RU2743146C1 - Device for identifying wires, cables, and other linear objects using acoustic signals - Google Patents

Abstract

FIELD: metrology.

SUBSTANCE: device for identifying wires and cables using acoustic signals contains three vibration speakers, a sound pickup, a sound frequency generator made on the first microcontroller, a digital sound pressure level indicator made on the second microcontroller, an information-receiving device, a signal amplification device, and two LCD displays. The three outputs of the vibration speakers are connected to the outputs of signal amplification device, the first input of which is connected to the output of the sound frequency generator made on the first microcontroller, and the second – to the output of an information-receiving device. The outputs of the first LCD display are connected directly to the inputs of the first microcontroller, the outputs of the sound pickup are connected to the inputs of the digital sound pressure level indicator, made on the second microcontroller, to the inputs of which the second LCD display is connected.

EFFECT: technical result is increased functionality and accuracy of measurements.

1 cl, 1 dwg

Description

The invention relates to the operation of electrical equipment and is intended to identify the desired conductor, among other wires, cables laid under plaster, in trays, boxes or in another way without removing the insulation from the conductor, breaking the electrical circuit, disconnecting the load from them and allows you to increase the safety of identification work of wires and cables, or their cores during the operation of electrical wiring, to determine the integrity of wires, cables, their cores and other linear objects, to achieve a reduction in damage from downtime of electrical equipment, to reduce the cost of operating internal electrical wiring.

Known is a device for visual identification of cable wiring or pipelines for determining the position of the ends of cords, wires, cables or pipelines, containing in or on each cord, wire, cable or pipeline, which must be identified, at least one optical fiber laid from the first connector to another connector of the specified cord, wire, cable or pipeline, and the first end of each of the optical fibers is accessible on the corresponding connector of the cord, wire, cable or pipeline with the possibility of illumination by means of introducing light into the fiber and the second end of this optical fiber is available at the other end of the same a cord, wire, cable or pipeline and is configured to receive on it the light introduced into the fiber at the first connector, characterized in that one or each optical fiber embedded in or on the cord, wire, cable or pipeline has two curved ends, that is, the first curved end accessible to the input means a light, and a second curved end available for receiving light, while the curved ends of the optical fiber or each optical fiber are recessed into the connectors provided at the two ends of the cord, wire, cable or pipeline (RF patent No. 2294001, IPC G02B 6/44, publ. 20.03.2007, Bulletin No. 5).

The disadvantage of the known device is its limited field of application, since in order to perform identification by the device described above, a cord, wire, cable or pipeline requires the introduction of an optical fiber, which in turn increases the cost of their production. Also, if an optical fiber is damaged, it is necessary to replace the entire cord, wire, cable or pipeline, thus, repair work is seriously expensive.

Closest to the proposed invention is a device for identifying wires, cables and other linear objects using an acoustic signal, which includes an audio signal generator, consisting of an audio signal amplifier, an audio signal reproducing module and vibration speakers, an audio signal receiver, consisting of an input signal amplifier , audio signal level indicator and piezoelectric sensor (Vinogradov A.V., Bukreev A.V., Device for identifying wires, cables and other linear objects using an acoustic signal. / Vinogradov A.V., Bukreev A.V.// Industrial energy - 2018 - No. 2. - from 40-46).

The disadvantage of the known device is the impossibility of accurate correction supplied by the generator of the sound signal of the frequency to the vibration speakers, the absence of elements for displaying digital information about identification on the receiver of the sound signal.

The technical task of the invention is to increase the functionality and scope of its use by using it to identify the desired conductor among other wires, cables laid under plaster, in trays, boxes or in another way without removing the insulation from the conductor, breaking the electrical circuit and disconnecting from them load.

As a result of using the proposed invention, it becomes possible to identify wires, cables, their individual cores and other linear objects using acoustic signals without removing the insulation from the conductors, without breaking the electrical circuit and without disconnecting them from the network due to the fact that the device is equipped with a generator sound frequencies, performed on the first microcontroller, a digital indicator of the sound pressure level, made on the second microcontroller, an information receiving device, a signal amplification device, three vibration speakers generating three acoustic signals of different frequencies, a pickup, two LCD displays.

The above technical result is achieved by the fact that the proposed device for identifying wires, cables using acoustic signals, containing vibration speakers, the pickup, according to the invention , is equipped with three vibration speakers, an audio frequency generator made on the first microcontroller, a digital sound pressure level indicator made on the second microcontroller, an information receiving device, a signal amplification device, two LCD displays, while the first, second and third vibration speakers are connected to the conductor, the outputs of the three vibration speakers are connected to the outputs of the signal amplification device, the first input of which is connected to the output of the audio frequency generator made on the first microcontroller, the second - to the output of the information receiving device, the outputs of the first LCD display are connected directly to the inputs of the first microcontroller, the pickup outputs are connected to the inputs of the digital audio level indicator the operation performed on the second microcontroller, to the inputs of which the second LCD is connected.

The essence of the invention is illustrated by a drawing, which shows a block diagram of a device for identifying wires, cables and other linear objects using acoustic signals.

A device for identifying wires, cables and other linear objects using acoustic signals (UIPKsIAS) contains an audio frequency generator GZS1, made on the first microcontroller, a digital indicator of the sound pressure level TsIUZD2, made on a second microcontroller, an information receiving device UPI3, a signal amplification device UUS4, three vibrating dynamics first VD5, second VD6 and third VD7, pickup ZS8, first LCD LCD9, second LCD LCD10, conductor cores P11.

Vibration speakers VD5, VD6, VD7 are connected to the conductor veins P11, the outputs of the vibration speakers VD5, VD6, VD7 are connected to the outputs of the signal amplification device UUS4, the first input of which is connected to the output of the audio frequency generator GZS1, made on the first microcontroller, the second - to the output of the device of receiving information UPI3, the outputs of the first LCD display ZhK9 are connected directly to the inputs of the sound frequency generator GZS1, made on the first microcontroller, the outputs of the pickup ZS8 are connected to the inputs of the digital indicator of the sound pressure level TsIUZD2, made on the second microcontroller, to the inputs of which the second LCD display is connected ZhK10.

The device for identifying wires, cables and other linear objects using acoustic signals works as follows.

Vibration speakers VD5, VD6, VD7 are put on any part of the sought-for veins of the conductor P11 directly on the insulation, and control acoustic signals are supplied in the form of a selected frequency using an audio frequency generator GZS1 or an information receiving device UPI3. The device for receiving information UPI3 is made on the basis of bluetooth module MH-M38. The device for receiving information UPI3 is necessary to remotely change the frequencies supplied to the conductor of acoustic signals. Remote control is carried out by means of a mobile device via a wireless Bluetooth network. The GZS1 audio frequency generator is based on the first ATmega328P microcontroller, using the developed software allows you to manually select the frequencies of acoustic signals. The selected frequencies are displayed on the first LCD LCD9, the outputs of which are connected to the inputs of the GZS1 audio frequency generator based on the first ATmega328P microcontroller. Acoustic signals of a given frequency are fed to the vibration speakers VD5, VD6, VD7 through the signal amplification device UUS4, the first input of which is connected to the output of the sound frequency generator GZS1, the second to the output of the information receiving device UPI3. The UUS4 signal amplification device is based on the PAM8403 microcircuit. Acoustic signals fed into the P11 conductor with the help of VD5, VD6, VD7 vibration speakers propagate along the entire length of the P11 conductor.

The use of three vibration speakers VD5, VD6, VD7 significantly increases the identification accuracy. For this, three acoustic signals of different frequencies are fed into the desired conductor. The VD5 vibrating speaker delivers an acoustic signal with a frequency of 80 Hz to the conductor, VD6 - 90 Hz, VD7 - 100 Hz. Also, the use of three vibrating loudspeakers allows simultaneous identification of three different conductors, which significantly increases the productivity of the conductor identification work.

The ZS8 pickup is made on the basis of the MAX9814 microcircuit, and is a microphone amplifier with automatic gain control, the ZS8 pickup outputs are connected to the inputs of the TsIUZD2 digital sound pressure level indicator, made on the second ATmega328P microcontroller.

By alternately leaning the ZS8 pickup against different conductors, the supplied acoustic signals of the selected frequency are monitored, and the P11 conductor, in which the control acoustic signals are present, or have the highest intensity, if they are present in other conductors, is identified as the desired one.

Indication of conductor identification is carried out digitally on the second LCD display ZhK10, which is connected to the inputs of the digital sound pressure level indicator TsIUZD2, made on the second ATmega328P microcontroller.

On one of the wires or cable, the indicator will show a higher level compared to the other conductors. This will be the identifiable conductor.

Thus, the proposed device makes it possible to identify the desired conductor among other conductors laid under plaster, in trays, boxes or in another way without removing the insulation from the conductor, breaking the electrical circuit and disconnecting the load from them. The presence of three vibrating speakers increases the identification accuracy.

Claims (1)

A device for identifying wires, cables using acoustic signals, containing vibration speakers, a pickup, characterized in that it is equipped with three vibration speakers, an audio frequency generator made on the first microcontroller, a digital sound pressure level indicator made on a second microcontroller, an information receiving device, a device signal amplification, two LCD displays, while the first, second and third vibrating speakers are connected to the conductor, the outputs of the three vibrating speakers are connected to the outputs of the signal amplification device, the first input of which is connected to the output of the audio frequency generator made on the first microcontroller, the second to the output devices for receiving information, the outputs of the first LCD display are connected directly to the inputs of the first microcontroller, the outputs of the pickup are connected to the inputs of a digital sound pressure level indicator, made on the second microcontroller, to the inputs of which the second LCD is connected.

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