KR940002191B1 - Liquid level measuring system - Google Patents

Abstract

The system measuring the residual gas quantity of the liquified gas vessel by hammering the vessel and measuring the resonant frequency comprises a period setting circuit (2) determining the operation time of an electronic hammer (3) and a wave receiver, a first amplifier (5) amplifying the received wave, a filter (6) filtering the noise for selecting the resonant wave, a second amplifier (7) amplifying the filtered signal, a F/V converter converting the amplified signal to the corresponding DC voltage, and a display (9) displaying the measured residual gas quantity.

Description

Residual amount measurement system of liquefied gas container

Is a block diagram of a system of the present invention.

* Explanation of symbols for main parts of the drawings

1: power supply unit 2: cycle setting unit

3: electronic hammer section 4: sound wave receiving unit

5, 7: first and second amplifiers 6: frequency filter unit

8: F-V converter 9: Display

The present invention relates to a system for measuring the residual amount of a liquefied gas container, and in particular, by applying a shock to the surface of the container to convert the negative frequency resonating inside the container into a direct current by changing the DC voltage to a value corresponding to the residual amount of gas A system for measuring the remaining amount of.

In order to measure the amount of gas remaining in a conventional liquefied gas container, there was a method of measuring the weight of a gas cylinder and comparing the weight before and after use, but this is a very primitive method, which is difficult to carry out with the weight of a gas cylinder, It was very cumbersome to install and the weight was to be read at the place where the gas container was installed, so its use was not practical and practical.

And the transparent plate was attached to the side wall of the storage tank and the amount of gas in the storage tank was measured through the transparent plate. Since the high pressure liquefied gas is vaporizable, there is a difficulty in visual measurement because there is a closed end where the transparent plate is frozen, and it is connected to the upper and lower sides of the storage tank every time the amount of high pressure liquefied gas is measured and cooled around the pipe. The amount of high pressure liquefied gas in the storage tank was measured as an ice block, or the position where the hand was attached to the pipe by vaporization by touching the pipe connected to the storage tank by hand. However, the above is a primitive measurement method, which was not able to accurately measure how much the amount of liquefied gas in the high pressure liquefied gas storage tank is stored.

The present invention has been proposed in view of the above-mentioned conventional problems, and the sound generated when the bowl is filled with a liquid resonant frequency varies depending on the amount of liquid, and only the sound of the resonant frequency resonates with the reverberation phenomenon. The frequency of sound generated when tapping the gas container is proportional to the height of the liquid level of the liquefied gas. If the types of liquids are the same and the containers are the same condition, the frequency is always constant. The present invention realizes the residual amount of gas by tapping the vessel with an electronic hammer (solenoid) and converting the frequency of the sound remaining as reverberation into a voltage, and measuring the voltage. In order to solve the measurement system, the electrical system can be used to enable telemetry with convenience. As described below, one embodiment of the present invention will be described with reference to the accompanying drawings.

The operating time of the electronic hammer unit 3 and the operating time of the sound wave receiving device unit 4 by acting as a timer for the overall control of the power supply unit 1 and each unit for supplying power to each unit of the system of the present invention. The period setting device section 2 for determining and the electronic hammer section 3 as an impact device for tapping the container to generate a resonant frequency, and the sound waves generated after the operation of the electronic hammer section 3 are tracked. Acoustic wave receiver 4 having a reception characteristic with respect to a high frequency band and an ultrasonic band, a first amplifier 5 for amplifying a weak sound wave received by the acoustic wave receiver 4 to an appropriate size, and an electronic hammer unit (3) the frequency filter unit 6 for removing noise other than the resonant acoustic wave, and the second amplifier 7 for amplifying the signal attenuated by the frequency filter unit 6 to a signal having a suitable level in the FV converter 8 ), And a second amplifier ( FV converter 8 for converting the amplified signal provided in 7) into a DC voltage proportional to the input negative frequency, and for converting the DC voltage provided from the FV converter 8 into a numerical value corresponding to the residual amount of gas. Each part consisting of the display part 9 is electrically connected.

Referring to the operation and effect of the present invention configured as in the above embodiment is as follows.

First, when DC power is supplied to the cycle setting device section 2 by the power supply section 1, the cycle setting device section 2 is in an initialization state, and the electronic hammer section 3 composed of the electronic solenoid by the initialization signal is provided. When the gas container is hit by this operation, sound waves are generated, and immediately after that, the sound wave receiver 4 is operated to receive reverberation.

The received reverberation is amplified to an appropriate size through the first amplifier 5, and the amplified sound is removed by the frequency filter unit 6 to remove noise in the low range and the high frequency band and then to the second amplifier 7 again. The signal is amplified by a signal having a magnitude satisfying the input condition of the FV converter 8.

The amplified signal is again converted into a DC voltage proportional to the negative frequency input by the FV converter 8, which is a display unit 9 which may be constituted by a voltmeter or an ammeter with a graduation mark on the gas residual amount. The remaining amount of the liquefied gas can be measured by the display unit 9 by connecting to the.

According to the present invention, after the time set in the cycle setting device section 2 has elapsed, the initialization signal is generated again, so that the amount of change in gas due to use can be continuously measured.

The present invention operated as described above is very simple and compact in size of the system can be easily handled to measure the remaining amount, and by placing only the cycle setting unit and the display unit in a separate place of the gas container directly There is also the advantage of being able to grasp the control and remaining amount of operation in the room, without having to measure in position.

Claims (1)

The period for determining the operation time of the electronic hammer unit 3 and the operation time of the sound wave receiving unit 4 by acting as a timer for the overall control of each unit and the power supply unit 1 for supplying power to each unit. The setting device section 2, and the electronic hammer section 3 as an impact device for tapping a container to generate a resonant frequency, and for tracking sound waves generated after the electronic hammer section 3 operates, and a high frequency band of an audible sound. And a sound receiver unit 4 having a reception characteristic for an ultrasonic band, a first amplifier 5 for amplifying a weak sound wave received by the sound receiver unit 4 to an appropriate size, and an electronic hammer unit ( A frequency filter unit 6 for removing noise other than the resonant acoustic wave of 3), and a second amplifier 7 for amplifying the signal attenuated by the frequency filter unit 6 to a signal having a level suitable for the FV converter 8; , And in the second amplifier 7 FV converter 8 for converting the amplified signal into a DC voltage proportional to the input negative frequency and a display unit 9 for converting the DC voltage provided from the FV converter 8 to a value corresponding to the remaining gas amount. Measuring the total amount of liquefied gas container, characterized in that.