A fuel injection apparatus for use in an internal combustion engine includes a fuel injector having a valve member which is operable to control injection of fuel through an injector outlet, a first supply path having a first path length for delivering fuel to an injector control chamber, a second su
A fuel injection apparatus for use in an internal combustion engine includes a fuel injector having a valve member which is operable to control injection of fuel through an injector outlet, a first supply path having a first path length for delivering fuel to an injector control chamber, a second supply path having a second path length for delivering fuel to an injector delivery chamber and a control valve for controlling fuel pressure within the injector control chamber so as to control movement of the valve member. An actuation means is arranged to vary at least one of the first and second path lengths in response to one or more injection parameters. Varying the first and/or second path length enables resonant pressure pulses within the control chamber and/or delivery chamber to be optimized so as to minimize the pressure differential across the valve needle at the instant of closure of the control valve to terminate injection, thus reducing needle closure response.
대표청구항▼
What is claimed is: 1. A fuel injection apparatus for use in an internal combustion engine, the fuel injection apparatus including: a fuel injector having a valve member which is operable to control injection of fuel through an injector outlet, a first supply path, having a first path length, for d
What is claimed is: 1. A fuel injection apparatus for use in an internal combustion engine, the fuel injection apparatus including: a fuel injector having a valve member which is operable to control injection of fuel through an injector outlet, a first supply path, having a first path length, for delivering fuel to an injector control chamber, a second supply path, having a second path length, for delivering fuel to an injector delivery chamber, a control valve for controlling fuel pressure within the injector control chamber so as to control movement of the valve member, and actuation means for varying at least one of the first or second path lengths in response to one or more injection parameters. 2. The fuel injection apparatus as claimed in claim 1, wherein the actuation means includes a first actuator arranged to vary the first path length of the first supply path in response to one or more injection parameters. 3. The fuel injection apparatus as claimed in claim 2, further comprising a control valve actuator for the control valve, the control valve actuator being operable to move the control valve to the closed position at a valve closure time, the first actuator being arranged to vary the first path length of the first supply path so that the pressure difference between fuel within the injector control chamber and fuel within the injector delivery chamber is minimised at the valve closure time. 4. The fuel injection apparatus as claimed in claim 3, wherein the control valve actuator is an electromagnetic actuator. 5. The fuel injection apparatus as claimed in claim 1, wherein the actuation means includes a second actuator arranged to vary the second path length of the second supply path in response to the one or more injection parameters, thereby to minimise a fuel pressure differential between the injector control chamber and the injector delivery chamber at the time when the control valve is actuated to move into the closed position. 6. The fuel injection apparatus as claimed in claim 2, wherein the actuation means further includes a second actuator for varying the second path length of the second supply path in response to one or more injection parameters, thereby to minimise a fuel pressure differential between the injector control chamber and the injector delivery chamber at the time when the control valve is actuated to move into the closed position. 7. The fuel injection apparatus as claimed in claim 1, wherein the actuation means includes an electromagnetic actuator. 8. The fuel injection apparatus as claimed in claim 1, wherein the actuation means includes a piezoelectric actuator. 9. The fuel injection apparatus as claimed in claim 1, wherein the control valve is operable between an open position, in which the injector control chamber communicates with a low pressure fuel drain, and a closed position in which communication between the injector control chamber and the low pressure fuel drain is broken. 10. The fuel injection apparatus as claimed in claim 1, wherein the control valve is operable between an open position, in which the injector control chamber communicates with a low pressure fuel drain and communication between the injector control chamber and the first supply path is broken, and a closed position in which the injector control chamber communicates with the first supply path and communication between the injector control chamber and the low pressure fuel drain is broken. 11. The fuel injection apparatus as claimed in claim 1, wherein the first supply path is defined by a first fuel pipe arranged, at least in part, within an accumulator volume for storing high pressure fuel for injection. 12. The fuel injection apparatus as claimed in claim 11, wherein the first fuel pipe has an inlet within the accumulator volume and an outlet for communication with the injector control chamber. 13. The fuel injection apparatus as claimed in claim 12, wherein the first fuel pipe comprises first and second telescopic pipe sections, wherein the actuation means is arranged to control movement of the second pipe section relative to the first pipe section, thereby to vary the first path length of the first fuel pipe. 14. The fuel injection apparatus as claimed in claim 1, wherein the second supply path is defined by a second fuel pipe which communicates, at a first end thereof, with the accumulator volume and, at a second end thereof, with the injector delivery chamber. 15. The fuel injection apparatus as claimed in claim 14, wherein the second fuel pipe comprises first and second telescopic pipe sections, wherein the actuation means is arranged to control movement of the second pipe section relative to the first pipe section, thereby to vary the second path length of the second fuel pipe. 16. The fuel injection apparatus as claimed in claim 1, wherein at least one of the first or second supply paths is provided with a bellows arrangement, said bellows being actuable by said actuation means so as to vary path length. 17. The fuel injection apparatus as claimed in claim 1, including an accumulator volume for receiving fuel at a high pressure level. 18. The fuel injection apparatus as claimed in claim 17, wherein the accumulator volume is a common rail for supplying fuel to a plurality of injectors of the engine. 19. A fuel injection apparatus for use in an internal combustion engine, the fuel injection apparatus including: a common rail for receiving fuel at a high pressure level, a fuel injector having a valve member which is operable to control injection of fuel through an injector outlet, a first supply path of first path length for delivering fuel from the common rail to an injector control chamber, a second supply path of second path length for delivering fuel from the common rail to an injector delivery chamber, a control valve operable between open and closed positions to control fuel pressure within the injector control chamber, and an actuation means for varying at least one of the first and second path lengths in response to one or more injection parameters, thereby to minimise a pressure differential between fuel within the injector control chamber and fuel within the injector delivery chamber at a time at which the control valve is actuated to move between the open and closed positions. 20. A method of controlling injection of fuel by a fuel injection apparatus as claimed in claim 1, the method comprising varying at least one of the first and second fuel path lengths in response to one or more injection parameters of an injection event so as to optimise a fuel pressure differential between the injector control chamber and the injector delivery chamber at the time at which the control valve is actuated to close at the end of the injection event.
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이 특허에 인용된 특허 (4)
Pellizzari, Roberto O., Apparatus and method for preparing and delivering fuel.
Peters Lester L. (Columbus IN) Perr Julius P. (Columbus IN) Smith Edward D. (Greensburg IN), Electronic controlled fuel supply system for high pressure injector.
McAlister, Roy Edward; Larsen, Melvin James, Integrated fuel injector igniters configured to inject multiple fuels and/or coolants and associated methods of use and manufacture.
McAlister, Roy E., Integrated fuel injector igniters having force generating assemblies for injecting and igniting fuel and associated methods of use and manufacture.
McAlister, Roy E., Integrated fuel injector igniters having force generating assemblies for injecting and igniting fuel and associated methods of use and manufacture.
McAlister, Roy Edward; Larsen, Melvin James; McAlister, legal representative, Roy Edward, Methods and systems for adaptively cooling combustion chambers in engines.
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