Articulating mechanism for the laparoscopic ablation device for blunt dissection

What is claimed is: 1. A surgical apparatus for use in minimally invasive surgical procedures, which comprises: a) non-endoscopic portion; and b) an endoscopic portion having at least first and second segments connected by at least one angled rotary interface joint, the first segment including a first proximal end portion operatively connected to the non-endoscopic portion and a first distal end portion including a first beveled gear and a second beveled gear, the second beveled gear positioned between the first beveled gear and an angled gear affixed on a second proximal end portion of the second segment. 2. The surgical apparatus according to claim 1 , wherein the first segment includes a first outer wall defining a first lumen along a first longitudinal axis defined between the first proximal end portion and the first distal end portion, wherein the first and second beveled gears are positioned within the lumen. 3. The surgical apparatus according to claim 2 , wherein the first outer wall further comprises an angled circumferential channel defined therethrough configured to receive at least a portion of the angled gear. 4. The surgical apparatus according to claim 3 , wherein the angled circumferential channel is configured to receive a third set of alternating teeth and slots extending radially outward from a side of the angled gear. 5. The surgical apparatus according to claim 4 , wherein at least a portion of the third set of alternating teeth and slots of the angled gear extend through the angled circumferential channel and beyond an outer surface of the outer wall. 6. The surgical apparatus according to claim 1 , wherein the first beveled gear faces distally along the first longitudinal axis and further comprises a rotary driver extending proximally along the first longitudinal axis to the non-endoscopic portion. 7. The surgical apparatus according to claim 1 , wherein the second beveled gear is positioned on a post positioned distal to the first beveled gear, the post extending generally perpendicular to the first longitudinal axis and affixed on an inner surface of the first outer wall. 8. The surgical apparatus according to claim 1 , wherein the second segment includes a second outer wall defining a second lumen along a second longitudinal axis defined between the second proximal end portion and a second distal end portion, wherein the second longitudinal axis and the first longitudinal axis are collinear when the endoscopic portion is straight. 9. The surgical apparatus according to claim 8 , wherein the second segment is configured to rotate about the angled rotary interface joint so the second longitudinal axis of the segment is about 90° relative to the first longitudinal axis of the first segment. 10. The surgical apparatus according to claim 1 , wherein the first distal end portion of the first segment further includes a first angled edge spaced distally from the angled circumferential channel by a first length and the second proximal end portion of the second segment further includes a second angled edge spaced distally from the angled gear by a gap defined by a sidewall having a second length. 11. The surgical apparatus according to claim 10 , where the first length and the second length are about the same. 12. The surgical apparatus according to claim 1 , wherein the first beveled gear includes a first set of alternating teeth and slots configured to mechanically interact with a second set of alternating teeth and slots of the second beveled gear, and the second set of alternating teeth and slots are also configured to mechanically interact with a third set of alternating teeth and slots of the angled gear. 13. The surgical apparatus according to claim 1 , further comprising a distal operating portion operatively coupled to a second distal end portion of the second segment. 14. The surgical apparatus according to claim 13 , wherein the distal operating portion comprises a surgical unit selected from the group consisting of a surgical stapler unit, surgical retractor unit, surgical sealer unit, surgical ablation unit, or clip applier unit. 15. The surgical apparatus according to claim 14 , wherein the non-endoscopic portion comprises a body portion including a housing having an interior longitudinal bore, the rotary drive tube disposed within the interior longitudinal bore of the housing, the body portion including a rotary actuator disk rotatably mounted to the housing and operatively engaged with the rotary drive tube such that rotation of the rotary actuator disk effects rotation of the rotary drive tube. 16. The surgical apparatus according to claim 15 , wherein the proximal end portion of the rotary drive tube possesses a circumferential array of teeth forming a first spur gear and the outer tube possesses a slot aligned with the array of teeth in the rotary drive tube, the rotary actuator disk possessing circumferential teeth forming a second spur gear, at least a portion of the rotary actuator disk being disposed through the slot in the outer tube so as to engage the first and second spur gears. 17. The surgical apparatus according to claim 16 , wherein the surgical apparatus further comprises a drive cylinder and a push rod, the push rod extending through the endoscopic portion and operatively connected between the distal operating portion and the drive cylinder positioned with the body portion, wherein the push rod is linearly moved by the drive cylinder for actuating the distal operating portion. 18. The surgical apparatus according to claim 17 , further comprising a trigger for actuating the drive cylinder, wherein the drive cylinder is pneumatically or hydraulically driven. 19. The surgical apparatus according to claim 1 , wherein the surgical apparatus is a surgical retractor. 20. A surgical apparatus for use in minimally invasive surgical procedures, which comprises: a) non-endoscopic portion; and b) an endoscopic portion having at least first and second segments connected by at least one angled rotary interface joint including a first beveled gear, a second beveled gear, and an angled non-beveled gear, wherein the first beveled gear drives the angled non-beveled gear via the second beveled gear.