IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0100719
(2008-04-10)
|
등록번호 |
US-7545244
(2009-07-01)
|
발명자
/ 주소 |
- DiSalvo, Nicholas L.
- Ziegler, William R.
- Germain, Frantz
- Herzfeld, David
- Stewart, Stephen
- Bradley, Roger M.
|
출원인 / 주소 |
- Leviton Manufacturing Co., Inc.
|
대리인 / 주소 |
Carter, DeLuca, Farrell & Schmidt, LLP
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
198 |
초록
▼
Resettable circuit breakers having an independent trip mechanism and a reset lockout are provided. The trip mechanism operates independently of the fault protection operations, and the reset lockout prevents the resetting of the circuit breaker if the fault protection is non-operational or if an ope
Resettable circuit breakers having an independent trip mechanism and a reset lockout are provided. The trip mechanism operates independently of the fault protection operations, and the reset lockout prevents the resetting of the circuit breaker if the fault protection is non-operational or if an open neutral condition exists.
대표청구항
▼
What is claimed is: 1. A circuit interrupting device comprising: at least one input conductor adapted to connect at least one output conductor to a power source; at least one contact arm movable between a closed position to provide electrical continuity between the at least one input conductor and
What is claimed is: 1. A circuit interrupting device comprising: at least one input conductor adapted to connect at least one output conductor to a power source; at least one contact arm movable between a closed position to provide electrical continuity between the at least one input conductor and the at least one output conductor, an open position to break electrical continuity between the at least one input conductor and the at least one output conductor, and a stressed position to momentarily electrically engage the at least one input conductor; at least one reset arm having a latch disposed thereon and configured to move between a reset position wherein the latch maintains the at least one contact arm in the closed position and a tripped position wherein the at least one contact arm is disengaged by the latch and the at least one contact arm is in the open position, wherein the at least one reset arm is configured to selectively cause the latch to move the at least one contact arm to the stressed position when the at least one reset arm is depressed while in the tripped position; and a circuit interrupter configured to move the at least one reset arm from the reset position to the tripped position upon the occurrence of a predetermined condition and from the tripped position to the reset position upon movement of the at least one contact arm to the stressed position if the predetermined condition is resolved. 2. The circuit interrupting device of claim 1, wherein the at least one reset arm remains in the tripped position upon movement of the at least one contact arm to the stressed position if the predetermined condition remains unresolved. 3. The circuit interrupting device of claim 1, wherein the at least one output conductor is configured to electrically connect to at least one user accessible receptacle. 4. The circuit interrupting device of claim 1, wherein the latch is configured to lockably engage the at least one contact arm to prevent movement thereof from the open position to the closed position if the predetermined condition remains unresolved. 5. The circuit interrupting device of claim 1, further including an actuator operatively coupled to the at least one reset arm and configured to selectively cause the latch to move the at least one contact arm to the stressed position. 6. The circuit interrupting device of claim 1, wherein the circuit interrupting device further comprises a tripper configured to selectively move the at least one reset arm from the reset position to the tripped position. 7. The circuit interrupting device of claim 1, wherein the circuit interrupter includes a solenoid having a movable electro-mechanical linkage configured to move the at least one reset arm from the reset position to the tripped position upon the occurrence of the predetermined condition and from the tripped position to the reset position upon movement of the at least one contact arm to the stressed position if the predetermined condition is resolved. 8. The circuit interrupting device of claim 7, wherein the circuit interrupter further includes a sensing circuit operatively coupled to the solenoid and configured to detect the occurrence of at least one of the predetermined condition and movement of the at least one contact arm to the stressed position, wherein the sensing circuit is configured to energize the solenoid thereby causing the electro-mechanical linkage to cause the circuit interrupter to move the at least one reset arm from the reset position to the tripped position upon the occurrence of the predetermined condition and from the tripped position to the reset position upon movement of the at least one contact arm to the stressed position if the predetermined condition is resolved. 9. The circuit interrupting device of claim 8, wherein the sensing circuit is operably coupled to the at least one output conductor when the at least one contact arm is in the closed position and to the at least one input conductor when the at least one contact arm is in the stressed position. 10. The circuit interrupting device of claim 8, wherein the sensing circuit includes a differential transformer operatively coupled to an integrated circuit, the differential transformer being configured to detect the occurrence of at least one of the predetermined condition and the simulated condition and to cause the integrated circuit to output a trigger signal to the solenoid upon the occurrence of at least one of the predetermined condition and movement of the at least one contact arm to the stressed position, thereby causing the solenoid to cause the electro-mechanical linkage to cause the circuit interrupter to move the at least one reset arm from the reset position to the tripped position upon the occurrence of the predetermined condition and from the tripped position to the reset position upon movement of the at least one contact arm to the stressed position if the predetermined condition is resolved. 11. The circuit interrupting device of claim 1, wherein the circuit interrupting device is one of a GFCI, an AFCI, an IDCI, an ALCI, and an ELCI. 12. The circuit interrupting device of claim 1, wherein the circuit interrupting device is a GFCI receptacle. 13. A method of detecting a predetermined condition of a circuit interrupting device having at least one input conductor electrically connected to a power source and at least one output conductor adapted to electrically connect to the at least one input conductor to provide electrical continuity between the power source and at least one of a user accessible receptacle and at least one load, comprising the steps of: providing a reset actuator configured to move between a reset position to provide electrical continuity between the at least one input conductor and the at least one output conductor such that the output conductor provides electrical continuity between the power source and at least one of the user accessible receptacle and the at least one load and a tripped position to break electrical continuity between the at least one input conductor and the at least one output conductor thereby breaking electrical continuity between the power source and the at least one load if the predetermined condition remains unresolved; providing a circuit interrupter configured to electrically connect to the at least one output conductor to detect the occurrence of the predetermined condition and momentarily to the at least one input conductor to provide electrical continuity between the power source and the circuit interrupter to provide a simulated condition if the predetermined condition is resolved, the reset actuator configured to move from the reset position to the tripped position upon the occurrence of the predetermined condition and from the tripped position to the reset position upon the occurrence of the simulated condition; and actuating the reset actuator to electrically connect the circuit interrupter to the at least one input conductor to provide the simulated condition, wherein the reset actuator remains in one of the reset position and the tripped position if the predetermined condition remains unresolved and moves from the tripped position to the reset position if the predetermined condition is resolved. 14. The method of claim 13, wherein the circuit interrupter includes a solenoid having a movable electro-mechanical linkage operatively coupled to the circuit interrupter, wherein the electro-mechanical linkage is configured to move the reset actuator from the reset position to the tripped position upon the occurrence of the predetermined condition and from the tripped position to the reset position upon the occurrence of the simulated condition. 15. The method of claim 14, wherein upon movement of the reset actuator from the reset position to the tripped position, the reset actuator breaks electrical continuity between the circuit interrupter and the at least one output conductor, thereby breaking electrical continuity between the power source and the solenoid. 16. The method of claim 13, wherein the circuit interrupting device is one of a GFCI, an AFCI, an IDCI, an ALCI, and an ELCI disposed within a receptacle. 17. The method of claim 13, wherein the circuit interrupting device is a wall mountable GFCI receptacle. 18. The method of claim 13, wherein the at least one load is a circuit interrupting device.
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