Hydroplaning reducing slip ring apparatus

The embodiments of the invention is which an exclusive property or privilege is claimed are defined as follows: 1. A slip ring apparatus comprising: (a) a ring assembly, wherein the ring assembly is comprised of an electrically conductive ring, and wherein the conductive ring is comprised of a conductive ring engagement surface; (b) a contact assembly, wherein the contact assembly is comprised of an electrically conductive contact element for engaging with the conductive ring, and wherein the contact element is comprised of a contact element engagement surface for engaging with the conductive ring engagement surface; and (c) a surface discontinuity provided in at least one of the conductive ring engagement surface and the contact element engagement surface, wherein an extent to which the surface discontinuity is recognizable provides an indicator of wear so that the surface discontinuity provides a wear indicator function. 2. The slip ring apparatus as claimed in claim 1 wherein the surface discontinuity is provided in the conductive ring engagement surface. 3. The slip ring apparatus as claimed in claim 1 wherein the surface discontinuity is provided in the contact element engagement surface. 4. The slip ring apparatus as claimed in claim 1 wherein the surface discontinuity is provided in both the conductive ring engagement surface and the contact element engagement surface. 5. The slip ring apparatus as claimed in claim 4 wherein the surface discontinuity is comprised of a first surface discontinuity pattern provided in the conductive ring engagement surface, wherein the surface discontinuity is further comprised of a second surface discontinuity pattern provided in the contact element engagement surface, and wherein the first surface discontinuity is different from the second surface discontinuity pattern. 6. The slip ring apparatus as claimed in claim 1 wherein the slip ring apparatus is immersed in a dielectric fluid. 7. The slip ring apparatus as claimed in claim 1 wherein the ring assembly is comprised of a plurality of electrically conductive rings, wherein each of the conductive rings is comprised of the conductive ring engagement surface, wherein the contact assembly is comprised of a plurality of electrically conductive contact elements for engaging with the plurality of conductive rings, wherein each of the contact elements is comprised of the contact element engagement surface for engaging with one of the conductive ring engagement surfaces, and wherein the surface discontinuity is provided in each of the conductive ring engagement surfaces, in each of the contact element engagement surfaces, or in each of the conductive ring engagement surfaces and in each of the contact element engagement surfaces. 8. The slip ring apparatus as claimed in claim 1 wherein the slip ring apparatus is comprised of a plurality of contact assemblies, wherein each of the contact assemblies is comprised of an electrically conductive contact element for engaging with the conductive ring, wherein each of the contact elements is comprised of a contact element engagement surface for engaging with the conductive ring engagement surface, and wherein the surface discontinuity is provided in the conductive ring engagement surface, in each of the contact element engagement surfaces, or in the conductive ring engagement surface and in each of the contact element engagement surfaces. 9. The slip ring apparatus as claimed in claim 1 wherein the ring assembly is comprised of a plurality of electrically conductive rings, wherein each of the conductive rings is comprised of a conductive ring engagement surface, wherein the slip ring apparatus is comprised of a plurality of contact assemblies, wherein each of the contact assemblies is comprised of a plurality of electrically conductive contact elements for engaging with the plurality of conductive rings, wherein each of the contact elements is comprised of a contact element engagement surface for engaging with one of the conductive ring engagement surfaces, and wherein the surface discontinuity is provided in each of the conductive ring engagement surfaces, in each of the contact element engagement surfaces, or in each of the conductive ring engagement surfaces and in each of the contact element engagement surfaces. 10. The slip ring apparatus as claimed in claim 1 wherein the surface discontinuity is comprised of a surface discontinuity pattern comprising a plurality of grooves, and wherein the plurality of grooves is selected from the group consisting of straight longitudinal grooves, symmetrical segmented oblique grooves, and combinations thereof. 11. The slip ring apparatus as claimed in claim 1 , further comprising a housing having an interior and a shaft rotatably extending through the interior of the housing, wherein the ring assembly is associated with one of the housing and the shaft, and wherein the contact assembly is associated with the other of the housing and the shaft. 12. The slip ring apparatus as claimed in claim 11 wherein the apparatus is an apparatus for use in drilling a borehole. 13. The slip ring apparatus as claimed in claim 11 wherein the apparatus is a rotary steerable drilling apparatus for use in drilling a borehole. 14. A method for reducing the potential of a hydroplaning effect in a slip ring apparatus comprising a ring assembly and a contact assembly, the method comprising: (a) providing the ring assembly, wherein the ring assembly is comprised of an electrically conductive ring, and wherein the conductive ring is comprised of a conductive ring engagement surface; (b) providing the contact assembly, wherein the contact assembly is comprised of an electrically conductive contact element for engaging with the conductive ring, and wherein the contact element is comprised of a contact element engagement surface for engaging with the conductive ring engagement surface; (c) providing a surface discontinuity in at least one of the conductive ring engagement surface and the contact element engagement surface, wherein the surface discontinuity is comprised of a surface discontinuity pattern comprising a plurality of grooves, and wherein the plurality of grooves is selected from the group consisting of straight longitudinal grooves, symmetrical segmented oblique grooves, and combinations thereof; and (d) using the surface discontinuity to provide an indication of the condition of at least one of the conductive ring and the contact element. 15. The method as claimed in claim 14 , further comprising immersing the slip ring apparatus in a dielectric fluid.