Hydraulic fluid systems for machine implements

What is claimed is: 1. A hydraulic fluid system for a work implement having a support plate and provided on a machine having an auxiliary hydraulic fluid supply line and an auxiliary hydraulic fluid return line, the hydraulic fluid system comprising: a motor having an inlet port and an outlet port; a mounting plate coupled to the support plate of the implement, the mounting plate including: a body defining an exterior surface including a mounting portion coupled to the motor; a supply conduit extending through the body from a first supply port, formed in the exterior surface and configured to fluidly communicate with the auxiliary hydraulic fluid supply line, to a second supply port, formed in the exterior surface and coupled to the inlet port of the motor; a return conduit extending through the body from a first return port, formed in the exterior surface and coupled to the outlet port of the motor, and a second return port, formed in the exterior surface and configured to fluidly communicate with the auxiliary hydraulic fluid return line; and wherein the mounting plate further defines a bypass conduit formed at least partially in the body and fluidly communicating between the supply conduit and the return conduit. 2. The hydraulic fluid system of claim 1 , in which the exterior surface of the body of the mounting plate further includes an internal face, an external face defining the mounting portion, a central bore extending entirely through the body from the external face to the internal face, and a side wall opposite of the central bore, and in which the first supply port and second return port are formed in the side wall, and the second supply port and first return port are formed in the external face. 3. The hydraulic fluid system of claim 1 , in which the mounting plate further defines an anti-cavitation conduit formed at least partially in the body and fluidly communicating between the supply conduit and the return conduit independent of the bypass conduit. 4. The hydraulic fluid system of claim 3 , in which: the mounting plate further defines a central bore extending entirely through the body; the bypass conduit is at least partially defined by a first groove formed in the central bore; and the anti-cavitation conduit is at least partially defined by a second groove formed in the central bore independent of the first groove. 5. The hydraulic fluid system of claim 4 , further comprising a bearing sleeve disposed in the central bore of the mounting plate and extending over the first and second grooves. 6. The hydraulic fluid system of claim 1 , in which the mounting plate further defines a pressure relief conduit extending through the body and fluidly communicating between the supply conduit and the return conduit. 7. The hydraulic fluid system of claim 6 , further comprising a pressure relief valve disposed in the pressure relief conduit. 8. The hydraulic fluid system of claim 1 , further comprising a shaft of the work implement defining a shaft conduit having an inlet end fluidly communicating with the return conduit, and an outlet end fluidly communicating with the auxiliary hydraulic fluid return line. 9. The hydraulic fluid system of claim 8 , further comprising a check valve disposed in the shaft conduit and configured to permit fluid flow only from the inlet end of the shaft conduit to the outlet end of the shaft conduit. 10. A kit for retrofitting a hydraulic fluid system for a work implement, the hydraulic fluid system including an existing motor coupled to a support plate of the work implement, the work implement being configured for use with a machine having an auxiliary hydraulic fluid supply line and an auxiliary hydraulic fluid return line, the kit comprising: a mounting plate configured for coupling to the support plate of the implement, the mounting plate including: a body defining an exterior surface including a mounting portion configured for coupling to the existing motor; a supply conduit extending through the body from a first supply port, formed in the exterior surface and configured to fluidly communicate with the auxiliary hydraulic fluid supply line, to a second supply port, formed in the exterior surface and positioned to directly couple to an inlet port of the existing motor; a return conduit extending through the body from a first return port, formed in the exterior surface and positioned to directly couple to an outlet port of the existing motor, and a second return port, formed in the exterior surface and configured to fluidly communicate with the auxiliary hydraulic fluid return line; and a shaft configured for attachment to an eccentric mass of the work implement, the shaft defining a shaft conduit having an inlet end fluidly communicating with the return conduit, and an outlet end fluidly communicating with the auxiliary hydraulic fluid return line. 11. The kit of claim 10 , further comprising a check valve disposed in the shaft conduit and configured to permit fluid flow only from the inlet end of the shaft conduit to the outlet end of the shaft conduit. 12. The kit of claim 10 , in which the mounting plate further defines a central bore extending entirely through the body, a bypass conduit is at least partially defined by a first groove formed in the central bore, and an anti-cavitation conduit is at least partially defined by a second groove formed in the central bore independent of the first groove, the kit further comprising a bearing sleeve disposed in the central bore of the mounting plate and extending over the first and second grooves. 13. The kit of claim 10 , further comprising a new motor for replacing the existing motor, in which the mounting portion of the mounting plate is further configured for coupling to the new motor, the second supply port is positioned to directly couple to an inlet port of the new motor, and the first return port is positioned to directly couple to an outlet port of the new motor. 14. The kit of claim 13 , in which the exterior surface of the body of the mounting plate further includes an external face defining the mounting portion and a side wall, and in which the first supply port and second return port are formed in the side wall, and the second supply port and first return port are formed in the external face. 15. A method of retro-fitting a hydraulic work implement having a support plate and provided on a machine having an auxiliary hydraulic fluid supply line and an auxiliary hydraulic fluid return line, the work implement further includes an existing shaft coupled to the existing motor, the method comprising: removing an existing implement hydraulic manifold from the work implement; removing an existing motor mount from the support plate of the work implement; detaching an existing motor from the existing motor mount; installing a new mounting plate onto the support plate of the implement, the new mounting plate including: a body defining an exterior surface including a mounting surface; a supply conduit extending through the body from a first supply port formed in the exterior surface to a second supply port formed in the exterior surface; and a return conduit extending through the body from a first return port formed in the exterior surface to a second return port formed in the exterior surface; attaching the existing motor to the mounting surface of the body of the new mounting plate, so that the second supply port is directly coupled to an inlet port of the existing motor and the first return port is directly coupled to an outlet port of the existing motor; removing the existing shaft from the hydraulic