling to dual cabling for linking multiple ionizing bar assemblies together. Multiple ionizing bar assemblies may be daisy chained together such that a total length of any desired bar length may be achieved by adding or removing tonizing bar assemblies. The end blocks not only allow the length of any desired ionizing bar to be varied for use in different systems: but, the end blocks further allow assemblies to be easily coupled or removed from a high voltage power source because the high voltage power source is not hard wired to the ionizing bar assemblies.


REFERENCES:
patent: 3551743 (1970-12-01), Koepke
patent: 3585448 (1971-06-01), Simons
patent: 3652897 (1972-03-01), Iosue et al.
patent: 3875461 (1975-04-01), Richardson et al.
patent: 3921037 (19

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