Direct pull surgical gripper

What is claimed is: 1. A surgical end effector comprising: a clevis; a first jaw; a first pivot that couples the first jaw to the clevis; a second jaw; a second pivot that couples the second jaw to the clevis; a first wire coupled to the first jaw to transmit a controller motion to the first jaw and to the second jaw; a second wire coupled to the second jaw to transmit the controller motion to the second jaw and to the first jaw; a first guide way in the first jaw, the first guide way being a first curved path that extends from the second jaw to the clevis, changes direction by roughly ninety degrees, and includes a continuous first surface that extends from the second jaw to the clevis along the inside of the first curved path, the second wire extending in the first guide way along the first surface to the second jaw; and a second guide way in the second jaw, the second guide way being a second curved path that extends from the first jaw to the clevis, changes direction by roughly ninety degrees, and includes a continuous second surface that extends from the first jaw to the clevis along the inside of the second curved path, the first wire extending in the first guide way along the second surface to the first jaw. 2. The surgical end effector of claim 1 wherein the first and second pivots are coaxial. 3. The surgical end effector of claim 1 further comprising a rocking pin pivotally supported by the clevis and pivotally coupled to the first and second jaws such that the rocking pin constrains the first and second jaws to have opposite motions. 4. The surgical end effector of claim 1 wherein the first guide way and the second guide way each include a groove defined in a face perpendicular to the pivot axis of the pivots. 5. The surgical end effector of claim 4 further comprising a first and a second liner, each liner fitted within the groove of one of the first guide way and the second guide way, the guide ways including a portion of the liners. 6. The surgical end effector of claim 1 wherein the first and second jaws and the first and second wires are electrically conductive, and the clevis is electrically non-conductive. 7. The surgical end effector of claim 6 further comprising electrically non-conductive liners coupled to the first and second jaws and a rocking pin pivotally supported by the clevis and pivotally coupled to the first and second jaws such that the rocking pin constrains the first and second jaws to have opposite motions, the rocking pin being electrically isolated from the first and second jaws by the liners. 8. A minimally invasive surgical instrument comprising: an elongate shaft having a distal end, a proximal end, and a longitudinal axis extending between the distal end and the proximal end; an end effector having a clevis coupled to the distal end of the elongate shaft, a first jaw pivotally coupled to the clevis, and a second jaw pivotally coupled to the clevis; a first wire coupled to the first jaw to transmit a controller motion to the first jaw and to the second jaw, the first wire extending through a second guide way in the second jaw and through the elongate shaft between the distal end and the proximal end, the second guide way being a second curved path that extends from the first jaw to the clevis, changes direction by roughly ninety degrees, and includes a continuous second surface that extends from the first jaw to the clevis along the inside of the second curved path; and a second wire coupled to the second jaw to transmit the controller motion to the second jaw and to the first jaw, the second wire extending through a first guide way in the first jaw and through the elongate shaft between the distal end and the proximal end, the first guide way being a first curved path that extends from the second jaw to the clevis, changes direction by roughly ninety degrees, and includes a continuous first surface that extends from the second jaw to the clevis along the inside of the first curved path. 9. The minimally invasive surgical instrument of claim 8 wherein the end effector further has a rocking pin pivotally supported by the clevis and pivotally coupled to the first and second jaws such that the rocking pin constrains the first and second jaws to have opposite motions. 10. The minimally invasive surgical instrument of claim 8 wherein each of the first and second jaws includes a face that is perpendicular to the pivotal coupling, the first guide way including a groove in the face of the first jaw, the second guide way including a groove in the face of the second jaw. 11. The minimally invasive surgical instrument of claim 10 wherein the first and second jaws and the first and second wires are electrically conductive, and the clevis is electrically non-conductive, such that the first jaw and first wire are electrically isolated from the second jaw and second wire. 12. The minimally invasive surgical instrument of claim 11 further comprising electrically non-conductive liners, each liner fitted within the groove of one of the first guide way and the second guide way, the guide ways including a portion of the liners, and a rocking pin pivotally supported by the clevis and pivotally coupled to the first and second jaws such that the rocking pin constrains the first and second jaws to have opposite motions, the rocking pin being electrically isolated from the first and second jaws by the liners. 13. The minimally invasive surgical instrument of claim 8 further comprising a wire guide coupled to the clevis and to the first and second wires along the longitudinal axis of the elongate shaft, the wire guide supporting the first and second wires such that the first and second wires are able to transmit a compressive force without buckling. 14. The minimally invasive surgical instrument of claim 13 wherein the wire guide includes a proximal section adjacent the proximal end of the elongate shaft, a working section adjacent the distal end of the elongate shaft, and a compression section coupled to the proximal section and the working section, the compression section including a plurality of wire support sections coupled to a compression spring such that the wire guide is reduced in length when a compression force is applied. 15. The minimally invasive surgical instrument of claim 8 wherein the end effector further including means for constraining the first and second jaws to have opposite motions. 16. The minimally invasive surgical instrument of claim 15 further comprising means for electrically isolating the first jaw and wire from the second jaw and cable. 17. The minimally invasive surgical instrument of claim 8 further comprising means for preventing buckling of the first and second wires when transmitting a compressive force. 18. The minimally invasive surgical instrument of claim 17 wherein the means for preventing buckling is shortened when transmitting the compressive force. 19. A surgical end effector comprising: a clevis; a first jaw rotatably coupled to the clevis by a first pivot, the first jaw having a first face perpendicular to the axis of rotation of the first pivot and a first guide way, the first guide way being a first curved path in the first face that extends from the clevis, changes direction by roughly ninety degrees, and includes a continuous first surface that extends from the second jaw to the clevis along the inside of the first curved path; a second jaw rotatably coupled to the clevis by a second pivot, the second jaw having a second face perpendicular to the axis of ro