Mecha-hydraulic actuated inlet control valve

What is claimed is: 1. A fluid control device comprising: a housing defining a plunger cavity in fluid communication with a fluid inlet and a fluid outlet; a valve comprising: a shaft having a first end and a second end; and a stopper at the first end, configured to block a fluid circuit between the fluid inlet and the fluid outlet in a first configuration of the inlet control valve and connect the fluid circuit in a second configuration of the inlet control valve; and a plunger configured for axial movement within the plunger cavity, defining a shaft cavity having an inner wall extending from an enclosed end to an open end in fluid communication with the fluid outlet, and configured to accommodate axial movement of the shaft within the shaft cavity. 2. The fluid control device of claim 1 , wherein the shaft and the inner wall define a fluid passage from the open end to the enclosed end. 3. The fluid control device of claim 2 , wherein the shaft cavity and the shaft are configured such that the fluid passage has a predetermined cross-section. 4. The fluid control device of claim 1 , further comprising a biasing member configured to urge the valve toward the first configuration. 5. The fluid control device of claim 1 , further comprising a fluid seal between the plunger and a plunger cavity wall of the plunger cavity, wherein the seal defines a portion of the plunger cavity. 6. The fluid control device of claim 1 , further comprising an actuator configured to urge movement of the inlet control valve between the first configuration and the second configuration. 7. The fluid control device of claim 6 , wherein the actuator comprises a cam follower coupled to the plunger and configured to urge reciprocal axial movement of the plunger in response to rotation of a cam. 8. The fluid control device of claim 6 , wherein the actuator comprises a linkage connected to a crankshaft. 9. The fluid actuator of claim 6 , wherein the actuator is one of an electromagnetic solenoid, an electromagnetic servo, or an electromagnetic motor coupled to the plunger and configured to urge reciprocal axial movement of the plunger in response to an electrical activation signal. 10. A method of fluid control comprising: blocking, by a stopper at a first end of a shaft of a valve, a fluid circuit between a fluid inlet to a fluid outlet, wherein the valve is at a first position; moving a plunger axially within a plunger cavity from a first plunger position toward a second plunger position, wherein the shaft is arranged within a shaft cavity defined within the plunger between an enclosed end and an open end; reducing, by movement of the plunger toward the second plunger position, fluid pressure of a fluid within the shaft cavity between the shaft and the plunger; urging, by the reduced fluid pressure, axial movement of the shaft within the shaft cavity from a first valve position toward a second valve position; and unblocking, by the stopper based on axial movement of the shaft, the fluid circuit. 11. The method of claim 10 , further comprising: flowing fluid from the open end toward the enclosed end between the shaft and an inner wall of the shaft cavity; restoring fluid pressure within the shaft cavity between the shaft and the plunger; and stopping movement of the shaft relative to the plunger. 12. The method of claim 10 , further comprising: moving the plunger axially within the plunger cavity toward the first plunger position; increasing, by movement of the plunger toward the first position, fluid pressure within the shaft cavity between the shaft and the plunger; urging, by the increased fluid pressure, axial movement of the shaft within the shaft cavity toward the first valve position; and blocking, by the stopper, the fluid circuit. 13. The method of claim 12 , further comprising: flowing fluid from the shaft cavity toward the open end between the shaft and an inner wall of the shaft cavity; restoring fluid pressure within the shaft cavity between the shaft and the plunger; and stopping movement of the shaft relative to the plunger. 14. The method of claim 10 , further comprising urging, by a biasing force provided by a compliant member, movement of the valve toward the first valve position, wherein the reduced fluid pressure is sufficient to overcome the biasing force. 15. An engine system comprising: a combustion chamber; a camshaft; a fuel rail; and a fluid control device comprising: a housing defining a fluid inlet in fluid communication with the fuel rail; a fluid outlet in fluid communication with the combustion chamber and the plunger cavity; a valve comprising: a shaft having a first end and a second end; and a stopper at the first end, configured to substantially block fluid flow from the fluid inlet to the fluid outlet in a first configuration of the inlet control valve and allow fluid flow from the fluid inlet to the fluid outlet in a second configuration of the inlet control valve; and a plunger configured to follow the camshaft and move axially within the plunger cavity, the plunger defining a shaft cavity having an inner wall extending from an enclosed end to an open end in fluid communication with the fluid outlet, and configured to accommodate axial movement of the shaft within the shaft cavity. 16. The engine system of claim 15 , wherein the shaft and the inner wall define a fluid passage from the open end to the enclosed end. 17. The engine system of claim 16 , wherein the shaft cavity and the shaft are configured such that the fluid passage has a predetermined cross-section. 18. The engine system of claim 15 , further comprising a biasing member configured to urge the valve toward the first configuration. 19. The engine system of claim 15 , further comprising a fluid seal between the plunger and a plunger cavity wall of the plunger cavity, wherein the seal defines a portion of the plunger cavity. 20. The engine system of claim 15 , further comprising an actuator configured to urge movement of the inlet control valve between the first configuration and the second configuration. 21. The engine system of claim 20 , wherein the actuator comprises a cam follower coupled to the plunger and configured to urge reciprocal axial movement of the plunger in response to rotation of a cam. 22. The engine system of claim 20 , wherein the actuator comprises a linkage connected to a crankshaft. 23. The engine system of claim 20 , wherein the actuator is one of an electromagnetic solenoid, an electromagnetic servo, or an electromagnetic motor coupled to the plunger and configured to urge reciprocal axial movement of the plunger in response to an electrical activation signal.