Fluid flow detector
First Claim
1. An apparatus for monitoring fluid flow through a pipe or at the exit of a pipe, said device comprising,an acoustic generator acoustically coupled to the pipe or at the exit of the pipe, said acoustic generator activated by the fluid flowing through the pipe or the exit of the pipe and generating upstream acoustic vibrations in the fluid flowing through the pipe, said acoustic vibrations forming a purposeful acoustic signal, an acoustic receiver acoustically coupled to a remote upstream portion of the pipe, said acoustic receiver constructed to respond to at least a portion of the acoustic signal generated by the acoustic generator and to produce an electric output signal, a signal processing means arranged to receive the electric output signal from the acoustic receiver and to detect a deviation in said electrical output signal from a predetermined normal signal by a value greater than a predetermined value indicating a fault in the flow of fluid through the pipe or at the exit of the pipe, and a display means for indicating said fault.
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0 Petitions
Accused Products
Abstract
A method and apparatus for monitoring fluid flow in a pipe or at an exit of the pipe and detecting a fault. The system includes an acoustic generator which is activated by the fluid flowing in the pipe or at the exit of the pipe. The acoustic generator sends an acoustic signal, which may have a distinctive signature, through the fluid flowing in the pipe. The acoustic signal is received by a remote upstream acoustic receiver and is translated into an electric signal supplied to a signal processor.
33 Citations
19 Claims
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1. An apparatus for monitoring fluid flow through a pipe or at the exit of a pipe, said device comprising,
an acoustic generator acoustically coupled to the pipe or at the exit of the pipe, said acoustic generator activated by the fluid flowing through the pipe or the exit of the pipe and generating upstream acoustic vibrations in the fluid flowing through the pipe, said acoustic vibrations forming a purposeful acoustic signal, an acoustic receiver acoustically coupled to a remote upstream portion of the pipe, said acoustic receiver constructed to respond to at least a portion of the acoustic signal generated by the acoustic generator and to produce an electric output signal, a signal processing means arranged to receive the electric output signal from the acoustic receiver and to detect a deviation in said electrical output signal from a predetermined normal signal by a value greater than a predetermined value indicating a fault in the flow of fluid through the pipe or at the exit of the pipe, and a display means for indicating said fault.
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7. An apparatus for monitoring fluid flow through a pipe or at the exit of a pipe, said device comprising:
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an acoustic piezoelectric transducer generator acoustically coupled to the pipe or at the exit of the pipe, said acoustic generator activated by the fluid flowing through the pipe or the exit of the pipe and generating upstream acoustic vibrations in the fluid flowing through the pipe, said acoustic vibrations forming a purposeful acoustic signal, an acoustic piezoelectric transducer receiver acoustically coupled to a remote upstream portion of the pipe, said acoustic receiver constructed to respond to at least a portion of the acoustic signal generated by the acoustic generator and to produce an electric output signal, a signal processing means arranged to receive the electric output signal from the acoustic receiver and to detect a deviation in said electrical output signal from a predetermined normal signal by a value greater than a predetermined value indicating a fault in the flow of fluid through the pipe or at the exit of the pipe, and a display means for indicating said fault. - View Dependent Claims (8, 9, 10)
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11. A method for monitoring fluid flow through a pipe or at the exit of a pipe, said method comprising:
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acoustically coupling an acoustic generator to the pipe or the exit of the pipe to be monitored for fluid flow, said acoustic generator capable of being activated by the fluid flowing through the pipe or the exit of the pipe and generating upstream acoustic vibrations in the fluid flowing through the pipe, said acoustic vibrations forming a purposeful acoustic signal;
acoustically coupling an acoustic receiver to a remote upstream portion of the pipe, said acoustic receiver capable of responding to at least a portion of the acoustic signal generated by the acoustic generator and producing an electric output signal, the acoustic generator sending an acoustic signal to the acoustic receiver through the fluid flowing through the pipe;
the acoustic receiver receiving the acoustic signal and producing an electric output signal;
receiving the electric output signal in a signal processing means capable of determining whether the signal deviates from a predetermined normal signal by a value greater than a predetermined value indicating a fault in the flow of fluid through the pipe or at the exit of the pipe; and
,displaying the results as an alarm or no alarm condition. - View Dependent Claims (12, 13, 14, 15)
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16. A system for detecting fluid flow in a fire sprinkler system comprising:
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a fire sprinkler system including at least one pipe and at least one sprinkler head;
a fluid in said at least one pipe;
an acoustic generator acoustically coupled to at least one of said pipe and said sprinkler head, said acoustic generator generating a purposeful acoustic signal in response to said fluid being ejected from said pipe via said sprinkler head, said purposeful acoustic signal being propagated in said fluid; and
an acoustic receiver acoustically coupled to said pipe, said acoustic receiver constructed to respond to at least a portion of said purposeful acoustic signal generated by the acoustic generator. - View Dependent Claims (17, 18)
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19. An apparatus for monitoring fluid flow in a pipe, said device comprising,
a plurality of acoustic generators acoustically coupled to said pipe, said acoustic generators activated by the fluid flowing through said pipe, and each of said acoustic generators generating a purposeful acoustic signal in response to said fluid flowing through said pipe and emitting said purposeful acoustic signal into said fluid flowing through said pipe; -
an acoustic receiver acoustically coupled to said pipe at a point remote from said acoustic generators, said acoustic receiver constructed to respond to at least a portion of said acoustic signal generated by said acoustic generators;
a microprocessor coupled to said acoustic receiver, said microprocessor being able to determine which of said plurality of acoustic generators generated said acoustic signal based on the acoustic signal received by said acoustic receiver; and
a display coupled to said microprocessor for displaying which of said acoustic generators generated said acoustic signal.
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Specification