Systems and methods for forming tapered holes in workpieces

What is claimed is: 1. A robotic forming system for forming a tapered hole in a workpiece, the robotic forming system comprising an end effector including: a housing and a nose extending from the housing, wherein the housing defines an internal chamber; a vacuum gate in fluid communication with an internal cavity of the nose; a seal within the nose; a first spindle comprising a first operative head, the first spindle retained within the internal chamber, wherein the first spindle is configured to be moved between a first stowed position within the housing and a first operating position in which the first operative head extends into the nose, wherein the first operative head is configured to form an initial hole within the workpiece; and a second spindle comprising a second operative head, the second spindle retained within the internal chamber, wherein the second spindle is configured to be moved between a second stowed position within the housing and a second operating position in which the second operative head extends into the nose, wherein the second operative head is configured to modify the initial hole to form the tapered hole. 2. The robotic forming system of claim 1 , further comprising a third spindle comprising a third operative head, the third spindle retained within the internal chamber, wherein the third spindle is configured to be moved between a third stowed position within the housing and a third operating position in which the third operative head extends into the nose, wherein the third operative head is configured to form a countersink or a counterbore in the tapered hole. 3. The robotic forming system of claim 1 , further comprising: one or more arms, wherein the end effector is coupled to the one or more arms; and one or more actuators operatively coupled to the one or more arms and/or the end effector. 4. The robotic forming system of claim 1 , further comprising: a vacuum generator coupled to the vacuum gate; and a valve disposed within the vacuum gate, wherein the valve is configured to be selectively moved between an open position that allows for fluid communication with the vacuum generator, and a closed position that prevents fluid communication with the vacuum generator. 5. The robotic forming system of claim 4 , wherein the vacuum generator is activated and the valve is in the open position when the first operative head is in the first operating position, and wherein lubricant and debris are drawn to the vacuum generator through the vacuum gate when the valve is in the open position. 6. The robotic forming system of claim 4 , wherein the valve is in the closed position when the second operative head is in the second operating position, and wherein lubricant and debris are forced out of the internal cavity of the nose and the tapered hole when the valve is in the closed position. 7. The robotic forming system of claim 1 , further comprising a lubricant dispenser within the nose, wherein the lubricant dispenser is configured to dispense lubricant onto one or more of the first operative head in the first operating position, the second operative head in the second operating position, the initial hole, or the tapered hole. 8. The robotic forming system of claim 7 , wherein the lubricant dispenser is positioned at a tip of the nose and is configured to apply lubricant directly to each of the first operative head and the second operative head at an interface between the nose and the hole. 9. The robotic forming system of claim 1 , wherein the seal is configured to sealingly engage at least a portion of the first spindle in the first operative position and the second spindle in the second operative position. 10. The robotic forming system of claim 9 , wherein the seal comprises dual shaft seals mounted to an internal wall of the nose. 11. The robotic forming system of claim 1 , further comprising a control unit that is configured to operate the first spindle and the second spindle. 12. A robotic forming method for forming a tapered hole in a workpiece, the robotic forming method comprising: providing an end effector including a housing and a nose extending from the housing, wherein the housing defines an internal chamber; fluidly coupling a vacuum gate with an internal cavity of the nose; providing a seal within the nose; providing a first spindle comprising a first operative head, the first spindle retained within the internal chamber; providing a second spindle comprising a second operative head, the second spindle retained within the internal chamber; moving the first spindle between a first stowed position within the housing and a first operating position in which the first operative head extends into the nose; forming, by the first operative head of the first spindle in the first operating position, an initial hole within the workpiece; moving the second spindle between a second stowed position within the housing and a second operating position in which the second operative head extends into the nose; and modifying, by the second operative head of the second spindle in the second operating position, the initial hole to form the tapered hole. 13. The robotic forming method of claim 12 , further comprising: providing a third spindle comprising a third operative head, the third spindle retained within the internal chamber; and forming, by the third operative head of the third spindle in a third operating position, a countersink or a counterbore in the tapered hole. 14. The robotic forming method of claim 12 , further comprising: coupling a vacuum generator to the vacuum gate; disposing a valve within the vacuum gate; and selectively moving the valve between an open position that allows for fluid communication with the vacuum generator, and a closed position that prevents fluid communication with the vacuum generator. 15. The robotic forming method of claim 14 , further comprising: activating the vacuum generator; moving the valve into the open position when the first operative head is in the first operating position; and drawing lubricant and debris to the vacuum generator through the vacuum gate when the valve is in the open position. 16. The robotic forming method of claim 14 , further comprising: moving the valve into the closed position when the second operative head is in the second operating position; and forcing lubricant and debris out of the internal cavity of the nose and the tapered hole when the valve is in the closed position. 17. The robotic forming method of claim 12 , further comprising: providing a lubricant dispenser within the nose; and dispensing, by the lubricant dispenser, lubricant onto one or more of the first operative head in the first operating position, the second operative head in the second operating position, the initial hole, or the tapered hole. 18. The robotic forming method of claim 12 , further comprising sealingly engaging, by the seal, the first spindle in the first operative position and the second spindle in the second operative position. 19. The robotic forming method of claim 12 , further comprising operating, by a control unit, the first spindle and the second spindle. 20. A robotic forming system for forming a tapered hole in a workpiece, the robotic forming system comprising an end effector including: a housing and a nose extending from the housing, wherein the housing defines an internal chamber; a first spindle comprising a first operative head, the first spindle retained within the internal chamber, wher