Fluid control arrangement for disk packs

What is claimed is: 1. A fluid control assembly for a disk pack including a plurality of interleaved disks movable into a disengaged state of the disks, a slip state of the disks and an engaged state of the disks, the fluid control assembly comprising: an actuator assembly configured to move the disk pack between the disengaged, slip and engaged states, the actuator assembly including a first piston configured to move in a first direction, a first spring configured to move the first piston in a direction opposite the first direction, a second piston movable with respect to the first piston, and a second spring configured to resist movement of the second piston in the first direction; a blocking member configured to be acted upon by the actuator assembly to: one of reduce and close off flow of fluid to the disk pack when in the disengaged state; one of increase and open flow of fluid to the disk pack when in the slip state; and one of reduce and close off flow of fluid to the disk pack when in the engaged state; and a rotatable shaft drive member that has a fluid passage extending radially through the drive member to an annular groove; wherein the blocking member is a ring having an inner diameter slidable along the drive member to at least partially close off the fluid passage by the inner diameter at least partially overlapping the annular groove of the drive member when the disk pack is in the disengaged and engaged states. 2. The assembly of claim 1 , wherein the blocking member is arranged to close off the fluid passage when the disk pack is in the disengaged state. 3. The assembly of claim 2 , wherein, when the disk pack is in the slip state, the blocking member is arranged to open the fluid passage to an opening in the first piston of the actuator assembly. 4. The assembly of claim 3 , wherein, when the disk pack is in the engaged state and the blocking member is arranged to open the fluid passage to the opening in the first piston of the actuator assembly, the second piston of the actuator assembly is arranged to interrupt flow from the fluid passage to the opening in the first piston. 5. The assembly of claim 2 , wherein the drive member is a rotatable shaft and the blocking member is a ring disposed about and slidable along the shaft. 6. The assembly of claim 1 , wherein the actuator assembly is hydraulically actuated to move the disk pack into the engaged state. 7. The assembly of claim 1 , wherein the first piston engages the disk pack and the blocking member; wherein the first piston moves in the first direction against the first spring to move the disk pack from the disengaged state to the slip state and to unseat the blocking member from a fluid passage through which fluid flows to a flow port in the first piston; and wherein the second spring resists movement of the second piston in the first direction when the disk pack is in the slip state. 8. The assembly of claim 7 , wherein the first piston moves in the first direction to move the disk pack from the slip state to the engaged state; and wherein the second piston moves in the first direction against the second spring to interrupt flow from the fluid passage to the flow port in the first piston. 9. The assembly of claim 8 , wherein the first and second pistons are annular members disposed about and slidable along the shaft. 10. The assembly of claim 9 , wherein the second piston is nested radially within the first piston; and wherein the second spring is disposed in a cavity radially between the first and second pistons. 11. The assembly of claim 10 , wherein the cavity is a pressure cavity for hydraulic fluid to move the first and second pistons in the first direction. 12. A fluid control assembly for a disk pack including a plurality of interleaved disks movable into a disengaged state of the disks, a slip state of the disks and an engaged state of the disks, the fluid control assembly comprising: a hydraulic piston actuator assembly configured to move the disk pack between the disengaged, slip and engaged states; a blocking ring mounted about a shaft rotating at least some of the disks of the disk pack, the shaft having a fluid passage extending radially through the shaft to an annular groove, and the blocking ring having an inner diameter slidable along the shaft by the actuator assembly; wherein the actuator assembly and the blocking ring are configured to: one of reduce and close off flow of fluid to the disk pack when in the disengaged state; one of increase and open flow of fluid to the disk pack when in the slip state; and one of reduce and close off flow of fluid to the disk pack when in the engaged state; wherein the blocking ring at least partially closes off the fluid passage by the inner diameter at least partially overlapping the annular groove of the shaft when the disk pack is in the disengaged and engaged states; wherein the blocking ring is arranged to close off the fluid passage when the disk pack is in the disengaged state; wherein, when the disk pack is in the slip state, the blocking ring is arranged to open the fluid passage to an opening in a first piston of the actuator assembly and, when the disk pack is in the engaged state and the blocking ring is arranged to open the fluid passage to the opening in the first piston of the actuator assembly, a second piston of the actuator assembly is arranged to interrupt flow from the fluid passage to the opening in the first piston. 13. A fluid control assembly for a disk pack including a plurality of interleaved disks movable into a disengaged state of the disks, a slip state of the disks and an engaged state of the disks, the fluid control assembly comprising: an actuator assembly configured to move the disk pack between the disengaged, slip and engaged states, the actuator assembly including: a first piston configured to move in a first direction; a first spring configured to move the piston in a direction opposite the first direction; a second piston movable with respect to the first piston; and a second spring configured to resist movement of the second piston in the first direction; and a blocking member configured to be acted upon by the actuator assembly, the blocking member being a ring mounted about a shaft rotating at least some of the disks of the disk pack, the shaft having a fluid passage extending radially through the shaft to an annular groove, and the blocking ring having an inner diameter slidable along the shaft by the actuator assembly; wherein the actuator assembly and the blocking member are configured to: one of reduce and close off flow of fluid to the disk pack when in the disengaged state; one of increase and open flow of fluid to the disk pack when in the slip state; and one of reduce and close off flow of fluid to the disk pack when in the engaged state; wherein the blocking member at least partially closes off the fluid passage by the inner diameter at least partially overlapping the annular groove of the shaft when the disk pack is in the disengaged and engaged states; wherein the first piston engages the disk pack and the blocking member; wherein the first piston moves in the first direction against the first spring to move the disk pack from the disengaged state to the slip state and to unseat the blocking member from a fluid passage through which fluid flows to a flow port in the first piston; and wherein the second spring resists movement of the second piston in the first direction when the disk pack is in the slip state. 14. The assembly of claim 13 , wherein the first piston moves in the first direction to move the disk pack