Coupling gasket with friction-fit range reducer

That which is claimed is: 1. A pipe coupling comprising: a coupling body defining a first body end and a second body end distal from the first body end, a coupling bore defined by and extending through the coupling body from the first body end to the second body end; an end ring attached to the coupling body proximate to the first body end, the end ring comprising: a split ring defining a first ring end, a second ring end, and a radially inner surface; and a seal disposed within the split ring, the split ring configured to compress the seal radially inward in a compressed state of the pipe coupling, the seal comprising: an outer gasket defining a radially outer surface and a radially inner surface, the radially inner surface of the outer gasket defining a plurality of grooves; an inner gasket separably joined to the outer gasket, the inner gasket defining a radially outer surface, the radially outer surface of the inner gasket defining a plurality of ridges engaged with the plurality of grooves of the outer gasket, the radially outer surface of the inner gasket contacting the radially inner surface of the outer gasket; and an O-ring, the O-ring positioned within a cavity defined in a one of a first axial end and a second axial end of the seal; and a fastener configured to draw the first ring end of the split ring towards the second ring end of the split ring. 2. The pipe coupling of claim 1 , wherein: each of a first side surface and a second side surface of a one of the plurality of grooves of the outer gasket is angled in cross-section with respect to a radial direction of the seal towards the first axial end of the seal; and each of a first side surface and a second side surface of a first ridge of the plurality of ridges of the inner gasket is angled in cross-section with respect to a radial direction of the inner gasket towards the first axial end of the seal. 3. The pipe coupling of claim 2 , wherein each of a first side surface and a second side surface of a second ridge of the plurality of ridges is angled in cross-section with respect to a radial direction of the inner gasket towards a second axial end of the seal. 4. The pipe coupling of claim 3 , wherein the plurality of ridges of the inner gasket further comprises a third ridge. 5. The pipe coupling of claim 1 , wherein a radially inner surface of the inner gasket defines a conical shape. 6. The coupling of claim 1 , wherein the seal further defines a vacuum-relief passage extending from a one of the first axial end and a second axial end of the seal and a portion of the cavity positioned opposite the O-ring from the one of the first axial end and the second axial end of the seal. 7. The pipe coupling of claim 1 , wherein the end ring is a first end ring, the split ring is a first split ring, the seal is a first seal, and the outer gasket is a first outer gasket; the coupling further comprising a second end ring attached to the coupling body proximate to the second body end, the second end ring comprising: a second split ring defining a first ring end, a second ring end, and a radially inner surface; and a second seal disposed within the split ring, the split ring configured to compress the second seal radially inward in a compressed state of the pipe coupling, the second seal comprising a second outer gasket defining a radially outer surface and a radially inner surface, the radially inner surface of the second outer gasket defining a plurality of grooves. 8. A seal for a pipe coupling, the seal comprising: an outer gasket defining a radially inner surface, the radially inner surface defining a plurality of grooves; an inner gasket separably joined to the outer gasket, the inner gasket defining a radially outer surface, the radially outer surface defining a plurality of ridges, each of the plurality of ridges extending radially outward relative to an axis of the inner gasket; and an O-ring; wherein the radially outer surface of the inner gasket contacts the radially inner surface of the outer gasket. 9. The seal of claim 8 , wherein a radially inner surface of the inner gasket defines a conical shape. 10. The seal of claim 9 , wherein the radially inner surface of the inner gasket defines a first portion and a second portion, a taper angle of the first portion being greater than a taper angle of the second portion. 11. The seal of claim 8 , wherein the plurality of ridges comprises: a first ridge, each of a first side surface and a second side surface of the first ridge angled in cross-section with respect to a radial direction of the inner gasket towards a first axial end of the inner gasket; and a second ridge, each of a first side surface and a second side surface of the second ridge angled in cross-section with respect to a radial direction of the inner gasket towards a second axial end of the inner gasket. 12. The seal of claim 11 , wherein the plurality of ridges of the inner gasket further comprises a third ridge. 13. The seal of claim 12 , wherein each of a first side surface and a second side surface of the third ridge is angled in cross-section with respect to the radial direction of the inner gasket towards a one of the first axial end and the second axial end of the inner gasket. 14. The seal of claim 8 , wherein the O-ring is positioned within a cavity defined in an axial end of the seal. 15. The seal of claim 14 , wherein the outer gasket defines a plurality of vacuum-release holes, each of the plurality of vacuum-release holes configured to allow movement of air to and from an inner portion of the cavity behind the O-ring. 16. The seal of claim 8 , wherein a one of the outer gasket, the inner gasket, and an O-ring of the seal has a material hardness of less than or equal to about 75 on the Shore A scale. 17. A method of using a pipe coupling, the method comprising: comparing an inner diameter of a seal of the pipe coupling to an outer diameter of a pipe element to which the pipe coupling is to be assembled, the seal disposed within a split ring of the pipe coupling, the split ring configured to compress the seal radially inward in a compressed state of the pipe coupling, the seal comprising: an outer gasket defining a radially outer surface and a radially inner surface, the radially inner surface of the outer gasket defining a plurality of grooves; and an inner gasket separably joined to the outer gasket, the inner gasket defining a radially outer surface, the radially outer surface of the inner gasket defining a plurality of ridges, the radially outer surface of the inner gasket contacting the radially inner surface of the outer gasket; and an O-ring; and removing the inner gasket from the seal. 18. The method of claim 17 , further comprising assembling the pipe coupling to the pipe element such that the radially inner surface of the outer gasket contacts a radially outermost surface of the pipe element. 19. The method of claim 17 , further comprising re-assembling the inner gasket to the outer gasket of the seal. 20. The method of claim 17 , wherein the pipe element is a first pipe element, the seal is a first seal, the split ring is a first split ring, the outer gasket is a first outer gasket, and the inner gasket is a first inner gasket; the first seal positioned proximate to a first axial end of the pipe coupling, the pipe coupling further comprising a second seal positioned proximate to a second axial end of the pipe coupling; the method further comprising: comparing an inner diameter of the second seal of