Continuous flow system for drilling oil and gas wells

The invention claimed is: 1. A flow sub for use with a drill string, comprising: a tubular housing having a longitudinal housing bore therethrough and a flow port through a wall thereof; a ball disposed in the housing above the flow port, having a ball bore therethrough, and rotatable relative to the housing between an open position where the ball bore is aligned with the housing bore and a closed position where a wall of the ball blocks the housing bore; a seat disposed in the housing above the ball for sealing against the ball wall in the closed position; a sleeve disposed in the housing and movable between an open position where the flow port is exposed to the housing bore and a closed position where a wall of the sleeve is disposed between the flow port and the housing bore; and an actuator operably coupling the sleeve and the ball such that opening the sleeve closes the ball and closing the sleeve opens the ball, the actuator having a cam movable relative to the housing, operably connected to the ball, and releasably connected to the sleeve. 2. The flow sub of claim 1 , wherein: the sleeve is longitudinally movable relative to the housing, and the actuator is operable to close the ball after the sleeve is at least partially open and open the ball before the sleeve is fully closed. 3. The flow sub of claim 2 , wherein the actuator comprises: the cam longitudinally movable relative to the housing and having a cam socket formed through a wall of the cam; a body disposed adjacently below the ball, connected to the housing, and having a linkage slot and a toggle slot, each slot formed through a wall of the body; a groove formed in an inner surface of the housing; a sleeve slot formed through a wall of the sleeve; a sleeve socket formed through the sleeve wall; a linkage pin fastened to the cam and extending through the linkage slot and into the sleeve slot; and a toggle pin extending through the cam socket and toggle slot and radially movable relative to the housing and the sleeve between a position engaged with the sleeve socket and a position disengaged from the sleeve socket by interaction with the housing groove. 4. The flow sub of claim 3 , wherein: the sleeve socket is aligned with a bottom of the sleeve slot, the linkage and toggle pins are aligned, and the linkage slot and toggle slot have equal widths and lengths. 5. The flow sub of claim 2 , wherein the actuator comprises: the cam longitudinally movable relative to the housing; a body disposed adjacently below the ball, connected to the housing, and having a body j-slot through a wall of the body; a sleeve j-slot formed through a wall of the sleeve; and a pin fastened to the cam and extending through the body j-slot and into the sleeve j-slot. 6. The flow sub of claim 5 , wherein the sleeve j-slot has an upper tangential wall and a lower inclined wall forming an oversized portion to accommodate movement of the pin in an inclined portion of the body j-slot. 7. The flow sub of claim 5 , wherein: the ball is rotatable between the positions about a transverse axis of the housing, the cam and ball are rotatable about a longitudinal axis of the housing to accommodate movement of the pin along the j-slots. 8. The flow sub of claim 1 , further comprising a piece of drill pipe connected to the housing and extending a length of the housing to correspond to a length of a joint of standard drill pipe. 9. The flow sub of claim 1 , the actuator further comprising: a body connected to the housing and having a slot formed through a wall of the body; and a slot formed through a wall of the sleeve. 10. The flow sub of claim 9 , the actuator further comprising a pin fastened to the cam and extending through the slot of the body and into the slot of the sleeve. 11. The flow sub of claim 1 , wherein the cam is rotatable about a longitudinal axis of the housing and longitudinally movable relative to the housing. 12. A continuous flow system, comprising: a flow sub comprising: a tubular housing having a longitudinal housing bore therethrough and a flow port through a wall thereof; a ball disposed in the housing above the flow port, having a ball bore therethrough, and rotatable relative to the housing between an open position where the ball bore is aligned with the housing bore and a closed position where a wall of the ball blocks the housing bore; a seat disposed in the housing above the ball for sealing against the ball wall in the closed position; and a sleeve disposed in the housing and movable between an open position where the flow port is exposed to the housing bore and a closed position where a wall of the sleeve is disposed between the flow port and the housing bore; an inlet for injecting fluid into the flow port and operable to seal against a surface of the housing adjacent to the flow port; and an automated port valve actuator operable to move the sleeve, wherein: the housing further has a window formed through the wall thereof and exposing an outer surface of the sleeve, and the port valve actuator engages the sleeve through the window as the inlet engages the housing. 13. The system of claim 12 , wherein: the sleeve has a lug formed in an outer surface thereof, the port valve actuator comprises: a yoke for engaging the lug; and a pair of proximity sensors, each sensor facing a path of the yoke. 14. The system of claim 13 , wherein: the yoke is metallic, and the proximity sensors are each inductive. 15. The system of claim 13 , wherein: the yoke has a nut portion engaged with a lead screw, the port valve actuator further comprises: a hydraulic motor; and a gear train operably coupling the lead screw to the hydraulic motor. 16. The system of claim 12 , wherein: the inlet and port valve actuator are connected to a body of a clamp, the clamp further comprises: a band; and a latch operable to fasten the band to the body; and an automated band actuator operable to tension or loosen the band, body, and latch. 17. The system of claim 12 , wherein: the inlet and port valve actuator are connected to a body of a flow sub tong, and the flow sub tong is configured to engage the housing. 18. The system of claim 17 , wherein: the flow sub tong is mounted to a frame of an iron roughneck, and the iron roughneck further comprises: a backup tong mounted to the frame; a wrenching tong supported by the backup tong and rotatable relative thereto; and a spinner mounted to the frame. 19. The system of claim 12 , wherein: the inlet and port valve actuator are connected to a body of an automated clamp, and the automated clamp is configured to engage the housing, the automated clamp is carried on a chassis of a rover, and the rover further comprises a plurality of wheels and a drive motor. 20. The system of claim 12 , wherein: the inlet and port valve actuator are connected to a body of a clamp, and the clamp is suspended from a derrick of a drilling rig by a harness and an arm. 21. The system of claim 12 , the flow sub further comprising an actuator operably coupling the sleeve and the ball such that opening the sleeve closes the ball and closing the sleeve opens the ball, the actuator having a cam movable relative to the housing, operably connected to the ball, and releasably connected to the sleeve. 22. The system of claim 21 , the actuator of the flow sub further comprising: a body connected to the housing and having a slot for