An engine system is disclosed. The engine system may have an engine, an intake duct, and a valve disposed within the intake duct and movable between a flow-passing first position, and a flow-blocking second position. The engine system may also have an actuator configured to move the valve from the s
An engine system is disclosed. The engine system may have an engine, an intake duct, and a valve disposed within the intake duct and movable between a flow-passing first position, and a flow-blocking second position. The engine system may also have an actuator configured to move the valve from the second position toward the first position, and a biasing element configured to move the valve from the first position toward the second position. The engine system may additionally have a sensor configured to sense an operating condition of the engine, and a controller. The controller may be configured to receive an input indicative engine activation, and to activate the actuator based on the input. The controller may also be configured to make a determination that the operating condition of the engine has deviated from a desired operating condition, and to deactivate the actuator based on the determination.
대표청구항▼
1. An engine system, comprising: an engine;an intake duct fluidly connected to the engine;a valve disposed within the intake duct and movable between a flow-passing first position, and a flow-blocking second position;an actuator selectively activated to move the valve from the second position toward
1. An engine system, comprising: an engine;an intake duct fluidly connected to the engine;a valve disposed within the intake duct and movable between a flow-passing first position, and a flow-blocking second position;an actuator selectively activated to move the valve from the second position toward the first position;a biasing element configured to move the valve from the first position toward the second position when the actuator is deactivated;a sensor configured to sense an operating condition of the engine and generate a signal indicative of the operating condition; anda controller in communication with the actuator and the sensor, the controller being configured to: receive an input indicative of engine activation;activate the actuator based on the input;make a determination that the operating condition of the engine has deviated from a desired operating condition based on the signal; anddeactivate the actuator based on the determination. 2. The engine system of claim 1, further including an ignition switch, wherein the input is associated with activation of the ignition switch by an operator. 3. The engine system of claim 1, wherein: the sensor is a speed sensor; andthe operating condition is an overspeed condition. 4. Then engine system of claim 1, wherein the actuator includes: a hydraulic cylinder configured to cause the valve to rotate; anda solenoid valve configured to selectively meter pressurized fluid to the hydraulic cylinder. 5. The engine system of claim 4, wherein the actuator is configured to move the valve toward the second position during an electrical failure and a hydraulic failure of the engine system. 6. The engine system of claim 1, further including a manual reset mechanically connected to the valve and utilized to move the valve to and hold the valve in the first position during startup of the engine. 7. The engine system of claim 6, wherein the manual reset includes: a lever fixedly connected to the valve and movable between a tripped position and a reset position; anda latch configured to retain the lever in the reset position. 8. The engine system of claim 7, wherein the latch is a temporary latch and configured to retain the lever in the reset position only until the engine becomes operational and the actuator overrides the latch. 9. The engine system of claim 7, further including at least one fuel injector configured to inject fuel into the engine, wherein the controller is in further communication with the at least one fuel injector and configured to inhibit the at least one fuel injector from injecting fuel based on the determination at about the same time that the actuator is deactivated. 10. The engine system of claim 9, further including: an exhaust cooler configured to receive and cool exhaust from the engine; anda temperature sensor configured to generate a temperature signal indicative of a temperature of exhaust downstream of the exhaust cooler,wherein the controller is in further communication with the temperature sensor and configured to reduce an amount of fuel injected by the at least one fuel injector when the temperature signal indicates a temperature of the exhaust exceeding a threshold. 11. The engine system of claim 10, wherein the threshold is a first temperature threshold, and the controller is further configured to inhibit fuel injection fuel injection when the temperature signal indicates a temperature of the exhaust exceeding a second higher temperature threshold. 12. An engine system, comprising: an engine;an intake duct fluidly connected to the engine;a valve disposed within the intake duct and movable between a flow-passing first position, and a flow-blocking second position;a hydraulic cylinder selectively pressurized with fluid to move the valve from the second position toward the first position;a solenoid valve configured to selectively pass pressurized fluid to the hydraulic cylinder when energized, and drain pressurized fluid from the hydraulic cylinder when de-energized;a spring configured to move the valve from the first position toward the second position when the hydraulic cylinder is drained of pressurized fluid;a speed sensor configured to sense a speed of the engine and generate a signal indicative of the speed; anda controller in communication with the solenoid valve and the speed sensor, the controller being configured to: make a determination that the engine is experiencing an overspeed condition based on the signal; andde-energize the solenoid valve based on the determination. 13. The engine system of claim 12, further including: a manual reset lever fixedly connected to the valve and movable between a tripped position and a reset position; anda latch configured to retain the manual reset lever in the reset position,wherein the latch is a temporary latch and configured to retain the manual reset lever in the reset position only until the engine becomes operational and a pressure of the fluid supplied to the hydraulic cylinder exceeds a minimum pressure.
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