Bi-directional quick change tool-less lever and wedge actuated collet chuck, system and/or method for using the same

I claim: 1. A method of operating a rotary power tool, comprising: allowing a first inward surface of a first lever to move inwardly toward an axis defined by a collet by moving a wedge located inwardly of and contacting the first inward surface in a first direction; allowing a second inward surface of the first lever to move away from the axis by movement of the wedge in the first direction; inserting a shank of an accessory into the collet after the second inward surface has moved away from the axis; forcing the first inward surface away from the axis by moving the wedge in a second direction opposite to the first direction; forcing the second inward surface toward the axis by moving the wedge in the second direction; forcing a first portion of the collet against the shank by forcing the second inward surface toward the axis; and rotating the collet with the second inward surface forced toward the axis. 2. The method of claim 1 , wherein allowing the first inward surface of the first lever to move toward the axis comprises: compressing a spring by movement of the wedge in the first direction. 3. The method of claim 2 , wherein forcing the first inward surface away from the axis comprises: moving the wedge in the second direction with the spring. 4. The method of claim 1 , further comprising: generating a centrifugal force on the first lever arm while rotating the collet; and forcing the first inward surface away from the axis with the generated centrifugal force. 5. The method of claim 4 , further comprising: moving the wedge in the second direction with the spring after forcing the first inward surface away from the axis with the generated centrifugal force. 6. The method of claim 1 , further comprising: allowing a third inward surface of a second lever to move toward the axis by moving the wedge in the first direction; allowing a fourth inward surface of the second lever to move away from the axis by movement of the wedge in the first direction; forcing the third inward surface away from the axis by moving the wedge in the second direction after inserting the shank; forcing the fourth inward surface toward the axis by moving the wedge in the second direction; forcing a second portion of the collet against the shank by forcing the fourth inward surface toward the axis; and rotating the collet with the fourth inward surface forced toward the axis. 7. The method of claim 6 , further comprising: allowing a fifth inward surface of a third lever to move toward the axis by moving the wedge in the first direction; allowing a sixth inward surface of the third lever to move away from the axis by movement of the wedge in the first direction; forcing the fifth inward surface away from the axis by moving the wedge in the second direction after inserting the shank; forcing the sixth inward surface toward the axis by moving the wedge in the second direction; forcing a third portion of the collet against the shank by forcing the sixth inward surface toward the axis; and rotating the collet with the sixth inward surface forced toward the axis. 8. The method of claim 7 , wherein: the first portion of the collet is separated from the second portion of the collet by a first slot; the first portion of the collet is separated from the third portion of the collet by a second slot; and the third portion of the collet is separated from the second portion of the collet by a third slot. 9. The method of claim 1 , wherein forcing the first inward surface away from the axis comprises: forcing a tapered outer surface portion of the wedge against the first inward surface. 10. A method of operating a rotary power tool, comprising: moving a wedge in a first direction thereby allowing a first effort arm of a first lever to move toward an axis defined by a collet, and allowing a first concave tip of a first resistance arm of the first lever to move away from the axis; inserting a shank of an accessory into the collet after the first concave tip has moved away from the axis; moving the wedge in a second direction opposite to the first direction thereby forcing the first effort arm away from the axis, and forcing the first concave tip toward the axis by moving the wedge in the second direction; forcing a first portion of the collet against the shank by forcing the first concave tip toward the axis; and rotating the collet with the first concave tip forced toward the axis. 11. The method of claim 10 , wherein moving a wedge in a first direction comprises: compressing a spring by movement of the wedge in the first direction. 12. The method of claim 11 , wherein moving the wedge in the second direction comprises: moving the wedge in the second direction with the spring. 13. The method of claim 10 , further comprising: generating a centrifugal force on the first effort arm while rotating the collet; and forcing the first effort arm away from the axis with the generated centrifugal force. 14. The method of claim 13 , further comprising: moving the wedge in the second direction with the spring after forcing the first effort arm away from the axis with the generated centrifugal force. 15. The method of claim 10 , wherein: moving the wedge in the first direction further comprises allowing a second effort arm of a second lever to move toward the axis, and allowing a second concave tip of a second resistance arm of the second lever to move away from the axis; and moving the wedge in the second direction further comprises forcing the second effort arm away from the axis, and forcing the second concave tip toward the axis, the method further comprising: forcing a second portion of the collet against the shank by forcing the second concave tip toward the axis. 16. The method of claim 15 , wherein: moving the wedge in the first direction further comprises allowing a third effort arm of a third lever to move toward the axis, and allowing a third concave tip of a third resistance arm of the third lever to move away from the axis; and moving the wedge in the second direction further comprises forcing the third effort arm away from the axis, and forcing the third concave tip toward the axis, the method further comprising: forcing a third portion of the collet against the shank by forcing the third concave tip toward the axis. 17. The method of claim 16 , wherein: the first portion of the collet is separated from the second portion of the collet by a first slot; the first portion of the collet is separated from the third portion of the collet by a second slot; and the third portion of the collet is separated from the second portion of the collet by a third slot. 18. The method of claim 10 , wherein moving the wedge in the first direction further comprises: forcing a tapered outer surface portion of the wedge against the first effort arm.