Manually-operable hydraulic stabilizing system

The invention claimed is: 1. A hydraulic stabilizing system comprising: a plurality of hydraulic stabilizing jacks, each of said jacks having an actuator comprising: an actuator cylinder; an actuator piston slidingly engaged with said actuator cylinder, said actuator piston cooperating with said actuator cylinder to define an actuator extend chamber and an actuator retract chamber; an actuator piston rod connected to said actuator piston and selectively extendable from and retractable into said jack cylinder; and one of a pilot-operated check valve and a pilot-operated directional valve having a first flow port connected to one of said actuator retract chamber and said actuator extend chamber in fluid communication therewith; a fluid transfer pump; and a first hydraulic line connecting an output of said pump with one of said actuator extend chamber and said actuator retract chamber of said at least one of said actuators and with a second flow port of said one of a pilot-operated check valve and a pilot-operated directional valve of said at least one of said actuators. 2. The system of claim 1 , said pump comprising; a pump cylinder; and a pump piston slidingly engaged with said pump cylinder, said pump piston cooperating with said pump cylinder to define a pump first chamber and a pump second chamber. 3. The system of claim 1 , said pump further comprising a drive screw threadingly engaged with said pump piston, wherein rotation of said drive screw results in axial displacement of said pump piston with respect to said pump cylinder. 4. The system of claim 3 wherein said pump cylinder is keyed to said pump piston. 5. The system of claim 3 wherein said pump cylinder and said pump piston have complementary non-round cross-sections. 6. The system of claim 3 wherein said drive screw comprises a drive head configured for engagement with an operator having a complementary head. 7. The system of claim 3 further comprising a pump piston rod connected to said pump piston and configured to selectively receive varying portions of said drive screw therein. 8. The system of claim 1 wherein said one of a pilot-operated check valve and a pilot-operated directional valve is a pilot-operated check valve configured to allow flow into said one of said actuator extend chamber and actuator retract chamber and to check flow from said one of said actuator extend chamber and actuator retract chamber, said system further comprising a second hydraulic line connecting said pump first chamber with the other of said actuator extend chamber and said actuator retract chamber of said at least one of said actuators and with a pilot port of said pilot-operated check valve. 9. The system of claim 8 wherein said pilot-operated check valve further is configured to allow flow from said one of said actuator extend chamber and actuator retract chamber when fluid pressure at said pilot port exceeds a predetermined setpoint pressure. 10. The system of claim 1 wherein said one of a pilot-operated check valve and a pilot-operated directional valve is a pilot operated directional valve, and wherein said pilot-operated directional valve is configured to selectively enable and disable flow between said output of said pump and said one of said actuator extend chamber and said actuator retract chamber of said at least one of said actuators. 11. The system of claim 10 further comprising a biasing mechanism associated with the other of said actuator extend chamber and said actuator retract chamber of said at least one of said actuators, said biasing mechanism configured to bias said actuator piston of said at least one of said actuators from said other of said actuator extend chamber and said actuator retract chamber toward said one of said actuator extend chamber and said actuator retract chamber. 12. The system of claim 10 wherein said pump is a reciprocating pump, said system further comprising: a fluid reservoir; a first check valve in fluid communication with said fluid reservoir and said pump second chamber, said first check valve configured to allow flow from said reservoir to said pump second chamber when said pump piston is moved from said pump second chamber toward said pump first chamber and to check flow from said pump second chamber to said reservoir when said pump piston is moved from said pump first chamber toward said pump second chamber; a second check valve in fluid communication with said pump second chamber and said one of said actuator retract chamber and said actuator extend chamber, said second check valve configured to allow flow from said pump second chamber to said one of said actuator retract chamber and said actuator extend chamber when said pump piston is moved from said pump first chamber toward said pump second chamber and to check flow from said reservoir to said pump second chamber when said pump piston is moved from said pump second chamber toward said pump first chamber; and a control valve in fluid communication with said one of said actuator retract chamber and said actuator extend chamber and said reservoir, said control valve configured to selectively allow flow from said one of said actuator retract chamber and said actuator extend chamber to said reservoir. 13. The system of claim 1 , each of said jacks further comprising: a base defining a channel, the channel carrying a trunnion; a leg having a first end and a second end, the first end operably connected to the trunnion; and a strut pivotably connected to the base and to the leg, wherein the actuator is configured to selectively displace the trunnion within the channel. 14. The system of claim 1 installed on a vehicle. 15. The system of claim 14 , wherein said vehicle comprises four corners and said plurality of jacks comprises four jacks, each of said four jacks located at a corresponding one of said four corners. 16. The system of claim 14 configured to equalize pressure at each of said actuators. 17. The system of claim 1 , each of said jacks further comprising a foot attached to a free end of said actuator piston rod.