Fluid handling – Systems – With pump
Reexamination Certificate
2002-09-03
2004-12-14
Rivell, John (Department: 3753)
Fluid handling
Systems
With pump
C073S001580, C073S118040, C141S065000
Reexamination Certificate
active
06830068
ABSTRACT:
FIELD OF THE INVENTION
This disclosure is generally directed to a device and a method for generating vacuum. In particular, this disclosure is directed to a device, which includes a charge valve, and a method for generating vacuum used to test a vacuum detection device.
BACKGROUND OF THE INVENTION
It is frequently desirable to test the performance of a component prior to installing the component in its intended environment. An integrated pressure management system is an example of such a component that may be tested before being installed on a vehicle. The integrated pressure management system performs a vacuum leak diagnostic on a headspace in a fuel tank, a canister that collects volatile fuel vapors from the headspace, a purge valve, and all the associated hoses and connections.
It is desirable to test components in an environment that simulates the intended operating environment. A simulated environment that is suitable for testing the vacuum leak diagnostic of integrated pressure management systems can include an adjustable vacuum level.
Known vacuum generating methods suffer from a number of disadvantages including the inability to generate vacuum levels in the desired testing range (i.e., conventional vacuum generators are not stable below two inches of water), the inability to precisely control the vacuum level, and the inability to perform a test in an acceptable period.
It is believed that there is needed to provide a device and a method that overcome the disadvantages of conventional vacuum generators.
SUMMARY OF THE INVENTION
The present invention provides a device for drawing a vacuum relative to an ambient environment. The device includes a member that defines a passage, a first valve, a second valve, and a fluid communication conduit. The passage extends between a first end and a second end, and includes a constriction that defines an orifice. The first valve connects the first end of the member and an ambient environment. The first valve is adjustable between first and second configurations. The first configuration permits generally unrestricted fluid flow between the orifice and the ambient environment. The second configuration substantially prevents fluid flow between the orifice and the ambient environment. The second valve has a first port and a second port. The first port is adapted for fluid communication with a pressure source at a first pressure level. The fluid communication conduit connects the second end of the member and the second port of the second valve. The fluid communication conduit includes a fluid communication tap at a second pressure level. The second pressure level is responsive to fluid flow through the orifice.
The present invention also provides a method of testing a vacuum detection device. The method includes providing a pressure source at a first pressure level, drawing a vacuum relative to an ambient environment with a vacuum generating device, connecting the vacuum detection device to a fluid communication tap, evacuating to the second pressure level a fluid communication conduit and the fluid communication tap, and regulating the second pressure level in response to varying fluid flow through an orifice. The vacuum-generating device includes a member defining a passage, a first valve, a second valve, and the fluid communication conduit. The passage extends between a first end and a second end, and includes a constriction that defines the orifice. The first valve connects the first end of the member and the ambient environment. The first valve is adjustable between first and second configurations. The first configuration permits generally unrestricted fluid flow between the orifice and the ambient environment. The second configuration substantially prevents fluid flow between the orifice and the ambient environment. The second valve has a first port and a second port. The first port is in fluid communication with the pressure source at a first pressure level. The fluid communication conduit connects the second end of the member and the second port of the second valve. The fluid communication conduit includes the fluid communication tap at a second pressure level.
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Derikx John
Tetreault Kevin
Rivell John
Siemens VDO Automotive Inc.
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