EVAP II—Leak verification and detection for vehicle fuel containment systems
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-011/00
G01M-003/22
G07C-005/00
출원번호
US-0178997
(2016-06-10)
등록번호
US-9846104
(2017-12-19)
발명자
/ 주소
Thompson, Bernie C.
Pederson, Neal R.
출원인 / 주소
Automotive Test Solutions, Inc.
대리인 / 주소
Morgan, DeWitt M.
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
An off-board vehicle fuel handling and containment system leak tester that uses CO2 gas in order to find the location of the leak site. An external source of CO2 gas is used to pressurize the fuel containment system to a pressure greater than the surrounding pressure. An electronic detector capable
An off-board vehicle fuel handling and containment system leak tester that uses CO2 gas in order to find the location of the leak site. An external source of CO2 gas is used to pressurize the fuel containment system to a pressure greater than the surrounding pressure. An electronic detector capable of detecting CO2 gas is used to scan at least some of the containment system's external surfaces for the presence of the escaping CO2 gas. When the electronic detector senses the CO2 gas an alert system is activated. Once the leak site area is known a leak finding composition of matter is applied to the leak site area in order to identify the exact point of leakage.
대표청구항▼
1. A method of detecting and locating a leak site in a vehicle's on-board fuel containment and handling system (herein “containment system”), which containment system can be pressurized with CO2 gas to a pressure which allows the CO2 gas contained within the containment system to escape from the lea
1. A method of detecting and locating a leak site in a vehicle's on-board fuel containment and handling system (herein “containment system”), which containment system can be pressurized with CO2 gas to a pressure which allows the CO2 gas contained within the containment system to escape from the leak site; the method utilizing a source of CO2 gas which is external to the containment system; the method further including the use of means for connecting the source of CO2 gas to the containment system; the method also utilizing an electronic detector, including a housing and a sensor capable of detecting CO2 gas, which can scan at least some of the external surfaces of the containment system for the leak site, the detector including an alert system; the method comprising the steps of: connecting the external source of CO2 gas to the fuel handling and containment system with the connecting means;sealing the fuel handling and containment system;pressurizing the containment system with the CO2 gas;scanning with the detector for the presence of CO2 gas escaping from the leak site; andactivating the alert system when the sensor detects the presence of CO2 gas escaping from the leak site. 2. The method as set forth in claim 1, wherein the alert system includes both an audio and a visual alert, and the method includes activating at least one of the audio and visual alerts. 3. The method as set forth in claim 1, wherein the housing includes a flexible connector having first and second ends, wherein the first end is connected to the housing and wherein the sensor is connected to the second end, and wherein the method includes the step of moving the second end and the sensor over at least some of the external surfaces. 4. The method as set forth in claim 1, wherein further including a pressure regulator connected between the external source of the CO2 gas and the means for connecting the CO2 gas to the containment system, and wherein the method includes regulating the pressure of the CO2 in the containment system. 5. The method as set forth in claim 1, wherein further including smoke generating apparatus connected to the means for connecting the CO2 gas to the containment system, and wherein the method further includes injecting smoke into the containment system. 6. The method as set forth in claim 1, wherein further including a leak finding composition of matter, and wherein the method further includes applying the composition of matter to the external surfaces of the containment system in the area where the detector has detected CO2 gas escaping from the leak site. 7. The method as set forth in claim 6, further including means for applying the composition of matter including an applicator and means for forcing the composition of matter through the applicator. 8. A method of detecting and locating a leak site in a vehicle system which can be pressurized with CO2 gas to a pressure which allows the CO2 gas contained within the vehicle system to escape from the leak site; the method utilizing a source of CO2 gas which is external to the vehicle system; the method further including the use of means for connecting the source of CO2 gas to the vehicle system; the method also utilizing an electronic detector, including a housing and a sensor capable of detecting CO2 gas, which can scan at least some of the external surfaces of the vehicle system for the leak site, the detector including an alert system; the method comprising the steps of: connecting the external source of CO2 gas to the vehicle system with the connecting means;pressurizing the vehicle system with the CO2 gas;scanning with the detector for the presence of CO2 gas escaping from the leak site; andactivating the alert system when the sensor detects the presence of CO2 gas escaping from the leak site. 9. The method as set forth in claim 8, further including the step of sealing the vehicle system before pressurizing the system with CO2 gas. 10. A method of locating a point of leakage in a sealed system on a vehicle, the sealed system is pressurized with CO2 gas to a pressure higher than the surrounding pressure of the sealed system; the method utilizing a source of CO2 gas which is external to the containment system; the method also utilizing an electronic detector capable of detecting CO2 gas which can scan at least some of the external surfaces of the sealed system, the detector including an alert system which can be activated when CO2 gas is present in the area adjacent the point of leakage; the method further including the use of a leak find solution which can be applied to the external surfaces in the area adjacent the point of leakage to find the point of leakage; the method comprising the steps of: connecting the external source of CO2 gas to the sealed system;pressurizing the sealed system with CO2 gas to a pressure in excess of the pressure surrounding the sealed system;scanning with the detector to detect the presence of CO2 gas escaping from the point of leakage;activating the alert system when the detector detects the presence of CO2 gas; andapplying the leak find solution to the external surfaces adjacent to the point of leakage to find the point of leakage. 11. A method of detecting the location of a leak from a leak site in a fuel containment system, the containment system including one or more external surfaces, the method including the use of a pressurized first composition of matter selected from the group including a gas from a source external to the containment system and vaporized fuel from the containment system (hereinafter “hydrocarbons”), at least one of which is capable of passing through the leak site, and a second composition of matter which is capable of adhering to at least a portion of the one or more external surfaces and which is capable of showing the presence of first pressurized composition of matter escaping from the leak site, the method including the steps of: pressurizing the interior of the containment system to a pressure in excess of the pressure surrounding the containment system to force at least some of the first pressurized composition of matter through the leak site; andcovering at least a portion of the external surface with the second composition of matter to identify the location of the leak site by the interaction of the at least some of the first pressurized composition of matter escaping from the leak site with the second composition of matter. 12. The method as set forth in claim 11, wherein the second composition of matter includes at least one soap capable of forming a least one bubble in the presence of at the leaking first pressurized composition of matter, and the step of covering includes covering the area of the leak site. 13. The method as set forth in claim 11, wherein the second composition of matter is a solution, and the step of covering includes covering the area of the leak site so that the interaction of the solution and the leaking first pressurized composition of matter will form the at least one bubble.
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