Pipe connection ring for pipe coupling

That which is claimed is: 1 . A pipe connection ring for a pipe coupling, the pipe connection ring comprising: a ring body defining a first circumferential end and a second circumferential end opposite the first circumferential end; a first stepped portion extending from the first circumferential end of the ring body; and a second stepped portion extending from the second circumferential end of the ring body, the second stepped portion contacting and overlapping the first stepped portion in an uncompressed configuration; wherein the second stepped portion is unconnected to the first stepped portion and is configured to slide relative to the first stepped portion as the pipe connection ring is compressed. 2 . The pipe connection ring of claim 1 , wherein the each of the first stepped portion and the second stepped portion define a thickness that is less than a thickness of the ring body. 3 . The pipe connection ring of claim 2 , wherein the first stepped portion and the second stepped portion nest inside one another. 4 . The pipe connection ring of claim 3 , wherein: the ring body defines a first shoulder at the first circumferential end; the ring body defines a second shoulder at the second circumferential end; a distal end of the first stepped portion contacts the second shoulder when the pipe connection ring is sufficiently compressed; and a distal end of the second stepped portion contacts the first shoulder when the pipe connection ring is sufficiently compressed. 5 . The pipe connection ring of claim 4 , wherein, in the uncompressed configuration, a first angular opening is defined between the distal end of the first stepped portion and the second shoulder and a second angular opening is defined between the distal end of the second stepped portion and the first shoulder. 6 . The pipe connection ring of claim 2 , wherein: the first stepped portion defines a first slip surface and the second stepped portion defines a second slip surface; the first stepped portion slides along the second slip surface as the pipe connection ring is compressed; and the second stepped portion slides along the first slip surface as the pipe connection ring is compressed. 7 . The pipe connection ring of claim 1 , wherein an axial ring thickness of the pipe connection ring measured at the first stepped portion and the second stepped portion is about equal to the axial ring thickness of the pipe connection ring measured at the ring body. 8 . The pipe connection ring of claim 1 , wherein an axial ring thickness of the pipe connection ring measured at the first stepped portion and the second stepped portion is less than the axial ring thickness of the pipe connection ring measured at the ring body. 9 . A pipe coupling comprising: a coupling segment having an inner surface defining a ring groove oriented proximate to an axial end of the coupling segment; and a pipe connection ring disposed within the ring groove, the pipe connection ring defining a ring body with a first circumferential end and a second circumferential end, a first stepped portion extending from the first circumferential end of the ring body, and a second stepped portion extending from the second circumferential end of the ring body; wherein the second stepped portion contacting and overlapping the first stepped portion in an uncompressed configuration. 10 . The pipe coupling of claim 9 , wherein the second stepped portion is unconnected to the first stepped portion and is configured to slide relative to the first stepped portion as the pipe connection ring is compressed to a compressed configuration. 11 . The pipe coupling of claim 10 , wherein: the ring groove comprises a groove bottom surface extending from a first end of the coupling segment to a second end of the coupling segment; and an outer surface of the pipe connection ring contacts the groove bottom surface at between the first end of the coupling segment and the second end of the coupling segment when the pipe connection ring is in the uncompressed configuration. 12 . The pipe coupling of claim 11 , wherein the groove bottom surface includes a flat portion, and wherein a gap is defined between the outer surface of the pipe connection ring and the flat portion. 13 . The pipe coupling of claim 12 , wherein the gap is defined at either the first end of the coupling segment or the second end of the coupling segment when the pipe connection ring is in the uncompressed configuration. 14 . The pipe coupling of claim 10 , wherein: the pipe coupling is configurable in a tightened position and an untightened position; the pipe connection ring is in the uncompressed configuration when the pipe coupling is in the untightened position; and the pipe connection ring is in the compressed configuration when the pipe coupling is in the tightened position; and an inner diameter of the pipe connection ring is smaller in the compressed configuration than the inner diameter of the pipe connection ring in the uncompressed configuration. 15 . The pipe connection ring of claim 14 , wherein the each of the first stepped portion and the second stepped portion define a thickness that is less than a thickness of the ring body. 16 . The pipe connection ring of claim 15 , wherein the first stepped portion and the second stepped portion nest inside one another. 17 . The pipe connection ring of claim 16 , wherein: the ring body defines a first shoulder at the first circumferential end; the ring body defines a second shoulder at the second circumferential end; a distal end of the first stepped portion contacts the second shoulder when the pipe connection ring is sufficiently compressed in the compressed configuration; and a distal end of the second stepped portion contacts the first shoulder when the pipe connection ring is sufficiently compressed in the compressed configuration. 18 . The pipe connection ring of claim 17 , wherein, in the uncompressed configuration, a first angular opening is defined between the distal end of the first stepped portion and the second shoulder and a second angular opening is defined between the distal end of the second stepped portion and the first shoulder. 19 . The pipe connection ring of claim 15 , wherein: the first stepped portion defines a first slip surface and the second stepped portion defines a second slip surface; the first stepped portion slides along the second slip surface as the pipe connection ring is compressed; and the second stepped portion slides along the first slip surface as the pipe connection ring is compressed. 20 . The pipe connection ring of claim 9 , wherein an axial ring thickness of the pipe connection ring measured at the first stepped portion and the second stepped portion is about equal to or less than the axial ring thickness of the pipe connection ring measured at the ring body.