Method and apparatus for locating leakages in pipes and similar conduits
First Claim
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1. A method for finding the position of leaks in a fluid conveying pipe-line such as in a water supply networks, comprising the steps of:
- (a) attaching a sound sensor at a first position in said pipe-line such that said sound sensor is in direct contact with said fluid;
(b) attaching a sound reflector at a second position in said pipe-line such that said sound reflector is in direct contact with said fluid and such that said sound sensor and said sound reflector are coupled acoustically through said fluid, said second position being spaced from said first position a predetermined distance;
(c) supplying the signal produced by said sound sensor into a signal analyzer;
(d) making an autocorrelation analysis of said signal in said signal analyzer;
(e) determining a characteristic propagation time difference from a characteristic maximum of such autocorrelation function which has been determined by said autocorrelation analysis and which propagation time difference corresponds to the difference of the propagation time of the sound wave which has passed directly between said leak and said sound sensor and the propagation time of the sound wave which is has passed from said leak via said sound reflector to said sound sensor;
(f) determining the distance between the positions of said leak and said sound reflector from said obtained propagation time difference.
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Abstract
Leaks in fluid conveying pipe-lines, in which the noise from the escaping uid at the position of the leak creates sound waves are detected by at least one sound sensor and, at a known distance from it, a sound reflector, both of which are in direct contact with the fluid. The sound sensor receives the directly incident sound waves, and also the reflected sound waves from the sound reflector. The received signals are evaluated using an autocorrelation function.
22 Citations
12 Claims
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1. A method for finding the position of leaks in a fluid conveying pipe-line such as in a water supply networks, comprising the steps of:
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(a) attaching a sound sensor at a first position in said pipe-line such that said sound sensor is in direct contact with said fluid; (b) attaching a sound reflector at a second position in said pipe-line such that said sound reflector is in direct contact with said fluid and such that said sound sensor and said sound reflector are coupled acoustically through said fluid, said second position being spaced from said first position a predetermined distance; (c) supplying the signal produced by said sound sensor into a signal analyzer; (d) making an autocorrelation analysis of said signal in said signal analyzer; (e) determining a characteristic propagation time difference from a characteristic maximum of such autocorrelation function which has been determined by said autocorrelation analysis and which propagation time difference corresponds to the difference of the propagation time of the sound wave which has passed directly between said leak and said sound sensor and the propagation time of the sound wave which is has passed from said leak via said sound reflector to said sound sensor; (f) determining the distance between the positions of said leak and said sound reflector from said obtained propagation time difference. - View Dependent Claims (2, 3, 4, 5)
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6. A system for finding the position of leaks in a fluid conveying pipe-line, such as in a water supply network, comprising:
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(a) a sound reflector attached at a first position in said pipe-line in direct contact with said fluid; (b) a sound reflector attached at a second position pipe-line in direct contact with said fluid such that said sound sensor and said sound reflector are coupled acoustically through said fluid, said second position being spaced from said first position a predetermined distance; (c) an electronic signal analyzer connected to said sound sensor, said signal analyzer being adapted to make an autocorrelation analysis of a signal received solely from said sound sensor; (d) means for determining a characteristic propagation time difference from a characteristic maximum of such autocorrelation function which has been determined by said autocorrelation analysis and which propagation time difference corresponds to the difference of the propagation time of the sound wave passing directly between the leak and said sound sensor and the propagation time of the sound wave passing from the leak via sound reflector to said sound sensor; (e) means for determining the distance between the positions of said leak and said sound reflector from said obtained propagation time differences. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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Specification