Visualization of tests on lift-type check valves using phased array sequence scanning
First Claim
1. A method of testing a lift-type check valve while in use, said lift-type check valve having a top and a valve body, said testing to determine if said valve is operating properly by comparing against standard waveforms for said valve, said method comprising the following steps:
- (a) first attaching a top probe of first piezoelectric devices to said top;
(b) second attaching a lower probe of second piezoelectric devices to said valve body;
said top probe being generally opposite said lower probe on said valve body;
(c) sending a first start signal from a phased array acquisition control to a sending multiplexer to create first parallel signals;
(d) feeding said first parallel signals to a sending pulser with delays to create first phased pulse signals;
(e) connecting said first phased pulse signals to either (1) said top probe, or (2) said lower probe to generate first phased array sequential scanning signals in said valve;
(f) receiving first reflected signals back where said first phased array sequential scanning signals were generated to give first reflected phase pulse signals;
(g) converting said first reflected phase pulse signals in a receiving multiplexer into first reflected energy pulses;
(h) changing said first reflected energy pulses in a receiver with delays into first reflected delayed energy pulses;
(i) summing said reflected delayed energy pulses in a scanner to get a first reflected energy sum;
(j) repeating steps (c) through (i), but from the other of (1) said top probe or (2) said lower probe given in step (e), to get a second reflected energy sum;
(k) comparing said first reflected energy sum and said second reflected energy sum in said phased array acquisition control with said standard waveforms to determine if said lift-type check valve is operating properly.
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Accused Products
Abstract
A computer with a proper program generates a phased array sequence of signals. In a pulser with delays, the signals are fed through a multiplexor into multiple water wedges that are attached to a lift-type check valve being tested. For a sequential operation of the lift-type check valves from the open to the closed position, ultrasonic signals are transmitted through the fluid contained in the valve and reflected back through piezo-electric crystals to the multiplexor. By summation and merger of the signals, an image can be developed of the operation of the lift-type check valve to determine if the lift-type check valve is operating properly. By comparing the signals received with a known standard for that lift-type check valve, proper operation, or lack thereof, of the lift-type check valve under test can be determined.
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Citations
14 Claims
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1. A method of testing a lift-type check valve while in use, said lift-type check valve having a top and a valve body, said testing to determine if said valve is operating properly by comparing against standard waveforms for said valve, said method comprising the following steps:
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(a) first attaching a top probe of first piezoelectric devices to said top; (b) second attaching a lower probe of second piezoelectric devices to said valve body;
said top probe being generally opposite said lower probe on said valve body;(c) sending a first start signal from a phased array acquisition control to a sending multiplexer to create first parallel signals; (d) feeding said first parallel signals to a sending pulser with delays to create first phased pulse signals; (e) connecting said first phased pulse signals to either (1) said top probe, or (2) said lower probe to generate first phased array sequential scanning signals in said valve; (f) receiving first reflected signals back where said first phased array sequential scanning signals were generated to give first reflected phase pulse signals; (g) converting said first reflected phase pulse signals in a receiving multiplexer into first reflected energy pulses; (h) changing said first reflected energy pulses in a receiver with delays into first reflected delayed energy pulses; (i) summing said reflected delayed energy pulses in a scanner to get a first reflected energy sum; (j) repeating steps (c) through (i), but from the other of (1) said top probe or (2) said lower probe given in step (e), to get a second reflected energy sum; (k) comparing said first reflected energy sum and said second reflected energy sum in said phased array acquisition control with said standard waveforms to determine if said lift-type check valve is operating properly. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of testing operation of a lift-type check valve filled with fluid to determine if the lift-type check valve is operating properly, said method comprising the following steps:
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providing a user setup that includes programming a computer to generate a phased array of output signals; converting said phased array of output signals into phased outgoing pulses; feeding said phased outgoing pulses to transmitting piezo-electric devices attached to a water wedge mounted on said valve; generating from said phased outgoing pulses an acoustical phased wave front in said fluid; receiving reflected signals in said fluid by receiving piezo-electric devices attached to said water wedge; summing said reflected signals to give an output; and displaying said output to visually indicate condition of said lift-type check valve during operation. - View Dependent Claims (8, 9, 10)
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11. A method of testing in situ a lift-type check valve filled with fluid to determine if the valve is operating properly, said method comprising:
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mounting a water wedge on a relatively flat surface of said lift-type check valve; setting up a computer with a program to generate phased signals; generating said phased signals; creating from said phased signals a series of pulsed signals with delays; first feeding said series of pulsed signals with delays through a multiplexor to transmit to piezo-electric crystals; transmitting an array of acoustical waves through said water wedge and said relatively flat surface into said fluid, said array of acoustical waves being caused by said series of pulsed signal in said transmit piezo-electric crystals; receiving a reflected array of acoustical waves in receiving piezo-electric crystals through said relatively flat surface and said water wedge, said reflected array of acoustical waves causing reflection signals in said receiving piezo-electric crystals; second feeding said reflection signals through said multiplexor to a receiver with delay to generate a series of output signals; summing said series of output signals to give a summed output; and displaying said summed output over an operation cycle of said lift-type check valve. - View Dependent Claims (12, 13, 14)
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Specification