KR101100873B1 - System for diagnosing degradation - Google Patents

Abstract

The present invention is for deterioration diagnosis, and more particularly, in a deterioration diagnosis system capable of measuring the degree of deterioration of a device or a conductor by simultaneously measuring the current and heat flowing through the device or the conductor using an optical output. It is about.

Deterioration diagnosis system of the present invention, the laser drive circuit for outputting the reference light and the signal light having a different wavelength; Receives the reference light and the signal light, and adjusts and outputs the light amount and the rotation angle of the reference light in proportion to the magnetic field generated by the current of the diagnosis target, and adjusts the output light amount of the signal light amount according to the temperature of the diagnosis target Deterioration sensor; A current signal processing unit for converting the light amount and rotation angle of the reference light controlled and output by the degradation sensor into a current detection signal; A temperature signal processing unit for converting the transmitted light amount of the signal light amount and the light amount of the reference light into a temperature detection signal through the degradation sensor; And a diagnosis unit configured to calculate an amount of current of the diagnosis target and a temperature of the diagnosis target by using the current detection signal and the temperature detection signal, and diagnose a degree of deterioration of the diagnosis target based on the calculated current amount and temperature. do.

Deterioration, insulation breakdown, current sensing, temperature sensing, Faraday, light control

Description

System for diagnosing degradation

The present invention is for deterioration diagnosis, and more specifically, deterioration diagnosis that can measure the degree of deterioration of the device or the conductor in real time by simultaneously measuring the current and heat flowing through the device or the conductor using the light output. It is about the system.

Since the invention of modern Edison, electricity has become the closest energy to our lives. From ultra-high precision devices such as digital cameras to large-scale factories, it's hard to find where no electrical energy is currently available.

On the other hand, in the case of a power plant that handles a large amount of power, such as the factory mentioned above, the switchboard is used for the convenience of monitoring and control of power.

Inside the switchgear, there is a circuit breaker, disconnector, power switchgear, transformer for transformer current transformer, bus and connection power, and various power devices necessary for supervisory control. Repeated expansion or contraction due to factors such as heat generated by minute cracks, blemishes, etc. of the insulation part, and then gradually deteriorate, causing insulation failure.

In addition, the insulation material in which the insulation abnormality occurs may cause a partial discharge, and in the worst case, the insulation breaks down to a fire of the power equipment.

Therefore, it is very important to measure the deterioration status of equipment and conductors before they lead to major accidents.

Moreover, since industrialization began in the 1960s, large-scale power facilities were introduced, and as they age, the risk of accidents increases.

The present invention has been created by the above-mentioned demands, and it is possible to quickly diagnose the deterioration of a diagnosis subject based on the measurement of the current flowing through the diagnosis subject such as a device or a conductor and the heat generated from the diagnosis subject using the light output. The purpose is to provide a deterioration diagnostic system.

Deterioration diagnosis system of the present invention for achieving the above object, the laser drive circuit for outputting a reference light and a signal light having a different wavelength; Receives the reference light and the signal light, and adjusts and outputs the light amount and the rotation angle of the reference light in proportion to the magnetic field generated by the current of the diagnosis target, and adjusts the output light amount of the signal light amount according to the temperature of the diagnosis target Deterioration sensor; A current signal processing unit for converting the light amount and rotation angle of the reference light controlled and output by the degradation sensor into a current detection signal; A temperature signal processing unit for converting the transmitted light amount of the signal light amount and the light amount of the reference light into a temperature detection signal through the degradation sensor; And a diagnosis unit configured to calculate an amount of current of the diagnosis target and a temperature of the diagnosis target by using the current detection signal and the temperature detection signal, and diagnose a degree of deterioration of the diagnosis target based on the calculated current amount and temperature. do.

According to the present invention, the current flowing through the diagnosis target and heat generated by the diagnosis target are simultaneously detected using the light output, and based on the diagnosis of the degradation of the diagnosis target, it is more accurate than the conventional degradation detection system. This has the advantage of allowing quick diagnosis.

In addition, the present invention additionally implements a fire detection function, and can perfectly cope with a fire that can easily occur as the diagnosis target is degraded.

Furthermore. The emergency power supply provides a higher level of safety by enabling the diagnosis of the deterioration of the diagnosis object even in an emergency such as a power failure.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

Hereinafter, a deterioration diagnosis system according to an exemplary embodiment of the present invention will be described with reference to FIG. 1. 1 is a block diagram of a degradation diagnostic system according to an embodiment of the present invention.

As shown in FIG. 1, the deterioration system 100 according to an exemplary embodiment of the present invention includes a deterioration sensor 110, a current signal processor 130, a temperature signal processor 130, and a diagnosis unit 140. .

The deterioration sensor 110 receives the reference light A and the signal light B having different wavelengths irradiated from the laser driving circuit 120, and proportionally references the reference light according to the magnetic field generated by the current of the diagnosis target (not shown). The light quantity and rotation angle of (A) are adjusted and output, and the transmitted light quantity of the signal light B is adjusted and output according to the temperature of the diagnosis object.

At this time, the amount of light and the rotation angle of the reference light controlled by the degradation sensor 110 are used to measure the current of the diagnosis target by Faraday theory as shown in FIG.

In addition, the amount of transmitted light of the signal light adjusted and output by the deterioration sensor 110 is output to the outside together with the light amount of the reference light that is not adjusted by the external magnetic field, and used to measure the temperature by comparing the light amounts of the two lights.

3 shows an example of such a degradation sensor. As shown in FIG. 3, the deterioration sensor 110 includes an optical coupler 111, a light absorbing element 112, a polarizer 113, a rotor 114, a magneto-optical element 115, and an analyzer 116. It may be configured to include.

The optocoupler 111 generates the mixed light C by mixing the reference light A and the signal light B having different wavelengths incident from the laser driving circuit 120.

The light absorbing element 112 receives the mixed light C, and adjusts and outputs only the amount of transmitted light of the signal light included in the mixed light according to the temperature of the diagnosis target adjacent to the sensor 110.

Here, the wavelength of the reference light (A) may be set to 1300nm, the wavelength of the signal light is 940nm, the relatively long reference light is almost no change in the amount of transmitted light transmitted through the light absorbing element 112, but the signal light of short wavelength The amount of transmitted light changes with temperature.

The light absorbing device 112 may be an InP semiconductor device. Since the principle and configuration thereof are already known, a detailed description thereof will be omitted.

The polarizer 113 polarizes the reference light A, which is supplied separately from the mixed light C, and supplies the polarized light to the rotor 114.

The rotor 114 phase shifts the light supplied through the polarizer 113 and outputs the phase. In this case, the reason why the phase shift of light is 45 ° is because the angle having linear output characteristics with respect to the amount of change of the polarization plane in the magneto-optical device 115 to be described later is near 45 °.

The magneto-optical device 115 receives the phase-converted light through the rotor 114, and adjusts and outputs the light amount and the rotation angle of the phase-converted light in proportion to the magnetic field generated by the current flowing through the diagnosis object.

At this time, the magneto-optical device 115 is preferably a YIG device having a large Faraday constant.

Finally, the analyzer 116 polarizes the light output from the magneto-optical device to be output to the outside.

The present invention has the advantage that by measuring the current and the temperature of the diagnosis target by using an optical signal at the same time, by measuring the amount of temperature and current that is an indicator of degradation diagnosis in real time.

The laser driving circuit 120 receives the reference light and the signal light having different wavelengths so that the degradation sensor 110 can sense the information necessary for detecting the current and the temperature by using the characteristics of the light.

As mentioned above, it is preferable that the two light beams of the reference light and the signal light are set to have different wavelengths. As a result of the applicant's experiment, the most preferable measurement result is derived when the wavelength of the reference light is 1300 nm and the wavelength of the signal light is 940 nm. It became.

The current signal processing unit 130 converts the light amount and the rotation angle of the reference light controlled and output through the degradation sensor 110 into a current detection signal.

That is, the value detected through the degradation sensor 110 is first separated into an AC component and a DC component, and the amplified signals are amplified and then processed by the diagnosis unit 150 so as to be easily recognized.

The temperature signal processing unit 140 converts the amount of light of the reference light and the amount of transmitted light of the signal light output through the degradation sensor 110 into a temperature detection signal.

Here, as in the current signal processing unit 130, it is preferable to amplify the detected value and then convert the signal by processing the signal so that the diagnosis unit 150 can recognize it.

The diagnosis unit 150 calculates the amount of current flowing through the diagnosis object and the temperature of the diagnosis object by using the current detection signal and the temperature detection signal output from the current signal processor 130 and the temperature signal processor 140. In addition, the degree of degradation of the diagnosis target is diagnosed based on the calculated current amount and temperature.

Here, since the technology for measuring the current and the temperature using the optical signal is well known, description thereof will be omitted.

When the object to be diagnosed deteriorates, heat is generated by deterioration of the constituent material, as is known, and a change occurs in the amount of current. Therefore, in the present invention, the heat generated according to the degree of deterioration and the information on the amount of current changes in advance, and then the deterioration degree of the diagnosis target is diagnosed by comparing the value detected through the deterioration sensor 110 and the previously stored value.

Here, the heat generated according to the degree of deterioration and the amount of changing current may vary according to the characteristics of the device, so the information stored in advance is preferably set for each device to reflect this situation.

Meanwhile, the present invention may further include an information output unit 160. The information output unit 160 outputs information on the degree of deterioration of a diagnosis target diagnosed through the diagnosis unit 150 so that a user can recognize the information. do.

The information output unit 160 is implemented by an LCD, so that the degree of deterioration of the diagnosis target can be distinguished by color (for example, green in a normal state, red in a dangerous state, etc.) or a very dangerous state. The user can visually recognize the information, such as outputting numerical information such as '100%', but the present invention is not limited thereto. .

The information output unit 160 may further output information on the amount of current and temperature calculated by the diagnosis unit 150 to enable the user to recognize the present invention. It provides an effect that can be known more specifically.

If the degree of degradation by the diagnosis unit 150 is abnormal, the user can determine the degree of degradation while directly checking the amount of current and the temperature.

In addition, the information output unit 160 of the present invention may further include a warning sound output stage 161, the warning sound output stage 161, the degree of deterioration of the diagnosis target diagnosed by the diagnosis unit 150 exceeds a predetermined level. If it does, a beep will sound.

Through such a configuration, the present invention can easily recognize to the user that the diagnosis target is in a dangerous situation.

On the other hand, the degradation diagnosis system of the present invention, the electrostatic source supply unit 171 for supplying the electrostatic source to the laser drive circuit 120 using a commercial power supply and the auxiliary power supply for supplying emergency power to the laser drive circuit 120. When the interruption of the constant voltage supply is detected by the power failure detector 173 and the power failure detector 173 that detect the interruption of the constant voltage supply by the constant voltage supply unit 171 by the power failure 172 and the auxiliary power supply unit ( 172 may be configured as a switching unit 174 for controlling to supply emergency power to the laser driving circuit (120).

Through this configuration, the present invention can easily diagnose the degree of deterioration of a diagnosis target even in an emergency such as a power failure. Since deterioration can cause a serious accident, in the present invention, such a constant diagnosis can ensure safety for the user.

In addition, according to the present invention, the electrostatic source or emergency power is supplied to the laser driving circuit 120 by selectively connecting the electrostatic power supply unit 171 and the auxiliary power supply unit 172 to the laser driving circuit 120. It is also possible to further include a forced switching unit 192 to control.

On the other hand, the present invention may further include a fire detection unit 180 for detecting the smoke or air expansion caused by the fire, in this case, the diagnostic unit 150 is the smoke detected by the fire detection unit 180 Or determine whether a fire occurred according to the expansion of the air.

Further, at this time, the information output unit 160, it is preferable to further output so that the user can recognize the information on whether a fire occurs by the determination of the diagnosis unit 150.

Through such a configuration, the present invention may provide a better safety to the user by immediately detecting whether a fire has occurred and notifying the user even if a fire occurs because the degree of deterioration diagnosis is not properly made.

Meanwhile, the present invention may further include a memory storage unit 191 and a communication unit 193, the memory storage unit 191 is a value detected by the degradation sensor 110 and the diagnosis result by the diagnostic unit 150 It can be used for future system adjustment or cause analysis after a fire accident.

The communication unit 193 transmits various information output through the information output unit 180 to the outside, so that various information such as the degree of deterioration of the diagnosis target or the occurrence of a fire can be easily known at a long distance.

As mentioned above, although this invention was demonstrated by the limited embodiment and drawing, this invention is not limited by this, The person of ordinary skill in the art to which this invention belongs, Of course, various modifications and variations are possible within the scope of equivalent claims.

1 is a configuration diagram of a degradation diagnostic system according to an embodiment of the present invention,

2 is an exemplary view showing the property of light that changes according to an external magnetic field;

3 is an exemplary diagram illustrating an amount of light absorbed according to a wavelength at a specific temperature.

<Description of Main Parts of Drawing>

110: deterioration sensor 120: laser drive circuit

130: current signal processor 140: temperature signal processor

150: diagnosis unit 160: information output unit

170: power supply unit 180: fire detection unit

Claims (8)

delete A laser driving circuit for outputting reference light and signal light having different wavelengths; Receiving the reference light and the signal light, and adjusts and outputs the amount of light and the rotation angle of the reference light in proportion to the magnetic field generated by the current of the diagnosis target, and adjusts the amount of transmitted light of the signal light in accordance with the temperature of the diagnosis target Deterioration sensor; A current signal processing unit for converting the light amount and rotation angle of the reference light controlled and output by the degradation sensor into a current detection signal; A temperature signal processing unit for converting the transmitted light amount of the signal light amount and the light amount of the reference light into a temperature detection signal through the degradation sensor; A diagnosis unit configured to calculate an amount of current of the diagnosis target and a temperature of the diagnosis target by using the current detection signal and the temperature detection signal, and diagnose a degree of deterioration of the diagnosis target based on the calculated current amount and temperature; And And an information output unit configured to output information on the degree of deterioration of the diagnosis target diagnosed through the diagnosis unit so that a user can recognize the deterioration. The deterioration sensor, An optical coupler for generating mixed light C by mixing reference light A and signal light B having different wavelengths incident from the laser driving circuit; A light absorbing element which receives the mixed light C generated by the optical coupler and adjusts the amount of transmitted light of the signal light included in the mixed light according to the temperature of the diagnosis object; A polarizer for polarizing and outputting the reference light A supplied separately from the mixed light C; A rotor for phase-shifting and outputting light supplied through the polarizer; A magneto-optical device that receives the phase-converted light through the rotor and adjusts the amount of light and the rotation angle of the phase-converted light in proportion to a magnetic field generated by a current flowing through a diagnosis object; And an analyzer for polarizing and outputting the light output from the magneto-optical element. The method of claim 2, wherein the information output unit, And a warning sound output stage configured to output a warning sound when the degree of degradation of the diagnosis object diagnosed by the diagnosis unit exceeds a preset level. The method of claim 2, wherein the information output unit, Degradation diagnostic system, characterized in that for further outputting so that the user can recognize the information about the current amount and temperature calculated by the diagnostic unit. 3. The method of claim 2, Further comprising a fire detection unit for detecting smoke or air expansion caused by the fire, The diagnostic unit, Deterioration diagnosis system, characterized in that for determining whether a fire occurs according to the smoke or air expansion detected by the fire detection unit. The method of claim 4, wherein the information output unit, Deterioration diagnosis system, characterized in that for outputting more information so that the user can recognize the fire caused by the diagnosis unit. 3. The method of claim 2, Electrostatic source supply unit for supplying the electrostatic source to the laser drive circuit using a commercial power source, An auxiliary power supply unit for supplying emergency power to the laser driving circuit; An electrostatic detection unit for detecting that the constant voltage supply by the electrostatic source supply unit is interrupted by an electrostatic power supply, and And a power supply unit having a switching unit for controlling an auxiliary power supply unit to supply emergency power to a laser driving circuit when the interruption of the constant voltage supply is detected by the power failure detection unit. The method of claim 7, wherein And a forced switching unit controlling the power supply or the emergency power to be supplied to the laser driving circuit according to a user input.

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