Pipe coupling

That which is claimed is: 1. A pipe coupling comprising: a coupling body defining a first body end; and an end ring assembly comprising: a split ring, wherein a gap is defined between a first ring end of the split ring and a second ring end of the split ring; a gasket bridge extending across the gap between the first ring end and the second ring end, the gasket bridge defining a first circumferential bridge end and a second circumferential bridge end, wherein a first ramp extends from the first circumferential bridge end and is disposed radially inward of the split ring; and a gasket assembly disposed radially inward of the split ring and the gasket bridge, the gasket assembly configured to be compressed between the split ring and a piping component, wherein the first ramp presses radially inward against an outer sealing surface of the gasket assembly to prevent movement of the gasket assembly; wherein: the gasket bridge defines an arcuate body that arcs from the first circumferential bridge end of the gasket bridge to the second circumferential bridge end of the gasket bridge; the gasket bridge further defines a first axial side and a second axial side; the arcuate body defines a length from the first circumferential bridge end to the second circumferential bridge end and a width from the first axial side to the second axial side; and the length is greater than the width. 2. The pipe coupling of claim 1 , wherein the gasket bridge defines a bridge curvature from the first circumferential bridge end to the second circumferential bridge end, and the first ramp defines a first ramp curvature that is smaller than the bridge curvature. 3. The pipe coupling of claim 2 , wherein the first ramp defines a thickness tapering away from the first circumferential bridge end. 4. The pipe coupling of claim 2 , wherein the first ramp defines an upper surface, a lower surface, and an end wall distal to the first circumferential bridge end. 5. The pipe coupling of claim 2 , wherein the gasket bridge further comprises a second ramp extending from the second circumferential bridge end, the second ramp pressing radially inward against the outer sealing surface of the gasket assembly to further prevent movement of the gasket assembly, the second ramp defining a second ramp curvature that is smaller than the bridge curvature. 6. The pipe coupling of claim 1 , wherein the gasket bridge further comprises a bridge shoulder extending radially inward from the first axial side, the split ring defines a ring shoulder extending radially inward from a first axial side of the split ring, and the bridge shoulder abuts an inner surface of the ring shoulder. 7. The pipe coupling of claim 6 , wherein the bridge shoulder defining a slot extending radially outward from a radially inward edge of the bridge shoulder, the slot configured to prevent the gasket bridge from buckling. 8. The pipe coupling of claim 1 , wherein the split ring defines an outer ring surface and an inner ring surface, the gasket bridge defines an outer bridge surface and an inner bridge surface, and the gasket assembly comprises the outer sealing surface engaging the inner ring surface and the inner bridge surface. 9. The pipe coupling of claim 8 , wherein the outer bridge surface engages the inner ring surface at each of the first ring end and the second ring end. 10. The pipe coupling of claim 9 , wherein the gasket bridge further comprises a projection extending radially inward from the inner bridge surface, the projection engaging the outer sealing surface of the gasket assembly. 11. The pipe coupling of claim 10 , wherein: the gasket bridge defines a hole and a slug; and the slug is bent radially inward relative to the hole to define the projection. 12. The pipe coupling of claim 11 , wherein the slug defines a pair of prongs and a substantially V-shaped gap formed between the pair of prongs, each of the prongs engaging the outer sealing surface. 13. The pipe coupling of claim 10 , wherein the projection defines a substantially hemispherical bump. 14. The pipe coupling of claim 1 , wherein the gasket assembly comprises a primary gasket, the primary gasket defining the outer sealing surface, an inner sealing surface, and an annular gasket groove defined axially between the outer sealing surface and the inner sealing surface. 15. The pipe coupling of claim 14 , wherein the gasket assembly further comprises a secondary gasket disposed radially inward of the primary gasket, the secondary gasket defining a secondary outer sealing surface and a secondary inner sealing surface, the secondary outer sealing surface engaging the inner sealing surface of the primary gasket and the secondary inner sealing surface configured to engage the piping component. 16. The pipe coupling of claim 15 , wherein: the inner sealing surface of the primary gasket defines an annular engagement groove; the secondary outer sealing surface of the secondary gasket defines an annular engagement flange; and the annular engagement flange engages the annular engagement groove to improve a grip between the primary gasket and the secondary gasket. 17. The pipe coupling of claim 1 , wherein: the split ring comprises a ring lip having a substantially U-shaped cross-section and extending circumferentially around the split ring; the ring lip defining a ring groove; and the coupling body comprises a first flange extending radially outward from the first body end and engaging the ring groove. 18. The pipe coupling of claim 17 , wherein the gasket bridge comprises a bridge shoulder extending radially outward from a first axial side of the gasket bridge, the bridge shoulder engaging the ring groove. 19. A pipe coupling comprising: a coupling body defining a first body end; and an end ring assembly comprising: a split ring, wherein a gap is defined between a first ring end of the split ring and a second ring end of the split ring; a gasket bridge extending across the gap between the first ring end and the second ring end, the gasket bridge defining a first circumferential bridge end and a second circumferential bridge end, wherein a first ramp extends from the first circumferential bridge end and is disposed radially inward of the split ring; and a gasket assembly disposed radially inward of the split ring and the gasket bridge, the gasket assembly configured to be compressed between the split ring and a piping component, wherein the first ramp presses radially inward against an outer sealing surface of the gasket assembly to prevent movement of the gasket assembly; wherein: the gasket assembly comprises a primary gasket; the primary gasket defines the outer sealing surface, an inner sealing surface, and an annular gasket groove defined axially between the outer sealing surface and the inner sealing surface; the gasket assembly further comprises a secondary gasket disposed radially inward of the primary gasket; the secondary gasket defines a secondary outer sealing surface and a secondary inner sealing surface; the secondary outer sealing surface engages the inner sealing surface of the primary gasket; and the secondary inner sealing surface is configured to engage the piping component. 20. A pipe coupling comprising: a coupling body defining a first body end; and an end ring assembly comprising: a split ring, wherein a gap is defined between a first ring end of the split ring and a second ring end of the split ring; a gasket bridge extending across the gap between the first ring