IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0362831
(2006-02-28)
|
등록번호 |
US-7357020
(2008-04-15)
|
발명자
/ 주소 |
- Maley,Dale Charles
- Montgomery,Michel Blane
- Lewis,Stephen Robert
- Stalter,Byron Reed
- Sickmann,Karl Larry
|
출원인 / 주소 |
|
대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
9 |
초록
▼
A valve-testing system for gathering information relating to the operation of a fuel injector. The valve-testing system may include a fluid-transfer system. The fluid-transfer system may include an inlet configured to receive fluid discharged by the fuel injector, an outlet, a reservoir having a fir
A valve-testing system for gathering information relating to the operation of a fuel injector. The valve-testing system may include a fluid-transfer system. The fluid-transfer system may include an inlet configured to receive fluid discharged by the fuel injector, an outlet, a reservoir having a first port and a second port, first plumbing connected between the inlet and the first port of the reservoir, and second plumbing connected between the second port of the reservoir and the outlet. The valve-testing system may also include a sensor configured to provide a signal relating to pressure in the first plumbing.
대표청구항
▼
What is claimed is: 1. A valve-testing system for gathering information relating to the operation of a fuel injector, the valve-testing system comprising: a fluid-transfer system, including an inlet configured to receive fluid discharged by the fuel injector, an outlet, a reservoir having a first p
What is claimed is: 1. A valve-testing system for gathering information relating to the operation of a fuel injector, the valve-testing system comprising: a fluid-transfer system, including an inlet configured to receive fluid discharged by the fuel injector, an outlet, a reservoir having a first port and a second port, first plumbing connected between the inlet and the first port of the reservoir, and second plumbing connected between the second port of the reservoir and the outlet; and a sensor configured to provide a signal relating to pressure in the first plumbing, wherein the sensor is a first pressure sensor in fluid communication with an interior of the first plumbing, the first pressure sensor being optimized for a first range of pressures; and a second pressure sensor in fluid communication with the interior of the first plumbing, the second pressure sensor being optimized for a second range of pressures. 2. The valve-testing system of claim 1, wherein the second plumbing of the fluid-transfer system includes a flow meter. 3. The valve-testing system of claim 1, wherein the fluid-transfer system further includes a passage that extends from the first port of the reservoir into the reservoir. 4. The valve-testing system of claim 3, wherein the passage is bent. 5. The valve-testing system of claim 1, wherein the reservoir includes an access opening and a removable cover disposed over the access opening. 6. The valve-testing system of claim 1, further including: controls operable to cause the fuel injector to discharge fluid into the inlet of the fluid-transfer system. 7. The valve-testing system of claim 6, wherein the controls are further configured to use the signal from the sensor to determine at least one of a rate of fluid discharge by the valve and a quantity of fluid discharged by the fuel injector during a period. 8. The valve-testing system of claim 1, wherein the fluid-transfer system includes a pressure-relief device between the inlet and the outlet. 9. The valve-testing system of claim 1, wherein the first plumbing includes a passage. 10. A method of gathering information relating to the operation of a fuel injector, the method including: causing the fuel injector to discharge fluid into an inlet of a fluid-transfer system, the fluid-transfer system including a reservoir connected between the inlet of the fluid-transfer system and an outlet of the fluid-transfer system; while causing the fuel injector to discharge fluid into the inlet of the fluid-transfer system, gathering information relating to pressure in a portion of the fluid-transfer system that connects the inlet of the fluid-transfer system and the reservoir; wherein causing the fuel injector to discharge fluid into the inlet of the fluid-transfer system includes causing the fuel injector to make a multiple-shot discharge of fluid into the inlet of the fluid-transfer system; and wherein the method further includes gathering information relating to the total volume of fluid discharged during the multiple-shot discharge, and using the information gathered relating to the total volume of fluid discharged during the multiple-shot discharge and the information gathered relating to the pressure in the portion of the fluid-transfer system that connects the inlet of the fluid-transfer system and the reservoir to determine the size of one or more individual shots of the multiple-shot discharge. 11. The method of claim 10, further including: using the information gathered relating to pressure in the portion of the fluid-transfer system that connects the inlet and the reservoir to determine the timing of one or more individual shots of the multiple-shot discharge. 12. The method of claim 10, wherein: gathering information relating to the total volume of fluid discharged during the multiple-shot discharge includes using a flow meter connected between the reservoir and the outlet of the fluid-transfer system to gather data relating to the volume of fluid discharged by the injector. 13. The method of claim 10, further including using the information gathered relating to pressure in the portion of the fluid-transfer system between the inlet and the reservoir to determine at least one of a rate of fluid discharge by the fuel injector and a quantity of fluid discharged by the fuel injector during a period. 14. A system, comprising: a fluid-transfer system, including a reservoir having a first port and a second port, first plumbing connected to the first port and disposed outside of the reservoir, second plumbing connected to the second port and disposed outside of the reservoir, and a passage extending from the first port into the reservoir; a valve connected to the first plumbing; and a sensor configured to provide a signal relating to pressure in the first plumbing. 15. The system of claim 14, wherein an outlet of the valve is connected to the first plumbing. 16. The system of claim 14, wherein the passage is bent. 17. The system of claim 14, wherein the passage is bent approximately at a right angle. 18. The system of claim 14, wherein the first plumbing or the second plumbing includes a flow meter. 19. The system of claim 14, wherein the sensor is a pressure sensor in fluid communication with the interior of the first plumbing.
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