A refuse vehicle includes a chassis having an engine, a body assembly, a tailgate pivotally attached to the body assembly, a CNG fuel system having a CNG fuel tank coupled to the tailgate and moveable therewith, the engine configured to be powered by the CNG fuel system, at least one of one a non-st
A refuse vehicle includes a chassis having an engine, a body assembly, a tailgate pivotally attached to the body assembly, a CNG fuel system having a CNG fuel tank coupled to the tailgate and moveable therewith, the engine configured to be powered by the CNG fuel system, at least one of one a non-structural conduit, a non-structural raceway, and a non-structural channel configured to contain at least one of wiring and a hydraulic line, and an impact mitigation system. The impact mitigation system is a passive system and includes a skeleton. The skeleton includes a plurality of structural frame members positioned to direct impact loads around the CNG fuel tank. The impact mitigation system provides a protected region within which the CNG fuel tank is disposed.
대표청구항▼
1. A refuse vehicle, comprising: a chassis having an engine;a body assembly defining an internal volume and coupled to the chassis;a tailgate pivotally attached to the body assembly and movable between an open position and a closed position to selectively expose the internal volume of the body assem
1. A refuse vehicle, comprising: a chassis having an engine;a body assembly defining an internal volume and coupled to the chassis;a tailgate pivotally attached to the body assembly and movable between an open position and a closed position to selectively expose the internal volume of the body assembly;a CNG fuel system including a CNG fuel tank coupled to the tailgate and moveable therewith, wherein the engine is configured to be powered by the CNG fuel system;at least one of a non-structural conduit, a non-structural raceway, and a non-structural channel configured to contain at least one of wiring and a hydraulic line;an impact mitigation system comprising a passive system and including a skeleton, the skeleton comprising a plurality of structural frame members positioned to direct impact loads around the CNG fuel tank, wherein the impact mitigation system provides a protected region within which the CNG fuel tank is disposed. 2. The refuse vehicle of claim 1, further comprising a cover defining an inner space within which the CNG fuel tank is disposed. 3. The refuse vehicle of claim 2, wherein the skeleton is coupled to the cover and moveable therewith. 4. The refuse vehicle of claim 1, wherein the CNG fuel system includes a controller and a shutoff valve configured to selectively restrict a flow of fuel from the CNG fuel system to the engine. 5. The refuse vehicle of claim 4, wherein the shutoff valve comprises a normally-closed valve configured to be actuated into an open position in response to receiving an actuation signal from the controller. 6. The refuse vehicle of claim 5, wherein the CNG fuel system includes a pressure sensor positioned along the flow of fuel to monitor a pressure thereof. 7. The refuse vehicle of claim 6, wherein the controller is configured to terminate transmission of the actuation signal to the shutoff valve such that the shutoff valve restricts the flow of fuel in response the pressure of the flow of fuel falling below a pressure threshold. 8. The refuse vehicle of claim 5, wherein the CNG fuel system includes at least one temperature sensor positioned to monitor a temperature of at least one of a bay within which the engine is disposed and the internal volume of the body assembly. 9. The refuse vehicle of claim 8, wherein the controller is configured to terminate transmission of the actuation signal to the shutoff valve such that the shutoff valve restricts the flow of fuel in response to the temperature of the at least one of the bay within which the engine is disposed and the internal volume of the body assembly exceeding a temperature threshold. 10. The refuse vehicle of claim 5, wherein the normally-closed valve is a normally-closed solenoid valve configured to actuate from a closed position to the open position in response to receiving the actuation signal from the controller. 11. The refuse vehicle of claim 1, further comprising a shutoff valve coupled to a lower portion of body assembly such that an operator of the refuse vehicle is able to manually isolate the CNG fuel system by engaging the shutoff valve. 12. The refuse vehicle of claim 1, wherein the impact mitigation system comprises an active system including at least one sensor positioned to monitor a relative position of the CNG fuel system and an object within a surrounding environment. 13. The refuse vehicle of claim 12, wherein the active system includes a controller coupled to the at least one sensor, the controller configured to engage one or more vehicle systems to at least one of: (a) avoid an impact, (b) mitigate an impact by reducing a relative velocity between the refuse vehicle and the object, (c) isolate or otherwise disengage the CNG fuel system, and (d) warn an operator of the refuse vehicle of a potential impact in response to data received from the at least one sensor. 14. A fuel system for a vehicle, comprising: a CNG fuel tank configured to provide fuel to power an engine of the vehicle;a shutoff valve configured to be positioned along a flow path between the CNG fuel tank and the engine, wherein the shutoff valve is configured to selectively restrict a flow of fuel along the flow path;a temperature sensor configured to monitor a temperature of at least one of the engine of the vehicle and a temperature associated with a body area of the vehicle and provide a temperature signal; anda controller coupled to the temperature sensor and the shutoff valve, wherein the controller is configured to at least one of engage and disengage the shutoff valve in response to the temperature signal indicating a temperature in excess of a temperature threshold. 15. The fuel system of claim 14, further comprising a pressure sensor configured to monitor a pressure of the flow of fuel and provide a pressure signal, wherein the controller is configured to at least one of engage and disengage the shutoff valve in response to the pressure signal indicating a pressure below a pressure threshold. 16. The fuel system of claim 14, further comprising a proximity sensor positioned to monitor a relative position of the fuel system and an object within a surrounding environment. 17. The fuel system of claim 16, wherein the controller is configured to at least one of engage and disengage the shutoff valve such that the shutoff valve restricts the flow of fuel in response to the object having a proximity that is closer than a distance threshold. 18. A fuel system for a vehicle, comprising: a CNG fuel tank configured to provide fuel to power an engine of the vehicle;a shutoff valve positioned along a flow path between the CNG fuel tank and the engine, wherein the shutoff valve is configured to selectively restrict a flow of fuel along the flow path;a pressure sensor positioned along the flow path and configured to monitor a pressure of the flow of fuel;a proximity sensor positioned to monitor a relative position between the fuel system and an object within a surrounding environment; anda controller coupled to the pressure sensor and the shutoff valve, wherein the controller is configured to: identify a pressure fault condition in response to the pressure of the fuel falling below a pressure threshold, the pressure threshold relating to an expected operating pressure of the fuel; andat least one of engage and disengage the shutoff valve such that the shutoff valve restricts the flow of fuel in response to the pressure fault condition. 19. The fuel system of claim 18, wherein the controller is configured to at least one of engage and disengage the shutoff valve such that the shutoff valve restricts the flow of fuel in response to the object having a proximity that is closer than a distance threshold.
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