Electricity: electrical systems and devices – Safety and protection of systems and devices – With specific circuit breaker or control structure
Reexamination Certificate
1999-02-09
2001-05-29
Leja, Ronald W. (Department: 2836)
Electricity: electrical systems and devices
Safety and protection of systems and devices
With specific circuit breaker or control structure
C361S733000
Reexamination Certificate
active
06239962
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates generally to a circuit breaker. More specifically the present invention relates to an arc fault circuit breaker.
Arc fault circuit breakers are well known. These breakers comprise contacts that open upon sensing arcing from line to ground, and/or from line to neutral. Arc fault circuit breakers typically use a differential transformer to measure arcing from line to ground. Detecting arcing from line to neutral is accomplished by detecting rapid changes in load current by measuring voltage drop across a relatively constant resistance, usually a bi-metal resistor.
Components of arc fault circuit breakers are generally assembled into separate compartments as defined by their function. More specifically, mechanical components, e.g., load current carrying and switching components, of each pole are assembled into mechanical compartments, while the current sensing components are assembled into an electronics compartment. In order to connect the compartments, the load current of each pole must be routed from the mechanical compartments into the electronics compartment, through appropriate current sensing devices, and back into the mechanical compartments. Additionally sensing lines, e.g., from the bi-metal resistors, must also be routed from the mechanical compartments into the electronics compartment.
Because these circuit breakers sense arc faults, which are essentially short circuits, the connections of the load current carrying components throughout the circuit breaker must be capable of withstanding enormously high surge currents, sometimes in excess of 10,000 amps. The stresses caused by these extremely large surge currents can blow a connection apart that is not manufactured to proper quality standards. This means that during the assembly process, high quality connections, e.g., welds, bolts, or crimps, must be carefully made and inspected in order to survive the extremely high surge currents, and must be completed at a rate that meets the production schedule.
However, in prior art circuit breakers, interconnecting between the various mechanical and electronics compartments, i.e., interconnections, requires partial dis-assembly of the compartments in order for the production tooling to reach them. This procedure provides very little work space, making it difficult, costly and time-consuming to make the high quality interconnections required.
BRIEF SUMMARY OF THE INVENTION
In an exemplary embodiment of the invention, an arc fault circuit breaker comprises a plurality of housings having compartments therein. Electrically connected components having interconnecting components, i.e., components which provide electrical interconnections between compartments, are disposed within the compartments. The housings are assembled together to enclose the compartments. Interconnecting components within an enclosed compartment extend through openings in the housings to provide electrical interconnections to the next compartment to be assembled. Therefore, no disassembly of the enclosed compartment is necessary to make the interconnections.
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Fuhr Kevin Jay
Glabau Fredic W.
Guerrette Michael Conrad
Magham Murali
Seymour Raymond Kelsey
Cantor & Colburn LLP
General Electric Company
Horton Carl B.
Leja Ronald W.
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