ELECTRICAL SWITCHING APPARATUS, AND STORED ENERGY ASSEMBLY AND TIME DELAY MECHANISM THEREFOR

US 20080296138A1
Filed: 06/01/2007
Published: 12/04/2008
Est. Priority Date: 06/01/2007
Status: Active Grant

First Claim

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1. A time delay mechanism for a stored energy assembly of an electrical switching apparatus including a housing, separable contacts, and an operating mechanism structured to open and close said separable contacts, said stored energy assembly including a mount being fastenable to said housing, a stored energy mechanism coupled to said mount, at least one charging mechanism structured to charge said stored energy mechanism in order to store energy, at least one actuator being actuatable to release said stored energy, and a drive assembly structured to transfer said stored energy into movement of said operating mechanism, said time delay mechanism comprising:

a first trip shaft structured to be pivotably coupled to said mount and cooperable with said drive assembly, said first trip shaft being movable among a first position corresponding to said stored energy mechanism being charged, and a second position corresponding to said stored energy mechanism being discharged;

a second trip shaft structured to be pivotably coupled to said mount proximate said first trip shaft, said second trip shaft including a cut-out portion;

a link assembly including a plurality of linking elements, said linking elements interconnecting said first trip shaft and said second trip shaft, in order that movement of one of said first trip shaft said second trip shaft results in movement of the other of said first trip shaft and said second trip shaft;

a trip catch including a first end coupled to said first trip shaft, and a second end being engageable with said second trip shaft, said trip catch being movable with said first trip shaft but not independently with respect thereto;

a drive lever comprising a first end coupled to said first trip shaft, and a second end disposed opposite and distal from the first end; and

a damper coupled to said drive lever,wherein, when said first trip shaft is moved from said first position toward said second position, said first trip shaft moves said linking elements of said link assembly, thereby pivoting said second trip shaft,wherein, when said second trip shaft is pivoted, said cut-out portion of said second trip shaft releases said trip catch, thereby permitting said first trip shaft to move to said second position,wherein, when said first trip shaft moves to said second position, said stored energy of said stored energy mechanism is released, in order to drive said drive assembly and move said operating mechanism,wherein there is a delay from a first time that said first trip shaft initially moves from said first position to a second time that said second trip shaft is moved to release said trip catch, andwherein said damper is adjustable in order to adjust said delay.

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Abstract

A time delay mechanism is provided for a circuit breaker stored energy assembly including a mount, a spring coupled to the mount, at least one charging mechanism for charging the spring to store energy, at least one actuator for releasing the stored energy, and a drive assembly for transferring the stored energy into movement of the circuit breaker operating mechanism. First and second trip shafts of the time delay mechanism are pivotably coupled to the mount. Linking elements interconnect the first and second trip shafts. A trip catch and a drive lever are coupled to the first trip shaft. The linking elements and a damper, which is connected to the drive lever, contribute to a delay from a first time that the first trip shaft initially moves, to a second time that the second trip shaft moves to release the trip catch. The damper is adjustable to adjust the delay.

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22 Claims

1. A time delay mechanism for a stored energy assembly of an electrical switching apparatus including a housing, separable contacts, and an operating mechanism structured to open and close said separable contacts, said stored energy assembly including a mount being fastenable to said housing, a stored energy mechanism coupled to said mount, at least one charging mechanism structured to charge said stored energy mechanism in order to store energy, at least one actuator being actuatable to release said stored energy, and a drive assembly structured to transfer said stored energy into movement of said operating mechanism, said time delay mechanism comprising:
- a first trip shaft structured to be pivotably coupled to said mount and cooperable with said drive assembly, said first trip shaft being movable among a first position corresponding to said stored energy mechanism being charged, and a second position corresponding to said stored energy mechanism being discharged;
  
  a second trip shaft structured to be pivotably coupled to said mount proximate said first trip shaft, said second trip shaft including a cut-out portion;
  
  a link assembly including a plurality of linking elements, said linking elements interconnecting said first trip shaft and said second trip shaft, in order that movement of one of said first trip shaft said second trip shaft results in movement of the other of said first trip shaft and said second trip shaft;
  
  a trip catch including a first end coupled to said first trip shaft, and a second end being engageable with said second trip shaft, said trip catch being movable with said first trip shaft but not independently with respect thereto;
  
  a drive lever comprising a first end coupled to said first trip shaft, and a second end disposed opposite and distal from the first end; and
  
  a damper coupled to said drive lever,wherein, when said first trip shaft is moved from said first position toward said second position, said first trip shaft moves said linking elements of said link assembly, thereby pivoting said second trip shaft,wherein, when said second trip shaft is pivoted, said cut-out portion of said second trip shaft releases said trip catch, thereby permitting said first trip shaft to move to said second position,wherein, when said first trip shaft moves to said second position, said stored energy of said stored energy mechanism is released, in order to drive said drive assembly and move said operating mechanism,wherein there is a delay from a first time that said first trip shaft initially moves from said first position to a second time that said second trip shaft is moved to release said trip catch, andwherein said damper is adjustable in order to adjust said delay.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The time delay mechanism of claim 1 wherein said linking elements of said link assembly are a first trip lever extending outwardly from said first trip shaft, a second trip lever extending outwardly from said second trip shaft generally parallel with respect to said first trip lever, and a trip link interconnecting said first trip lever and said second trip lever.
  - 3. The time delay mechanism of claim 1 wherein said drive assembly comprises a drive shaft pivotably coupled to said mount;
    - and wherein said drive lever further comprises a connector structured to be movably coupled to said drive shaft, and a bias member structured to bias said drive lever away from said drive shaft, thereby biasing said first trip shaft toward said second position and maintaining positive engagement between said drive lever, said linking elements of said link assembly, and said damper.
  - 4. The time delay mechanism of claim 3 wherein said drive shaft comprises a pair of opposing protrusions and a trunnion extending between said pair of opposing protrusions;
    - wherein said connector is a drive rod having a first end movably coupled to and extending through said trunnion, and a second end coupled to said drive lever at or about the second end of said drive lever;
      
      wherein said bias member is a spring having a plurality of coils; and
      
      wherein said drive rod extends through said coils.
  - 5. The time delay mechanism of claim 1 wherein said damper is an air dashpot;
    - and wherein said air dashpot comprises a reservoir having a volume of air, a plunger extending outwardly from said reservoir, and an adjustment mechanism structured to adjust said volume of air within said reservoir.
  - 6. The time delay mechanism of claim 5 wherein said air dashpot further comprises a connecting link coupling said plunger to said drive lever;
    - wherein said adjustment mechanism is a fastener;
      
      wherein said fastener is adjustable in a first direction in order to reduce the volume of air within said reservoir and thereby reduce said delay; and
      
      wherein said fastener is adjustable in a second direction in order to increase the volume of air within said reservoir and thereby increase said delay.
  - 7. The time delay mechanism of claim 5 wherein both of said linking elements of said link assembly and said air dashpot contribute to said delay.

8. A stored energy assembly for an electrical switching apparatus including a housing, separable contacts, and an operating mechanism structured to open and close said separable contacts, said stored energy assembly comprising:
- a mount structured to be coupled to said housing;
  
  a stored energy mechanism coupled to said mount;
  
  at least one charging mechanism structured to charge said stored energy mechanism in order to store energy;
  
  at least one actuator being actuatable to release said stored energy mechanism, in order to release said stored energy;
  
  a drive assembly structured to be cooperable with said stored energy mechanism, in order to transfer said stored energy into movement of said operating mechanism; and
  
  a time delay mechanism comprising;
  
  a first trip shaft pivotably coupled to said mount and being cooperable with said drive assembly, said first trip shaft being movable among a first position corresponding to said stored energy mechanism being charged, and a second position corresponding to said stored energy mechanism being discharged,a second trip shaft pivotably coupled to said mount proximate said first trip shaft, said second trip shaft including a cut-out portion,a link assembly including a plurality of linking elements, said linking elements interconnecting said first trip shaft and said second trip shaft, in order that movement of one of said first trip shaft said second trip shaft results in movement of the other of said first trip shaft and said second trip shaft,a trip catch including a first end coupled to said first trip shaft, and a second end being engageable with said second trip shaft, said trip catch being movable with said first trip shaft but not independently with respect thereto,a drive lever comprising a first end coupled to said first trip shaft, and a second end disposed opposite and distal from the first end, anda damper coupled to said drive lever,wherein, when said first trip shaft is moved from said first position toward said second position, said first trip shaft moves said linking elements of said link assembly, thereby pivoting said second trip shaft,wherein, when said second trip shaft is pivoted, said cut-out portion of said second trip shaft releases said trip catch, thereby permitting said first trip shaft to move to said second position,wherein, when said first trip shaft moves to said second position, said stored energy of said stored energy mechanism is released, in order to drive said drive assembly and move said operating mechanism,wherein there is a delay from a first time that said first trip shaft initially moves from said first position to a second time that said second trip shaft is moved to release said trip catch, andwherein said damper is adjustable in order to adjust said delay.
- View Dependent Claims (9, 10, 11, 12, 13)
- - 9. The stored energy assembly of claim 8 wherein said mount comprises a back, front, a first side, a second side, a first end, a second end disposed opposite and distal from the first end, a first side plate, and a second side plate disposed opposite said first side plate;
    - wherein each of said first trip shaft of said time delay mechanism and said second trip shaft of said time delay mechanism extend between said first side plate and said second side plate, through said first side plate, and perpendicularly outwardly from said first side plate on the first side of said mount; and
      
      wherein said linking elements of said link assembly of said time delay mechanism are a first trip lever extending outwardly from said first trip shaft on the first side of said mount, a second trip lever extending outwardly from said second trip shaft on the first side of said mount and generally parallel with respect to said first trip lever, and a trip link interconnecting said first trip lever and said second trip lever.
  - 10. The stored energy assembly of claim 9 wherein said drive assembly comprises a drive shaft, at least one protrusion extending outwardly from said drive shaft, and a connector;
    - wherein said drive shaft extends perpendicularly outwardly from said first side plate on the first side of said mount;
      
      wherein said connector includes a first end movably coupled to said at least one protrusion, a second end coupled to said drive lever, and a bias member disposed between said drive shaft and said drive lever; and
      
      wherein said bias member biases said drive lever away from said drive shaft, thereby biasing said first trip shaft toward said second position and maintaining positive engagement between said first trip shaft and said time delay mechanism.
  - 11. The stored energy assembly of claim 10 wherein said at least one protrusion is a pair of opposing protrusions extending outwardly from said drive shaft;
    - wherein said time delay mechanism further comprises a trunnion extending between said pair of opposing protrusions;
      
      wherein said connector is a drive rod having a first end movably coupled to and extending through said trunnion, and a second end coupled to said drive lever at or about the second end of said drive lever;
      
      wherein said bias member is a spring having a plurality of coils; and
      
      wherein said drive rod extends through said coils.
  - 12. The stored energy assembly of claim 8 wherein said damper of said time delay mechanism is an air dashpot;
    - wherein said air dashpot comprises a reservoir having a volume of air, a plunger extending outwardly from said reservoir, an adjustment mechanism, and a connecting link coupling said plunger to said drive lever;
      
      wherein said adjustment mechanism is adjustable in a first direction in order to reduce the volume of air within said reservoir and thereby reduce said delay; and
      
      wherein said adjustment mechanism is adjustable in a second direction in order to increase the volume of air within said reservoir and thereby increase said delay.
  - 13. The stored energy assembly of claim 8 wherein said stored energy mechanism is a spring;
    - wherein said spring, said at least one charging mechanism, said at least one actuator, said drive assembly, and said time delay mechanism are all mounted on said mount, in order to form an independent sub-assembly; and
      
      wherein said independent sub-assembly is structured to be removably coupled to said housing of said electrical switching apparatus.

14. An electrical switching apparatus comprising:
- a housing;
  
  separable contacts;
  
  an operating mechanism structured to open and close said separable contacts; and
  
  a stored energy assembly comprising;
  
  a mount coupled to said housing,a stored energy mechanism coupled to said mount,at least one charging mechanism structured to charge said stored energy mechanism in order to store energy,at least one actuator being actuatable to release said stored energy mechanism, in order to release said stored energy,a drive assembly cooperating with said stored energy mechanism in order to transfer said released stored energy into movement of said operating mechanism, anda time delay mechanism comprising;
  
  a first trip shaft pivotably coupled to said mount and being cooperable with said drive assembly, said first trip shaft being movable among a first position corresponding to said stored energy mechanism being charged, and a second position corresponding to said stored energy mechanism being discharged,a second trip shaft pivotably coupled to said mount proximate said first trip shaft, said second trip shaft including a cut-out portion,a link assembly including a plurality of linking elements, said linking elements interconnecting said first trip shaft and said second trip shaft, in order that movement of one of said first trip shaft said second trip shaft results in movement of the other of said first trip shaft and said second trip shaft,a trip catch including a first end coupled to said first trip shaft, and a second end being engageable with said second trip shaft, said trip catch being movable with said first trip shaft but not independently with respect thereto,a drive lever comprising a first end coupled to said first trip shaft, and a second end disposed opposite and distal from the first end, anda damper coupled to said drive lever,wherein, when said first trip shaft is moved from said first position toward said second position, said first trip shaft moves said linking elements of said link assembly, thereby pivoting said second trip shaft,wherein, when said second trip shaft is pivoted, said cut-out portion of said second trip shaft releases said trip catch, thereby permitting said first trip shaft to move to said second position,wherein, when said first trip shaft moves to said second position, said stored energy of said stored energy mechanism is released, in order to drive said drive assembly and move said operating mechanism,wherein there is a delay from a first time that said first trip shaft initially moves from said first position to a second time that said second trip shaft is moved to release said trip catch, andwherein said damper is adjustable in order to adjust said delay.
- View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22)
- - 15. The electrical switching apparatus of claim 14 wherein said mount comprises a back, front, a first side, a second side, a first end, a second end disposed opposite and distal from the first end, a first side plate, and a second side plate disposed opposite said first side plate;
    - wherein each of said first trip shaft of said time delay mechanism and said second trip shaft of said time delay mechanism extend between said first side plate and said second side plate, through said first side plate, and perpendicularly outwardly from said first side plate on the first side of said mount; and
      
      wherein said linking elements of said link assembly of said time delay mechanism are a first trip lever extending outwardly from said first trip shaft on the first side of said mount, a second trip lever extending outwardly from said second trip shaft on the first side of said mount and generally parallel with respect to said first trip lever, and a trip link interconnecting said first trip lever and said second trip lever.
  - 16. The electrical switching apparatus of claim 15 wherein said drive assembly comprises a drive shaft, at least one protrusion extending outwardly from said drive shaft, and a connector;
    - wherein said drive shaft extends perpendicularly outwardly from said first side plate on the first side of said mount;
      
      wherein said connector includes a first end movably coupled to said at least one protrusion, a second end coupled to said drive lever, and a bias member disposed between said drive shaft and said drive lever; and
      
      wherein said bias member biases said drive lever away from said drive shaft, thereby biasing said first trip shaft toward said second position and maintaining positive engagement between said first trip shaft and said time delay mechanism.
  - 17. The electrical switching apparatus of claim 14 wherein said damper of said time delay mechanism is an air dashpot;
    - wherein said air dashpot comprises a reservoir having a volume of air, a plunger extending outwardly from said reservoir, an adjustment mechanism, and a connecting link coupling said plunger to said drive lever;
      
      wherein said adjustment mechanism is adjustable in a first direction in order to reduce the volume of air within said reservoir and thereby reduce said delay; and
      
      wherein said adjustment mechanism is adjustable in a second direction in order to increase the volume of air within said reservoir and thereby increase said delay.
  - 18. The electrical switching apparatus of claim 14 wherein said stored energy mechanism is a spring;
    - wherein said spring, said at least one charging mechanism, said at least one actuator, said drive assembly, and said time delay mechanism are all mounted on said mount, in order to form an independent sub-assembly; and
      
      wherein said independent sub-assembly is structured to be removably coupled to said housing of said electrical switching apparatus.
  - 19. The electrical switching apparatus of claim 18 wherein said electrical switching apparatus is a circuit breaker;
    - wherein said operating mechanism of said circuit breaker includes a pole shaft;
      
      wherein said drive assembly of said stored energy assembly is coupled to said pole shaft;
      
      wherein said housing of said circuit breaker includes a back, a front, first and second opposing sides, a top, and a bottom extending outwardly from said back to form a cavity;
      
      wherein said mount of said stored energy assembly comprises a number of fasteners;
      
      wherein said number of fasteners are fastenable to fasten said independent sub-assembly of said stored energy assembly to said housing;
      
      wherein, when said mount of said stored energy assembly is fastened to said housing, said independent sub-assembly is disposed within said cavity; and
      
      wherein when said independent sub-assembly is disposed within said cavity, said at least one actuator of said stored energy assembly is accessible at or about said front of said housing of said circuit breaker.
  - 20. The electrical switching apparatus of claim 19 wherein said first trip shaft comprises an elongated body and a number of trip paddles extending outwardly from said elongated body;
    - wherein said at least one actuator comprises at least one manual actuator and at least one accessory; and
      
      wherein at least some of said at least one manual actuator and said at least one accessory are actuatable in order to engage and move a corresponding one of said number of trip paddles, thereby moving said first trip shaft.
  - 21. The electrical switching apparatus of claim 20 wherein said drive assembly of said stored energy assembly comprises a third trip shaft extending outwardly from said mount and including at least one tab;
    - wherein said at least one manual actuator comprises a first button and a second button;
      
      wherein said first button is actuatable to engage and move said tab of said third trip shaft, thereby releasing said spring to move said drive assembly, which moves said pole shaft and closes said separable contacts;
      
      wherein said second button is actuatable to engage and move a corresponding one of said trip paddles of said first trip shaft, thereby releasing said spring to move said drive assembly, which moves said pole shaft and opens said separable contacts;
      
      wherein said at least one accessory is at least one electrical trip mechanism including an actuating element; and
      
      wherein, in response to an electrical fault condition, said at least one electrical trip mechanism is operable automatically to move said actuating element, in order to move a corresponding one of said tab of said third trip shaft and said corresponding one of said trip paddles of said first trip shaft.
  - 22. The electrical switching apparatus of claim 21 wherein said stored energy assembly further comprises an interlock movably coupled to said mount;
    - wherein said interlock is movable among a first position corresponding to said tab of said third trip shaft being movable by said first button, and a second position corresponding to said tab of said third trip shaft not being movable by said first button;
      
      wherein said drive assembly further comprises a pivotable protrusion;
      
      wherein when said separable contacts of said circuit breaker are open, said interlock is disposed in said first position; and
      
      wherein, when said separable contacts are closed, said pivotable protrusion moves said interlock to said second position.

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Current Assignee
Eaton Corp. (Wisconsin) (Eaton Corporation PLC.)
Original Assignee
Eaton Corp. (Wisconsin) (Eaton Corporation PLC.)
Inventors
Benke, James J., Chen, Steven Z., Otis, Collin C.

Granted Patent

US 7,598,468 B2
Time in Patent Office

Days
Field of Search
US Class Current

200/400
CPC Class Codes

H01H 71/44 having means for introducin...

ELECTRICAL SWITCHING APPARATUS, AND STORED ENERGY ASSEMBLY AND TIME DELAY MECHANISM THEREFOR

First Claim

1 Assignment

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Abstract

14 Citations

22 Claims

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ELECTRICAL SWITCHING APPARATUS, AND STORED ENERGY ASSEMBLY AND TIME DELAY MECHANISM THEREFOR

First Claim

1 Assignment

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Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

14 Citations

22 Claims

Specification

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Solutions

Use Cases

Quick Links