Electrical connectors – With provision to isolate circuitry by severance of bridging...
Reexamination Certificate
2000-03-23
2002-03-12
Patel, Tulsidas (Department: 2839)
Electrical connectors
With provision to isolate circuitry by severance of bridging...
C439S082000, C361S826000
Reexamination Certificate
active
06354868
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates generally to a distribution system for electric power, and in particular to an electrical power distribution system for a vehicle.
2. Description of Related Art
The first motorized vehicles had little in the way of an electrical system. All that was required was some way to generate and distribute an ignition potential to each of the cylinders of the small, internal combustion engine that powered these early vehicles.
The need to see the road ahead during nighttime operation gave rise to the first electrical accessory: headlights. Interior illumination was added for the operator's convenience, and a single tail light was considered adequate. Turn signal lights followed, but the simple vehicle radio receiver did not make its appearance until a number of years later.
The modern automobile is an impressive collection of electrical hardware: from stereo sound equipment to air conditioning; from power windows, mirrors and seats to keyless entry systems; from vehicle alarms to seat position memory to electrically heated seats. The complexity of vehicle electrical systems has grown almost exponentially since the automobile's introduction.
Automotive and truck electrical systems are a formidable combination of high-current and low-current circuitry. In many cases, relays are required for control purposes, and all circuits must be adequately fused to protect expensive components and to guard against the danger of fire. In order to facilitate the replacement of fuses and relays, and to simplify interconnection of electrical hardware, many different electric power distribution systems have been tried.
One approach that has been tried with fair consistency is to centralize fuse and relay mounting, then route input and output connections from this central location. The first systems built using this approach included a great deal of point-to-point wiring. Hand wiring is very costly, and manual wiring operations are a source of wiring errors that negatively impact product quality. In addition, massive wiring bundles create a hazard of shorts or fire.
Another approach has been the construction of customized distribution networks stamped as strips from thin metal sheets—“stamp tracks.” These stamp tracks are formed metal sheets that have contact tabs protruding through openings in custom designed plastic shells. Although this approach yields a higher quality product, tooling costs are very high, since virtually every automobile model requires a unique distribution system. At least some of this uniqueness aspect is driven by the proliferation of fuse and relay packages. A distribution product must be able to accommodate the fuse and relay components selected by the manufacturer.
Yet another approach has centered around the use of flexible circuit board technology, or “flex circuits.” Flex circuits are constructed by depositing conductive material between two flexible insulating layers. Although the unique distribution requirements of each vehicle model would require unique flex circuits for each application, tooling costs are much lower than the metal stamping/custom plastic housing approach described previously. The principal disadvantage of the flex circuit approach is that the conductive layers are very thin, and the high current densities required in vehicle power distribution lead to overheating and eventual failure.
Consequently, a need arises for a vehicle electric power distribution system that can be customized for a particular vehicle with relative ease, that avoids high tooling costs for custom designed components, that is reliable in a high current environment, that will accommodate a wide range of fuse and relay packages, and that is relatively inexpensive to manufacture.
OBJECTS AND SUMMARY
These needs and others are satisfied by the electrical circuit plates and electric power distribution apparatus of the present invention. The apparatus includes a plurality of conductive circuit plates stacked to provide an electrical distribution system. Each plate has an arrangement of contact pads, wherein at least some of the contact pads are electrically connected to selected other contact pads of the same conductive plate via integrally formed conductive traces. The apparatus further includes a plurality of conductive pins providing electrical contact between selected contact pads of different selected conductive plates.
The present invention further relates to a power distribution apparatus comprising a conductive plate, the conductive plate including a plurality of contact pads that are interconnected by removable connecting links, each of the contact pads including means for receiving a connector pin, a housing for the conductive plate, the housing including a plurality of connector receptacles, and a plurality of connector pins selectively mounted to a portion of the receiving means on the conductive plate so as to align with the connector receptacles, wherein a portion of the connecting links are removed to create a circuit on the conductive plate.
REFERENCES:
patent: 3072734 (1963-01-01), Fox et al.
patent: 3408452 (1968-10-01), Ruehlemann
patent: 4703397 (1987-10-01), Minoura et al.
Korczynski Jacek
Spencer Ronald Lee
Armstrong Teasdale LLP
Cooper Technologies
Patel Tulsidas
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