Dual check fuel injector and fuel system using same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-051/00
F02M-039/00
F02M-021/02
F02M-043/04
F02M-047/04
F02M-045/08
F02M-061/18
F02D-019/06
F02M-047/02
F02M-055/02
F02M-061/16
출원번호
US-0566321
(2012-08-03)
등록번호
US-9068539
(2015-06-30)
발명자
/ 주소
Coldren, Dana R.
출원인 / 주소
Caterpillar Inc.
인용정보
피인용 횟수 :
2인용 특허 :
19
초록▼
A fuel injector includes a first check valve member that seats on an injector body, and a second check valve member that seats on the first check valve member covers a first nozzle outlet set when in a closed position. When the first check valve member moves to an open position, gaseous fuel is inje
A fuel injector includes a first check valve member that seats on an injector body, and a second check valve member that seats on the first check valve member covers a first nozzle outlet set when in a closed position. When the first check valve member moves to an open position, gaseous fuel is injected through both a first nozzle outlet set and a second nozzle outlet set. When the second check valve member moves to an open position, liquid fuel moves through a through passage defined by the first check valve member to facilitate injection of the second nozzle outlet set. The first and second check valve members may be controlled by first and second control valves, respectively.
대표청구항▼
1. A fuel injector comprising: an injector body defining a first fuel type inlet, a second fuel type inlet, a first nozzle outlet set, a second nozzle outlet set and a drain outlet, and having disposed therein a first control chamber and a second control chamber;a first check valve member defining a
1. A fuel injector comprising: an injector body defining a first fuel type inlet, a second fuel type inlet, a first nozzle outlet set, a second nozzle outlet set and a drain outlet, and having disposed therein a first control chamber and a second control chamber;a first check valve member defining a through passage and being positioned entirely inside the injector body with a closing hydraulic surface exposed to a fluid pressure in the first control chamber, and being movable between a closed position in contact with a first seat on the injector body covering the first nozzle outlet set to fluidly block the first fuel type inlet to the first nozzle outlet set, and an open position out of contact with the first seat to fluidly connect the first fuel type inlet to the first nozzle outlet set, wherein the fluid pressure present at the closing hydraulic surface in the first control chamber acts to keep or move the first check valve member in the closed position, the fluid pressure at the closing hydraulic surface when the first check valve member is in the closed position being higher than the fluid pressure for the open position of the first check valve member;a second check valve member positioned entirely inside the injector body with a closing hydraulic surface exposed to a fluid pressure in the second control chamber, and being movable between a closed position in contact with a second seat on the first check valve member to fluidly block the second fuel type inlet to the through passage and the second nozzle outlet set, and an open position out of contact with the second seat to fluidly connect the second fuel type inlet to the through passage and the second nozzle outlet set, wherein the fluid pressure present at the closing hydraulic surface in the second control chamber acts to keep or move the second check valve member in the closed position, the fluid pressure at the closing hydraulic surface when the second check valve member is in the closed position being higher than the fluid pressure for the open position of the second check valve member;a first control valve attached to the injector body and having a first configuration at which the first control chamber is fluidly blocked to the drain outlet, and a second configuration at which the first control chamber is fluidly connected to the drain outlet; anda second control valve attached to the injector body and having a first configuration at which the second control chamber is fluidly blocked to the drain outlet, and a second configuration at which the second control chamber is fluidly connected to the drain outlet. 2. The fuel injector of claim 1 wherein the injector body has a centerline; the first seat being located between the first fuel type inlet and an inlet opening of each nozzle passage of the first nozzle outlet set along the centerline. 3. The fuel injector of claim 1 including a limp home check valve fluidly positioned between the first fuel type inlet and the first nozzle outlet set. 4. The fuel injector of claim 1 wherein the first nozzle outlet set has a first total flow area; the second nozzle outlet set has a second total flow area that is less than the first total flow area. 5. The fuel injector of claim 1 wherein the injector body has a centerline; the first nozzle outlet set defines a first spray angle with respect to the centerline;the second nozzle outlet set defines a second spray angle that is different from the first spray angle. 6. The fuel injector of claim 1 wherein the first check valve member has a guide interaction with the injector body; and the second check valve member has a guide interaction with the first check valve member. 7. The fuel injector of claim 1 wherein the first control chamber is fluidly connected to the second fuel type inlet when the first control valve is in either the first configuration or the second configuration; and the second control chamber is fluidly connected to the second fuel type inlet when the second control valve is in either the first configuration or the second configuration. 8. The fuel injector of claim 1 wherein the first check valve member has an opening surface with a first effective area exposed to a fluid pressure in the first fuel type inlet when the first check valve member is at the closed position; the closing hydraulic surface of the second check valve member has a second effective area that is less than the first effective area. 9. The fuel injector of claim 1 including exactly one spring operably positioned to bias the first and second check valve members toward the respective closed positions. 10. The fuel injector of claim 1 wherein the first nozzle outlet set and the second nozzle outlet set are both fluidly connected to the first fuel type inlet when the first check valve member is at the open position. 11. A fuel system comprising: a plurality of fuel injectors that each comprise an injector body defining a first fuel inlet, a second fuel inlet, a first nozzle outlet set, a second nozzle outlet set and a drain outlet, and having disposed therein a first control chamber and a second control chamber;a first check valve member defining a through passage and being positioned entirely inside the injector body with a closing hydraulic surface exposed to a fluid pressure in the first control chamber, and being movable between a closed position in contact with a first seat on the injector body covering the first nozzle outlet set to fluidly block the first fuel inlet to the first nozzle outlet set and an open position out of contact with the first seat to fluidly connect the first fuel inlet to the first nozzle outlet set, wherein the fluid pressure present at the closing hydraulic surface in the first control chamber acts to keep or move the first check valve member in the closed position, the fluid pressure at the closing hydraulic surface when the first check valve member is in the closed position being higher than the fluid pressure for the open position of the first check valve member;a second check valve member positioned entirely inside the injector body with a closing hydraulic surface exposed to a fluid pressure in the second control chamber, and being movable between a closed position in contact with a second seat on the first check valve member to fluidly block the second fuel inlet to the through passage and the second nozzle outlet set, and an open position out of contact with the second seat to fluidly connect the second fuel inlet to the through passage and the second nozzle outlet set, wherein the fluid pressure present at the closing hydraulic surface in the second control chamber acts to keep or move the second check valve member in the closed position, the fluid pressure at the closing hydraulic surface when the second check valve member is in the closed position being higher than the fluid pressure for the open position of the second check valve member;a source of first fuel fluidly connected to the first fuel inlet;a source of second fuel fluidly connected to the second fuel inlet;an electronic controller in control communication with each of the plurality of fuel injectors; andthe first fuel differing from the second fuel in at least one of chemical identity, matter phase and pressure. 12. The fuel system of claim 11 wherein the source of first fuel includes a first common rail; and the source of second fuel includes a second common rail. 13. The fuel system of claim 12 wherein the first fuel is natural gas; the second fuel is liquid diesel fuel;the first common rail is at a first pressure; andthe second common rail is at a second pressure greater than the first pressure. 14. The fuel system of claim 13 wherein each of the plurality of fuel injectors includes a limp home check valve fluidly positioned between the first fuel inlet and the first nozzle outlet set. 15. The fuel system of claim 14 wherein each of the plurality of fuel injectors includes: a first control valve attached to the injector body and having a first configuration at which the first control chamber is fluidly blocked to the drain outlet and a second configuration at which the first control chamber is fluidly connected to the drain outlet; anda second control valve attached to the injector body and having a first configuration at which the second control chamber is fluidly blocked to the drain outlet, and a second configuration at which the second control chamber is fluidly connected to the drain outlet. 16. The fuel system of claim 15 wherein the first control chamber is fluidly connected to the second fuel inlet when the first control valve is in either the first configuration or the second configuration; the second control chamber is fluidly connected to the second fuel inlet when the second control valve is in either the first configuration or the second configuration; andwherein the first nozzle outlet set and the second nozzle outlet set are both fluidly connected to the first fuel inlet when the first check valve member is at the open position. 17. The fuel system of claim 16 wherein the first check valve member has an opening surface with a first effective area exposed to the fluid pressure in the first fuel inlet when the first check valve member is at the closed position; the closing hydraulic surface of the second check valve member has a second effective area that is less than the first effective area; andeach of the plurality of fuel injectors including exactly one spring operably positioned to bias the first and second check valve members toward the respective closed positions. 18. A method of operating a fuel system with a plurality of fuel injectors that each comprise an injector body defining a first fuel inlet, a second fuel inlet, a first nozzle outlet set, a second nozzle outlet set and a drain outlet, and having disposed therein a first control chamber and a second control chamber; a first check valve member defining a through passage and being positioned entirely inside the injector body with a closing hydraulic surface exposed to a fluid pressure in the first control chamber, and being movable between a closed position in contact with a first seat on the injector body covering the first nozzle outlet set to fluidly block the first fuel inlet to the first nozzle outlet set, and an open position out of contact with the first seat to fluidly connect the first fuel inlet to the first nozzle outlet set; a second check valve member positioned entirely inside the injector body with a closing hydraulic surface exposed to a fluid pressure in the second control chamber, and being movable between a closed position in contact with a second seat on the first check valve member to fluidly block the second fuel inlet to the through passage and the second nozzle outlet set, and an open position out of contact with the second seat to fluidly connect the second fuel inlet to the through passage and the second nozzle outlet set; the method comprising the steps of: supplying gaseous fuel from a first common rail to the first fuel inlet;supplying liquid fuel from a second common rail to the second fuel inlet;reducing the fluid pressure present at the closing hydraulic surface in the first control chamber to keep or move the first check valve member in the open position, the fluid pressure at the closing hydraulic surface when the first check valve member is in the closed position being higher than the fluid pressure for the open position of the first check valve member;reducing the fluid pressure present at the closing hydraulic surface in the second control chamber to keep or move the second check valve member in the open position, the fluid pressure at the closing hydraulic surface when the second check valve member is in the closed position being higher than the fluid pressure for the open position of the second check valve member;injecting gaseous fuel from one of the plurality of fuel injectors through the first nozzle outlet set and the second nozzle outlet set when the first check valve member and the second check valve member are respectively in the open position; andinjecting liquid fuel from the second nozzle outlet set when the second check valve member is in the open position. 19. The method of claim 18 wherein the gaseous fuel injection step includes relieving pressure in the first control chamber responsive to a gas injection signal to a first control valve from an electronic controller; the liquid injection step includes relieving pressure in the second control chamber responsive to a liquid injection signal to a second control valve from the electronic controller. 20. The method of claim 19 including a step of filling the first control chamber and the second control chamber with the liquid fuel; and igniting the gaseous fuel by compression igniting the liquid fuel.
Timmer Robert C. (Grandville MI) Straub Robert D. (Lowell MI) Teerman Richard F. (Wyoming MI) DeYoung Beckie J. (Stanwood MI) VanAllsburg Michael (Grand Rapids MI), High-pressure electromagnetic fuel injector.
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