Evacuator system for supplying high suction vacuum or high suction flow rate
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01M-013/02
F02M-035/10
F02M-025/06
B60T-013/46
F02M-025/08
B60T-017/02
F02B-037/00
출원번호
US-0556292
(2014-12-01)
등록번호
US-9581060
(2017-02-28)
발명자
/ 주소
Fletcher, David
Miller, James H.
Hampton, Keith
출원인 / 주소
DAYCO IP HOLDINGS, LLC
대리인 / 주소
Thompson Hine LLP
인용정보
피인용 횟수 :
0인용 특허 :
19
초록▼
A turbocharged engine air system is disclosed. The engine air system includes at least two devices requiring vacuum, a turbocharger having a compressor fluidly connected to an intake manifold of an engine, a first evacuator and a second evacuator. The first evacuator defines a first motive section,
A turbocharged engine air system is disclosed. The engine air system includes at least two devices requiring vacuum, a turbocharger having a compressor fluidly connected to an intake manifold of an engine, a first evacuator and a second evacuator. The first evacuator defines a first motive section, a first discharge section, and at least two first suction ports. The first motive section of the first evacuator is fluidly connected to the compressor, and each of the at least two first suction ports are fluidly connected to one of the at least two devices requiring vacuum. The second evacuator defines a second motive section, a second discharge section, and at least two second suction ports. The second motive section of the second evacuator is fluidly connected to at least one of the at least two devices requiring vacuum.
대표청구항▼
1. A turbocharged engine air system, comprising: at least two devices requiring vacuum;a turbocharger having a compressor fluidly connected to an intake manifold of an engine;a first evacuator defining a first motive section, a first discharge section, and at least two first suction ports, wherein t
1. A turbocharged engine air system, comprising: at least two devices requiring vacuum;a turbocharger having a compressor fluidly connected to an intake manifold of an engine;a first evacuator defining a first motive section, a first discharge section, and at least two first suction ports, wherein the first motive section and the first discharge section of the first evacuator are fluidly connected to the engine air system at a location upstream of the intake manifold of the engine and downstream of the compressor and each of the at least two first suction ports are fluidly connected to one of the at least two devices requiring vacuum; anda second evacuator defining a second motive section, a second discharge section, and at least two second suction ports, wherein the second motive section of the second evacuator is fluidly connected to at least one of the at least two devices requiring vacuum, and each of the at least two second suction ports are fluidly connected to one of the at least two devices requiring vacuum. 2. The system of claim 1, wherein the second discharge section of the second evacuator is fluidly connected to the engine air system at a location upstream of the intake manifold and downstream of an outlet of a throttle. 3. The system of claim 1, wherein the at least two devices include a fuel vapor canister, a crankcase ventilation system, and a brake boost canister. 4. The system of claim 3, wherein the second motive section of the second evacuator is fluidly connected to both the fuel vapor canister and the crankcase ventilation system. 5. The system of claim 3, wherein the first evacuator includes four suction ports, and wherein a first suction port and a second suction port of the first evacuator are both fluidly connected to the brake booster, a third suction port of the first evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the first evacuator is fluidly connected to the crankcase ventilation system. 6. The system of claim 5, wherein the first suction port of the first evacuator is located closest to the first motive section of the first evacuator, and wherein the second suction port of the first evacuator is located immediately adjacent to the first suction port of the first evacuator. 7. The system of claim 3, wherein the second evacuator includes four suction ports, and wherein a first suction port and a second suction port of the second evacuator are both fluidly connected to the brake booster, a third suction port of the second evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the second evacuator is fluidly connected to the crankcase ventilation system. 8. The system of claim 7, wherein the first suction port of the second evacuator is located closest to the first motive section of the second evacuator, and wherein the second suction port of the second evacuator is located immediately adjacent to the first suction port of the second evacuator. 9. The system of claim 3, further comprising a third evacuator having a third motive section and a third discharge section, wherein the third motive section of the third evacuator is fluidly connected to the fuel vapor canister. 10. The system of claim 9, wherein the third evacuator includes four suction ports, and wherein a first suction port and a second suction port of the third evacuator are both fluidly connected to the brake booster, a third suction port of the third evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the third evacuator is fluidly connected to the crankcase ventilation system. 11. The system of claim 9, wherein the third evacuator operates as an aspirator. 12. The system of claim 1, wherein the first evacuator operates as either an ejector or an aspirator. 13. The system of claim 1, wherein the second evacuator operates as an aspirator. 14. A turbocharged engine air system, comprising: a fuel vapor canister;a brake boost canister;a crankcase ventilation system;a turbocharger having a compressor fluidly connected to an intake manifold of an engine;a first evacuator defining a first motive section, a first discharge section, and at least four first suction ports, wherein the first motive section and the first discharge section of the first evacuator are fluidly connected to the engine air system at a location upstream of the intake manifold of the engine and downstream of the compressor and each of the at least four first suction ports are fluidly connected to one of the fuel vapor canister, the brake boost canister, and the crankcase ventilation system; anda second evacuator defining a second motive section, a second discharge section, and at least four second suction ports, wherein the second motive section of the second evacuator is fluidly connected to at least the crankcase ventilation system, and each of the at least four second suction ports are fluidly connected to one of the fuel vapor canister, the brake boost canister, and the crankcase ventilation system. 15. The system of claim 14, wherein the second discharge section of the second evacuator is fluidly connected to the engine air system at a location upstream of the intake manifold and downstream of an outlet of a throttle. 16. The system of claim 14, wherein the second motive section of the second evacuator is fluidly connected to both the fuel vapor canister and the crankcase ventilation system. 17. The system of claim 14, further comprising a third evacuator having a third motive section and a third discharge section, wherein the third motive section of the third evacuator is fluidly connected to the fuel vapor canister. 18. The system of claim 17, wherein the third evacuator includes four suction ports, and wherein a first suction port and a second suction port of the third evacuator are both fluidly connected to the brake booster, a third suction port of the third evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the third evacuator is fluidly connected to the crankcase ventilation system. 19. A turbocharged engine air system, comprising: at least two devices requiring vacuum, wherein the at least two devices include a fuel vapor canister, a crankcase ventilation system, and a brake boost canister;a turbocharger having a compressor fluidly connected to an intake manifold of an engine;a first evacuator defining a first motive section, a first discharge section, and at least four first suction ports, wherein the first motive section of the first evacuator is fluidly connected to the compressor and each of the at least four first suction ports are fluidly connected to one of the at least two devices requiring vacuum, and wherein a first suction port and a second suction port of the first evacuator are both fluidly connected to the brake booster, a third suction port of the first evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the first evacuator is fluidly connected to the crankcase ventilation system; anda second evacuator defining a second motive section, a second discharge section, and at least four second suction ports, wherein the second motive section of the second evacuator is fluidly connected to at least one of the at least two devices requiring vacuum, and each of the at least two second suction ports are fluidly connected to one of the at least two devices requiring vacuum. 20. The system of claim 19, wherein the first suction port of the first evacuator is located closest to the first motive section of the first evacuator, and wherein the second suction port of the first evacuator is located immediately adjacent to the first suction port of the first evacuator. 21. A turbocharged engine air system, comprising: at least two devices requiring vacuum, wherein the at least two devices include a fuel vapor canister, a crankcase ventilation system, and a brake boost canister;a turbocharger having a compressor fluidly connected to an intake manifold of an engine;a first evacuator defining a first motive section, a first discharge section, and at least two first suction ports, wherein the first motive section of the first evacuator is fluidly connected to the compressor and each of the at least two first suction ports are fluidly connected to one of the at least two devices requiring vacuum; anda second evacuator defining a second motive section, a second discharge section, and at least four second suction ports, wherein the second motive section of the second evacuator is fluidly connected to at least one of the at least two devices requiring vacuum, and each of the at least four second suction ports are fluidly connected to one of the at least two devices requiring vacuum, and wherein a first suction port and a second suction port of the second evacuator are both fluidly connected to the brake booster, a third suction port of the second evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the second evacuator is fluidly connected to the crankcase ventilation system. 22. The system of claim 21, wherein the first suction port of the second evacuator is located closest to the first motive section of the second evacuator, and wherein the second suction port of the second evacuator is located immediately adjacent to the first suction port of the second evacuator. 23. A turbocharged engine air system, comprising: at least two devices requiring vacuum, wherein the at least two devices include a fuel vapor canister, a crankcase ventilation system, and a brake boost canister;a turbocharger having a compressor fluidly connected to an intake manifold of an engine;a first evacuator defining a first motive section, a first discharge section, and at least two first suction ports, wherein the first motive section of the first evacuator is fluidly connected to the compressor and each of the at least two first suction ports are fluidly connected to one of the at least two devices requiring vacuum;a second evacuator defining a second motive section, a second discharge section, and at least two second suction ports, wherein the second motive section of the second evacuator is fluidly connected to at least one of the at least two devices requiring vacuum, and each of the at least two second suction ports are fluidly connected to one of the at least two devices requiring vacuum; anda third evacuator having a third motive section, a third discharge section, and hour suction ports, wherein the third motive section of the third evacuator is fluidly connected to the fuel vapor canister and a first suction port and a second suction port of the third evacuator are both fluidly connected to the brake booster, a third suction port of the third evacuator is fluidly connected to the fuel vapor canister, and a fourth suction port of the third evacuator is fluidly connected to the crankcase ventilation system.
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이 특허에 인용된 특허 (19)
Yamazaki Ryutarou (Tokyo JPX), Apparatus for controlling evaporated fuel in an internal combustion engine having a supercharger.
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Rocchio Rodolfo (Ingolstadt DEX) Naumann Fritz (Stammham DEX) Strotktter Heinrich (Ingolstadt DEX), Vacuum force amplifier for internal combustion engine.
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