End effectors carrying plies of limp material for shaping by a mandrel

The invention claimed is: 1. A method for conforming a ply to a mandrel, the method comprising: holding a ply in contact with an end effector of a robot via cup assemblies that each include at least one gripper and at least one Bernoulli cup; positioning the ply over a mandrel having a curved surface, without shaping the ply while applying negative pressure, via the at least one gripper, that holds the ply in a position relative to the Bernoulli cups of the cup assemblies; reducing the negative pressure applied to the at least one gripper of the cup assemblies; applying positive pressure to Bernoulli cups of the cup assemblies; and slipping the ply relative to the Bernoulli cups of the cup assemblies when conforming the ply to the mandrel, while the negative pressure is reduced and while positive pressure is applied to the Bernoulli cups of the cup assemblies. 2. The method of claim 1 wherein: the grippers are at floating cup assemblies and apply vacuum pressure without shaping the ply. 3. The method of claim 1 wherein: slipping the ply causes the Bernoulli cups of the cup assemblies to float along the ply, pivot, and deflect vertically as the ply changes shape. 4. The method of claim 1 further comprising: controlling pressure applied via pressure regulators to the grippers, by: maintaining negative pressure while the end effector is transporting the ply; and reducing negative pressure after the ply has been positioned over the mandrel. 5. The method of claim 4 further comprising: applying positively pressurized gas to the Bernoulli cups of the cup assemblies in response to reducing negative pressure, thereby enabling the ply to float with respect to each of the cup assemblies. 6. The method of claim 4 wherein: reducing negative pressure is performed simultaneously with applying positively pressurized gas to the Bernoulli cups. 7. The method of claim 1 wherein: holding the ply via the grippers of the cup assemblies comprises applying negative pressure through the grippers to ports that face the ply at extenders of the Bernoulli cups. 8. The method of claim 1 wherein: the holding, positioning, and slipping are performed in accordance with a Numerical Control (NC) program directing operations of the end effector. 9. The method of claim 1 wherein: conforming the ply to the curved surface of the mandrel comprises pressing the ply onto the curved surface of the mandrel via the end effector. 10. The method of claim 1 wherein: holding the ply is further performed via a suction cup contacting a center portion of the ply, wherein the cup assemblies surround the center portion of the ply. 11. A non-transitory computer readable medium embodying programmed instructions, including: instructions for holding a ply in contact with an end effector of a robot via cup assemblies that each include at least one gripper and at least one Bernoulli cup; instructions for positioning the ply over a mandrel having a curved surface, without shaping the ply while applying negative pressure, via the at least one gripper, that holds the ply in a position relative to the Bernoulli cups of the cup assemblies; instructions for reducing the negative pressure to the at least one gripper of the cup assemblies; instructions for applying positive pressure to Bernoulli cups of the cup assemblies; and instructions for slipping the ply relative to the at Bernoulli cups of the cup assemblies when conforming the ply to the mandrel, while the negative pressure is reduced and while positive pressure is applied to the Bernoulli cups of the cup assemblies. 12. The medium of claim 11 wherein the medium further includes: instructions for controlling pressure applied via pressure regulators to the grippers of the cup assemblies, by: instructions for maintaining negative pressure while the end effector is transporting the ply; and instructions for reducing negative pressure after the ply has been positioned over the mandrel. 13. The medium of claim 12 wherein the medium further includes: instructions for applying positively pressurized gas to the Bernoulli cups of the cup assemblies in response to reducing negative pressure, thereby enabling the ply to float with respect to each of the cup assemblies. 14. The medium of claim 11 wherein: reducing negative pressure is performed simultaneously with applying positively pressurized gas to the Bernoulli cups. 15. The medium of claim 11 wherein: holding the ply via the grippers comprises applying negative pressure through the grippers to ports that face the ply at extenders of the Bernoulli cups. 16. The medium of claim 11 wherein: the holding, positioning, and slipping are performed in accordance with a Numerical Control (NC) program directing operations of the end effector. 17. The medium of claim 11 wherein: conforming the ply to the curved surface of the mandrel comprises pressing the ply onto the curved surface of the mandrel via the end effector.