KR100459655B1 - Abnormal situations checking chapter of street lamp and checking method - Google Patents

Abstract

According to the present invention, the structure of a street lamp, which is a lighting facility installed along a street, and a line that is wired to supply power to the street lamp for various safety and security of the street traffic are various types such as short circuit or electric shock due to poor wiring or flooding. The present invention relates to an apparatus for checking an abnormal state of a street lamp and a method for checking the state of an abnormality.

The number of installation of street lamps is increasing in proportion to the urbanization of the city, and since these street lamps are distributed in very large places throughout the city, a lot of budget and manpower are required for lighting and lighting, as well as maintenance.

Recently, the necessity of accurate inspection of the street light has emerged in the situation that the electric shock accident of the street light due to short circuit or flooding is a problem.

However, when there is no special external measuring device, most street light inspections measure only the internal leakage current, so it is difficult to determine the abnormality and safety of the street light from the outside. In addition, the determination of the abnormality of the streetlight also has no specific regulations or limits are revealed, so it is necessary to develop an accurate determination and equipment accordingly.

The method of determining whether the street lamp is electrically safe is whether a leakage current flows in the street lamps made of the street lamp metal surface, is it in a state of charge of a metal part which can be in contact with a person, and the blinking state of the street lamp, Regardless of the power supply status, the low grounding resistance acts to prepare for safety accidents.

Therefore, in the present invention, it is possible to accurately determine the abnormality and safety of the street light from the outside to prevent the safety accident in advance.

Description

Abnormal situations checking chapter of street lamp and checking method}

The present invention relates to a device for checking an abnormal state of a street lamp and a method for inspecting the lamp. In particular, a street lamp, which is a lighting facility installed along a street for the safety and security of street traffic, and a line that is wired underground to supply power to the street lamp, and the like. The present invention relates to a device for checking an abnormal state of a street lamp and checking a method to prevent accidents while preparing for safety accidents by carrying out various types of abnormalities such as short circuit or electric shock due to poor wiring or flooding. .

In general, in recent years, the number of installation of street lamps is increasing in proportion to the urbanization of the city, and since these street lamps are distributed in very large places throughout the city, a lot of budget and manpower are required for lighting and lighting as well as maintenance.

In addition, in recent years, an electric shock accident of a street lamp due to a short circuit or flooding has been a serious problem.

However, when there is no special external measuring device, most street light inspections measure only the internal leakage current, so it is difficult to determine the abnormality and safety of the street light from the outside. In addition, the determination of the abnormality of the streetlight also has no specific regulations or limits are revealed, so it is necessary to develop an accurate determination and equipment accordingly.

The method of determining whether the street lamp is electrically safe is whether a leakage current flows in the street lamps made of the street lamp metal surface, is it in a state of charge of a metal part which can be in contact with a person, and the blinking state of the street lamp, Regardless of the state of power supply, the low ground resistance acts to prepare for safety accidents.

The street light currently installed on the street is shown in FIG. 1,

The lighting fixture 1 coupled to the upper end by the power supplied through the wires (4) (5) passing through the interior space (3) of the street lamp main (2) to light up,

A low-voltage AC line 9 is laid or buried under the ground 8 of the street lamp main 2 in two strands (A phase, B phase, C phase, A phase, B phase, C phase). To supply power from the power supply unit 7,

The wires 4 and 5 are connected to two different lines of the AC line 9 of the six lines so that power is supplied to the street lamp.

The supplied power is supplied to the light fixture 1 through the wires 4 and 5 in the interior space 3 of the street lamp lamp 2.

At this time, since there is no safety device between the street lamp pole 2 and the internal wires 4 and 5 and between the street lamp pole 2 and the light fixture 1, accidents such as a short circuit are likely to occur.

In addition, the space (3) inside the streetlight main (2) has a structure that is hard to see from the outside, it is easy to cause an accident such as a short circuit. In addition, the interior of the street lamp note (2) has a structure that is difficult to see from the outside, it is difficult to determine the internal abnormality.

That is, in the process of supplying power to the lamp fixture 1 of the street light, it is inevitable to perform the work of interconnecting the wires. In this process, the insulation is inferior or the insulation is poor as the use time continues. There was a danger.

However, the equipment for checking the abnormality of the conventional streetlight as described above is not provided properly, only the earth leakage breaker installed on the ground side of the streetlight is provided with a safety device for the streetlight.

If the circuit breaker fails to cut the line due to a fault breaker breakdown, or the flooding occurs when one side of the wiring is connected to the main street of the street lamp, the possibility of electric shock is increased.

For example, in the 2001 heavy rains in downtown Seoul, electric shock accidents have increased every year, including dozens of casualties due to electric shocks caused by short circuits around the streetlights. Due to the lack of alternatives and management systems, there was no alternative, resulting in neglect without proper action.

Currently, many places refer to the remote facility automatic control system as an alternative, but since the installation of the street lamp is so large, it is considered that the installation time and cost of the remote system will be very large.

In addition, the remote system is a facility installed and operated with the purpose of contributing to efficient operation in terms of blinking and energy.

On the other hand, according to the conventional ground resistance measurement method is not applicable when the power is supplied to the target equipment to measure the ground resistance in operation, and measuring the ground resistance for the street lamp in operation also the street lamp is operating or Or, even in the lit state or the turned off state, the ground resistance could not be measured by the conventional method under the applied voltage.

Because of this phenomenon, in order to measure the ground resistance, the electrical equipment of the object to be measured has to be inconvenient.

Therefore, the present invention has been devised to solve the problems described above, to prevent safety accidents such as electric shock when a person contacts the street light, and to check the problem inside the street lamp only with an external checker, and only a simple operation It is an object of the present invention to provide a method and apparatus for checking a portable street light that can check whether there is an error.

In order to achieve the above object, the present invention simply checks the state of charge of a street lamp by simply attaching it to a street lamp, and when the charging voltage is measured to be high, the voltage difference between the street lamp main and the ground is large. Be informed that a safety accident such as electric shock may occur.

Most of the electric shock accidents that have occurred so far are thought to have occurred for this reason.

In addition, it is possible to check the amount of leakage current flowing in the street lamp by simply attaching it to the street lamp to check the insulation state of the street lamp and the normal operation of the street lamp.

If the street lamp operates normally, there is no leakage current, but if the leakage current is largely measured, it is possible that the wiring through the street lamp is wrong. Even in the abnormal state can be determined.

In addition, the ground resistance can be measured regardless of the operation status of the street lamp, so that the ground resistance, which is the basic equipment check, can be measured to provide a stable supply of power to the power equipment and communication equipment. This will not only affect the failure of the circuit, but also make sure that the correct ground is maintained so that it can fall to the ground when a charging voltage is generated in the streetlight.

Street light charging state measurement method by the street light inspection device of the present invention for achieving the above object is to measure the voltage between the ground and the street lamp through the input impedance of the value received from the potential electrode and the auxiliary potential electrode and digitized the value through the conversion unit It receives the value from the controller to measure and display the state of charge and the degree of charge of the street light.

The leakage current measuring method according to the present invention digitizes the value flowing inside the street lamp by the HALL sensor through the leakage current measuring unit and delivers the value to the control unit, and the control unit displays the calculated value of the leakage current according to the current information. It is characterized by.

On the other hand, the method for measuring the ground resistance between the street lamp and the ground according to the present invention to set a separate frequency and current to be applied by the user in advance, and to the current pole to be measured according to the set separate frequency and current Apply the power to measure the current between the current poles to output phase-corrected current information, and measure the potential between two potential poles of the street lamp and the ground through the high input impedance of a certain potential or more By outputting the information, the converter digitizes the current information and the potential information digitized at the same time, so that the display unit displays the ground resistance according to the current information and the potential information signaled by the controller.

1 is a general schematic diagram of a street lamp generally installed in the prior art.

Figure 2 is a schematic diagram showing the configuration of a streetlight checking apparatus according to an embodiment of the present invention.

3 is a schematic view showing a configuration of a power supply unit of the present invention.

4 is a schematic view showing a configuration of a current measuring unit of the present invention.

5 is a schematic view showing a configuration of a potential measuring unit of the present invention.

6 is a schematic diagram showing a configuration of a converter of the present invention.

7 is a schematic view showing a configuration of a control unit of the present invention.

8 is a schematic view showing a configuration of a display unit of the present invention.

9 is a schematic view showing a state in which a person is in contact with a street lamp;

Figure 10 is a schematic diagram showing a connection state of the street lamp inspection apparatus for measuring the state of charge of the street lamp attention using the street lamp inspection apparatus of the present invention.

Figure 11 is a schematic diagram showing the connection state of the street lamp inspection apparatus for measuring the leakage current of the street lamp attention using the street lamp inspection apparatus of the present invention.

Figure 12 is a schematic diagram showing the connection state of the street light checking device for measuring the ground resistance of the street light using the street light checking device of the present invention.

Explanation of symbols on the main parts of the drawings

11 power supply 12 leakage current measuring unit

13 current measuring unit 14 potential measuring unit

15: converter 16: controller

17 display unit

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

An apparatus and a method for checking an abnormal state of a street lamp according to the present invention include a method for preventing electric shock by measuring charging voltage of a street lamp, and a method for checking an abnormality of a street lamp from the outside by measuring a leakage current flowing inside the street lamp. And to provide a method to determine whether the grounding of the street lamp is correct by measuring the ground resistance irrespective of the operating state of the street lamp,

As shown in Figure 2, the abnormal state check apparatus of the street lamp of the present invention,

A power supply unit 11 for applying power to an object and an internal system to be measured;

A current measuring unit 13 measuring current information coming from the leakage current measuring unit 12 and current flowing through the current pole C1 and the auxiliary current pole C2,

While limiting the leakage current and noise flowing through the street lamp through the internal frequency blocking circuit as much as possible, the error of instability and the DC component are eliminated by the offset blocking circuit, and the phase correction circuit accurately measures the phase difference between the current and the voltage. A potential measuring unit 14 configured to correct a phase of the voltage input from the P2 to the potential electrode P1;

A conversion unit 15 for digitizing the current information detected through the current measuring unit 13 and the voltage information detected through the potential measuring unit 14;

The control unit 16 controls the display unit 17 to measure information such as frequency, voltage information, and current information through the stored charge voltage calculation algorithm, the leakage current measurement algorithm, and the impedance calculation algorithm.

3 shows a detailed configuration of a power supply unit,

Since the device should be easy to move, it should supply its own power using the internal rechargeable battery 21, not the power supply from the outside.

In this case, the capacity of the rechargeable battery 21 can fully operate the internal system and can be used semi-permanently by charging with external power in normal times. The voltage from the rechargeable battery 21 protects the inside of the device through insulation between the external power source or the charger and the entire system when charging through the insulation circuit 22.

The DC generator 23, which is independently supplied with DC power by the insulation circuit 22, applies operating power to an internal circuit.

The linear signal amplifying circuit 24 receiving the signal applied through the converter 15 is linearly amplified.

The linear signal amplifying circuit 24 amplifies the signal when measuring the ground resistance and does not need to amplify the signal when measuring the charging voltage or the leakage current so as not to pass through.

When measuring the ground resistance, it is possible to apply a current to the current pole (C1) and the auxiliary current pole (C2) through an independent power source having a frequency that does not interfere with the frequency including the ground potential of the equipment ground electrode in operation.

In addition, the voltage generated by the power supply unit 11 is configured to supply power necessary for all the components inside through the DC generator circuit (23).

4 shows a detailed configuration of the current measuring unit,

The apparatus measures current information input from the leakage current measuring unit 12 and current flowing through the current pole C1 and the auxiliary current pole C2.

In the case of measuring ground resistance, the magnitude of the current flowing varies even when a constant voltage is applied according to the property of the earth. Thus, the current measurement unit 13 does not change the current measurement value with respect to the change in the current. Use a fully insulated current sensor to not affect the current flowing.

In the case of measuring the leakage current, the leakage current measuring unit 12 passes the current transformer 31 after removing the noise component mixed under the influence of the magnetic field and the electric field in the current measured in the actual field.

The detected current information is amplified by the operational amplifier 32 to be amplified below the maximum value that can be accepted by the converter 15.

The amplified current information solves the unbalanced value and unstable problem of the power supply unit 11 by the offset correction circuit 33 and removes the DC component.

Since the current information in which the DC component is removed is changed in phase by an internal circuit, the current information is configured to pass through the phase correction circuit 34 to accurately measure the relationship between the voltage and the current.

5 shows a detailed configuration of the potential measuring unit,

The potential measuring unit 14 is used to measure the state of charge of the street lamp note 2 and the ground resistance measurement method of the street lamp inspection method.

The potential electrode P1 used to measure the state of charge of the street lamp note 2 is used as it is in the ground resistance, but the value to be measured by changing the mode is differently accepted by the controller 16.

Accurately measuring the voltage information received through the potential (P1) is a very important factor that can be accurately measured when measuring the charging voltage or the ground resistance.

Therefore, the input impedance of the potential electrode is 10 ¹² Ω or more so that the potential can be accurately measured without affecting the applied line, thereby minimizing an error in the potential measurement.

The most essential condition for accurately measuring the potential is to make the input impedance between the potential electrode P1 and the auxiliary potential electrode P2, which are potential measurement terminals, in principle infinite.

In order to meet this condition, a high input impedance circuit 41 having an operational amplifier coupled to a voltage follower circuit is provided so that the input impedance is 10 ¹² Ω or more.

Accordingly, the electric wires constituting the potential electrode P1 and the auxiliary potential electrode P2 have a characteristic of minimizing an error in measuring the potential by applying the potential voltage to the input terminal having a large input resistance without applying a voltage of the potential.

The potential measuring unit 14 includes a frequency blocking circuit 42 to limit the leakage current and noise flowing through the street lamp as much as possible.

Then, the offset blocking circuit 43 removes the error and the DC component caused by the instability of the power supply.

In addition, the phase correction circuit 44 is configured to accurately measure the phase difference between the current and the voltage, to correct the phase of the input voltage, and to output the converted voltage to the converter 15.

6 shows a detailed configuration of the conversion unit of the street light checking device,

The apparatus digitizes the current information detected through the current measuring unit 13 and the voltage information detected through the potential measuring unit 14.

The current information applied from the current measuring unit 13 is digitized while passing through the current conversion circuit 51.

The voltage information applied from the potential measuring unit 14 is digitized while passing through the potential converting circuit 52.

In the simultaneous conversion circuit 53 which receives the voltage information and the current information from the current conversion circuit 51 and the potential conversion circuit 52 at the same time, the signal is processed simultaneously so that the phase difference is minimized.

In addition, the digital signal representing the magnitude of the frequency generated by the signal generator 68 (FIG. 7) of the controller 16 is converted into an analog signal by the waveform conversion circuit 54 to be transmitted to the power supply unit 11.

In other words, when the phase change unit 15 calculates the phase difference using the voltage information and the current information applied from the potential measuring unit 14 and the current measuring unit 13, the changer 15 simultaneously samples the voltage information and the current information to obtain accurate phase information. Allow calculation

To this end, the current conversion circuit 51 and the potential conversion circuit 52 convert current information and voltage information into digital signals through a 16-bit A / D converter. The simultaneous conversion circuit 53 receives the signals applied from the current conversion circuit 51 and the potential conversion circuit 52, respectively, into a 32-bit processor and simultaneously digitizes them without time difference between voltage information and current information. The signal applied from the simultaneous conversion circuit 53 is output to the control unit 16.

In addition, the waveform conversion circuit 54 is configured to convert the signal applied from the control unit 16 to be applied to the power supply unit (11).

FIG. 7 illustrates an internal configuration of a control unit of a street light checking apparatus.

In order to control the entire system and to obtain information by instructing the system according to each method, the control unit 16 calculates the information transferred from the conversion unit 15 via the digital filter 61 through the phase calculation algorithm 62. Or calculate the value and send it to the charging voltage calculation algorithm 64 and the leakage current measurement algorithm 65 or the impedance calculation algorithm 66 according to the measurement method. Get it.

The control signal is output to the display driver 67 in order to display the calculated frequency, voltage information, and current information such as voltage information and current information on the display unit 17.

8 illustrates an external configuration including a display unit.

In order for the control unit 16 to display the three measurement methods of the street light inspection apparatus through the LCD 71 of the display unit 17, the display for the measurement method is turned on every time the mode change button 72 is turned on. The change is performed. The option is transmitted to the control unit 16 to start the measurement with the EXE button 73. The measured content provides visual information to the user through the LCD 71.

When the mode change button 72 selects the charging voltage of the street lamp, the leakage current flowing through the street lamp, or the ground resistance of the street lamp, the LEDs 74, 75, and 76 are turned on according to the selected mode, respectively. To help.

That is, the display unit 17 displays the measured value of the charging voltage of the street lamp attention, the leakage current flowing through the street lamp, the ground resistance of the street lamp on the LCD 71, and selects one of the results of the measurement method using the mode change button 72. In this case, the types of measurement values that can be displayed on the LCD 71 are configured to be displayed through the LEDs 74, 75, and 76.

The abnormal state inspection apparatus and inspection method of the street lamp of the present invention configured as described above have a structure such as a street lamp which is a lighting facility installed along the street for the safety and security of street traffic, and a line that is wired to supply power to the street lamp. It is to determine whether there are various types of abnormalities such as short circuit or electric shock due to poor wiring or flooding.

In the case of a human contact when the charging voltage is present in a street lamp normally installed, the charging voltage and the leakage current do not exist in the street lamp.

In this case, even if a person touches the street light as shown in FIG. 9, it does not affect the person. However, when the charging voltage is applied to the street lamp note 2, electric current flows to a person who contacts the street light due to a voltage difference with the ground, and an electric shock may occur.

Therefore, the inspection method for performing the charging voltage measurement, leakage current measurement and ground resistance measurement at the same time by using the abnormal state check device of the street lamp of the present invention in detail as follows.

10 is a view showing a state of measuring a state of charge of the street lamp using the streetlight measuring apparatus of the present invention,

When the potential electrode P1 is connected to the fixing device 81 on the surface of the streetlight main 2 and the auxiliary potential pole P2 is grounded through the ground rod 82 on the ground, the user changes the mode ( When the charge mode measurement mode is changed to 72 and the execution button 73 is pressed, the controller 16 switches to the mode of measuring the charge state.

That is, the controller 16 measures the potential between the potential pole P1 and the auxiliary potential pole P2 through the potential measurement unit 14 of the street light checking device, and then digitizes the detected voltage information by the conversion unit 15. By transmitting to the control unit 16 to measure the frequency and voltage information through the phase calculation algorithm 62 and the impedance calculation algorithm 66 to display it on the display unit 17.

Therefore, when the charging voltage is measured high, it means that the voltage difference between the street lamp main and the ground is large. In this case, when a person contacts the street lamp main 12, an electric shock may occur due to the charging voltage.

Most of the electric shock accidents that have occurred so far are thought to have occurred for this reason.

11 is a view showing a state for measuring a leakage current using the streetlight measuring apparatus of the present invention,

By simple connection to the street lamp, it is possible to check the amount of leakage current flowing in the street lamp, so that it is possible to check the poor insulation and the normal operation of the street lamp.

The user changes the leakage current measurement mode through the mode change button 72 of the display unit 17 while the leakage current measuring unit 12 of the street light inspection device is connected to the fixing device 81 on the main street of the street lamp. When the execution button 73 is pressed, the control unit 16 switches to the leakage current measurement mode.

In the hall (Hall sensor) in the leakage current measuring unit 12 of the street light inspection device connected to the fixing device 81 on the main street of the street lamp (2), the current flowing in the street light can be received as an induction current and mounted on the outside. Desorption can thus be made simply. In normal cases, no leakage current exists.

The measured value of the induced current from the leakage current measuring unit 12 is measured in the state of current information in the current measuring unit 13, becomes the voltage information through the potential measuring unit 14, and then the converting unit 15 The current information is measured through the charge voltage calculation algorithm 64, the leakage current measurement algorithm 65, and the impedance calculation algorithm 66 digitally stored in the control unit 16, and then displayed on the display unit 17.

However, the large measurement of leakage current may lead to poor insulation of the lines inside the streetlight. When the leakage current value is different from the reference value, it is possible to determine the abnormality from the outside without checking the internal circuit. If it is diagnosed as abnormality, it can be safe and prepared by checking the insulation of the line inside the streetlight and taking measures such as replacing the wire.

12 is a view showing a state of measuring the ground resistance of the street lamp using the streetlight measuring apparatus of the present invention,

The auxiliary potential pole P2 and the auxiliary current pole C2 through the ground rods 82 and 83 with the potential electrode P1 and the current electrode C1 connected to the fixing device 81 coupled to the surface of the street lamp pole 2. ) Is set to the ground resistance measurement mode through the mode change button 72 of the display unit 17 in the state that each is grounded, and when the execution button 73 is pressed, the controller 16 measures the ground resistance. Switch to

The current measuring unit 13 sends the current information and the frequency signal to the signal generating unit 68 of the control unit 16 to generate a sine wave to send to the converter 15.

The converting unit 15 converts this value to the power supply unit 11 so as to supply power. The current measuring unit 13 and the potential measuring unit 14 measure a current value and a potential value between each current electrode and the potential electrode with a power source applied thereto.

The current value measured in the state of current information by the current measuring unit 13 and the voltage value measured by the potential measuring unit 14 of the potential between the potential electrode P1 and the auxiliary potential electrode P2 are converted into the conversion unit 15. Send it.

The conversion unit 15 simultaneously samples the signal, processes the signal, and sends the signal to the control unit 16 to store the phase calculation algorithm 62, the frequency calculation algorithm 63, the charging voltage calculation algorithm 64, and the leakage current measurement algorithm 65. And the ground resistance is calculated through the impedance calculation algorithm 66 and displayed on the display unit 17.

Therefore, the ground resistance measurement of the streetlight inspection system is the basic equipment work to stably supply the power of the power equipment and the communication equipment, which affects the stable operation of the power equipment and the failure reduction of the communication equipment.

If the ground is properly connected, it is important that the ground is properly connected and well connected since no charging voltage is generated in the street lamp and is directly absorbed into the ground through the ground wire.

As described above, according to the abnormal state inspection apparatus and inspection method of the street lamp of the present invention, the street lamp and the lines that are wired in the ground to supply power to the street lamp are used for safety such as short circuit and electric shock due to poor wiring and flooding. You can check the safety status of the street lamp as a portable to prepare for the accident and to prevent the accident.

By simply attaching the lamp to the street lamp, you can check the charging status of the street lamp to prevent safety accidents such as electric shock due to the charging voltage of the street lamp.

By simple installation on the street lamp, the amount of leakage current flowing in the street lamp can be checked, and the insulation state of the street lamp and the normal operation of the street lamp can be checked.

Conventionally, the target equipment to measure the ground resistance was not applicable when the power is supplied and in operation, but it is possible to measure the ground resistance of the street lamp regardless of the operation of the street lamp.

The charging voltage, the leakage current and the ground resistance can be implemented in a single measuring device.

Claims (7)

A power supply unit 11 including a linear signal amplifier circuit 24 for linearly amplifying a signal from the converter unit 15 while applying power to the internal rechargeable battery 21; A current measuring unit 13 measuring current information coming from the leakage current measuring unit 12 and current flowing through the current pole C1 and the auxiliary current pole C2, After the error and DC components are removed by the offset blocking circuit while limiting leakage current and noise as much as possible through the internal frequency blocking circuit, the phase correction circuit accurately measures the phase difference between the current and the voltage. A potential measuring unit 14 for correcting the phase of the voltage input to P1), The current and voltage information detected by the current measuring unit 13 and the potential measuring unit 14 are digitized by the current converting circuit 51 and the potential converting circuit 52 to simultaneously input these voltage information and the current information. Simultaneous signal processing in the simultaneous conversion circuit 53 to minimize the phase difference electrically, and converts the digital signal representing the magnitude of the frequency generated by the signal generator 68 into an analog signal in the waveform conversion circuit 54 to the power supply unit 11 A conversion unit 15 to transmit to Frequency and voltage information is calculated through the stored voltage calculation algorithm 62 or the frequency calculation algorithm 63 and then the charging voltage calculation algorithm 64 and the leakage current measurement algorithm 65 or the impedance calculation algorithm 66 according to the measurement method. And a controller 16 for measuring the current information and displaying the current information on the display unit 17. The method of claim 1, The current measuring unit 13 is a current transformer 31 for removing the noise component mixed by the influence of the magnetic field and the electric field in the atmosphere of the current measured in the actual site by the leakage current measuring unit 12, An operational amplifier 32 which amplifies the detected current information so as to be amplified below a maximum value that can be accepted by the conversion unit 15; An offset correction circuit 33 for solving an unbalanced value and an unstable problem of the power supply unit 11 with respect to the current information and removing a direct current component; Apparatus for checking the abnormal state of the street lamp comprising a phase correction circuit 34 for accurately measuring the relationship between the voltage and the current with respect to the current information. The method of claim 1, The potential measuring unit combines an operational amplifier with a voltage follower circuit so that the input impedance is 10 ¹² ? An impedance circuit 41, A frequency blocking circuit 42 for limiting leakage current and noise flowing through the street lamp as much as possible; An offset stop circuit 43 for removing errors and direct current components due to power instability; Device for checking the abnormal state of the street lamp composed of phase correction circuits (44) for correcting the phase of the input voltage by accurately measuring the phase difference between the current and the voltage to be output to the converter (15). Connect the potential electrode P1 to the fixing device 81 on the surface of the streetlight main 2, and ground the auxiliary potential electrode P2 to the ground through the ground rod 82, When the user selects the charge state measurement mode through the mode change button 72 of the display unit 17 and then presses the execute button 73, the controller 16 switches to the mode of measuring the charge state, After measuring the potential between the potential pole P1 and the auxiliary potential pole P2 through the potential measurement unit 14 of the street lamp inspection apparatus, the detected voltage information is digitized by the conversion unit 15 to be transmitted to the controller 16. and, Method for checking the abnormal state of the street lamp to measure the frequency and voltage information through the phase calculation algorithm (62) and impedance calculation algorithm (66) in the control unit (16) and then display it on the display unit (17). Connect the leakage current measuring unit 12 of the street light inspection device to the fixing device 81 on the surface of the street lamp main (2), When the user changes to the leakage current measurement mode through the mode change button 72 of the display unit 17 and presses the execution button 73, the control unit 16 switches to the leakage current measurement mode, The hall (Hall sensor) in the leakage current measuring unit 12 of the street light inspection device connected to the fixing device 81 on the main street of the street lamp (2) to receive the current flowing in the street lamp as an induction current, The measured value of the induced current from the leakage current measuring unit 12 is measured in the state of current information in the current measuring unit 13, becomes the voltage information through the potential measuring unit 14, and then the converting unit 15 The current information is measured through the charge voltage calculation algorithm 64, the leakage current measurement algorithm 65, and the impedance calculation algorithm 66, which are digitized in the control unit 16, and then displayed on the display unit 17. How to check for abnormal condition. The auxiliary potential pole P2 and the auxiliary current pole C2 through the ground rods 82 and 83 with the potential electrode P1 and the current electrode C1 connected to the fixing device 81 coupled to the surface of the street lamp pole 2. ) Are grounded separately, When the user changes to the ground resistance measurement mode through the mode change button 72 of the display unit 17 and presses the execute button 73, the controller 16 switches to the mode for measuring the ground resistance, The current measuring unit 13 of the street light checking device sends the current information and the frequency signal to the signal generating unit 68 of the control unit 16 to generate a sine wave to send to the conversion unit 15, The conversion unit 15 converts this value into an analogue and supplies it to the power supply unit 11 so that power is supplied. The current measuring unit 13 and the potential measuring unit 14 measure the current value and the potential value between each current electrode and the potential electrode with a power source applied thereto. The current value measured in the state of current information by the current measuring unit 13 and the voltage value measured by the potential measuring unit 14 of the potential between the potential electrode P1 and the auxiliary potential electrode P2 are converted into the conversion unit 15. Send it, The conversion unit 15 simultaneously samples the signal, processes the signal, and sends the signal to the control unit 16 to store the phase calculation algorithm 62, the frequency calculation algorithm 63, the charging voltage calculation algorithm 64, and the leakage current measurement algorithm 65. And an abnormal state calculation method of the street lamp to calculate the ground resistance through the impedance calculation algorithm 66 and to display it on the display unit 17. The method according to any one of claims 4 to 6, Method for checking the abnormal state of the street lamp, characterized in that the charging voltage, leakage current and ground resistance can be measured by a single street light inspection device.