Gas module valve automated test fixture
First Claim
Patent Images
1. A gas module valve test fixture comprising:
- a tank having an input port and an output port, said tank being capable of holding a pressurized gas;
a pressurized gas source connected by a gas line to said input port;
a gas flow controller positioned in said gas line between said gas source and said tank, said flow controller adjusted so as to provide an essentially steadily rising gas pressure in said tank as said tank fills with gas from said gas source;
a valve under test connected to receive said gas from said tank output port;
a pressure sensor connected to produce a first signal indicating gas pressure between said valve under test and said tank; and
a calculator electrically coupled to receive said first pressure signal from said pressure sensor, wherein said calculator uses said first signal to calculate an opening pressure of said valve under test, said calculator comprises a visual display of elements of said test fixture, and said calculator allows control of selected said elements of said test fixture with a computer pointing device.
2 Assignments
0 Petitions
Accused Products
Abstract
A test fixture for a laser gas module offers automatic and manual testing for individual gas module components. Check or pressure relief valves are tested with an increasing pressure ramp caused by a metered gas flow into a ballast tank. Metering orifices are tested by measuring pressure change in a known volume tank as gas to or from the tank is directed through the orifice under test. The fixture includes capability to test valve logic and leakages. Test sequence and results are monitored on a computer display showing a schematic representation of both module and fixture. Manual control of module and fixture components is done via a computer graphic interface.
155 Citations
7 Claims
-
1. A gas module valve test fixture comprising:
-
a tank having an input port and an output port, said tank being capable of holding a pressurized gas; a pressurized gas source connected by a gas line to said input port; a gas flow controller positioned in said gas line between said gas source and said tank, said flow controller adjusted so as to provide an essentially steadily rising gas pressure in said tank as said tank fills with gas from said gas source; a valve under test connected to receive said gas from said tank output port; a pressure sensor connected to produce a first signal indicating gas pressure between said valve under test and said tank; and a calculator electrically coupled to receive said first pressure signal from said pressure sensor, wherein said calculator uses said first signal to calculate an opening pressure of said valve under test, said calculator comprises a visual display of elements of said test fixture, and said calculator allows control of selected said elements of said test fixture with a computer pointing device. - View Dependent Claims (2, 3, 4)
-
-
5. A method for testing a valve in a gas module, comprising:
-
coupling a gas source to a tank, wherein said gas source provides a gas to said tank; coupling said valve to receive said gas from said tank in the normal flow direction of said valve; displaying elements of said gas module and of a test fixture on a visual display; controlling selected said elements of said gas module and of said test fixture by using a pointing device on said visual display; introducing said gas from said gas source into said tank to produce an essentially steadily rising gas pressure in said tank; producing a first signal by measuring a first gas pressure upstream of said valve and producing a second signal by measuring a second gas pressure downstream of said valve; and calculating the opening pressure of said valve using said first and said second signals. - View Dependent Claims (6, 7)
-
Specification