Drill floor grafter robot

We claim: 1 . A system for performing one or more operations on a work center disposed on a drill rig floor, the system comprising: (a) a robotic system having: a base disposed on a track for movement thereon, a robot arm supported on the base, and one or more end effector tools selectively attachable to an end of the robot arm; and (b) a control system having a robot controller in communication with the robotic system, the robot controller being configured to: (1) command the robotic system to enter a mode for performing a selected operation, (2) command the robot arm to engage one of the one or more end effector tools related to the selected operation from a tool storage, (3) command the robotic system to move along the track to a position adjacent to the work center, and (4) command the robotic system to perform the selected operation at the work center using the robot arm and the engaged end effector tool. 2 . The system of claim 1 , wherein the engaged end effector tool is a small sub end effector. 3 . The system of claim 2 , wherein the selected operation is a tail in operation, the robot controller being further configured to: (5) command the robotic system to engage the small sub end effector to a stand, (6) command the robotic system to tail in the stand to the work center, (7) command the robotic system to position the stand for stabbing, and (8) command the robotic system to disengage the small sub end effector from the stand. 4 . The system of claim 2 , wherein the selected operation is a tail out operation, the robot controller being further configured to: (5) command the robotic system to engage the small sub end effector to a stand, (6) command the robotic system to tail out the stand from the work center to a setback position, and (7) command the robotic system to disengage the small sub end effector from the stand. 5 . The system of claim 2 , wherein the selected operation is a small sub installation operation, the robot controller being further configured to: (5) prior to the robotic system moving to the position adjacent to the work center, command the robotic system to engage the small sub end effector to a small sub and lift the small sub, (6) after the robotic system has moved to the position adjacent to the work center, command the robotic system to enter a float mode and lower the small sub while spinning the small sub in a clockwise direction, and (7) command the robotic system to disengage the small sub end effector from the small sub. 6 . The system of claim 2 , wherein the selected operation is a small sub removal operation, the robot controller being further configured to: (5) command the robotic system to engage the small sub end effector to a small sub, (6) command the robotic system to enter a float mode and raise the small sub while spinning the small sub in a counterclockwise direction, (7) command the robotic system to move along the track to a small sub storage location, and (8) command the robotic system to disengage the small sub end effector from the small sub. 7 . The system of claim 1 , wherein the engaged end effector tool is a BHA jewelry end effector. 8 . The system of claim 7 , wherein the selected operation is a BHA jewelry installation operation, the robot controller being further configured to: (5) prior to the robotic system moving to the position adjacent to the work center, command the robotic system to engage the BHA jewelry end effector to BHA jewelry and lift the BHA jewelry, (6) after the robotic system has moved to the position adjacent to the work center, command the robotic system to enter a float mode and lower the BHA jewelry while spinning the BHA jewelry in a clockwise direction, and (7) command the robotic system to disengage the BHA jewelry end effector from the BHA jewelry. 9 . The system of claim 7 , wherein the selected operation is a BHA jewelry removal operation, the robot controller being further configured to: (5) command the robotic system to engage the BHA jewelry end effector to BHA jewelry, (6) command the robotic system to enter a float mode and raise the BHA jewelry while spinning the BHA jewelry in a counterclockwise direction, (7) command the robotic system to move along the track to a BHA jewelry storage location, and (8) command the robotic system to disengage the BHA jewelry end effector from the BHA jewelry. 10 . The system of claim 1 , wherein the engaged end effector tool is a mud bucket end effector. 11 . The system of claim 10 , wherein the selected operation is a mud bucket installation operation, the robot controller being further configured to: (5) command the robotic system to engage the mud bucket end effector to a pipe and remain with the pipe while the pipe is raised to direct mud through a mud bucket, and (6) command the robotic system to disengage the mud bucket end effector from the pipe. 12 . The system of claim 11 , wherein the robot controller is configured to command the robotic system to repeat (5) and (6) until tripping is complete. 13 . The system of claim 1 , wherein the engaged end effector tool is a slips end effector. 14 . The system of claim 13 , wherein the selected operation is a slips usage operation, the robot controller being further configured to: (5) command the robotic system to engage the slips end effector to a pipe, (6) command the robotic system to enter a float mode while a drill string is lowered, (7) command the robotic system to move to a low crouch position to be clear of other equipment as another stand is made or broken from the drill string, and (8) command the robotic system to disengage the slips end effector from the pipe. 15 . The system of claim 14 , wherein the robot controller is configured to command the robotic system to repeat (5) through (8) until tripping is complete. 16 . The system of claim 1 , wherein the engaged end effector tool is a bushing end effector. 17 . The system of claim 16 , wherein the selected operation is a bushing manipulation operation, the work center including a rotary table, the robot controller being further configured to: (5) command the robotic system to engage the bushing end effector to a bushing, (6) command the robotic system to lift the bushing clear of the rotary table and move to a standby position, (7) after a bit or tool has passed through the rotary table, command the robotic system to return the bushing to the rotary table, and (8) command the robotic system to disengage the bushing end effector from the bushing. 18 . The system of claim 1 , wherein the track extends vertically. 19 . The system of claim 18 , wherein the tool storage is located on different vertical level of the drill rig than the work center. 20 . The system of claim 1 , wherein the robot controller is further configured to command the robotic system to return the engaged end effector tool to the tool storage. 21 . A system for performing one or more operations on a work center disposed on a drill rig floor, the system comprising: (a) a plurality of robotic systems each having: a base disposed on a track for movement thereon, a robot arm supported on the base, and one or more end effector tools selectively attachable to an end of the robot arm; and (b) a control system having a robot controller in communication with each of the plurality of robotic systems, the robot controller being configured to: (1) command at least a subset of the plura