SU714158A1 - Method and device for measuring the quantity of substance in a vessel - Google Patents

Description

The invention relates to the field of control technology and is intended to measure the amount or level of a substance in a container. By means of this method, a change in the level of a substance corresponds to a change in the measuring base, which is measured by the standing wave method 1. However, interference caused by external oscillations reduces the accuracy of measurements. A device consisting of a clock generator, an acoustic path with an emitter and a preamplifier, an amplifier, a synchronous detector, a differentiating circuit, an output trigger and a secondary device 2 is known. The aim of the invention is to improve the measurement accuracy. This goal is achieved by detecting the surface of the vessel's substances reflected synchronously with the sent oscillations, changing the frequency of the oscillations sent, measuring the time from the moment of changing the frequency of the sent oscillations to the moment of the appearance of the detected pulse and judging by the measurement result emssty. The proposed device for implementing the method is equipped with a sawtooth generator and a oscillating frequency generator connected by a meid with itself, the input of the first generator connected to the output of the clock generator, and the outputs of the second connected to the emitter and the synchronous detector. The drawing shows a functional diagram of the device. The device contains a clock generator, a sawtooth voltage generator 2, a frequency 3 oscillator, an emitter 4, a capacitor 5 for the test substance, a receiver 6, an amplifier 7, a synchronous detector 8, a differentiating circuit 9, an output trigger 10, secondary device 11, channel 12 reference voltage and synchronization channel 13. The device works as follows ..

The generator of sync pulses triggers a temporary generator of ilrobrazny voltage and sets the initial alarm to the initial trigger. The sawtooth voltage is applied to the oscillator of the oscillating frequency, which then enters the Emitter and is converted into acoustic oscillations directed to the surface of the level of the test substance.

At a certain point in time, depending on the frequency of the emitted oscillations and the average level of the substance, which determines the position of the measuring base, in the space of the container free from the substance, i.e. above the surface level of matter, standing waves arise. Acoustic oscillations thus excited, together with oscillations caused by random external noise, for example, vibration, capacitance, capture X-rays that convert them into electrical oscillations, amplify and enter the input of a synchronous detector, the other input of which is connected to a clock oscillating frequency oscillator.

When the frequency and phase match. The input signals of a synchronous detector at its input appear a signal, free from interference, carrying information about the amount of substance at the moment of the appearance of a standing wave. This signal is formed by a differentiating circuit in a short pulse, which is fed to the second input of the output trigger. . The output trigger converts STEP into 1 st 4e: neither between the frequency change terminal, i.e. the time of the occurrence of the sync pulse, and the time of the appearance of the detected signal, i.e. the moment of occurrence of a short pulse at the output of the differentiating circuit, the electric signal changing in proportion to the number

substances in the tank. The electrical signal at the trigger output is measured by a secondary device, the readings of which determine the amount of a substance, or its level in a vessel.

Claims (2)

1. A method of measuring the amount of a substance in about 1 crust based on the emission of acoustic ultrasonic vibrations forming a standing wave in a vessel over a substance, receiving and detecting oscillations reflected by the surface of a substance, characterized in THAT; In order to increase the accuracy, the oscillations reflected by the surface of a substance are detected synchronously with iH-ray oscillations, the frequency of the emitted oscillations is changed, measured from the time the frequency changes and the emitting oscillations until the moment when the detected pulse appears and the measurement result is judged capacity. 2. A device for carrying out the method according to claim 1, comprising a clock generator, an acoustic path with an emitter and a receiver, an amplifier, a synchronous detector, a differentiated circuit, a secondary trigger, a secondary device, provided with a sawtooth generator and oscillating frequency generator interconnected, with the input of the first oscillator connected to the output of the sync pulse generator, and the outputs of the second are connected to the emitter and the synchronous detector. Information sources, ; taken into account in the examination 1.ABtopcKoe certificate of the USSR No. 321687, cl. G 01 F 11/18, 03.06.70 2. USSR author's certificate  282687, class G 01 G 31/16, 0 & .05.69 (prototype). h h N h ..,. ,, V v i. , one ,../  X, i. ".