High capacity universal connector

What is claimed is: 1 . An assembly, comprising: a first tubular member having a central bore, an end, and a conical sealing surface; a second tubular member having a central bore, an end, and a conical sealing surface; and a connector coupling the first tubular member to the second tubular member, wherein the end of the first tubular member and the end of the second tubular member engage each other at a similar internal diameter in a face-to-face relationship and the surface of the end of the first tubular member engages the entire surface of the end of the second tubular member. 2 . The assembly of claim 1 , wherein the end of the first tubular member and the end of the second tubular member engage each other at a similar internal diameter in a face-to-face relationship to facilitate an increase in bending/compression capacity of the assembly up to approximately 40% greater than a bending/compression capacity of a tubular assembly having a recess formed along its internal diameter to accommodate a ribbed segment of a gasket. 3 . The assembly of claim 1 , wherein the first tubular member comprises a straight vertical section along its internal diameter, wherein the straight vertical section is located between the conical sealing surfaces of the first and second tubular members when the first and second tubular members are coupled together. 4 . The assembly of claim 3 , wherein the straight vertical section of the first tubular member interfaces directly with the conical sealing surface of the second tubular member at the similar internal diameter. 5 . The assembly of claim 1 , wherein the end of the first tubular member comprises a concave portion, the end of the second tubular member comprises a complementary convex portion, and wherein the concave portion is shaped to fit directly around the convex portion. 6 . The assembly of claim 1 , wherein the conical sealing surface of the first tubular member and the conical sealing surface of the second tubular member each comprise multiple conical surfaces separated by steps between adjacent conical surfaces. 7 . The assembly of claim 6 , wherein a straight vertical section of the first tubular member interfaces directly with one of the multiple conical surfaces of the second tubular member at the similar internal diameter. 8 . The assembly of claim 1 , further comprising a metal sealing ring having a central bore, a first conical sealing surface, and a second conical sealing surface, wherein the first conical sealing surface of the metal sealing ring abuts the conical sealing surface of the first tubular member and the second conical sealing surface of the metal sealing ring abuts the conical sealing surface of the second tubular member. 9 . The assembly of claim 8 , wherein a radially outermost region of the gasket does not comprise a ribbed section. 10 . The assembly of claim 8 , wherein the first conical sealing surface of the metal sealing ring further comprises at least one alignment segment and at least one sealing segment, and wherein the second conical sealing surface of the metal sealing ring comprises at least one alignment segment and at least one sealing segment. 11 . The assembly of claim 1 , further comprising a retention device disposed within the first tubular member or the second tubular member and extending therefrom to engage a profile of a metal sealing ring for retaining the metal sealing ring against the first tubular member or the second tubular member. 12 . The assembly of claim 11 , wherein the retention device may be dislodged from engagement with the metal sealing ring using pressurized air or fluid delivered via a port. 13 . A method of sealing tubular components, comprising: providing a first tubular member having a central bore, an end, and a conical sealing surface; providing a second tubular member having a central bore, an end, and a conical sealing surface; aligning the end of the first tubular member with the end of the second tubular member at a similar internal diameter in a face-to-face relationship; and coupling the first tubular member to the second tubular member using a connector such that the surface of the end of the first tubular member engages the entire surface of the end of the second tubular member. 14 . The method of claim 13 , wherein coupling the first tubular member to the second tubular member increases a bending/compression capacity of the connected tubular components up to approximately 40% greater than a bending/compression capacity of a tubular assembly having a recess formed along its internal diameter to accommodate a ribbed segment of a gasket. 15 . The method of claim 13 , wherein aligning the first tubular member to the second tubular member comprises engaging a straight vertical section of the first tubular member with the conical sealing surface of the second tubular member. 16 . The method of claim 13 , wherein aligning the first tubular member to the second tubular member comprises engaging a concave portion at the end of the first tubular member with a complementary shaped convex portion at the end of the second tubular member. 17 . A metal sealing ring, comprising: a central bore; a first conical sealing surface with at least one alignment segment and at least one sealing segment; and a second conical sealing surface with at least one alignment segment and at least one sealing segment. 18 . The metal sealing ring of claim 17 , further comprising a recess located between the first conical surface and the second conical surface. 19 . The metal sealing ring of claim 17 , wherein a surface of the at least one alignment segment has an angle of incline with respect to an axis of the central bore that is different than an angle of incline with respect to the axis of the central bore formed by the surface of the at least one sealing element. 20 . The metal sealing ring of claim 19 , wherein the surface of the at least one alignment segment has an angle of incline with respect to an axis of the central bore that is less than the angle of incline of a surface of the at least one sealing segment with respect to the axis of the central bore. 21 . The metal sealing ring of claim 17 , wherein the first and second conical sealing surfaces each comprise: a central alignment segment; and a distal alignment segment; wherein the at least one sealing segment is located between the central alignment segment and the distal alignment segment. 22 . The metal sealing ring of claim 21 , wherein: at least one sealing surface on the first conical sealing surface is substantially equally spaced between the distal alignment segment and the central alignment segment on the first conical sealing surface; and at least one sealing surface on the second conical sealing surface is substantially equally spaced between the distal alignment segment and the central alignment segment on the second conical sealing surface. 23 . A method of sealing tubular components, comprising: providing a first tubular member having a central bore, an end, and a conical sealing surface; providing a second tubular member having a central bore, an end, and a conical sealing surface; providing a metal sealing ring having a central bore, a first conical sealing surface, and a second conical sealing surface; aligning the end of the first tubular member with the end of the second tubular member at a similar internal diameter in a face-to-face rel