Claims
- 1. A shock resistant auxiliary switch mechanism for use in a circuit breaker, the circuit breaker including a set of separable contacts, the auxiliary switch mechanism being structured to indicate a disconnected state of the set of contacts, the auxiliary switch mechanism comprising:
a frame; a switch assembly; a biasing member; the switch assembly being mounted on the frame, the switch assembly including a first conductor, a second conductor, a common conductor, and an actuator; the actuator being operatively engaged with the common conductor to slidably move at least a portion of the common conductor between a first position in which the common conductor is connected with the first conductor and a second position in which the common conductor is connected with the second conductor; and the biasing member biasing the actuator toward the first position, the actuator being structured to be engaged by a movable member of the circuit breaker to releasably retain the actuator in the second position whereby the actuator is operationally interposed between the bias of the biasing member and the movable member of the circuit breaker to resist unintended movement of the at least portion of the common conductor due to a shock event.
- 2. The auxiliary switch mechanism as set forth in claim 1,
in which the biasing member operatively extends between the at least portion of the common conductor and the frame.
- 3. The auxiliary switch mechanism as set forth in claim 2,
in which the switch assembly includes a housing, and in which the at least portion of the common conductor includes a conduction plate, the first, second, and common conductors being mounted on the housing, the actuator being movable with respect to the housing and including a first portion operatively engaged with the conduction plate and a second portion operatively engaged by the biasing member.
- 4. The auxiliary switch mechanism as set forth in claim 3,
in which the biasing member is a helical compression spring.
- 5. The auxiliary switch mechanism as set forth in claim 3,
in which the conduction plate is translatable between the first and second conductors when moving between the first and second positions.
- 6. The auxiliary switch mechanism as set forth in claim 5,
in which the housing includes a support surface, the conduction plate being slidably disposed on the support surface and being translatable between the first and second conductors, the conduction plate being connected with the first conductor when in the first position, the conduction plate being connected with the second conductor when in the second position.
- 7. A shock resistant auxiliary switch mechanism for use in a circuit breaker, the circuit breaker including a set of separable contacts, the auxiliary switch mechanism being structured to indicate a disconnected state of the set of contacts, the auxiliary switch mechanism comprising:
a frame; a switch assembly; a biasing member; the switch assembly being mounted on the frame, the switch assembly including a first conductor, a second conductor, a common conductor, and an actuator; the common conductor including a slidably translatable conduction plate; the actuator being operatively engaged with the conduction plate to slidably translate the conduction plate between a first position connected with the first conductor and a second position connected with the second conductor; and the biasing member biasing the actuator toward the first position, the actuator being structured to be operatively engaged by a movable member of the circuit breaker.
- 8. The auxiliary switch mechanism as set forth in claim 7,
in which the biasing member operatively extends between the actuator and the frame.
- 9. The auxiliary switch mechanism as set forth in claim 8,
in which the switch assembly includes a housing, the first, second, and common conductors being mounted on the housing, the actuator being movable with respect to the housing and including a first portion operatively engaged with the conduction plate and a second portion operatively engaged by the biasing member.
- 10. The auxiliary switch mechanism as set forth in claim 9,
in which the biasing member is a helical compression spring.
- 11. A shock resistant circuit breaker comprising:
a line conductor; a load conductor; a set of separable contacts interposed between the line and load conductors; the set of separable contacts including a movable contact and a stationary contact; a movable member operatively connected with the movable contact; and a shock resistant auxiliary switch mechanism; the auxiliary switch mechanism including a frame, a switch assembly, and a biasing member, the switch assembly being mounted on the frame; the switch assembly including a first conductor, a second conductor, a common conductor, an actuator; the actuator being operatively engaged with the common conductor to slidably move at least a portion of the common conductor between a first position in which the common conductor is connected with the first conductor and a second position in which the common conductor is connected with the second conductor; and the biasing member biasing the actuator toward the first position, the movable member being operatively engageable with the actuator to releasably retain the actuator in the second position whereby the actuator is operationally interposed between the movable member and the bias of the biasing member to resist unintended movement of the at least portion of the common conductor due to a shock event.
- 12. The circuit breaker as set forth in claim 11,
in which the at least portion of the common conductor includes a conduction plate that is slidably movable between the first and second positions.
- 13. The circuit breaker as set forth in claim 12,
in which the biasing member is a spring that operatively extends between the conduction plate and the frame.
- 14. The circuit breaker as set forth in claim 13,
in which the switch assembly includes a housing, the first, second, and common conductors being mounted on the housing, the actuator being movable with respect to the housing and including a first portion operatively engaged with the conduction plate and a second portion operatively engaged by the spring.
- 15. The circuit breaker as set forth in claim 14,
in which the spring is a helical compression spring.
- 16. The circuit breaker as set forth in claim 14,
in which the actuator is a pivotable toggle; the movable member being a crossbar.
- 17. The circuit breaker as set forth in claim 12,
in which the conduction plate is slidably translatable when moving between the first and second positions.
- 18. The circuit breaker as set forth in claim 17,
in which the switch assembly includes a housing, the housing including a support surface, the conduction plate being slidably disposed on the support surface and being translatable on the support surface between the first and second positions.
CROSS-REFERENCE TO RELATED APPLICATION
[0001] This application is related to commonly assigned, concurrently filed U.S. patent application Ser. No. ______, filed Jun. 18, 2003, entitled “Shock Resistant Bell Alarm Switch Mechanism And Circuit Breaker” (Attorney Docket No. 02-EDP-139).