Sagittal saw

What is claimed is: 1. A cutting device comprising: a blade including a first end, a second end opposed to the first end, and a longitudinal axis extending between the first end and second end, the first end extending transverse to the longitudinal axis, movement of the first end defining a blade path; and an actuator connected to the blade second end, the actuator configured to drive the blade so that the blade path comprises a cyclic closed planer loop that crosses over itself at least once per blade path cycle; wherein the actuator comprises a gear assembly configured to be driven by a motor, the gear assembly; including; a thrust shaft driven by the motor, the thrust shaft including an end and a thrust crank protruding from the thrust shaft end so as to extend parallel to and spaced apart from an axial centerline of the thrust shaft, a first gear mounted on the thrust shaft, a cutting shaft parallel to the thrust shaft, the cutting shaft including an end and a cutting crank protruding from the cutting shaft end so as to extend parallel to and spaced apart from an axial centerline of the cutting shaft, a second gear mounted on the cutting shaft and driven by the first gear, and a pivot shaft parallel to the cutting shaft, wherein the first and second gears are dimensioned so that the rotational speed of the thrust shaft is greater than the rotational speed of the cutting shaft. 2. The cutting device of claim 1 wherein in one blade path cycle, the blade path comprises a closed plane loop consisting of at least two lobes meeting at a node. 3. The cutting device of claim 2 wherein the lobes are symmetric. 4. The cutting device of claim 2 wherein the lobes are asymmetric. 5. The cutting device of claim 1 wherein the blade path is symmetric about an axis parallel to the longitudinal axis. 6. The cutting device of claim 1 wherein a portion of the blade path corresponding to a first reciprocation of the at least two reciprocations is a different portion than a portion of the blade path corresponding to a second reciprocation of the at least two reciprocations. 7. The cutting device of claim 1 wherein the blade moves along the blade path in such a way that a workpiece is cut both in a first direction and a second direction, the second direction being opposed to the first direction. 8. The cutting device of claim 7 wherein the first direction and second direction are generally transverse to the blade longitudinal axis. 9. The cutting device of claim 7 wherein the movement in the second direction is subsequent to movement in the first direction. 10. The cutting device of claim 7 wherein the blade cuts the work piece in both the first direction and a second direction within the same blade path cycle. 11. The cutting device of claim 1 wherein in one blade path cycle, the blade moves along the blade path in such a way that a work piece is cut both in a first direction and a second direction, the second direction being opposed to the first direction, wherein the portion of the blade path corresponding to movement in the first direction is a different portion than the portion of the blade path corresponding to movement in the second direction. 12. The cutting device of claim 1 wherein the first and second gears are dimensioned so that the rotational speed of the thrust shaft is an integer multiple of the rotational speed of the cutting shaft. 13. The cutting device of claim 1 wherein the first and second gears are dimensioned so that the rotational speed of the thrust shaft is at least twice the rotational speed of the cutting shaft. 14. The cutting device of claim 1 , wherein the cutting crank is connected to the blade using a first guide configured to convert the rotary motion of the cutting crank to a linear motion of the blade that is transverse to the longitudinal axis, the thrust crank is connected to the blade at a location between the first guide and the first end using a second guide, the second guide configured to convert the rotary motion of the thrust crank to a linear motion of the blade that is parallel to the longitudinal axis, and the pivot shaft is connected to the blade at a location between the second guide and the first end using a third guide, the third guide configured to constrain the longitudinal axis of the blade to intersect with a longitudinal axis of the pivot shaft. 15. The cutting device of claim 14 wherein the first guide, second guide and third guide are linear guide bearings. 16. The cutting device of claim 1 wherein the cutting crank and the thrust crank are arranged so that an initial phase difference exists between the cutting crank angular position and the thrust crank angular position. 17. The cutting device of claim 16 wherein the cutting crank and the thrust crank are arranged so that the initial phase difference between the cutting crank angular position and the thrust crank angular position is greater than 0 degrees and less than 90 degrees. 18. The cutting device of claim 16 wherein the cutting crank and the thrust crank are arranged so that the initial phase difference between the cutting crank angular position and the thrust crank angular position is greater than 90 degrees and less than 180 degrees. 19. A cutting device comprising: a blade including a first end, a second end opposed to the first end, and a longitudinal axis extending between the first end and second end, the first end extending transverse to the longitudinal axis, movement of the first end defining a blade path; and an actuator connected to the blade second end, the actuator configured to drive the blade so that the blade path is cyclic and includes at least two reciprocations parallel to the longitudinal axis for each blade path cycle, wherein the actuator comprises a gear assembly configured to be driven by a motor, the gear assembly including: a thrust shaft driven by the motor, the thrust shaft including an end and a thrust crank protruding from the thrust shaft end so as to extend parallel to and spaced apart from an axial centerline of the thrust shaft, including a first gear mounted on the thrust shaft, a cutting shaft parallel to the thrust shaft, the cutting shaft including an end and a cutting crank protruding from the cutting shaft end so as to extend parallel to and spaced apart from an axial centerline of the cutting shaft, a second gear mounted on the cutting shaft and driven by the first gear, and a pivot shaft parallel to the cutting shaft, wherein the first and second gears are dimensioned so that the rotational speed of the thrust shaft is greater than the rotational speed of the cutting shaft. 20. The cutting device of claim 19 , wherein the blade path crosses over itself at least once per blade cycle. 21. The cutting device of claim 19 , wherein in one blade path cycle, the blade path comprises a closed plane loop consisting of at least two lobes meeting at a node. 22. The cutting device of claim 21 wherein the lobes are symmetric. 23. The cutting device of claim 21 wherein the lobes are asymmetric. 24. The cutting device of claim 19 wherein the blade path is symmetric about an axis parallel to the longitudinal axis. 25. The cutting device of claim 19 wherein the portion of the blade path corresponding to a first reciprocation of the at least two reciprocations is a different portion than the portion of the blade path corresponding to a second reciprocation of