Circuit breaker system and safety operating handle for a circuit breaker system

What is claimed is: 1. A circuit breaker system, comprising: an enclosure having a door coupled thereto for access to the interior of the enclosure; a circuit breaker disposed in the enclosure and having a shaft extending therefrom, wherein the shaft is operative to turn the circuit breaker on or off by rotation of the shaft; an external operating handle disposed outside the enclosure and coupled to the shaft through the door, wherein the external operating handle is operative to rotate the shaft; an internal operating handle disposed inside the enclosure and coupled to the shaft, wherein the internal operating handle includes a dog clutch coupled to the shaft and a rotary handle coupled to the dog clutch, a portion of the dog clutch being axially displaceable within, and independent of axial displacement of, the rotary handle in a direction along the shaft between an engagement position and a disengagement position; wherein the rotary handle is operative to rotate the shaft only when the dog clutch is engaged, and wherein the rotary handle is operative to freewheel in both a clockwise and a counterclockwise direction when the dog clutch is not engaged. 2. The circuit breaker system of claim 1 , further comprising a button operative to engage the dog clutch when the button is depressed, wherein the rotary handle is operative to freewheel without rotating the shaft when the button is not depressed. 3. The circuit breaker system of claim 2 , wherein the button is constructed to displace in an axial direction along the shaft relative to the rotary handle when depressed in order to engage the dog clutch. 4. The circuit breaker system of claim 2 , wherein the button extends from the rotary handle toward the circuit breaker and when depressed is displaced in an axial direction away from the circuit breaker into the rotary handle to engage the dog clutch. 5. The circuit breaker system of claim 1 , wherein the dog clutch includes a first clutch member coupled to the rotary handle, and a second clutch member coupled to the shaft. 6. The circuit breaker system of claim 5 , wherein the second clutch member is mounted on and affixed to the shaft. 7. The circuit breaker system of claim 5 , wherein the first clutch member is mounted on the second clutch member; and wherein the first clutch member is operative to displace axially along the second clutch member to engage and disengage the dog clutch. 8. The circuit breaker system of claim 5 , wherein the dog clutch is constructed to rotationally couple the first clutch member with the second clutch member when the first clutch member is displaced in a first axial direction into an engagement position, and to rotationally decouple the first clutch member from the second clutch member when the first clutch member is displaced in a second axial direction opposite the first axial direction into a disengagement position. 9. The circuit breaker system of claim 8 , wherein the dog clutch is constructed to latch the first clutch member in the engagement position when the rotary handle is rotated in a first rotational direction while the first clutch member is in the engagement position; and wherein the dog clutch is constructed to unlatch the first clutch member when the rotary handle is subsequently rotated in a second rotational direction opposite the first rotational direction. 10. The circuit breaker system of claim 9 , wherein the rotation in the first rotational direction is operative to turn the circuit breaker on; and wherein the subsequent rotation in the second rotational direction is operative to turn the circuit breaker off. 11. A safety operating handle system for turning a shaft to operate a circuit breaker, comprising: a rotary handle; and a dog clutch having a first clutch member coupled to the rotary handle and having a second clutch member coupled to the shaft, the first clutch member having a first latching surface and the second clutch member having a second latching surface, the first latching surface and the second latching surface each configured to (1) retain the first clutch member in engagement with the second clutch member upon displacement of the dog clutch in a first rotational direction, and (2) accommodate disengagement of the first clutch member from engagement with the second clutch member after displacement of the clutch member in a second rotational direction, the first rotational direction being opposite of the second rotational direction; wherein the dog clutch is operative to transmit a rotation of the rotary handle to the shaft when the first clutch member is in an engagement position; wherein the dog clutch is not operative to transmit the rotation to the shaft when the first clutch member is not in the engagement position, and wherein the rotary handle is operative to freewheel in both a clockwise and a counterclockwise direction when the dog clutch is not engaged. 12. The safety operating handle system of claim 11 , further comprising a button coupled to the first clutch member and operative to displace the first clutch member in an axial direction into an engagement position relative to the second clutch member. 13. The safety operating handle system of claim 11 , wherein the first latching surface of the first clutch member comprises either a clockwise driving surface or a counterclockwise driving surface, and the second latching surface of the second clutch member similarly comprises either a clockwise driven surface or a counterclockwise driven surface; and wherein the clockwise driving surface and the counterclockwise driving surface are rotationally aligned to engage and transmit the rotation through the respective clockwise driven surface or the counterclockwise driven surface when the first clutch member is in the engagement position. 14. The safety operating handle system of claim 13 , further comprising a biasing spring operative to bias the first clutch member toward a disengagement position, wherein the clockwise driving surface and the counterclockwise driving surface are not rotationally aligned when the first clutch member is in the disengagement position, and wherein the first clutch member is free to rotate about the second clutch member when the first clutch member is in the disengagement position. 15. The safety operating handle system of claim 11 , wherein the second clutch member is mounted on and secured to the shaft. 16. The safety operating handle system of claim 11 , wherein the first clutch member is mounted on the second clutch member. 17. The safety operating handle system of claim 11 , wherein a portion of the first latching surface is structured to overlap and a portion of the second latching surface upon displacement of the dog clutch in a first rotational direction. 18. The safety operating handle system of claim 11 , wherein the first latching surface and the second latching surface are configured to retain an axial position of the first clutch member relative to the second clutch member upon displacement of the dog clutch in a first rotational direction. 19. The safety operating handle system of claim 11 , further comprising a support bracket operative to support the shaft, wherein the support bracket is disposed between the rotary handle and the circuit breaker; and wherein the support bracket is constructed to mount on the circuit breaker or an enclosure. 20. A circuit breaker system, comprising: an enclosure having a door coupled thereto for access to the interior of the enclosure; a circuit breaker disposed in the enclosu