Hydraulic actuator lockout

What is claimed is: 1. A fluid control apparatus comprising: a valve comprising: a valve housing having an axial bore extending between a first end and a second end, a first inlet port in fluid communication with the axial bore, and a first outlet port in fluid communication with the axial bore; and a piston located within the axial bore and having a first fluid passage and configured for reciprocal axial movement of the piston within the axial bore between a first position in which the first fluid passage aligns axially with the first inlet port and the first outlet port to form a first fluidic circuit in the first position, and a second position in which the piston blocks at least one of the first inlet port and the first outlet port; and a lockout assembly comprising: a stop comprising a cam configurable to a first rotary position in a first configuration and a second rotary position in a second configuration; and a lever arm configured to reversibly secure the lockout assembly to a fastener in a first lever arm position to fix the piston into a selected position in the first configuration in which the stop contacts the piston, and not interfere with reciprocal axial movement of the piston in the second configuration in which the stop does not contact the piston. 2. The apparatus of claim 1 , wherein the selected position is the first position. 3. The apparatus of claim 1 , wherein the selected position is the second position. 4. The apparatus of claim 1 , wherein the stop is disposed at an axial end of the piston. 5. The apparatus of claim 1 , wherein: the lockout assembly further comprises a support coupled to the valve housing and having a threaded bore therein; the stop further comprises a fastener threadedly engaged with the threaded bore; the first configuration comprises threading the fastener through the threaded bore so as to contact the piston; and the second configuration comprises threading the fastener through the threaded bore so as to not contact the piston. 6. The apparatus of claim 1 , wherein: the valve housing further comprises a fluid chamber at one of the first end or the second end; the piston further comprises an axial piston end forming a moveable portion of the fluid chamber, the piston being axially moveable to the selected position by fluidic pressure applied to the axial piston end. 7. The apparatus of claim 6 , wherein: the fluid chamber in fluidic communication with a second inlet port and a second outlet port; the lockout assembly comprises an outlet valve in fluidic communication with the second outlet port; and the first configuration permits the pressurized fluid to flow out of the fluid chamber, and the second configuration prevents flow of the pressurized fluid from the fluid chamber. 8. The apparatus of claim 7 , wherein: the second inlet port is in fluidic communication with a pressurized fluid; the first configuration permits a threshold fluid pressure within the fluid chamber sufficient to urge the piston into the selected position; and the second configuration relieves the fluid pressure within the fluid chamber below the threshold fluid pressure. 9. The apparatus of claim 6 , wherein the lockout assembly comprises a stop configurable to extend through the fluid chamber and contact the axial piston end in the first configuration and not contact the axial piston end in the second configuration. 10. The apparatus of claim 1 , wherein: the piston is fluidly connected on a first end to a first fluid pressure chamber and fluidly connected on a second end to a second fluid pressure chamber, the piston configured for reciprocal axial movement in response to a pressure differential between a first fluid in the first fluid pressure chamber and a second fluid in the second fluid pressure chamber; the valve further comprises a flapper assembly including an activation portion and closure portion, said closure portion of the flapper assembly extending from the activation portion, said flapper assembly configured to move said closure portion to engage a first fluid flow control element on the first fluid pressure chamber when the closure portion is in a first closure position and configured to move said closure portion to engage a second fluid flow control element on the second fluid pressure chamber when the closure portion is in a second closure position; and the lockout assembly comprises a stop configurable to fix the activation portion in a selected activation position in the first configuration and not interfere with movement of the activation portion in the second configuration. 11. The apparatus of claim 10 , wherein the selected activation position positions the closure to a selected closure position. 12. The apparatus of claim 11 , wherein the selected closure position is the first closure position. 13. The apparatus of claim 11 , wherein the selected closure position is the second closure position. 14. The apparatus of claim 10 , wherein: the lockout assembly further comprises a support coupled to the valve housing and having a threaded bore therein; the stop further comprises a fastener threadedly engaged with the threaded bore; the first configuration comprises threading the fastener through the threaded bore so as to contact the activation portion; and the second configuration comprises threading the fastener through the threaded bore so as to not contact the activation portion. 15. The apparatus of claim 1 , further comprising a fluid actuator comprising: a stator portion; an actuator portion; and a fluid chamber between the stator portion and the actuator portion, the fluid chamber in fluid communication with the first outlet. 16. The apparatus of claim 15 , further comprising a high-capacity fluid valve having a fluid control portion coupled to the actuator portion. 17. The apparatus of claim 16 , wherein the fluid control portion is operable to control a flow of fluid to an aircraft component. 18. A method of controlling a fluid flow comprising: providing a valve comprising: a valve housing having an axial bore extending between a first end and a second end, a first inlet port in fluid communication with the axial bore, and a first outlet port in fluid communication with the axial bore; and a piston located within the axial bore and having a first fluid passage and configured for reciprocal axial movement of the piston within the axial bore between a first position in which the first fluid passage aligns axially with the first inlet port and the first outlet port to form a first fluidic circuit in the first position, and a second position in which the piston blocks at least one of the first inlet port and the first outlet port; providing a lockout assembly comprising: a lever arm configured to reversibly secure the lockout assembly to a fastener in a first lever arm position to fix the piston into a selected position in a first configuration, and not interfere with reciprocal axial movement of the piston in a second configuration; and a lock operable to prevent disengagement of the lockout assembly from the first configuration; actuating the lockout assembly into the first configuration; fixing, by the lockout assembly, the piston into a selected position; and locking the lockout assembly into the first configuration. 19. The method of claim 18 , wherein the selected position is the first position. 20. The method of claim 18 , wherein the selected position is the second position. 21. The meth