Bushing and cable gland including bushing

What is claimed is: 1. A bushing for a cable gland, the bushing comprising: a bushing body having a generally annular shape, the bushing body having an interior surface defining an opening extending through first and second axial ends of the bushing body, an exterior surface, and an axis extending through the first and second axial ends, wherein the bushing body is axially compressible; and an internal rib extending radially inward from the interior surface relative to the axis of the bushing body, wherein the internal rib is configured to move radially inward relative to the axis of the bushing when the bushing body is axially compressed to sealingly engage a cable coupled to the cable gland, wherein an inner diameter of the bushing is constant along the axis of the bushing body from the first axial end to the second axial end except for at a location of the internal rib. 2. The bushing set forth in claim 1 , wherein the bushing body and the internal rib are integrally formed as a single, monolithic structure. 3. The bushing set forth in claim 2 , wherein the bushing body and the internal rib comprise a silicone rubber material. 4. The bushing set forth in claim 3 , wherein silicone rubber material has a 70 Shore A hardness. 5. The bushing set forth in claim 4 , wherein the silicone rubber material is rated to withstand environmental temperatures of −60° C. to −110° C. 6. The bushing set forth in claim 1 , wherein the thickness of the bushing body between the interior and exterior surfaces is generally uniform along the axis of the bushing body. 7. The bushing set forth in claim 1 , further comprising a groove defined by the bushing body, wherein the groove extends radially inward toward the axis from the exterior surface of the bushing body. 8. The bushing set forth in claim 7 , wherein the groove is generally radially aligned with the internal rib relative to the axis of the bushing body. 9. The bushing set forth in claim 1 , wherein the groove comprises a plurality of grooves. 10. The bushing set forth in claim 1 , wherein the internal rib comprises a plurality of internal ribs spaced from one another along the axis of the bushing body. 11. The bushing set forth in claim 1 , wherein the bushing includes a single internal rib. 12. A cable gland comprising: a gland body defining an internal passage configured to receive a cable therein; and a bushing received in the internal passage of the gland body, the bushing comprising a bushing body having a generally annular shape, the bushing body having an interior surface defining an opening extending through first and second axial ends of the bushing body, an exterior surface, and an axis extending through the first and second axial ends, wherein the bushing body is axially compressible; and an internal rib extending radially inward from the interior surface relative to the axis of the bushing body, wherein the internal rib is configured to move radially inward relative to the axis of the bushing when the bushing body is axially compressed to sealingly engage the cable when the cable is coupled to the cable gland, wherein an inner diameter of the bushing is constant along the axis of the bushing body from the first axial end to the second axial end except for at a location of the internal rib. 13. The cable gland set forth in claim 12 , wherein the bushing body and the internal rib are integrally formed as a single, monolithic structure. 14. The cable gland set forth in claim 13 , wherein the bushing body and the internal rib comprise a silicone rubber material. 15. The cable gland set forth in claim 14 , wherein silicone rubber material has a 70 Shore A hardness. 16. The cable gland set forth in claim 15 , wherein the silicone rubber material is rated to withstand environmental temperatures of −60° C. to −110° C.