High-voltage switches with arc preventing or extinguishing devic – Arc preventing or extinguishing devices – Magnetic blowout
Reexamination Certificate
2000-07-28
2001-05-29
Donovan, Lincoln (Department: 2832)
High-voltage switches with arc preventing or extinguishing devic
Arc preventing or extinguishing devices
Magnetic blowout
C335S016000, C335S202000
Reexamination Certificate
active
06239398
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to a circuit breaker, and, more particularly, to a circuit breaker cassette assembly.
Circuit breakers are one of a variety of overcurrent protective devices used for circuit breaker protection and isolation. The basic function of a circuit breaker is to provide electrical system protection whenever an electrical abnormality occurs in any part of the system. In a rotary contact circuit breaker, current enters the system from a power line. The current passes through a load strap to a stationary contact fixed on the strap and then to a moveable contact. The moveable contact is fixedly attached to an arm, and the arm is mounted to a rotor that in turn is rotatably mounted in a cassette. As long as the fixed contacts are in physical contact with the moveable contacts, the current passes from the fixed contacts to the moveable contacts and out of the circuit breaker to downline electrical devices.
In the event of an overcurrent condition (e.g. a short circuit), extremely high electro-magnetic forces are generated. These electro-magnetic forces repel the movable contact away from the stationary contact. Because the moveable contact is fixedly attached to a rotating arm, the arm pivots and physically separates the stationary and moveable contacts, thus tripping the unit. When the contacts are rapidly opened as is the case during a trip caused by a short circuit event, an arc is produced. Swift extinction of the arc usually entails the resort to electromagnetic or pneumatic means for motivating the arc so as to increase its path length, promote removal of the arc from the breaker contacts, and facilitate cooling and splitting of the arc; all contributing to increasing the arc voltage to a value in excess of the system driving voltage. When the arc voltage surpasses the source voltage, it becomes difficult for the arc voltage to maintain the arc voltage so that the arc is extinguished. Accordingly, there occurs a voltage corresponding to the source voltage between the stationary contact and the moveable contact, thereby carrying out the circuit breaker operation. It is common practice to employ an arc chute assembly to extinguish this resultant arc.
Such arc chute assemblies consist of a plurality of metallic chute plates that are held in stacked, spaced-apart relationship by side panels that are fabricated from electrically non-conductive material. Retention of the chute plates between the side panels is usually achieved by providing the plates with small protrusions that are slipped into a series of radiused notches in the side panels.
Circuit breaker design, and more particularly, cassette design should enable the efficient and proper positioning of the various components, such as the rotor and arc chute assemblies, into the cassette. For example, improper installation of a rotor into a cassette can result in the two cassette half pieces not mating correctly together. Also, care must be taken to ensure that an arc chute assembly is correctly positioned into the cassette. This ensures proper rotation of the moveable contact arm as well as the proper spacing between the moveable contact and the plate closest to the moveable contact. Improper installation of either a rotor or an arc chute assembly into a cassette half piece will require disassembly and reassembly of the cassette. Such disassembly and reassembly is time consuming and can increase the production cost of the circuit breaker.
BRIEF SUMMARY OF THE PRESENT INVENTION
In an exemplary embodiment of the invention, a cassette assembly suitable for use with a rotary contact circuit breaker includes a first electrically insulative cassette half piece having an inner surface with a first recess and a groove formed therein and a second electrically insulative cassette half piece having an inner surface with a third recess formed therein. The second electrically insulative cassette half piece is arranged for mating with the first electrically insulative cassette half piece.
First and second arc chute assemblies are arranged between the first and second electrically insulative cassette half pieces. A first arc chute assembly includes a first side member, a second side member, a tab, and a plurality of plates disposed between the first and second side members and arranged in a stacked spaced-apart relationship. The tab extends from the first side member and through the first recess for properly positioning the first arc chute assembly in the first electrically insulative cassette half piece. A second arc chute assembly includes a third side member, a fourth side member, a tab and a plurality of plates disposed between the third and fourth side member and arranged in a spaced apart relationship. The tab extends from the third side member and through the third recess for properly positioning the second arc chute assembly in the first electrically insulative cassette half piece.
In one embodiment of a circuit breaker cassette assembly, a rotor defining first and second opposing sides thereon includes a pin formed on a first side. The rotor is then properly assembled within the first electrically insulative cassette half piece by placing the pin within the groove. Thus, the rotor is permitted to travel within the groove as required when the circuit breaker is tripped.
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Christensen Dave
Doughty Dennis J.
Greenberg Randy
Monzon Julian
Cantor & Colburn LLP
Donovan Lincoln
General Electric Company
Horton Carl B.
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