SU857880A1 - Hot-wire anemometer - Google Patents

Description

(54) THERMO-ANEMOMETER

one

The invention relates to a measurement technique and can be used to measure instantaneous flow rates in aerial and hydrodynamic studies.

Thermoanemometers of constant temperature are known, containing a measuring bridge with a sensitive element, control loop 1.

The closest to the proposed technical entity is a thermometer, containing a measuring bridge with a sensitive element, connected through a voltage amplifier with low and high frequency amplifiers, and a power amplifier 2.

A disadvantage of the known hot-wire anemometer is the low accuracy in measuring deep pulsations of the flow velocity due to the small steepness of the control loop with respect to the variable component, which leads to a change in the superheat, and the occurrence of measurement errors.

The purpose of the invention is to increase accuracy in measuring deep pulsations of the flow velocity.

This goal is achieved by the fact that the hot-wire anemometer is equipped with connected in series controlled divider and functional converter, wherein the controlled divider is connected to the input of the high-frequency amplifier and the functional converter to the output of the low-frequency amplifier.

The drawing schematically shows the proposed device.

Claims (2)

The thermoanemometer contains a sensing element 1, included in one of the arms of the measuring bridge 2. A voltage amplifier 3 is connected to the output diagonal of the measuring bridge. The output of the voltage amplifier is connected to the input of the low-frequency amplifier 4 and through a controlled J5; voltage gel 5 with the input of the high-frequency channel 6 amplifier. The input of the controlled voltage divider is connected via functional converter 7 with the output of low-frequency amplifier 4. The outputs of amplifiers 4 and 6 are connected 20 to a power amplifier 8, the output of which is connected to the output diagonal of the measuring bridge and is the output of the entire device. Thermoanemometer works as follows. When the feedback is closed with switch S, bridge 2, which is set to a predetermined superheat, automatically leads to a balance due to heating of the sensitive element 1. A change in the average flow velocity leads to a change in temperature, and consequently, the resistance of the sensitive element 1 and the appearance of the amplifier 3 for example The imbalance A e, which is amplified by amplifier 4 and changes the output current of power amplifier 8, so that the resistance of the sensing element 1 returns to its original value and the bridge returns to balance. The pulsation component of the flow rate is monitored similarly by amplifier 6, on. the input of which has a controlled voltage divider, which changes the steepness of the high-frequency amplifier so that it is maximum when the average flow rate changes, and the system is stable. Since the value of the maximum steepness of the high frequency channel nonlinearly depends on the average flow velocity, the control signal by the voltage divider is fed to it through a functional converter that provides this nonlinear relationship. The inclusion of a controlled voltage divider in the control loop of the hot-wire anemometer significantly reduces the measurement error during deep pulsations of the flow velocity. The invention The Thermoanemmeter, comprising a measuring bridge with a sensitive element, is connected via a voltage amplifier to high and low frequency amplifiers and a power amplifier, characterized in that, in order to improve the measurement accuracy with deep pulsations of the flow rate, it is equipped with series-controlled a divider and a functional converter, the controlled divider being connected to the input of the high-frequency amplifier, and the functional converter to the output of the low-frequency amplifier you. Sources of information taken into account during the examination 1. Ossofsky E. Thermoanemometer operation at a constant temperature at a high frequency. The woiew of silutibie instruments 1948, No. 12, p. 719. 2.Istaev S.I. and others. Semiconductor thermoanemometer of constant temperature. “Instruments and Experimental Technique, 1974 (prototype).