Apparatus and method of determining a leak condition of a fuel system
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-025/08
F02M-025/00
F02D-041/00
출원번호
US-0708560
(2012-12-07)
등록번호
US-9163585
(2015-10-20)
발명자
/ 주소
McLain, Kurt D.
DeFrank, Jeff
출원인 / 주소
McLain, Kurt D.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A portion of a fuel system of a vehicle is disclosed. The vehicle includes a brake system. The fuel system includes a fuel tank connected to an engine. The portion of the fuel system includes an evaporative emissions system and an evaporative emissions leak check system selectively fluidly-connected
A portion of a fuel system of a vehicle is disclosed. The vehicle includes a brake system. The fuel system includes a fuel tank connected to an engine. The portion of the fuel system includes an evaporative emissions system and an evaporative emissions leak check system selectively fluidly-connected to the evaporative emissions system. The evaporative emissions leak check system includes a vacuum source. The vacuum source includes a vacuum pump connected to a brake boost device that provides power braking to the brake system of the vehicle. A method is also disclosed.
대표청구항▼
1. A portion of a fuel system of a vehicle, wherein the vehicle includes a brake system, wherein the fuel system includes a fuel tank connected to an engine, comprising: (a) an evaporative emissions system; and(b) an evaporative emissions leak check system selectively fluidly-connected to the evapor
1. A portion of a fuel system of a vehicle, wherein the vehicle includes a brake system, wherein the fuel system includes a fuel tank connected to an engine, comprising: (a) an evaporative emissions system; and(b) an evaporative emissions leak check system selectively fluidly-connected to the evaporative emissions system, wherein the evaporative emissions leak check system includes a vacuum source, wherein the vacuum source includes: a vacuum pump connected by at least one fluid conduit to a brake boost device that provides power braking to the brake system of the vehicle, wherein the brake boost device further comprises a diaphragm arranged within a housing, wherein the diaphragm includes a proximal side surface and a distal side surface,wherein the housing includes an interior side surface,wherein the distal side surface and the interior side surface forms an accumulator that contains a vacuum,wherein the vacuum is communicated from the vacuum pump to the accumulator by way of the at least one fluid conduit,wherein said vacuum within the accumulator is configured to be utilized by said evaporative emissions leak check system;a control module communicatively-coupled to each of the evaporative emissions system and the evaporative emissions leak check system;a canister;a filter;a purge valve fluidly-connected to the canister;a vacuum containment valve fluidly-connected to the canister; anda two-position switch valve that selectively fluidly-connects the evaporative emissions leak check system to the evaporative emissions system, wherein said two-position switch valve is fluidly coupled to the vacuum source, the filter and the vacuum containment valve. 2. The portion of the fuel system according to claim 1, wherein, during operation of the vehicle, the vacuum within the accumulator is utilized by the brake boost device to provide power braking to the brake system of the vehicle, andwherein, during a non-moving, keyed-off operation of the vehicle, the vacuum within the accumulator is utilized by the evaporative emissions leak check system in order to perform a leak diagnostic in the evaporative emissions system. 3. The portion of the fuel system according to claim 1, wherein the brake boost device further composes a master cylinder connected toa brake pedal that utilizes a vacuum provided by the vacuum pump to multiply a force applied to the master cylinder by the brake pedal. 4. The portion of the fuel system according to claim 3, wherein at least a portion of the master cylinder is arranged within the housing, wherein the brake pedal is connected toa rod that extends into the housing, wherein a distal end of the rod is connected to the master cylinder, wherein at least a portion of the master cylinder is arranged within the accumulator. 5. The portion of the fuel system according to claim 1, wherein the two-position switch valve selectively fluidly-connects a first fluid conduit extending from the evaporative emissions leak checksystem toa second fluid conduit extending from the evaporative emissions system. 6. The portion of the fuel system according to claim 1, wherein the two-position switch valve is communicatively-coupled to the control module, wherein, upon a switch electrical communication being sent from the control module to the two-position switch valve, the two-position switch valve is arranged in either: an open orientation resulting in selective fluid decoupling of a first fluid conduit extending from the evaporative emissions leak check system from a second fluid conduit extending from the evaporative emissions system, anda closed orientation resulting in selective fluid coupling of the first fluid conduit extending from the evaporative emissions leak check system to the second fluid conduit extending from the evaporative emissions system. 7. The portion of the fuel system according to claim 6, wherein the two-position switch valve is in an open orientation, permitting the vacuum containment valve to be in fluid communication with the filter. 8. The portion of the fuel system according to claim 7, wherein the purge valve and the vacuum containment valve are each communicatively-coupled to the control module. 9. The portion of the fuel system according to claim 8, wherein, upon a purge electrical communication being sent from the control module to the purge valve, the purge valve is changed in orientation from being in an initial closed orientation to an open orientation for permitting fuel vapor in the canister to be discharged into the engine. 10. The portion of the fuel system according to claim 8, wherein, upon a switch electrical communication being sent from the control module to the two-position switch valve, the two-position switch valve is arranged in a closed orientation resulting in selective fluid coupling of the first fluid conduit extending from the evaporative emissions leak check system to the second fluid conduit extending from the evaporative emissions system forpermitting a vacuum produced by the vacuum source to be exposed to the fuel tank, andwherein, upon a vacuum containment electrical communication being sent from the control module to the vacuum containment valve, the vacuum containment valve is changed in orientation from being in an initial open orientation to a closed orientation for permitting the vacuum produced by the vacuum source to be contained within the fuel tank. 11. The portion of the fuel system according to claim 10, wherein the evaporative emissions leak check system further includes: a fuel tank vacuum pressure sensor connected to the fuel tank. 12. The portion of the fuel system according to claim 11, wherein the fuel tank vacuum pressure sensor is communicatively-coupled to the control module, wherein the fuel tank vacuum pressure sensor obtains at least one vacuum pressure reading of the fuel tank that is sent to the control module, wherein the control module utilizes the at least one vacuum pressure reading of the fuel tank for determining one of a leak condition and a no-leak condition of the fuel tank. 13. A method, comprising the steps of: selectively fluidly-connecting an evaporative emissions system to an evaporative emissions leak check system, wherein the evaporative emissions leak check system includes: a vacuum source, wherein the vacuum source includes: a vacuum pump connected to a brake boost device that provides power braking to the brake system of the vehicle; and wherein:during operation of the vehicle, utilizing the vacuum within an accumulator of the brake boost device for providing power braking to the brake system of the vehicle,during a non-moving, keyed-off operation of the vehicle,utilizing the vacuum within the accumulator by the evaporative emissions leak check system for performing a leak diagnostic in the evaporative emissions system;fluidly-coupling the vacuum pump to the brake boost device by at least one fluid conduit, wherein the brake boost device further comprises a diaphragm arranged within a housing, wherein the diaphragm includes a proximal side surface and a distal side surface, wherein the housing includes an interior side surface, wherein the distal side surface and the interior side surface forms the accumulator;communicating the vacuum from the vacuum pump to the accumulator by way of the at least one fluid conduit;communicatively-coupling a control module to each of the evaporative emissions system and the evaporative emissions leak check system;fluidly-coupling the vacuum source to a two-position switch valve that conducts the step of selectively fluidly-connecting the evaporative emissions system to the evaporative emissions leak check system, wherein the two-position switch valve is communicatively-coupled to the control module, wherein, upon:sending a switch electrical communication from the control module to the two-position switch valve, the two-position switch valve is arranged in either: an open orientation resulting in selective fluid decoupling of a first fluid conduit extending from the evaporative emissions leak check system from a second fluid conduit extending from the evaporative emissions system, anda closed orientation resulting in selective fluid coupling of the first fluid conduit extending from the evaporative emissions leak check system to the second fluid conduit extending from the evaporative emissions system; andfluidly-coupling the two-position switch valve to a filter and a vacuum containment valve. 14. The method according to claim 13, wherein the evaporative emissions system includes: a canister and a purge valve fluidly-connected to the canister, where the canister is fluidly-connected to the vacuum containment valve, wherein the purge valve and the vacuum containment valve are each communicatively-coupled to the control module, wherein, upon: sending a purge electrical communication from the control module to the purge valve, the purge valve is changed in orientation from being in an initial closed orientation to an open orientation for permitting fuel vapor in the canister to be discharged into the engine. 15. The method according to claim 13, wherein, upon: sending switch electrical communication from the control module to the two-position switch valve, the two-position switch valve is arranged in a closed orientation resulting in selective fluid coupling of the first fluid conduit extending from the evaporative emissions leak check system to the second fluid conduit extending from the evaporative emissions system for permitting a vacuum produced by the vacuum source to be exposed to the fuel tank, and wherein, upon:sending a vacuum containment electrical communication being sent from the control module to the vacuum containment valve, the vacuum containment valve is changed in orientation from being in an initial open orientation to a closed orientation for permitting the vacuum produced by the vacuum source to be contained within the fuel tank. 16. The method according to claim 15, wherein the evaporative emissions leak check system further includes: a fuel tank vacuum pressure sensor connected to the fuel tank, wherein the fuel tank vacuum pressure sensor is communicatively-coupled to the control module, wherein, upon the fuel tank vacuum pressure sensor obtaining at least one vacuum pressure reading of the fuel tank that is sent to the control module, the control module utilizes the at least one vacuum pressure reading of the fuel tank for determining one of a leak condition and a no-leak condition of the fuel tank.
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이 특허에 인용된 특허 (3)
Lutteke Harald,DEX ; Bohm Peter,DEX ; Drott Peter,DEX ; Feigel Hans-Jorg,DEX ; Kahrs Manfred,DEX ; Rieth Peter,DEX, Brake system for automotive vehicles with pneumatic brake power booster.
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