IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0745964
(2003-12-26)
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발명자
/ 주소 |
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출원인 / 주소 |
- Hirt Combustion Engineers, Inc.
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
2 인용 특허 :
17 |
초록
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A vapor collection testing device is held in one hand and a fuel dispensing nozzle for a fuel dispensing system to be tested is held in the other hand of an operator. The device is slipped over the spout of the nozzle and pushed against the boot of the nozzle (if so equipped), or otherwise pushed su
A vapor collection testing device is held in one hand and a fuel dispensing nozzle for a fuel dispensing system to be tested is held in the other hand of an operator. The device is slipped over the spout of the nozzle and pushed against the boot of the nozzle (if so equipped), or otherwise pushed sufficiently over the holes on a bootless nozzle so that the nozzle's flow interlock device is opened. Opening the interlock activates the nozzle's lever, to permit fuel dispensing. Without turning the gasoline dispenser on, the nozzle lever is depressed to open the integral vapor valve. At this point, no gasoline is dispensed, but air is ingested by the nozzle and sent into the gasoline storage tank. The air ingestion can be observed by the device's flow meter, in order to determine if there is a liquid flow blockage in the vapor recovery line of the fuel dispensing system.
대표청구항
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1. A fuel vapor emission control system, comprising:a fuel storage tank;a dispenser having a nozzle with a spout for dispensing fuel into a vehicle, wherein when said dispenser is turned on, gasoline may be dispensed, and when said dispenser is turned off, gasoline cannot be dispensed;a coaxial hose
1. A fuel vapor emission control system, comprising:a fuel storage tank;a dispenser having a nozzle with a spout for dispensing fuel into a vehicle, wherein when said dispenser is turned on, gasoline may be dispensed, and when said dispenser is turned off, gasoline cannot be dispensed;a coaxial hose for permitting flow of fuel from said storage tank through said nozzle through a first flow passage, and for permitting flow of vapor through a second flow passage back into said storage tank; anda testing device for use in cooperation with said nozzle, said testing device comprising a vapor collection receptacle adapted to receive said nozzle spout and a flow meter for detecting a rate of fluid flow through said nozzle while said dispenser is turned off.2. The system as recited in claim 1, wherein said vapor collection receptacle comprises a boot.3. The system as recited in claim 1, wherein said flow meter is fluidly attached to an end of said receptacle which is opposite to an end of the receptacle which is engaged with the nozzle.4. A testing device for testing the vapor collection efficiency of a fuel vapor emission control system comprising a fuel storage tank, a dispenser having a nozzle having a spout for dispensing fuel into a vehicle, and a lever for selectively permitting fluid flow through said nozzle, whereby the nozzle is fluidly connected to the fuel storage tank through a coaxial hose and the coaxial hose includes a first flow passage for permitting flow of fuel from the storage tank through said nozzle, and a second flow passage for permitting flow of vapor from the nozzle back to the fuel storage tank, said testing device comprising:a vapor collection receptacle adapted to receive the nozzle spout of the fuel dispenser and to engage and open a flow interlock device on said nozzle, thereby activating said lever; anda flow meter for detecting a rate of fluid flow through the second flow passage of the nozzle.5. The testing device as recited in claim 4, wherein said vapor collection receptacle comprises a boot.6. The testing device as recited in claim 4, wherein said flow meter is fluidly attached to an end of said receptacle which is opposite to an end of the receptacle which is engageable with the nozzle.7. A method for testing the vapor collection performance of a fuel dispenser in a fuel vapor emission control system comprising a fuel storage tank, a dispenser having a nozzle having a spout, wherein the nozzle is fluidly connected to the fuel storage tank by a coaxial hose which includes a first flow passage for permitting flow of fuel from the storage tank through said nozzle, and a second flow passage for permitting flow of vapor from the nozzle back to the fuel storage tank, said method comprising:attaching a testing device to the nozzle spout, so that fluid flow is permitted between said testing device and said nozzle spout; anddetecting the flow of air through said nozzle spout without dispensing fuel through said nozzle.8. The method as recited in claim 7, wherein said testing device comprises a receptacle for fluidly attaching the testing device to the nozzle spout, and said attaching step includes a step of opening a flow interlock device on said nozzle, so that a lever of the nozzle is actuated.9. The method as recited in claim 8, and further comprising a step of depressing the nozzle lever, with said dispenser turned off, after said attaching step to thus open an integral vapor valve in the second flow passage of the coaxial hose.10. The method as recited in claim 9, wherein said detecting step is performed by a flow meter attached to said receptacle on said testing device.11. The method as recited in claim 7, and further comprising a step of clearing a liquid blockage in said second flow passage if said detecting step detects a flow of air below a predetermined level through said spout.12. The method as recited in claim 8, wherein said attaching step comprises inserting an end of said nozzle spout into an aperture in said receptacle.13. A method for testing the vapor collection performance of a fuel dispenser in a fuel vapor emission control system comprising a fuel storage tank, a dispenser having a nozzle having a spout, wherein the nozzle is fluidly connected to the fuel storage tank by a coaxial hose which includes a first flow passage for permitting flow of fuel from the storage tank through said nozzle, and a second flow passage for permitting flow of vapor from the nozzle back to the fuel storage tank, said method comprising:attaching a testing device to the nozzle spout; andengaging a flow interlock device in said nozzle to thereby permit the flow of fluid through said nozzle without inserting said nozzle into a fuel tank filling spout.14. The method as recited in claim 13, and further comprising a step of detecting the flow of air through said nozzle spout without dispensing fuel through said nozzle.15. The method as recited in claim 13, wherein said testing device comprises a receptacle for fluidly attaching the testing device to the nozzle spout, and said attaching step includes a step of opening a flow interlock device on said nozzle, so that a lever of the nozzle is actuated.16. The method as recited in claim 15, and further comprising a step of depressing the nozzle lever, with said dispenser turned off, after said attaching step to thus open an integral vapor valve in the second flow passage of the coaxial hose.17. The method as recited in claim 16, wherein said detecting step is performed by a flow meter attached to said receptacle on said testing device.18. The method as recited in claim 15, and further comprising a step of clearing a liquid blockage in said second flow passage if said detecting step detects a flow of air below a predetermined level through said spout.19. The method as recited in claim 15, wherein said attaching step comprises inserting an end of said nozzle spout into an aperture in said receptacle.
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