RU48629U1 - ULTRASONIC LEVEL METER - Google Patents

Abstract

The utility model is aimed at expanding the functionality of the level gauge. An ultrasonic level gauge consists of a multi-channel generator, a strobe pulse generator, a processing and indication unit, a measuring, reference channel and commercial water channel. The electronic part of each channel consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger, the first input of which is connected to the output of the amplifier, and the second input is connected to the output of the strobe generator. The outputs of the triggers are connected to the corresponding inputs of the processing and display unit. Three outputs of the multichannel generator are connected to the corresponding electroacoustic transducers, and the fourth output of the multichannel generator is connected to the input of the gate pulse generator. The acoustic part of the reference channel consists of a reversible electro-acoustic transducer and a reflector located inside the waveguide with a longitudinal slit. The acoustic part of the measuring channel is made in the form of a L-shaped pipe, consisting of a vertical, with a longitudinal slit, and a horizontal section with an opening in the lower part for removing deposits, in the horizontal section of the pipe there is a transducer whose radiating surface is vertical and the reflector is oriented at an angle 45 ° to the surface of the transducer. The acoustic part of the bottom water channel consists of a reversible electro-acoustic transducer located inside the waveguide with a longitudinal slit. The converter is fixed at one end of the pipe, and the other end of the pipe is rigidly fixed at the bottom of the tank, and the radiating surface of the converter is directed to the bottom of the tank.

Description

The utility model relates to ultrasonic location-based liquid level meters in tanks at gas stations and oil depots, as well as in the chemical, oil and other sectors of the national economy.

Known ultrasonic level gauge [A.S. USSR No. 1064147, cl. G 01 F 23/28, Ultrasonic level transmitter. - publ. 12/30/1983. Bull. No. 48], containing an excitation pulse generator, a device for eliminating errors from the inconstancy of ultrasound speed, made in the form of an ultrasonic delay line with receiving-emitting piezoelectric transducers immersed in the liquid whose level is measured, a gate pulse generator, receiving devices, measuring triggers and devices for processing and displaying the information received.

Known ultrasonic level gauge [Certificate of the Russian Federation for utility model No. 16313 of 12/20/2001, Publ. 12/20/2004, Bull. No. 35], selected as a prototype, containing a multi-channel generator, a strobe pulse generator, a processing and indication unit, a measuring and reference channel. The electronic part of the measuring channel consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger, the first input of which is connected to the output of the amplifier of the measuring channel. The electronic part of the reference channel consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger, the first input of which is connected to the output of the amplifier of the reference channel. The first and second outputs of the multi-channel generator are connected respectively to reversible electro-acoustic transducers of the measuring and reference channels, and its third output is connected to the input of the generator

gating pulses. The output of the gate pulse generator is connected to the second input of the triggers of the reference and measuring channels, the output of the trigger of the measuring channel is connected to the first input of the processing and display unit, the output of the trigger of the reference channel is connected to the second input of the processing and display unit.

The acoustic part of the reference channel is made in the form of a pipe with a longitudinal slot, to the upper end of which a float is attached. The pipe is mounted to rotate in a vertical plane. The reflector and the reversible electro-acoustic transducer of the reference channel are fixed inside the pipe. The acoustic part of the measuring channel is made in the form of a L-shaped pipe, consisting of a vertical, with a longitudinal slit, and a horizontal section with an opening in the lower part to remove deposits. A transducer is placed in a horizontal pipe section, the radiating surface of which is located vertically, and a reflector oriented at an angle of 45 ° to the surface of the transducer.

In known devices when determining the level of oil product does not take into account the level of produced water that accumulates at the bottom of the tank during its operation.

The disadvantage of the prototype is the inability to measure the level of produced water.

The purpose of the utility model is to expand the functionality of the level gauge.

The problem is achieved in that in an ultrasonic level meter, as well as in a prototype containing a multi-channel generator, a strobe pulse generator, a processing and indication unit, a measuring and reference channel, the electronic part of each of which consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger the first input of which is connected to the output of the amplifier, the first and second outputs of a multi-channel generator

connected respectively to reversible electro-acoustic transducers of the measuring and reference channels, and its third output is connected to the input of the strobe generator, the output of which is connected to the second input of the triggers of the reference and measuring channels, the output of the measuring channel trigger is connected to the first input of the processing and display unit, the second input of which connected to the trigger output of the reference channel, the acoustic part of the reference channel is made in the form of a pipe with a longitudinal slot, to the upper end of which a float is attached, while the pipe is mounted for rotation in a vertical plane, the reflector and the reversible electro-acoustic transducer of the reference channel are fixed inside the pipe, the acoustic part of the measuring channel is made in the form of a L-shaped pipe, consisting of a vertical, with a longitudinal slit, and a horizontal section with a hole in the lower part to remove deposits, and in the horizontal section of the pipe there is a transducer, the radiating surface of which is located vertically, and the reflector ntirovanny angle of 45 ° to the surface of the transducer.

According to the utility model, a channel for measuring the level of produced water is additionally introduced, the electronic part of which consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger, the first input of which is connected to the output of the amplifier, the second input of the trigger is connected to the output of the strobe generator, the output of the trigger is connected to the third input processing and display unit, the fourth output of the multi-channel generator is connected to a reversible electro-acoustic transducer, acoustic Skye water bottom part of the channel measurement is made in the form of a tube with a longitudinal slot, at one end of the pipe is fixed transducer radiating surface which is oriented to the bottom of the tank, the second pipe end abuts against the bottom of the tank.

Figure 1 presents the functional diagram of the level gauge.

The ultrasonic level gauge contains a reservoir 1 (Fig. 1) of a horizontal type (i.e., the height of the reservoir is less than its length), a multi-channel excitation pulse generator 2, which is connected to a strobe pulse generator 3, as well as a measuring channel 4, a reference channel 5 and a measurement channel bottom water level 6, reversible electro-acoustic transducers 7, 8 and 9, first, second and third amplifiers 10, 11 and 12, first, second and third triggers 13, 14 and 15, the first inputs of which are connected to the output of the generator 3 strobe pulses, the second inputs inens with the output of the respective amplifiers of the first 10, second 11 and third 12, and the outputs of the triggers are connected to the corresponding inputs of the processing and display unit 16. The outputs of the multi-channel generator 2 are connected respectively to reversible electro-acoustic transducers 7, 8 and 9 of the measuring channel 4, the reference channel 5 and the bottom water channel 6, as well as to the third amplifier 12 of the reference channel 5, to the input of the first amplifier 10 of the measuring channel 4, and the input of the second amplifier 11 channel commercial water 6.

The acoustic part 17 of the reference channel 5 is made in the form of a pipe with a longitudinal slot, to the upper end of which a float 18 is attached, the pipe being attached to the bottom of the tank 1 with rotation in a vertical plane, the reflector 19 and the reversible electro-acoustic transducer 6 of the reference channel are fixed inside the pipe, acoustic part 20 of the measuring channel 4 is made in the form of a L-shaped pipe, consisting of a vertical, with a longitudinal slit, and a horizontal section with an opening 21 in the lower part to remove deposits, and in the horizontal section of the pipe there is a transducer 7, the radiating surface of which is located vertically, and the reflector 22 oriented at an angle of 45 ° to the surface of the transducer. The acoustic part 23 of the channel of produced water 7 is made in the form of a pipe with

a longitudinal slit, in the upper part of which a transducer 9 is fixed, the lower end of the pipe is attached to the bottom of the tank.

The multi-channel generator 2 is made according to the scheme with the discharge of the storage capacitance on KU104G thyristors. Gating pulse generator 3 can be assembled on 1554 series integrated circuits. Amplifiers 10, 11 and 12 are resonant amplifiers that can be assembled on integrated circuits, for example K175UV1. As triggers 13, 14 and 15, corresponding integrated circuits can be used, for example K1554TM2. As a processing and indication unit, a circuit containing a crystal oscillator, a key controlled via a multiplexer with signals from the outputs of the measuring triggers, and a microprocessor can be used. All these elements are implemented on the chips of the 1554 series, and as a microprocessor, for example, any analogue of the MCS-51. All other elements of the circuit are standard.

The operation of the device is as follows.

When the device is turned on, the multi-channel generator 2 generates a pulse that alternately excites reversible electroacoustic transducers of the reference channel 8, the measuring channel 7 and the produced water channel 9 and starts the strobe generator 3, from the output of which the strobe pulse goes to the second inputs of the first, second and third triggers 13 , 14, 15 and sets them to position "1". An ultrasonic pulse in the acoustic part 20 of the measuring channel 4 is emitted by the transducer 7, then reflected from the reflector 22, and then reflected from the liquid-air interface, then reflected from the reflector 22 and received by the transducer 7. In the acoustic part 17 of the reference channel 5, the ultrasonic pulse emitted the transducer 8 is reflected from the reflector 19 and is received by the same transducer 8. An ultrasonic pulse in the acoustic part 23 of the produced water channel 6 is emitted by the transducer 9, then it is reflected ie the interface

oil-water and is received by converter 9. Then, the received signals are fed to the inputs of the first, second, and third amplifiers 10, 11, and 12. From the output of the first, second, and third amplifiers 10, 11, and 12, the signals are transmitted respectively to the first inputs of the first, second, and third flip-flops 13, 14 and 15, which are then set to the "0" position, as a result of which a pulse is generated at the output of the second flip-flop 14, the duration of which is equal to the ultrasound transit time from transducer 9 to the oil-water interface and vice versa ode first flip-flop 13 generates pulses whose duration is equal to the propagation time of ultrasound from the transducer 7 to petroleum-air interface and back to the output of the third flip-flop 15 generates pulses whose duration is equal to the propagation time of ultrasound from the transducer 8 to the reflector 19 and back. The processing and display unit 16 converts the time intervals into corresponding codes, which can then be transmitted to the computer.

The calculation of the level of produced water in the tank is carried out according to the formula: ,

where L _water is the level of produced water, m; N _water - the distance from the Converter 9 channel commercial water to the bottom of the tank 1, m; T _water - pulse duration in the channel of produced water, µs; L _e - the distance from the transducer 8 to the reflector 19, m; T _E - pulse width of the reference channel, µs;

The calculation of the liquid level in the tank is carried out according to the formula: ;

where L _And - the measured liquid level, m; T _And - the pulse width of the measuring channel, µs; L _G - the distance from the transducer 7 to the reflector 22, m; L _U - the distance from the bottom of the tank 1 to the reflector 22, m

Claims (1)

An ultrasonic level gauge consisting of a multi-channel generator, a strobe pulse generator, a processing and indicating unit, measuring and reference channels, the electronic part of each of which consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger, the first input of which is connected to the output of the amplifier, the first and second the outputs of the multi-channel generator are connected respectively to reversible electro-acoustic transducers of the measuring and reference channels, and its the third output is connected to the input of the strobe pulse generator, the output of which is connected to the second input of the triggers of the measuring and reference channels, the output of the trigger of the reference channel is connected to the first input of the processing and indication unit, the second input of which is connected to the output of the trigger of the measuring channel, while the acoustic part of the reference channel made in the form of a pipe with a longitudinal slot, to the upper end of which a float is attached, and the pipe is mounted for rotation in a vertical plane, the reflector and a fraternal electro-acoustic transducer of the reference channel is fixed inside the pipe, the acoustic part of the measuring channel is made in the form of a L-shaped pipe, consisting of a vertical, with a longitudinal slit, and a horizontal section with an opening in the lower part to remove deposits, and a transducer emitting in the horizontal section of the pipe the surface of which is located vertically, and the reflector oriented at an angle of 45 ° to the surface of the transducer, characterized in that it is further provided with a channel of bottom water level control, the electronic part of which consists of a series-connected reversible electro-acoustic transducer, amplifier and trigger, one input of which is connected to the amplifier output, the other trigger input is connected to the output of the strobe pulse generator, the trigger output is connected to the third input of the processing and display unit, the fourth the output of the multi-channel generator is connected to a reversible electro-acoustic transducer of the produced water measuring channel, the acoustic part of the channel is measured I produced water is formed as a tube with a longitudinal slot, at one end of the pipe is fixed transducer radiating surface which is oriented to the bottom of the tank, the second pipe end abuts against the bottom of the tank.