Electrohydraulic valve having dual-action right-angle pilot actuator

What is claimed is: 1. A pilot actuator for a valve, comprising: a cage having a base end and a tip end; a pilot bore formed in the cage; a supply port formed in the cage and intersecting with the pilot bore; a drain port formed in the cage and intersecting with the pilot bore; a first end port formed in the cage and intersecting with the pilot bore; a second end port formed in the cage and intersecting with the pilot bore; a pilot spool slidingly disposed in the pilot bore and movable to selectively connect the supply port and the drain port with the first and second end ports; a follower separate from the cage and disposed at the tip end of the cage; a first spring operatively connecting the follower to the cage; a second spring operatively connecting the follower to the pilot spool; and a pin connected to an end of the pilot spool and passing through a center of the pilot spool. 2. The pilot actuator of claim 1 , wherein the second spring operatively connects the follower to the pin. 3. The pilot actuator of claim 2 , wherein the second spring is a captured spring configured to exert force during both compression and tension as the follower moves relative to the pin and the pilot spool. 4. The pilot actuator of claim 1 , further including a solenoid located at the base end of the cage and operatively connected to the pilot spool. 5. The pilot actuator of claim 4 , wherein the solenoid is configured to push and to pull the pilot spool relative to the cage. 6. The pilot actuator of claim 4 , wherein the solenoid is further operatively connected to the follower via the second spring. 7. A valve, comprising: a valve body; a central bore formed in the valve body; an actuator passage formed in the valve body and intersecting with the central bore; at least one of a supply passage and a drain passage formed in the valve body and intersecting with the central bore; a control spool slidingly disposed in the central bore and movable to selectively connect the actuator passage and the at least one of the supply passage and the drain passage, the control spool having a base end and a tip end; a pilot actuator located at the tip end of the control spool, the pilot actuator operable to selectively direct pressurized fluid to one of the base end and the tip end of the control spool and to receive mechanical force feedback from the tip end; wherein the tip end of the control spool has a tapered outer surface, and the pilot actuator is configured to mechanically engage the tapered outer surface; wherein the pilot actuator includes: a cage having a base end and a tip end; a pilot bore formed in the cage; a supply port formed in the cage and intersecting with the pilot bore; a drain port formed in the cage and intersecting with the pilot bore; a first end port formed in the cage and fluidly communicating the pilot bore with the tip end of the control spool; a second end port formed in the cage and fluidly communicating the pilot bore with the base end of the control spool; a pilot spool slidingly disposed in the pilot bore and movable to selectively connect the supply port and the drain port with the first and second end ports; a follower separate from the cage and disposed at the tip end of the cage, the follower configured to remain in contact with the tapered outer surface of the control spool at the tip end of the control spool; a first spring operatively connecting the follower to the cage; a second spring operatively connecting the follower to the pilot spool; and a pin connected to an end of the pilot spool and passing through a center of the pilot spool. 8. The valve of claim 7 , further including a third spring located at the tip end of the control spool and configured to center the control spool within the central bore. 9. The valve of claim 8 , wherein the third spring is a captured spring configured to exert force during both compression and tension as the control spool is moved away from a neutral position in opposing directions. 10. The valve of claim 7 , wherein the second spring operatively connects the follower to the pin. 11. The valve of claim 10 , wherein the second spring is a captured spring configured to exert force during both compression and tension as the follower moves relative to the pin and the pilot spool. 12. The valve of claim 7 , wherein the pilot actuator further includes a solenoid located at the base end of the cage and operatively connected to the pilot spool. 13. The valve of claim 12 , wherein: the solenoid is configured to push and to pull the pilot spool relative to the cage; and the solenoid is further operatively connected to the follower via the second spring.