Vibration isolator with hydraulic pass-thru

What is claimed is: 1. A vibration isolator comprising: a first attachment plate including a first hydraulic fitting and defining a first central bore; a second attachment plate including a second hydraulic fitting and defining a second central bore; and a single piece resilient member defining a third central bore and disposed between the first and second attachment plates, wherein the first, second and third central bores are in fluid communication with each other to provide a hydraulic fluid communication path between the first hydraulic fitting and the second hydraulic fitting, and wherein the single piece resilient member is configured to permit flexing of the vibration isolator between the first and second attachment plates. 2. The vibration isolator of claim 1 wherein the first and second attachment plates are bonded to the resilient member, providing a fluid tight seal between each attachment plate and the resilient member. 3. The vibration isolator of claim 1 wherein first and second attachment plates include identical configurations. 4. The vibration isolator of claim 3 wherein the attachment plates include a rectangular configuration with four straight sides that meet at four corners, wherein the plates define a mounting hole in each corner. 5. The vibration isolator of claim 1 wherein the first and second attachment plates include outer surfaces that are flat and inner surfaces that contact the resilient member that are flat. 6. The vibration isolator of claim 5 wherein the outer surfaces of the first and second attachment plates define seal grooves that surround the central bores of the attachment plates. 7. The vibration isolator of claim 4 wherein the resilient member includes a first end and a second end that have generally octagonal configurations that define octagonal perimeters with eight flat sides. 8. The vibration isolator of claim 7 wherein every other flat side of the octagonal perimeter is at least nearly tangent to a straight side of an attachment plate. 9. The vibration isolator of claim 7 wherein the resilient member defines a necked intermediate portion disposed between the first and second ends. 10. The vibration isolator of claim 1 wherein the attachment plates and resilient member each define a center of mass and the central bores include a cylindrical configuration with a center and wherein each of the centers of the central bores and each of the centers of mass are aligned with each other. 11. A vibratory plate compactor assembly comprising: an upper portion; a lower portion that is movably attached to the upper portion and that includes a compacting plate; a vibration mechanism operatively associated with the lower portion for vibrating the lower portion; a hydraulic manifold that is attached to the upper portion; and at least a first vibration isolator that connects the upper portion to the lower portion; the vibration isolator including a first attachment plate including a first hydraulic fitting and defining a first central bore; a second attachment plate including a second hydraulic fitting and defining a second central bore; and a single piece resilient member defining a third central bore and disposed between the first and second attachment plates, wherein the first, second and third central bores are in fluid communication with each other to provide a hydraulic fluid communication path between the first hydraulic fitting and the second hydraulic fitting, and wherein the single piece resilient member is configured to permit flexing of the vibration isolator between the first and second attachment plates. 12. The vibratory plate compactor assembly of claim 11 further comprising a second vibration isolator that is similarly configured as the first vibration isolator. 13. The vibratory plate compactor assembly of claim 12 further comprising a first conduit that connects the first vibration isolator to the manifold and a second conduit that connects the first vibration isolator to the vibration mechanism. 14. The vibratory plate compactor assembly of claim 13 further comprising a third conduit that connects the second vibration isolator to the vibration mechanism and a fourth conduit that connects the second vibration isolator to the manifold. 15. The vibratory plate compactor assembly of claim 12 further comprising a third and a fourth vibration isolator wherein the third and fourth vibration isolators lack central bores. 16. The vibratory plate compactor assembly of claim 15 wherein the vibration mechanism includes a hydraulic cylinder that includes a hydraulic inlet and a hydraulic outlet that are in close proximity to one another and the first vibration isolator is in close proximity to the inlet and the second vibration isolator is in close proximity to the outlet. 17. The vibratory plate compactor assembly of claim 16 wherein the third and fourth vibration isolators are disposed on the opposite side of the assembly compared to the position of the first and second vibration isolators. 18. The vibratory plate compactor assembly of claim 11 wherein the upper portion of the assembly includes a downward extending connecting bracket and the lower portion of the assembly includes an upward extending attachment bracket and the first vibration isolator is fastened to and positioned between the upward extending and downwardly extending attachment brackets. 19. The vibratory plate compactor assembly of claim 11 wherein the attachment plates of the first vibration isolator each defines seal groove and a seal is disposed in the seal groove. 20. A vibratory plate compactor assembly comprising: an upper portion; a lower portion that is movably attached to the upper portion and that includes a compacting plate; a vibration mechanism operatively associated with the lower portion for vibrating the lower portion; a hydraulic manifold that is attached to the upper portion; a first vibration isolator that connects the upper portion to the lower portion; the vibration isolator including a first attachment plate including a first hydraulic fitting and defining a first central bore; a second attachment plate including a second hydraulic fitting and defining a second central bore; and a single piece resilient member defining a third central bore and disposed between the first and second attachment plates, wherein the first, second and third central bores are in fluid communication with each other to provide a hydraulic fluid communication path between the first hydraulic fitting and the second hydraulic fitting, and wherein the single piece resilient member is configured to permit flexing of the vibration isolator between the first and second attachment plates; a second vibration isolator that is similarly configured to the first vibration isolator; a first rigid tubing that is in fluid communication with the manifold and the first vibration isolator; a second rigid tubing that is in fluid communication with the first vibration isolator and the vibration mechanism; a third rigid tubing that is in fluid communication with the vibration mechanism and the second vibration isolator; and a fourth rigid tubing that is in fluid communication with the second vibration isolator and the manifold.