SU605096A1 - Rate-of-flow measuring method - Google Patents

Description

one

The invention relates to the field of instrumentation, in particular to methods for measuring the flow rate.

Methods are known for measuring flow rates and flow rates of liquids and gases, based on measuring the time of passage of the tag along with the flow between two sections of the measuring section, in which mark 1 is recorded.

Of the known methods for measuring flow rates, the closest in technical essence is the labeling method in which thermal marks are formed due to high-frequency heating of the flow. In this case, the determination of the passage of the mark past the recorder is carried out using ultrasonic oscillations 2. However, the known methods do not provide the possibility of measuring the mass flow rate of a fluid with varying composition.

The purpose of the invention is to introduce a correction in the composition of the controlled flow. This is achieved by using the proposed method to additionally measure the temperature of the label. Due to this, the proposed method provides cost measurement with high static and dynamic accuracy in a wide range of costs with a variable composition of the measured medium.

The drawing shows a block diagram of an apparatus for carrying out the method.

The flow meter contains a control unit 1, a source of heat labels 2, a recorder of 3 labels with a measurement circuit 4, a differentiating unit 5, a meter of amplitude 6 of a tenel mark, a block of time reference 7, a functional block 8, an adder 9, a measuring device 10, a branch pipe 11.

During operation of the device, the control unit i periodically switches on the source of heat marks 2 by supplying rectangular pulses with a constant frequency to the power supply circuit of the source of marks 2.

As a non-contact sources of heat labels, you can use a microwave, RF or infrared emitter.

The flow rate is determined by measuring the time of movement of the tag from the point of its entry into the stream to the tag recorder. The time is recorded as follows.

The control pulse from the control unit 1 turns on the source of tags and starts the block of time counting 7. The block of time counting is switched off by a signal from measuring circuit 4 at the moment of fixation of the mark by the recorder

3. Then, the meter 6 determines the maximum temperature of the mark, which is a function of the flow rate and composition.

At the same time, block 5 continuously differentiates the signal coming from the meter 4 circuit.

-At the moment the derivative equals zero, the maximum value of the label temperature is measured by block 6. The measured maximum temperature of the label is compared in the adder 9 with the reference signal, which is generated by the functional block 8.

The magnitude of the reference signal is equal to the maximum temperature of the mark in the zone of the recorder nrn constant initial medium composition for the 7 flow values obtained in block 7.

The difference between the reference signal and the measured temperature obtained at the output of the adder is functionally related to the composition of the measured medium.

The data on the time of movement of the tag from the source to the recorder and the composition of the measured medium allows to obtain the mass flow rate recorded by the measuring device 10.

Claims (2)

1.Katys G.P. Systems of automatic control of velocity and expense fields. M., “Science, 1963. 2. US patent No. 3019647, cl. 73-204, 1962.