SU947834A1 - Control signal shaper for control of liquid metering-out - Google Patents

Description

l and with the release of pieopreobraboovato- i l E.

The disadvantage of this device is the error due to the time variation of the amplitude of the ultrasonic oscillations sent by the transducer into the wall.

The purpose of the invention is to increase the accuracy of the former.

The goal is achieved in that the driver contains a second delay unit connected in series, a second gating unit, a second selector amplifier, a second peak detector and a second emitter follower, the output of which is connected to the BTO input of the control unit, and the input of the second delay unit is connected to the first generator output and the second input of the second selector amplifier is connected to the output of the piezoelectric transducer and to the second output of the generator.

The drawing shows a diagram of the device.

The device contains a piezoelectric transducer 1, mounted on a reservoir 2 with controlled liquid 3, connected to a piezoelectric transducer generator 4 and a receiving channel 5 with a control unit 6 connected to it, generating a liquid dispensing control signal 7. Channel 5 consists of consistently. connected to the first delay unit 8, the first gating unit 9, the first selector amplifier 10, the first peak detector 11 and the nep-s emitter follower 12. The dosing control signal generator also includes a second receiving channel consisting of series-connected second unit 13, a second gating unit 14, a second selector amplifier 15, a second peak detector 16, and a second emitter follower 17.

The device works as follows.

A receiver-emitting acoustic piezotransducer 1 periodically sends a pulse of ultrasonic vibrations to the wall of tank 2 with a controlled fluid 3. The transducer is excited by electric pulses coming from the output of generator 4. The ultrasonic pulses repeatedly reflected in the wall of transmitter 2 are transformed into 18 pulses of electrical oscillations ultrasound frequency.

Together with the excitation pulse of the generator 4, these pulses are fed to the inputs of selector amplifiers 10 and 15, controlled by the strobe pulses of blocks 9 and 14, formed by them relative to the start of the action of the exciting pulse of the generator 4 with time delays, T and Tj, respectively. (T: Ta.). As a result, the excitation pulse of the generator 4 at the outputs of the selector amplifiers 10 and 15 does not arrive and the multiply reflected pulses 19 and 20 corresponding to the strobe pulses are fed to the inputs of the peak detectors 11 and 16, which convert them into voltages E and Ej. direct current equal to the amplitudes of the selected pulses. The selection of these pulses is carried out at intervals close to the duration of the ultrasound pulse.

The magnitudes of the voltages obtained as a result of the detection carry information about the type of medium in the tank in the area where the pulse of ultrasonic oscillations (gas or liquid) is input and, moreover, depend on the amplitude of radiation into the wall of tank 2.

The magnitude of the delay TG and Tr. set by multiples of twice the amount of time for ultrasound to pass through the wall of tank 2, i.e.

, G; G2.2 ..

At the same time, as noted above, k k-2 (k and k target numbers). Usually k is at least several times greater than k. For example: Mer, k 2, and k 10. With this choice of T-1 and Tg, the strongest dependence on the type of medium in the measured reservoir takes place for a voltage Ej., Which in the presence of liquid has a smaller value of E 2. and in its absence, more E value

The gains in the selector amplifiers 10 and 15 are chosen so that the value of E, (between E, for example, is equal to their half-sum.

The output signals E and peak detectors 11 and 16 through the emitted repeaters 12 and 17 enter the control unit 6. In the latter, when the signal E exceeds the value E, a control signal 7 is generated about the presence of liquid in the installation zone of the piezoelectric transducer 1. The control signal is used in the corresponding dosing system.

Claims (3)

1. Authors certificate of the USSR 204042, cl. G 01 N Z9/00, 19b5. 2. Authors certificate of the USSR 205356, cl. G 01 N 15/0. 19b5. 3. USSR author's certificate on application 2361105/24, cl. G 05 O 7/00. 05/12/76 (pyotype) I.