PL124390B2 - Method of and apparatus for measurement of velocity of fluid flow - Google Patents

Description

The subject of the invention may be used to measure the flow velocity of single-phase liquids such as water, alcohols, acids, or multiphase liquids such as milk, oils, etc. It may be particularly advantageous to measure liquids in which there are large temperature fluctuations and sound wave attenuation, because the changes both of these values have no influence on the measurement result. This is the case, for example, in the heating industry, when measuring wastewater flows, etc. Good effects can also be expected when measuring liquids, in which there are solid bodies of not very large dimensions. Patent claims 1. Method of measuring the velocity of liquid flow, consisting in determining the transit time of the ultrasonic wave between the transducers placed in the medium flowing with the velocity subject to measurement and calculation of the speed according to the formula, characterized by the fact that N independent measurements of the ultrasonic wave transit time sent from one transducer (4 ) towards another transceiver (3), then N independent measurements of the time of passage of the ultrasonic wave between the transducers (3 and 4) sent in the opposite direction are made, and then the differences A and B of the arithmetic mean of the obtained results of the transition time are determined in one direction and towards the pass and the velocity v of the liquid is calculated from the formula v = k4. where k is a constant depending on the distance between the transducers and their location in relation to the direction of fluid flow. 2. A system for measuring the velocity of liquid flow, including two ultrasonic transducers connected to the outputs of the transmitters and inputs of receivers, characterized by the fact that it consists of a stabilizing and receiving system (6) connected by inputs to ultrasonic transducers (3, 4), and the output with the control system (7) connected with the reverse counter (8) directly and through the logic gate (9), where the reverse counter (8) is also connected with the frequency divider (10) and, through the logic gate (9) , a clock generator (11) also connected via a logic gate (12) controlled by the control system (7) to the subtracting counter (13) connected via a power factor (14) with the frequency counter (10) and with the input of the result counter (15), which in turn, it is connected to the memory circuit (16) controlled by the control circuit (7). 3. System according to claim 2. A method according to claim 2, characterized in that the stabilizing and receiving system (6) consists of two preamplifiers (61 and 62), the outputs of which are connected to the inputs of the analog key (63) controlled by the control system (7), and the output of the key (63) it is connected to the amplifier (64), the output of which is connected to the sampling circuits (65 and 66) inputs (65 and 66) switched by the control (7), and the outputs of both samplers are connected to two inputs of the differential integrator (67), and the output of one of the sampling circuits (66) it is connected to one of the inputs of the differential integrator (68) regulating the gain of the amplifier (64). 124 390 \ 43 "V \ N ^ i ./ ifeal H ^ H 8 h 65 r ^ J 10 11 «JH 19 tt 16 17 18 12 * P PL

Claims (3)

Claims 1. Method of measuring the velocity of liquid flow, consisting in determining the time of passage of the ultrasound wave between the transducers placed in the fluid flowing environment with the speed subject to measurement and calculation of the speed according to the formula, characterized by the fact that N independent time measurements are made ultrasonic wave transition sent from one transceiver (4) towards another transceiver (3), then N independent measurements of the ultrasonic wave transit time between transducers (3 and 4) sent in the opposite direction are made, and then the differences A and B of the arithmetic averages of the obtained results of transit times in one direction and in the opposite direction and the velocity v of the liquid is calculated from the formula v = k4.? where k is a constant depending on the distance between the transducers and their location in relation to the direction of fluid flow. 2. A system for measuring the velocity of liquid flow, including two ultrasonic transducers connected to the outputs of the transmitters and inputs of receivers, characterized by the fact that it consists of a stabilizing and receiving system (6) connected by inputs to ultrasonic transducers (3, 4), and the output with the control system (7) connected with the reverse counter (8) directly and through the logic gate (9), where the reverse counter (8) is also connected with the frequency divider (10) and, through the logic gate (9) , a clock generator (11) also connected via a logic gate (12) controlled by the control system (7) to the subtracting counter (13) connected via a power factor (14) with the frequency counter (10) and with the input of the result counter (15), which in turn, it is connected to the memory circuit (16) controlled by the control circuit (7). 3. System according to claim 2. A method according to claim 2, characterized in that the stabilizing and receiving system (6) consists of two preamplifiers (61 and 62), the outputs of which are connected to the inputs of the analog key (63) controlled by the control system (7), and the output of the key (63) it is connected to the amplifier (64), the output of which is connected to the sampling circuits (65 and 66) inputs (65 and 66) switched by the control (7), and the outputs of both samplers are connected to two inputs of the differential integrator (67), and the output of one of the sampling circuits (66) it is connected to one of the inputs of the differential integrator (68) regulating the gain of the amplifier (64). 124 390 \ 43 "V \ N ^ i ./ ifeal H ^ H 8 h 65 r ^ J 10 11 «JH 19 tt 16 17 18 12 * P PL