Fluid power actuator utilizing a screw assembly

What is claimed is: 1. Loading apparatus, comprising: a base; a loading assembly having a first end coupled with the base and a second end constructed and arranged to carry a load; and a fluid power actuator including: a fluid power actuator housing coupled with the base, a piston assembly coupled with the second end of the loading assembly, the piston assembly being constructed and arranged to move relative to the fluid power actuator housing in response to changes in fluid pressure within the fluid power actuator housing, a screw assembly coupled with the fluid power actuator housing and the piston assembly, the screw assembly being constructed and arranged to control movement of the piston assembly relative to the fluid power actuator housing, a load sensor coupled with the fluid power actuator housing and a screw of the screw assembly, a fluid pumping assembly coupled with the fluid power actuator housing, and an electronic controller coupled with the load sensor and the fluid pumping assembly, the electronic controller being constructed and arranged to receive a sensor signal from the load sensor and operate the fluid pumping assembly to provide the changes in the fluid pressure based on the sensor signal. 2. Loading apparatus as in claim 1 wherein the fluid power actuator housing defines an elongated channel; wherein the piston assembly includes a piston and a rod-shaped portion that defines a central bore, at least a portion of the rod-shaped portion residing within the elongated channel defined by the fluid power actuator housing; and wherein the screw assembly includes: a nut disposed in a fixed position relative to the rod-shaped portion of the piston assembly, and a screw that threads within the nut, at least a portion of the screw being disposed within the central bore defined by the rod-shaped portion of the piston assembly. 3. Loading apparatus as in claim 2 wherein the piston assembly is constructed and arranged to slide along a central axis defined by the fluid power actuator housing in response to the changes in the fluid pressure; and wherein the screw is constructed and arranged to rotate relative to the fluid power actuator housing and the piston assembly about the central axis while remaining at a fixed location on the central axis. 4. Loading apparatus as in claim 3 wherein the fluid power actuator housing includes: a first port to supply fluid to a first space within the elongated channel between the piston assembly and the fluid power actuator housing, and a second port to supply fluid to a second space within the elongated channel between the piston assembly and the fluid power actuator housing, at least one of the fluid power actuator housing and the piston assembly separating the second space from the first space. 5. Loading apparatus as in claim 4 wherein the nut and the screw define threads with trapezoidal shapes to provide self-locking between the nut and the screw. 6. Loading apparatus as in claim 4 wherein the screw assembly further includes: a plurality of balls, and wherein the nut and the screw of the screw assembly define a recirculating ball channel that recirculates the plurality of balls in a continuous path during screw assembly operation to minimize friction. 7. Loading apparatus as in claim 4 wherein the first end of the loading assembly forms a hinge with the base; wherein the second end of the load assembly includes a munitions carrier to carry munitions; and wherein the fluid power actuator is constructed and arranged to control height of the munitions carrier relative to the base to provide high precision munitions loading. 8. A fluid power actuator, comprising: a fluid power actuator housing; a piston assembly constructed and arranged to move relative to the fluid power actuator housing in response to changes in fluid pressure within the fluid power actuator housing; and a screw assembly coupled with the fluid power actuator housing and the piston assembly, the screw assembly being constructed and arranged to control movement of the piston assembly relative to the fluid power actuator housing. 9. The fluid power actuator as in claim 8 wherein the fluid power actuator housing defines an elongated channel; wherein the piston assembly includes a piston and a rod-shaped portion that defines a central bore, at least a portion of the rod-shaped portion residing within the elongated channel defined by the fluid power actuator housing; and wherein the screw assembly includes: a nut disposed in a fixed position relative to the rod-shaped portion of the piston assembly, and a screw that threads within the nut, at least a portion of the screw being disposed within the central bore defined by the rod-shaped portion of the piston assembly. 10. The fluid power actuator as in claim 9 wherein the piston assembly is constructed and arranged to slide along a central axis defined by the fluid power actuator housing in response to the changes in the fluid power fluid pressure; and wherein the screw is constructed and arranged to rotate relative to the fluid power actuator housing and the piston assembly about the central axis while remaining at a fixed location on the central axis. 11. The fluid power actuator as in claim 10 wherein the fluid power actuator housing includes: a first port to supply fluid to a first space within the elongated channel between the piston assembly and the fluid power actuator housing, and a second port to supply fluid to a second space within the elongated channel between the piston assembly and the fluid power actuator housing, at least one of the fluid power actuator housing and the piston assembly separating the second space from the first space. 12. The fluid power actuator as in claim 10 wherein the nut and the screw define threads with trapezoidal shapes to provide self-locking between the nut and the screw. 13. The fluid power actuator as in claim 12 , further comprising: an electric motor coupled with the screw, the electric motor being constructed and arranged to rotate the screw in response to an electric control signal. 14. The fluid power actuator as in claim 13 , further comprising: a load sensor coupled with the fluid power actuator housing and the screw, a fluid pumping assembly coupled with the fluid power actuator housing, and an electronic controller coupled with the load sensor and the fluid pumping assembly, the electronic controller being constructed and arranged to receive a sensor signal from the load sensor and operate the fluid pumping assembly to provide the changes in the fluid pressure based on the sensor signal. 15. The fluid power actuator as in claim 14 wherein the load sensor includes a load cell constructed and arranged to indicate, within the sensor signal, an amount of loading between the fluid power actuator housing and the screw; and wherein the electronic controller, when providing the changes in the fluid pressure based on the sensor signal, is constructed and arranged to minimize loading between the fluid power actuator housing and the screw. 16. The fluid power actuator as in claim 10 wherein the screw assembly further includes: a plurality of balls, and wherein the nut and the screw of the screw assembly define a recirculating ball channel that recirculates the plurality of balls in a continuous path during screw assembly operation to minimize friction. 17. The fluid power actuator as in claim 16 , further comprising: a brake coupled with the screw, the brake being constructed and arranged to prevent rotati