Surgical stapling device with rotary driven firing member

What is claimed is: 1. A surgical stapling assembly, comprising: a shaft assembly; an articulation joint; an end effector coupled to said shaft assembly by said articulation joint for selective articulation relative thereto, said end effector comprising: an anvil; a staple cartridge comprising a plurality of staples, wherein said staples are movable between unfired positions and fired positions during a staple firing stroke; a first jaw; and a second jaw moveable relative to said first jaw; and a firing system, comprising: a rotary drive system configured to generate rotary drive motions; an end effector drive screw configured to receive said rotary drive motions from said rotary drive system; and a firing member operably coupled with said end effector drive screw, wherein, upon receiving rotary drive motions from said end effector drive screw, said firing member is actuated to perform said staple firing stroke, wherein said firing member comprises: a body portion; a cutting member; a first camming portion engageable with said first jaw; and a second camming portion engageable with said second jaw, wherein said body portion of said firing member comprises an internal threaded section threadably engaged with said end effector drive screw, and wherein said internal threaded section comprises a plurality of rods forming threads of said internal threaded section. 2. The surgical stapling assembly of claim 1 , wherein said staple cartridge comprises a sled assembly actuatable by said firing member and configured to deploy said staples from said staple cartridge, and wherein said sled assembly is not threadably engaged with said end effector drive screw. 3. The surgical stapling assembly of claim 1 , wherein said end effector drive screw comprises: a proximal bearing segment positioned distal of said articulation joint; a threaded section; and a distal thrust bearing. 4. A surgical stapling assembly, comprising: a shaft assembly; an articulation joint; an end effector coupled to said shaft assembly by said articulation joint for selective articulation relative thereto, said end effector comprising: an anvil; a staple cartridge comprising a plurality of staples, wherein said staples are movable between unfired positions and fired positions during a staple firing stroke; a first jaw; and a second jaw moveable relative to said first jaw; and a firing system, comprising: a rotary drive system configured to generate rotary drive motions; an end effector drive screw configured to receive said rotary drive motions from said rotary drive system; and a firing member operably coupled with said end effector drive screw, wherein, upon receiving rotary drive motions from said end effector drive screw, said firing member is actuated to perform said staple firing stroke, wherein said firing member comprises: a body portion; a cutting member; a first camming portion engageable with said first jaw; and a second camming portion engageable with said second jaw, wherein said body portion of said firing member comprises an internal threaded section threadably engaged with said end effector drive screw, and wherein said internal threaded section comprises a pair of windows configured to receive a pair of cooperative threaded plugs. 5. The surgical stapling assembly of claim 4 , wherein said staple cartridge comprises a sled assembly actuatable by said firing member and configured to deploy said staples from said staple cartridge, and wherein said sled assembly is not threadably engaged with said end effector drive screw. 6. The surgical stapling assembly of claim 4 , wherein said end effector drive screw comprises: a proximal bearing segment positioned distal of said articulation joint; a threaded section; and a distal thrust bearing. 7. A surgical stapling assembly, comprising: a shaft assembly; an articulation joint defining an articulation axis; an end effector coupled to said shaft assembly by said articulation joint, wherein said end effector is configured to be articulated about said articulation axis relative to said shaft assembly, said end effector comprising: an anvil; a staple cartridge comprising a plurality of staples, wherein said staples are configured to be ejected from said staple cartridge during a staple firing stroke; a first jaw; and a second jaw moveable relative to said first jaw; and a firing system, comprising: a rotary drive system configured to generate rotary drive motions; a rotary drive shaft configured to receive said rotary drive motions from said rotary drive system; and a firing member threadably coupled with said rotary drive shaft distal of said articulation joint, wherein, upon receiving rotary drive motions from said rotary drive shaft, said firing member is actuated to perform said staple firing stroke, wherein said firing member comprises: a body portion; a cutting member; a first camming portion extending laterally from said body portion, wherein said first camming portion is engageable with said first jaw; and a second camming portion extending laterally from said body portion, wherein said second camming portion is engageable with said second jaw, wherein said body portion of said firing member comprises an internal threaded section threadably engaged with said rotary drive shaft, and wherein said internal threaded section comprises a plurality of rods forming threads of said internal threaded section. 8. The surgical stapling assembly of claim 7 , wherein said staple cartridge comprises a sled assembly actuatable by said firing member and configured to eject said staples from said staple cartridge, and wherein said sled assembly is not threadably engaged with said rotary drive shaft. 9. The surgical stapling assembly of claim 7 , wherein said rotary drive shaft comprises: a proximal bearing segment positioned distal of said articulation joint; a threaded section; and a distal thrust bearing. 10. A surgical stapling assembly, comprising: a shaft assembly; an articulation joint defining an articulation axis; an end effector coupled to said shaft assembly by said articulation joint, wherein said end effector is configured to be articulated about said articulation axis relative to said shaft assembly, said end effector comprising: an anvil; a staple cartridge comprising a plurality of staples, wherein said staples are configured to be ejected from said staple cartridge during a staple firing stroke; a first jaw; and a second jaw moveable relative to said first jaw; and a firing system, comprising: a rotary drive system configured to generate rotary drive motions; a rotary drive shaft configured to receive said rotary drive motions from said rotary drive system; and a firing member threadably coupled with said rotary drive shaft distal of said articulation joint, wherein, upon receiving rotary drive motions from said rotary drive shaft, said firing member is actuated to perform said staple firing stroke, wherein said firing member comprises: a body portion; a cutting member; a first camming portion extending laterally from said body portion, wherein said first camming portion is engageable with said first jaw; and a second camming portion extending laterally from said body portion, wherein said second camming portion is engageable with said second jaw, wherein said body portion of said firing member comprises an internal threaded section threadably engaged with said rotary drive shaft, and wherein said internal threaded section comprises a pair of windows configured to receive a pair of cooperative threaded plugs. 11. The surgical stapling assembly of