A fuel system for supplying pressurised fuel to a plurality of fuel injectors (14a-14f) comprises an accumulator assembly (16) having first and second accumulator volumes (18, 20) defined within a common accumulator housing (22), supply means (42) for supplying fuel at a supply pressure level to the
A fuel system for supplying pressurised fuel to a plurality of fuel injectors (14a-14f) comprises an accumulator assembly (16) having first and second accumulator volumes (18, 20) defined within a common accumulator housing (22), supply means (42) for supplying fuel at a supply pressure level to the first accumulator volume (18) and a plurality of unit pumps (10a-10f). Each unit pump is arranged to receive fuel at the supply pressure level from the first accumulator volume (18) and pressurises said fuel to an injectable pressure level for supply to the second accumulator volume (20). Each unit pump (10a-10f) includes a pumping plunger (50) for pressuring fuel within an associated pump chamber (52) and being integrated with the accumulator housing (22) so as to permit communication between the first accumulator volume (18) and the pump chamber (52) internally within the accumulator housing (22).
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The invention claimed is: 1. A fuel system for supplying pressurised fuel to a plurality of fuel injectors, the fuel system comprising: an accumulator assembly having first and second accumulator volumes defined within a common accumulator housing, supply means for supplying fuel at a supply pressu
The invention claimed is: 1. A fuel system for supplying pressurised fuel to a plurality of fuel injectors, the fuel system comprising: an accumulator assembly having first and second accumulator volumes defined within a common accumulator housing, supply means for supplying fuel at a supply pressure level to the first accumulator volume, and a plurality of unit pumps for receiving fuel at the supply pressure level from the first accumulator volume and for pressurising said fuel to first injectable pressure level for supply to the second accumulator volume, wherein each unit pump includes a pumping plunger for pressuring fuel within an associated pump chamber and wherein each unit pump is integrated with the common accumulator housing by mounting within an opening or cross bore provided therein so as to pass through the common accumulator housing so as to permit communication between the pump chamber and, respectively, the first accumulator volume and the second accumulator volume internally within the accumulator housing. 2. The fuel system as claimed in claim 1, wherein the accumulator assembly is a rail assembly comprising a first rail volume and a second rail volume housed within a rail housing. 3. The fuel system as claimed in claim 2, wherein the first rail volume communicates with the pump chamber of each unit pump internally within the accumulator housing via first valve means. 4. The fuel system as claimed in claim 3, wherein the first rail volume is communicable with the pump chamber of each unit pump through a non-return valve having an open position, in which the pump chamber communicates with the first rail volume, and a closed position in which said communication is broken. 5. The fuel system as claimed in claim 4, wherein the second rail volume is communicable with the pump chamber of each unit pump through second valve means. 6. The fuel system as claimed in claim 5, wherein the second valve means is a rail control valve operable between an open position in which fuel at the injectable pressure level, being a first injectable pressure level, is supplied from the second rail volume to the injectors and a closed position in which communication between the pump chamber of a unit pump and the second rail volume is broken so that the unit pump is operable to increase fuel to a second injectable pressure level. 7. The fuel system as claimed in claim 6, wherein the rail control valve includes an electro-magnetically operable valve which is movable between the open and closed positions by application of an electrical control signal. 8. The fuel system as claimed in claim 2, wherein the supply means includes a transfer pump for supplying fuel at supply pressure to the first rail volume and, hence, to each unit pump through the first valve means. 9. The fuel system as claimed in claim 2, wherein the first and second rail volumes are arranged side-by-side, or substantially in parallel with one another, within the rail housing. 10. The fuel system as claimed in claim 1, including a plurality of injectors for receiving fuel at an injectable pressure level from the pump chamber of an associated unit pump and/or from the second accumulator volume. 11. The fuel system as claimed in claim 10, including a plurality of unit pumps each of which forms a common unit with one of the injectors. 12. The fuel system as claimed in claim 1, including nozzle control valve means operable to control the timing of commencement of injection at a first and/or a second injectable pressure level. 13. The fuel system as claimed in claim 12, wherein the nozzle control valve means includes a nozzle control valve that is operable to control fuel pressure within an injector control chamber so as to permit control of injection timing at the first and/or the second injectable pressure level. 14. An accumulator assembly for a common rail fuel system having a plurality of unit pumps, the accumulator assembly including a common accumulator housing, within which is defined a first accumulator volume for fuel at a supply pressure level and a second accumulator volume for fuel at a first injectable pressure level, wherein the common accumulator housing is provided with at least one opening, within which a unit pump is receivable, in use, so that a pump chamber of each unit pump is communicable, respectively, with the first accumulator volume and the second accumulator volume internally within the common accumulator housing. 15. The accumulator assembly as claimed in claim 14, wherein the first accumulator volume is a first rail volume and the second accumulator volume is a second rail volume, both of which are defined within a rail housing.
Moschini,Renzo; Mattogno,Gianluca; Giovannini,Flavio; Poggi,Stefano; Casari,Mario, Fuel manifold in thixotropic aluminum for the direct injection of fuel into an internal combustion engine.
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