Surgical shaft assemblies with flexible interfaces

The invention claimed is: 1. A slip ring assembly for use with a surgical shaft assembly, the slip ring assembly comprising: a first connector comprising a body portion, wherein the body portion comprises an outer surface, and wherein the first connector defines a first aperture therethrough; a first conductor comprising a conductive element directly mounted on the first connector, wherein the first conductor extends beyond the outer surface of the first connector; a second connector rotatable relative to the first connector, wherein the second connector defines a second aperture therethrough; a second conductor mounted on the second connector; and an interface between the first connector and the second connector, wherein the interface is configured to prevent the first connector from engaging the second connector, wherein the outer surface of the first connector is positioned adjacent to the interface, wherein the interface defines a third aperture therethrough, wherein the first aperture, the second aperture, and the third aperture cooperatively define a central passage through the slip ring assembly, wherein the central passage is spaced apart from the first conductor and the second conductor, and wherein the interface includes: a body portion; an opening defined in the body portion, wherein the first conductor and the second conductor are configured to extend through and electrically engage one another in the opening; and a plurality of ribs comprising: an outermost rib of the plurality of ribs that defines an outer edge of the interface; an innermost rib of the plurality of ribs that defines the third aperture through the interface; the outermost rib and another of the plurality of ribs defining a conductorless outer groove, wherein the outer groove is configured to retain fluid away from at least one of the first conductor and the second conductor; and the innermost rib and another of the plurality of ribs defining a conductorless inner groove, wherein the inner groove is configured to retain fluid away from at least one of the first conductor and the second conductor. 2. The slip ring assembly of claim 1 , wherein the plurality of ribs protrude from the body portion. 3. The slip ring assembly of claim 1 , wherein the plurality of ribs are concentric. 4. The slip ring assembly of claim 1 , wherein the interface is flexible. 5. The slip ring assembly of claim 1 , wherein the interface is comprised of an elastomeric material. 6. The slip ring assembly of claim 1 , wherein the interface is fixed to the second connector. 7. The slip ring assembly of claim 6 , wherein the interface is rotatable with the second connector relative to the first connector. 8. The slip ring assembly of claim 1 , wherein the plurality of ribs extend from the interface toward the outer surface of the first connector. 9. The slip ring assembly of claim 1 , wherein the first conductor is mounted on the outer surface of the first connector. 10. The slip ring assembly of claim 1 , wherein the first conductor extends around the central passage. 11. A surgical shaft assembly, comprising: a proximal shaft portion, comprising: a proximal connector supported in the proximal shaft portion, wherein the proximal connector comprises an outer surface, and wherein the proximal connector defines a first aperture therethrough; and first conductors, wherein each of the first conductors comprises an electrically conductive element directly mounted on the proximal connector, wherein the first conductors extend beyond the outer surface of the proximal connector; and a distal shaft portion rotatable relative to the proximal shaft portion, wherein the distal shaft portion comprises: a distal connector supported in the distal shaft portion, wherein the distal connector defines a second aperture therethrough; second conductors mounted on the distal connector, wherein the second conductors are spaced apart laterally and radially from one another; and a gasket disposed between the proximal connector and the distal connector, wherein the gasket is configured to prevent the proximal connector from engaging the distal connector, wherein the gasket is positioned adjacent to the outer surface of the proximal connector when the surgical shaft assembly is in an assembled configuration, wherein the gasket defines a third aperture therethrough, wherein the first aperture, the second aperture, and the third aperture cooperatively define a central passage that is spaced apart from the first conductors and the second conductors, and wherein the gasket includes a plurality of tread elements comprising: an outermost tread element of the plurality of tread elements that defines an outer edge of the gasket; an innermost tread element of the plurality of tread elements that defines the third aperture through the gasket; the outermost tread element and another of the plurality of tread elements defining a conductorless outer groove, wherein the outer groove is configured to prevent fluid from contacting at least one of the first conductors; and the innermost tread element and another of the plurality of tread elements defining a conductorless inner groove, wherein the inner groove is configured to prevent fluid from contacting at least one of the first conductors. 12. The surgical shaft assembly of claim 11 , wherein the gasket comprises openings configured to receive the second conductors. 13. The surgical shaft assembly of claim 12 , wherein the gasket comprises a body portion from which the tread elements protrude. 14. The surgical shaft assembly of claim 11 , wherein the plurality of tread elements are concentric. 15. The surgical shaft assembly of claim 11 , wherein the gasket is flexible. 16. The surgical shaft assembly of claim 11 , wherein the gasket is comprised of an elastomeric material. 17. The surgical shaft assembly of claim 11 , wherein the gasket is fixed to the distal connector. 18. The surgical shaft assembly of claim 17 , wherein the gasket is rotatable with the distal connector relative to the proximal connector. 19. A slip ring assembly for use with a surgical shaft assembly, the slip ring assembly comprising: a slip ring comprising an outer surface, wherein the slip ring defines a first aperture therethrough; a first conductor comprising an electrically conductive element directly mounted on the slip ring, wherein the first conductor extends beyond the outer surface of the slip ring; a commutator rotatable relative to the slip ring, wherein the commutator defines a second aperture therethrough; a second conductor mounted on the commutator; and a flexible member disposed between the slip ring and the commutator, wherein the flexible member is configured to be positioned adjacent to the outer surface of the slip ring, wherein the flexible member defines a third aperture therethrough, wherein the first aperture, the second aperture, and the third aperture cooperatively define a central passage through the slip ring assembly, wherein the central passage is spaced apart from the first conductor and the second conductor, and wherein the flexible member comprises: a body portion; an opening defined in the body portion, wherein the first conductor and the second conductor are configured to extend through and contact one another in the opening; and flexible portions extending from the body portion, wherein the flexible portions are elastically deformed against the slip ring, and wherein the flexible portions comprise; an outermost flexible portion of th