SU429272A1 - FLUID AND GAS FLOW METER - Google Patents

Description

one

This invention relates to the measurement of liquid and gas flow rates.

A flow meter is known, comprising a housing made of a non-magnetic material, a three-phase winding located on the housing, a rotor in the form of a molded impeller with a permanent magnet, a receiver-transducer, and a measuring circuit.

When the flow is swirled from the upstream drive, the tangential component of the velocity V- remains approximately constant, and the flow rates are characterized by the ratio of the tangential and axial components of the speeds Vz, while the frequency of the vortex oscillations cannot unambiguously determine the flow.

The purpose of the invention is to more fully utilize the information properties of rotating streams and reduce the energy intensity of the device.

For this purpose, in the proposed device, the measurement circuit is made on the basis of two bridges, in which the resistance thermometers of the receiver-converter are connected in pairs, while the measuring diagonal of the first bridge is connected through an amplifier to the input of the first control trigger, the other input of which is connected to the speed indicator and the trigger output through the key is connected to the heating winding of the receiver-converter; the second output of the amplifier is connected to one

from the inputs of the second control trigger, the other input of which through the amplifier is connected to the measuring diagonal of the second bridge, and the output of the trigger is connected to the driver of the time interval.

The drawing shows a diagram of the proposed device.

The device includes a housing 1, a three-phase winding 2, right moth impeller 3,

resistance thermometer 4, heating winding 5, resistance thermometers 6, 7 and 8, magnet 9, first control trigger 10, first switch AND, amplifiers 12, 13, second control trigger 14, second switch 15, gauge 16, first and second 18 bridges.

The receiver is positioned along the axis of the rotating flow. Four resistance thermometers located in the receiver are connected in pairs in two bridges. Each bridge is balanced at different temperatures. The first bridge to a higher, the second na more pizkuyu. Heating the receiver to a certain temperature, using the bridges, determine the time required to cool the receiver in the stream to a predetermined temperature. This time depends on the flow around the receiver. The maximum coefficient of heat v, dachas - at maximum sotisoschlenii -

It decreases with a decrease in this ratio. Since V is const, the time interval is proportional to the value of the axial component of the velocity.

The measured flux enters the housing 1 in an arrow and twists in front of the moped impeller 3, which, in turn, is driven by the interaction of the magnet 9 with the rotating magnetic field created by the winding 2. The marker 16 on each impeller pulses the first control trigger 10 with separate inputs, which, via switch 11, turns on the power to the heating winding 5. The receiver heats up until thermometers 4 and 6 change the output voltage of bridge 17 to positive. At the output of bridges 17 and 18 in the initial state, the voltage is negative. The positive voltage of the bridge 17 through the amplifier 12 disconnects the trigger 10 and the power to the heating winding. The rotating flow cools the receiver, thermometers 4 and 6 change the output voltage of the bridge 17 to negative. A negative pulse through amplifier 12 turns on the second control trigger 14. The latter, through the second switch 15, turns on the beginning of the time interval, which continues until the thermometers 8 and 7 cool the voltage of the bridge 18 to negative. This voltage through the amplifier 13 turns off the control trigger 14 and through the key 15 is the time interval.

The average value of time intervals per unit of time is proportional to the flow.

Subject invention

A liquid and gas flow meter, comprising a housing made of a non-magnetic material, a three-phase winding located on the housing, a rotor, which is a molopast impeller made of a nonmagnetic material with a permanent magnet mounted on the axis of the impeller, a receiver-converter and a measuring circuit characterized by that, in order to more fully utilize the information properties of the rotating flows and reduce the power consumption of the device, the measurement circuit is made on the basis of two bridges, which include thermometers in pairs resistance of the receiver-converter, while the measuring diagonal of the first bridge through the amplifier is connected to the input of the first control trigger, the other input of which is connected to the speed marker, and the trigger output via the key

connected to the heating winding of the receiver-converter, the second output of the amplifier is connected to one of the inputs of the second control trigger, the other input of which is connected through an amplifier to the measuring diagonal of the second bridge, and the output of the trigger is connected to the driver of the time interval.