KR20030090393A - Street lamp power line trouble automatic detection and information system - Google Patents

Abstract

PURPOSE: A street lamp power line trouble automatic detection and information system is provided to prevent previously the trouble of the power cable by checking automatically the power cable in a predetermined period. CONSTITUTION: A street lamp power line trouble automatic detection and information system includes an insulation resistance measurement portion(8), a multiplexer(13), an A/D converter(14), a CPU(15), a key pad(16), and a CDMA module(17). The insulation resistance measurement portion(8) is formed with a measured voltage supply portion(6) and a current measurement portion(7) in order to measure an insulation resistance of a power cable(5). The multiplexer(13) is selectively connected to the power cables. The A/D converter(14) is used for converting an output of the insulation resistance measurement portion(8) to a digital signal. The CPU(15) is used for storing and processing the output data of the A/D converter(14) and performing a program for transmitting and a receiving with a control center(3). The key pad(16) is used for setting up or controlling functions of the CPU(15). The CDMA module(17) is used for performing a transmitting and a receiving process with the control center(3).

Description

Street Lamp Power Line Trouble Automatic Detection and Information System

The present invention relates to a system for automatically detecting and notifying a street lamp power line failure. In particular, the insulation resistance is measured at a long distance by the control of a control center, and automatically detects a power line failure such as disconnection of a power line of a street lamp or damage to a covering of the control center. An automatic detection and notification system for a street lamp power line failure for notifying an administrator.

As is known, the street lamp power line 100 is buried in the ground, which is supplied with power from the power company, the control unit 200 with a built-in parking receiver, branch breaker, a wireless light receiver for the lights, and the control unit 200 A plurality of street lamps 300 are connected in parallel to the street lamp distribution box 400 installed in each section and the power line 100 branched from the branch breaker of the street lamp distribution box 400.

Such a conventional street light is composed of a system for turning on and off the street light by operating the electronic opener by receiving a point-and-turn signal transmitted wirelessly from the wireless base station in the light-emitting wireless receiver.

This conventional street light power line is supplied with power at night, but is in a voltage-free state during the day.

These streetlight power lines are piped and wired along with underground water pipes, gas pipes, street trees and other power lines and communication lines, and due to the repair of these underground facilities, frequent excavation works are frequently performed using heavy equipment. In the soft ground, unexpected ground subsidence may occur, causing disconnection, damage to power line covering, and increase of power line.However, it is difficult for managers who manage the underground power line to be individually checked. The damage occurs mainly during the day when the power line is not supplied to the power line. In particular, when the power line is damaged due to construction work, ordinary workers other than the electrician temporarily restore the power line and bury it as it is. In underground burial In case of rain, such as heavy rain, leakage occurs, water penetrates into the pipe, causing pedestrians to receive electric shocks. Accordingly, in order to completely restore power lines, power companies should carry out civil engineering works such as road excavation, economic seats, and road finishing works, and accordingly, they have to bear huge construction costs that cannot be compared with the cost of repairing power lines. .

Therefore, it is necessary to periodically check the insulation state to check the state of the power line, and it is necessary to periodically record and record the history management of the power line, there is a problem that requires a lot of time and manpower. In addition, such a street light is installed on the side of the busy traffic, there is a problem that the risk exists in the inspection work.

In order to solve this problem, the object of the present invention is to automatically database the power line insulation resistance by remote control periodically and to make a database, and to automatically detect streetlight power line failures to check the abnormality of the power line at all times during the day when no power is supplied. And a remote notification system.

1 is an explanatory diagram showing a general streetlight power line wiring state;

2 is an explanatory diagram showing a configuration of a system for automatically detecting and notifying a street lamp power line failure according to the present invention;

3 is a flowchart showing the operation of the control unit according to the present invention;

4 is a flowchart showing the operation of the server of the control center.

* Explanation of symbols for the main parts of the drawings

1: street light 2: control unit 3: control center

4: Frequency comparator 5: Power line 6: Measuring voltage supply

7: Current measuring instrument 8: Insulation resistance measuring unit 9: High frequency oscillator

10: frequency measuring instrument 11: frequency measuring unit 12: horizontal lamp

13: Multiplexer 14: Analog-to-Digital Converter 15: Central Processor

16: Keypad 17: CDMA module

The object of the present invention is to make the output signal of various sensors related to the street light in the control unit and transmit it, and to receive the electrical data in the control center to analyze the data and to transmit the data for the street light control to the control unit An insulation resistance measuring unit comprising a measuring voltage supply and a current measuring unit built in the control unit, and an calculator for converting these values into digital values and calculating resistance values, and a frequency measuring unit comprising a high frequency oscillator and a frequency measuring unit. And a microprocessor for controlling their operation and generating a unique code.

Accordingly, the present invention automatically measures the power line insulation resistance by the control of the control center at a long distance in the daytime, and transmits the measured data to the control center to manage the insulation history of the power line, when a problem occurs in the street lamp power line in real time By notifying the control center, it is possible to manage the power line safely and rationalize the cost of recovery even in case of damage by allowing a professional technician to go to the site immediately and take perfect recovery measures in case of an error.

That is, in the present invention, as shown in FIG. 2, the output signals of various sensors associated with the street lamp 1 are converted into data by the control unit 2 and transmitted to the control center 3, and the data is transmitted from the control center 3 to the control center 3. In the well-known thing which receives and analyzes the data, and communicates with the control unit 2 in the control center 3, the measurement voltage supply built in the control unit 2 for measuring the insulation resistance of the power line 5; (6) and a multiplexer (13) for selectively connecting between the insulation resistance measuring section (8) consisting of a current meter (7) and the power line (5) connected to the insulation resistance measuring section (8) and a plurality of street lamps (12). ), An analog-to-digital converter 14 for converting the output of the electrical insulation resistance measuring unit 8 into digital, and one end of the high frequency oscillation circuit is extended to the power line so that the impedance value of the power line becomes part of the high frequency oscillation circuit. High frequency oscillation (9) and the frequency measuring device (10) for measuring the frequency generated by the high frequency oscillator (9), the frequency comparator (4) and the frequency comparator (4) for comparing the existing frequency and the measured frequency to check the frequency variation A central processor (15) and a central processor (15) for storing and calculating the output data of the analog-to-digital converter (14) for the output value and the insulation resistance measurement value, and for performing a program for transmitting and receiving with the control center (3). Keypad 16 for setting and controlling the function of, and the CDMA module 17 for transmitting and receiving with the control center (3).

The operation of the control unit 2 of the present invention is shown in FIG. 3, and the operation of the server of the control center 3 is shown in FIG.

As can be seen from the present invention, the control unit 2 operates at a set time, and for this purpose, the central processor 15 counts the time by the time clock 24 so that the construction is mainly performed in the daytime time zone. It will start operation.

In the present invention, when the operation is started in this way, the central processor 15 of the control unit 2 controls the multiplexer 13 so that at any point, any one streetlight power line with a unique number is insulated in a predetermined order. Connect to the resistance measurement section. Accordingly, a voltage is first applied to one of the ground and the power line by the measuring voltage supply 6 so that a current corresponding to the resistance value between them is measured by the current measuring device 7. Therefore, since these measured voltage and measured current values are converted to digital by the analog-to-digital converter 14, the central processor 15 stores these data in the memory 23, and then controls the multiplexer 13 to control the rest. Ensure that the streetlight power line is connected to the insulation resistance measurement. Even in this case, the voltage is applied to the ground and the other line of the power line by the measuring voltage supply 6 so that the current corresponding to the resistance value between them is measured by the current meter 7. Therefore, since these measured voltages and measured current values are converted to digital by the analog-to-digital converter 14, the central processor 15 measures the insulation resistance associated with any pair of power lines. The time data and the identification code unique to the control unit 2 are stored in the memory 23.

Subsequently, the next order power line insulation resistance is measured in the same procedure as described above, and the insulation resistances and power line unique codes of the two sides measured in this way, the current time data, and the control unit 2 are identified. The process of storing the code in the memory 23 is repeated.

If this process is repeated, all data related to insulation resistance of multiple power lines is completed.

In addition, in the present invention, a high frequency generator circuit is formed by connecting a ground line grounded at one side of the power line and the ground to one end of the high frequency oscillator 9 so that the impedance between the power line and the ground becomes part of the high frequency generator circuit. Generates a high frequency corresponding to the impedance value between the power line and the ground.

The frequency measuring device 10 continuously measures the frequency generated by the high frequency oscillator 9 and outputs the value to the frequency comparator 4.

The frequency comparator 18 stores the frequency value input from the frequency measuring device 10 in units of predetermined time, and compares the stored frequency value with the frequency value measured by the frequency measuring device 10 continuously and newly inputs the stored frequency value. If the difference in the frequency value exceeds or falls below the set value range, the data is supplied to the central processor 15. In other words, different impedances are formed when the covering of the power line is normal and when it is damaged or broken. Therefore, when the covering of the power line is normal or damaged or broken, the impedance is changed. Since the frequency generated by the oscillator 9 changes, it is to check the abnormal state such as power line damage or breakage by measuring the frequency.

The CPU 15 stores the frequency change value, the power line identification code, the measurement time, the control unit identification code, and the like, which are input from the frequency comparator 4 at a specific address of the memory 23.

In this way, after all the insulation resistance and the frequency conversion data with respect to the ground of all the power lines 5 are completed in the memory 23, the request signal is output by the central processor 15 to the server of the control center 3. Let's go. To this end, the present invention drives the CDMA module 17 and transmits a reception request signal, which is received by the CDMA module 17 'connected to the server of the control center 3 so that the server of the control center 3 has a specific control. The transmission wait state from the unit 2 is recognized. In this state, the server of the control center 3 starts receiving and checks whether there is transmission data. If there is received data, the server receives the data and stores it in the internal and external memory. In addition, the server of the control center 3 takes the stored data, and the insulation resistance data is recorded and analyzed according to the measurement time and control unit 2 and the power line identification code included in the data to be displayed and printed by a monitor and a printer. It is determined whether the frequency change data is within the specified range, and if it is within the set range, it maintains the standby state, and if it is outside the set range, the measurement time and the control unit (2) and the power line identification code included in the data are The corresponding location name will be displayed on the monitor.

By continually performing this process, the server of the control center 3 can monitor the status of the power line in real time, and data transmission from the control unit 2 with respect to all the power lines connected to the control unit 2 is prevented. After completion, the central processing unit 15 recognizes this by transmitting a reception completion signal from the server of the control center 3, thereby repeating the above-described process to monitor and notify the failure of the power line in real time. In addition, in the present invention, the operation is described by one control unit 2 for the sake of convenience, but is actually transmitted by a plurality of control units 2 in sequence, and the data reception of the control server is performed sequentially, so that a large number is spread over a wide area. It will be possible to monitor the number of power lines and to report any abnormalities.

In this way, the present invention can take necessary measures by the administrator to determine in real time how many times the street lamp 12 power line in the specific area by the monitor and printer of the control center 3, the power line insulation resistance By measuring periodically, the progress of insulation deterioration can be understood and countermeasures can be established.

In this way, the present invention can establish a measure according to the progress of insulation degradation by measuring and measuring the electrical resistance of the power line at regular intervals, and power lines in real time during the day when a lot of obstacles occur due to damage of the power line caused by frequent excavation work By recognizing the condition of the control center, the manager of the control center can recognize it in real time, so that he or she can go to the site with a repair technician and complete the recovery. In addition, since the power line restoration construction is performed together in the field construction process, a separate excavation and road pavement construction for power line restoration is unnecessary, so that a huge budget reduction effect can be expected. In addition, the present invention can be quickly managed by the manager even in the event of hazards such as electric shock accidents to nearby workers or pedestrians due to power line insulation resistance or stripping of the coating due to flooding of the power line, damage during construction, ground subsidence, etc. It will be able to go out and take a series of measures to prevent accidents and minimize damage, which can be useful for protecting valuable lives and property.

Claims (2)

Output signals of various sensors related to the street light 1 are converted into data by the control unit 2 and transmitted from the control unit 2, and received by the control center 3 to receive electrical data to analyze the data. In a well-known method for communicating data and control signals for street light control with the control unit 2 in a CDMA wireless manner, a measurement voltage built in the control unit 2 for measuring the insulation resistance of the power line 5 Insulation resistance measuring unit 8 composed of supply unit 6 and current measuring unit 7, multiplexer 13 for selectively connecting power lines connected to a plurality of street lamps 12, and electrical insulation resistance measuring unit 8 The analog / digital converter 14 for converting the output of the digital signal into a digital signal, and the output data of the analog / digital converter 14 are stored and processed, and a program for transmitting and receiving with the control center 3 is performed. Street light power line failure automatic characterized in that it comprises a angular processor 15, a keypad 16 for setting and controlling the function of the central processor 15, and a CDMA module 17 for transmission and reception with the control center (3) Detection and notification system. The method of claim 1, In order to check the abnormal state of the cover of the power line (5) built in the control unit (2) and the frequency measuring unit 11 consisting of a high frequency oscillator (9) and a frequency measuring device (10), and measured by the frequency measuring unit (11) Automatic detection of street light power line failures, comprising: a frequency comparator 4 for comparing fluctuations in frequency and a central processor 15 for storing data and arithmetic processing by receiving the output of the frequency change value compared by the frequency comparator 4 And notification system.