Headless compression screw driver system

What is claimed is: 1. A headless compression screw driver system comprising: a driver including a drive shaft having a drive tip adapted to be rotationally coupled to a headless compression screw for driving the screw into a bone; a compression sleeve adapted to be attached to the shaft and having a distal portion adapted to receive the headless compression screw, a distal end of the compression sleeve defining a bone contacting surface for compression of the bone; a drive selector secured to the driver and manually selectable between: a drive position that rotationally locks the driver with the compression sleeve so as to drive the headless compression screw into the bone; and a countersink position that rotationally unlocks the driver from the compression sleeve so as to allow countersinking of the headless compression screw into the bone; wherein: the drive shaft includes an external threading; and the compression sleeve includes a proximal internal threading adapted to threadingly engage the external threading of the drive shaft. 2. The system of claim 1 , wherein the drive selector is positioned to move axially along the shaft between the drive position and the countersink position. 3. The system of claim 2 , wherein a distal face of the drive selector and a proximal face of the compression sleeve have mating radial teeth for rotationally locking the driver with the compression sleeve in the drive position. 4. The system of claim 2 , wherein the drive selector includes a spring that biases the drive selector toward the drive position. 5. The system of claim 2 , wherein the drive selector includes a lock button configured to engage a notch in the shaft when the drive selector is in the drive position such that the lock button maintains the drive selector in the drive position. 6. The system of claim 5 , wherein the lock button is biased toward engagement with the notch. 7. The system of claim 1 , wherein a distal face of the drive selector and a proximal face of the compression sleeve have mating radial teeth for rotationally locking the driver with the compression sleeve in the drive position. 8. The system of claim 1 , wherein the drive selector includes one or more pairs of axial slots and a connection pin extends through the shaft and into the axial slots to define the axial range of motion of the drive selector. 9. The system of claim 1 , wherein: the shaft has a depth marking; the compression sleeve has a window through which the depth marking of the shaft is visible, the depth marking positioned to indicate relative depth of the drive shaft relative to the compression sleeve when rotated with the drive selector in the countersink position. 10. The system of claim 9 , wherein the depth marking includes a circumferential marking. 11. The system of claim 1 , wherein the shaft includes a guide portion with a non-circular configuration which complements a non-circular portion of a through passage of the drive selector. 12. A headless compression screw driver system comprising: a driver including a drive shaft having an external threading and a drive tip feature adapted to be rotationally coupled to a complementary drive feature of a headless compression screw for driving the screw into a bone; a compression sleeve adapted to be attached to and surround the shaft, and having a distal portion adapted to attach to a proximal part of the headless compression screw, a distal end of the compression sleeve defining a bone contacting surface for compression of the bone; a drive selector including a lock button, the drive selector manually selectable between: a drive position that rotationally locks the driver with the compression sleeve so as to drive the headless compression screw into the bone, wherein the lock button is biased towards the drive position; and a countersink position that rotationally unlocks the driver from the compression sleeve so as to allow countersinking of the headless compression screw into the bone, wherein when the drive selector is pulled proximally relative to the drive shaft, the lock button automatically locks the drive selector in the countersink position; wherein a distal face of the drive selector and a proximal face of the compression sleeve have mating radial teeth for rotationally locking the driver with the compression sleeve in the drive position. 13. The system of claim 12 , wherein the drive selector is positioned to be manually moved axially along the shaft between the drive position and the countersink position. 14. The system of claim 13 , wherein a distal face of the drive selector and a proximal face of the compression sleeve have mating radial teeth for rotationally locking the driver with the compression sleeve in the drive position. 15. The system of claim 13 , wherein the lock button is biased to engage a notch in the shaft when the drive selector is in the drive position such that the lock button maintains the drive selector in the drive position. 16. The system of claim 12 , wherein the drive selector includes one or more pairs of axial slots and a connection pin extends through the shaft and into the axial slots to define the axial range of motion of the drive selector. 17. The system of claim 12 , wherein the drive selector includes a spring that biases the drive selector toward the drive position. 18. The system of claim 12 , wherein the shaft includes a guide portion with a non-circular configuration which complements a non-circular portion of a through passage of the drive selector. 19. A headless compression screw driver system comprising: a driver including a drive shaft having a drive tip adapted to be rotationally coupled to a headless compression screw for driving the screw into a bone; a compression sleeve adapted to be attached to the shaft and having a distal portion adapted to receive the headless compression screw, a distal end of the compression sleeve defining a bone contacting surface for compression of the bone; a drive selector secured to the driver and manually selectable between: a drive position that rotationally locks the driver with the compression sleeve so as to drive the headless compression screw into the bone; a countersink position that rotationally unlocks the driver from the compression sleeve so as to allow countersinking of the headless compression screw into the bone; wherein the shaft includes a guide portion with a non-circular configuration which complements a non-circular portion of a through passage of the drive selector.