Apparatus for measuring the speed of flow of flowable media
First Claim
1. Apparatus for measuring the speed of flow of flowable media by determining the transit time of sound waves therein, in which first and second transmitter-receivers in the form of electroacoustic converters are spaced apart in the direction of flow with an imaginary line joining said first and second transmitter-receivers having at least a component in the direction of the flow to be measured and in which sound pulses are sent alternately in a first direction from said first transmitter-receiver to said second transmitter-receiver and in a second direction, opposite to said first direction, from said second transmitter-receiver to said first transmitter-receiver, there being a processing circuit for determining the speed of flow from the transit times of the sound pulses in the first and second directions, the apparatus further comprising pulse circuits which for said first and second directions have available:
- (a) a pulse generator operating at a first specific frequency and connected to the associated electroacoustic converter;
(b) a frequency generator which preferably operates at a higher frequency, said frequency generator having a frequency control input and a setting or trigger input to which pulses of the pulse generator are applied, and(c) a phase detector having first and second inputs to which received pulse signals and the output of the frequency generator are respectively applied with the output of said phase detector being passed to a mean value forming stage which is in turn connected to the frequency control input of the frequency generator and which regulates the frequency of the frequency generator to a value corresponding to the time interval between the arrival of a pulse at the setting input and the arrival of the received pulse signal at the phase detector,and means for passing the frequencies of the frequency generators to the processing circuit.
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Accused Products
Abstract
The speed of a flowing medium is measured by determining the transit time of sound pulses transmitted alternately in opposite directions between first and second transmitter-receivers 23, 24 spaced apart in the direction of flow. A processing circuit 18, 19, 20 evaluates the speed of flow from the difference between the transit times in the two directions. The transit times in the two directions are measured by separate but identical first and second pulse circuits 11, 11'"'"'. Each pulse circuit includes a variable frequency generator 13 the frequency of which is so regulated by the transmitted pulse from the pulse generator 12 and the pulse E received from the associated transmitter-receiver that the reciprocal of its frequency is equal to the transit time in the associated direction. Delay circuitry 21 is able to delay the trigger pulse applied to the frequency generator 13 from the pulse generator 12 so as to take account of transit time errors in the apparatus.
10 Citations
14 Claims
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1. Apparatus for measuring the speed of flow of flowable media by determining the transit time of sound waves therein, in which first and second transmitter-receivers in the form of electroacoustic converters are spaced apart in the direction of flow with an imaginary line joining said first and second transmitter-receivers having at least a component in the direction of the flow to be measured and in which sound pulses are sent alternately in a first direction from said first transmitter-receiver to said second transmitter-receiver and in a second direction, opposite to said first direction, from said second transmitter-receiver to said first transmitter-receiver, there being a processing circuit for determining the speed of flow from the transit times of the sound pulses in the first and second directions, the apparatus further comprising pulse circuits which for said first and second directions have available:
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(a) a pulse generator operating at a first specific frequency and connected to the associated electroacoustic converter; (b) a frequency generator which preferably operates at a higher frequency, said frequency generator having a frequency control input and a setting or trigger input to which pulses of the pulse generator are applied, and (c) a phase detector having first and second inputs to which received pulse signals and the output of the frequency generator are respectively applied with the output of said phase detector being passed to a mean value forming stage which is in turn connected to the frequency control input of the frequency generator and which regulates the frequency of the frequency generator to a value corresponding to the time interval between the arrival of a pulse at the setting input and the arrival of the received pulse signal at the phase detector, and means for passing the frequencies of the frequency generators to the processing circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. Apparatus for measuring the speed of flow of flowable media by determining the transit time of sound waves therein, in which first and second transmitter-receivers in the form of electroacoustic converters are spaced apart in the direction of flow with an imaginary line joining said first and second transmitter-receivers having at least a component in the direction of the flow to be measured and in which individual sound pulses are sent alternately in a first direction from said first transmitter-receiver to said second transmitter-receiver and in a second direction, opposite to said first direction, from said second transmitter-receiver to said first transmitter-receiver, there being a processing circuit for determining the speed of flow from the transit times of the sound pulses in the first and second directions, the apparatus further comprising a pulse generator for connection to the electro-acoustic converters, said pulse generator operating at a specific frequency;
- variable frequency generator means having frequency control input means and trigger input means to which pulses of said pulse generator are applied, a phase detector having a first and second inputs, said inputs being respectively connected to receive pulse signals from said first and second transmitter-receivers when acting as receivers and signals from said variable frequency generator means, said phase detector having further an output, said output being connected to mean value forming means connected in turn to said frequency generator means, which regulates the frequency generator to a value corresponding to the time interval between the arrival of a pulse at the setting input and the arrival of the received pulse signal at the phase detector; and
means for passing said frequencies to said processing circuit.
- variable frequency generator means having frequency control input means and trigger input means to which pulses of said pulse generator are applied, a phase detector having a first and second inputs, said inputs being respectively connected to receive pulse signals from said first and second transmitter-receivers when acting as receivers and signals from said variable frequency generator means, said phase detector having further an output, said output being connected to mean value forming means connected in turn to said frequency generator means, which regulates the frequency generator to a value corresponding to the time interval between the arrival of a pulse at the setting input and the arrival of the received pulse signal at the phase detector; and
Specification
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- Resources
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Current AssigneeErwin Sick GmbH
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Original AssigneeErwin Sick GmbH
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InventorsKrause, Gerhard
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Primary Examiner(s)Ruehl, Charles A.
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Application NumberUS06/200,166Time in Patent Office977 DaysField of Search73/861.27, 73/861.28, 73/861.29US Class Current73/861.28CPC Class CodesG01P 5/18 by measuring the time taken...G01P 5/247 Sing-around-systems
