SU245393A1 - DEVICE FOR MEASURING LIQUID FLOW - Google Patents

Description

The invention relates to the field of instrumentation.

Apparatus for measuring fluid flow is known, comprising a rotameter and a secondary instrument.

The remote transmission of indications in rotameters is carried out by means of a magnetic or inductive transmission of indications of the position of the float. The need to use a ferromagnetic material in the float causes great difficulties in the manufacture of rotameters at low costs, and making the rotameter tube out of a nonmagnetic material narrows its area of application.

The proposed device differs from the known ones in that it is equipped with a piezoelectric transducer mounted in coaxiality with the rotameter with an electronic circuit made in the form of a series-connected broadband amplifier and time interval meter, in parallel with which a pulse generator and a locking unit are connected.

The drawing shows a diagram of the proposed device.

The device contains a conical tube 1, at the base of which is placed a piezoelectric transducer 2, sending ultrasonic pulses in the direction of the float 5 and powered by a pulse generator 4. The pulse reflected from the float is again fed to the transducer, then to the broadband amplifier 5, the detector 6 and the video amplifier 7 The leading edge of the video pulse can directly start the time interval meter.

To improve the accuracy of measurements in the scheme, an intensifier of 8 video pulses was used. It is a shut-off block generator generating a very short pulse with a duration of 50-60 nsec, with a steep front edge of the order of 4-6 nsec. The amplitude of this pulse reaches 60 V, which ensures a clear operation of the time interval meter. The latter is a locked multivibrator 9 (trigger) with two stable equilibrium positions. The multivibrator tilts when a pulse is received from the generator 4, as well as when a pulse is reflected from the float 3. Thus, the pulse duration of the multivibrator is proportional to the propagation time of the ultrasonic pulse from the transducer 2 to the float 5 and

back.

From the multivibrator, the pulse arrives at the output stage 10, where it is converted into a DC signal, the magnitude of which is proportional to the pulse duration. Seek //. In the output stage, the possibility of supplying a signal to EPG type recorders, which automatically record the flow rate during the entire device operation time, is provided.

To increase the stability and accuracy of the instrument, the time interval meter is made according to a single-channel scheme, so that the triggering pulses from the generator 4 and the float 3 are fed to the sharpener 8. To ensure normal operation of the instrument at any level of the float, it is necessary to prevent the multivibrator 9 from triggered when all reflected Float 3 pulses, except the first. For this purpose, a locking block 12 is provided in the circuit, from which an additional negative bias is applied to the grid of the locked peaking agent 8. As a result, the peaking device does not open any of the pulses reflected from the float except for the generator 4 pulse, the amplitude of which is greater than the negative offset on the grid lamp sharpener. After actuation of the sharpener 8, the trigger is tilted and a pulse is applied to the locking block, therefore, an additional offset on the sharpener grid is turned off and the reception of pulses reflected from the float becomes possible. Upon the arrival of the first of these pulses, the trigger returns to the initial state, and the locking block creates a negative offset on the pendant lamp grid, preventing the passage of subsequent reflected pulses.

Subject invention

A device for measuring fluid flow, containing a rotameter and a secondary device, characterized in that, in order to increase accuracy and reliability, it is equipped with a piezoelectric transducer with an electronic circuit made in the form of serially connected broadband amplifier and time interval meter parallel to which connected, respectively, a pulse generator and a locking unit.