KR100808968B1 - Realtime automatic reporting system for street light cable and street light facilities trouble - Google Patents

Abstract

A real time automatic reporting system for a street light cable and street light facilities trouble is provided to transmit an error to a control server through a remote transfer unit in real time by operating a relay when sensing a physical impact or transformation of facilities. A real time automatic reporting system for an error of a street light cable and street light facilities includes a displacement sensing device(60) and a monitor power circuit(29). The displacement sensing device is installed on lines inside a street light post(12) and has various sensors connected to any one of the lines. The monitor power circuit is installed in a street light distribution box(20) and monitors an output of the displacement sensing device by being connected to another of the lines. An RTU transmits predetermined error display data to a control server(50) by transmitting the output of the displacement sensing device detected from the monitor power circuit to the RTU.

Description

Real Time Automatic Reporting System for Street Light Cable and Street Light Facilities Trouble}

The present invention relates to a real-time automatic notification system for abnormality of street lamp cable and street lamp facilities, and particularly for detecting the occurrence of physical shock or deformation, such as underground cables for supplying power to street lamps or connections installed inside street lamps, and transmitting them to the control center. It relates to a real-time automatic notification system for streetlight cable and light pole abnormalities.

Conventionally, a street light control system for imparting a weekly monitoring function of a street light cable has been proposed by Korean Patent No. 712410 (hereinafter referred to as 'quoting invention'). Referring to the structure thereof, as shown in FIG. A central control terminal for operation, a streetlight situation board apparatus for displaying an entire streetlight situation, and a communication process with an RTU (Remote Transfer Unit) installed in a competent distribution box through a communication network to process an operation according to the operation of the central control terminal; A streetlight central control unit 100 configured to display a distribution box and a street lamp state on a streetlight board in real time and process a central control server for controlling lighting and extinguishing of a streetlight under control;

Providing power for lighting the street lamp at night and providing safety voltage during the day, communicating with the central control unit through the communication network, and communicating with the affiliated street lamp house by power line or wireless A distribution box unit for controlling the belonging streetlight housewife according to a control command of the streetlight central control unit, and reporting the state of the belonging streetlight stock and the state of the distribution box to the streetlight central control unit; And lighting means 300 installed in the street lamp column, connected to the distribution box unit 200 and the power line 204/206, and communicating with the distribution box unit 200 in a power line or wirelessly to control the distribution box unit 200. Accordingly, the lighting means 300 is turned on or off and consists of a street lamp main controller 310 to report the state of the street lamp attention to the distribution box.

In the present invention, referring to FIG. 1, the street lamp central control unit 100 includes a central control server 110, a central control terminal 130, and a street lamp dashboard 150, and an internet network 101 and a CDMA movement. Control the distribution box controller 220 and the street lamp main controller 310 by communicating with the distribution box controller 220 through the communication network 102, or by receiving the status information of the distribution box and street lamp attention, the data storage device of the central control server 110 Stored in, and transmits the information for displaying the distribution box and the street lamp information to the central control terminal 130 and the street lamp panel 150. In addition, the central control terminal 130 displays the status information of the distribution box and the street lamp so that the operator can know, and control the distribution box controller 220 and the column controller 310 in accordance with the operator's operation. The street lamp situation board device 150 displays the status information of distribution boxes and street lamps to express the situation in the central control center, and uses the central control server 110 and power line communication, power line communication, ZIGBEE communication, and 485 wired communication. Communicate

The distribution box unit 200 includes a distribution box controller 220 embedded in the distribution box, a distribution box auxiliary control unit 240 separated from the distribution box controller 220 and embedded in a separate panel, and a power supply system. Communicates with the central control server 110 through, and supplies or cuts power to the street light through the constant power supply line 204 and the differential power supply line 206 according to a predetermined control procedure. In addition, the distribution box controller 220 according to the cited invention is installed in the distribution box to control the distribution switch for the power supplied to the street lamp, and communicates with the streetlight main controller 310 of the belonging street lamps to control the point, the lights out of the street lamp or ballast ( 304 and the failure of the lamp 302 and the amount of leakage is monitored, and report the distribution box and status information of each street lamp to the central control server 110, the distribution box and street lamp control information relayed from the central control server 110 Therefore, control and manage the distribution boxes and street lamps. The lamp unit 300 includes a lamp 302 installed in each lamppost, a ballast 304 and a lamp controller 310 to light the lamp 302 by electric power supplied from the distribution box. In particular, the street lamp main controller 310 according to the present invention is installed in the street lamp column to control the point, the lights out of the ballast 304 and the luminaire 302 of the street lamp, the failure and the amount of leakage of the ballast 304 and the luminaire 302 It monitors and reports to the distribution box controller 220 belonging to it, and relays communication with other distribution control periods with the distribution box controller 220. The central control server 110 and the distribution box controller 220 communicate with each other via the Internet 101 and the CDMA mobile communication network 102, and the distribution box controller 220 and the column controller 310 use power line communication or Zigbee using power lines. Communicate in a way. The central control server 110 and the central control data storage device, not shown, the central control terminal 130 may be connected to the LAN or the Internet, in particular, the Internet 101 is interlocked with the CDMA mobile communication network through a gateway not shown The distribution box controller 220 and the central control server 110 is connected. The mobile communication network 102 connects the distribution box controller 220 and the central control server 110 by interworking with the internet network 101 and transmits central control information to the mobile phone 104 and the PDA 105.

In this way, the cited invention is to enable all the street lights to be lit or lit at night, and during the day is to apply a safety voltage to the cable to check whether the short-circuit lamp short circuit or lamp 302 failure in the central control server.

On the other hand, street trees are planted around street lamps, and water pipes, power lines, and gas pipes are buried, and construction is often done for their installation and repair. It is happening frequently.

In the present invention, as shown in FIG. 1 and FIG. 2 to detect this, the output is generated using an image current transformer, and this is to inform the distribution box controller 220 of a short circuit situation through power line communication. Since the applied safety voltage is alternating current, there is always an earth-to-ground capacitance of the cable, which increases even more in the case of an aging cable, especially in rainy weather, so that the leakage current or the current flowing by the earth-to-ground capacitance is increased. It is not known whether the increase has occurred, which causes a problem in the reliability of the operation.

In particular, excavators are generally used during construction, and not only personnel monitoring the excavator work are arranged, but also the cable is cut by the excavator's shovel and the cable is cut off or the sheath of the cable is peeled off. In most cases, some of the cable's sheaths are damaged, and construction is rarely performed during rainy weather. In many cases, cable damage cannot be detected immediately.

Moreover, since the safety voltage supplied during the day is about 30 V AC, leakage current does not occur even when a considerable amount of damage occurs to the cable sheath, and thus there is a problem in that cable damage cannot be detected. .

In addition, the cable damage caused during the actual water pipe, power line, and gas pipe construction, as the shovel of the excavator pulls the cable inside the cable along with the conduit, as shown in FIG. In many cases, there is no way to detect such a failure, there is no problem to check or repair even if a short circuit occurs after the cable is aged.

In addition, according to the cited invention, there is no way to detect in real time even if the column is tilted due to physical force applied, such as a vehicle colliding to the street lamp or tilting the street lamp by the shovel of an excavator. If there is no report, it will be found during on-site patrol and follow-up actions will not only be able to identify the cause and responsibility of the accident. There was a problem that traffic vehicles were harmed.

An object of the present invention is to monitor the movement of the cable or street lamp facility inside the column to solve this problem, and when the abnormal movement occurs, one side of the cable is grounded cable and street lamp to notify the control server through the RTU while the cable is grounded It is to provide a real-time automatic notification system for facility abnormalities.

The present invention is a street lamp distribution box including a RTU consisting of a CDMA module and a communication unit to control the magnet contact by the breaker and the flasher to achieve this object; A street light pole provided with a ballast and a lamp; A cable and a connection part installed to connect the street lamp distribution box and the street lamp; In a real-time automatic notification system of a known streetlight abnormality that connects the status information of the street lamp distribution box or street lamp pole or cable to the control server by CDMA or the Internet or wired or wireless communication,

Displacement detecting means is installed on the line inside the street lamp column, such as the cable or connection inside the street lamp column, vibration sensor for detecting the up, down, left and right vibration, tilt sensor for detecting the slope, etc .;

A monitoring power circuit installed in the street light distribution box and connected to any one of the tracks to monitor the output of the displacement sensing means;

It is proposed a real-time automatic notification system for streetlight cables and light poles, which transmits the output of the displacement detection means detected by the monitoring power supply circuit to the above-mentioned RTU so that predetermined abnormality indication data is transmitted to the control server.

In addition, the magnet contacts are controlled by the circuit breaker and the flasher and the street lamp distribution box including an RTU consisting of a CDMA module and a communication unit; A street light pole provided with a ballast and a lamp; A cable and a connection part installed to connect the street lamp distribution box and the street lamp; In a real-time automatic notification system of a known streetlight abnormality that connects the status information of the street lamp distribution box or street lamp pole or cable to the control server by CDMA or the Internet or wired or wireless communication,

A lamp circuit separation relay and a lamp circuit separation relay contact point for selectively connecting and disconnecting a circuit including a lamp and a ballast, etc., from a cable connected to a street lamp distribution box;

Displacement detection means installed on a line inside the street lamp and made of the aforementioned various sensors connected to any one of the lines;

A ground relay contact connected between the displacement sensing means and ground and connected between any one of a ground relay and a line operated by an output of the displacement sensing means and a ground;

A monitoring power supply circuit installed in the street light distribution box and connected to the neutral line and the voltage side of the line and monitoring the output of the displacement sensing means;

It is composed of a street lamp flashing circuit for automatically or manually controlling the flashing of the street lamp and controls the connection and disconnection of the monitoring power circuit with the street lamp line;

The present invention proposes a real-time automatic notification system for a street lamp cable and a street lamp facility, which transmits the output of the displacement detecting means detected by the monitoring power supply circuit to a known RTU so that predetermined abnormal indication data is transmitted from the RTU to the control server.

In addition, the street lamp distribution box so that the magnet contact is controlled by a circuit breaker and a flasher and includes an RTU composed of a CDMA module and a communication unit; A street light pole provided with a power line communication module, a ballast, and a lamp; A cable and a connection part installed to connect the street lamp distribution box and the street lamp; In a real-time automatic notification system of a known streetlight abnormality that connects the status information of the street lamp distribution box or street lamp pole or cable to the control server by CDMA or the Internet or wired or wireless communication,

Displacement detection means, such as a vibration sensor for detecting up, down, left and right vibrations, or a tilt sensor for detecting tilt, is installed on a line inside a street lamp pole in which a power line communication module is installed. The present invention proposes a real-time automatic notification system for streetlight cable and column abnormality, which transmits the output of the displacement detection means to the RTU in the streetlight distribution box by the power line communication module so that predetermined abnormality indication data is transmitted from the RTU to the control server.

In this way, the present invention quickly detects displacement as the cable damage or cable connection part occurred during the actual water pipe, power line, and gas pipe work during the day, or when the vehicle collides with the street lamp pole when the vehicle is driven or parked, is damaged. By detecting the means to operate the distribution box's RTU, it is possible to recognize in real time whether any abnormality has occurred in the street lamp line and facilities connected to the distribution box at the control server, and a message transmitted to the control server as needed. In the same way, it is possible to move quickly by sending it to the administrator's mobile phone or PDA. Accordingly, there is a useful effect that it becomes possible to clearly identify the cause of the accident and to determine the responsibility, and to be able to deal quickly with the accident to minimize the damage.

In addition, the present invention in the transmission of the cable to the RTU that is installed inside the street lamp distribution box, if there is a problem, it may be by the power line communication module, but without using a separate communication facility, using the existing line as it is, greatly reducing the manufacturing cost The effect is to be able to.

Referring to the present invention in more detail with reference to the accompanying drawings as follows.

As shown in FIG. 4, a specific embodiment according to the present invention, which is connected to the street lamp distribution box 20 by using the displacement sensing means 60, is illustrated.

As can be seen from the present invention, the magnet contact point 23 is controlled by the circuit breaker and the street lamp flasher 21, and the street lamp distribution box 20 including an RTU 40 composed of a CDMA module and a communication unit; A street lamp column 12 having a ballast 10 and a lamp 11; A cable 30 and a connection part 31 installed to connect the street lamp distribution box 20 and the street lamp 12; In the real-time automatic notification system of a known streetlight abnormality that connects the status information of the street lamp distribution box 20 or street lamp 12 or cable 30 to the control server 50 by CDMA or the Internet or wired or wireless communication,

In the street lamp flasher 21 for automatically controlling the flashing of the street lamp, a selection switch 90 for selecting automatic and manual control is provided, and a switching relay 81 and a time 1 relay 71 are provided on the output side of the selection switch 90. ) Is connected in parallel, and a street lamp flashing circuit 28 is connected to the time 1 relay 71 and the magnet relay 22 by a time 1 relay contact 72.

In addition, a rectifier circuit composed of a transformer 26 and a rectifier 27 is provided at a lead line of the street lamp distribution box 20, the cathode of the provided rectifier circuit is grounded, and the anode is a sensor relay 83 and a time 2 relay contact ( 74), via the switching relay contact 82, the monitoring power circuit switch 91 to be connected to the neutral line. In addition, a time 2 relay 73, a time 3 relay 75, and a transmission relay 85 are connected in parallel between the anode of the rectifier circuit and the sensor relay 83 as shown in FIG. At this time, the time 2 relay 73 is connected to the positive pole of the rectifying circuit via the switching relay contact 82, the time 3 relay 75 is connected to the positive pole of the rectifying circuit via the outgoing relay contact 86, RTU (40) The transmitting relay 85 having the transmitting relay contact 86 connected to the sensor is connected to the positive pole of the rectifying circuit by a time three relay contact 76 connected in series with the sensor relay contact 84, and the sensor relay contact. Between the 84 and the time 3 relay contact 76 is connected between the transmission relay contact 86 and the time 3 relay 75.

In addition, in the present invention, the displacement detecting means 60 for detecting up, down, left and right vibrations, tilts or displacements is installed on a line inside the streetlight column 12 such as the cable 30 or the connection portion 31 inside the streetlight column 12 described above. And, the output of the displacement detection means 60 is connected to the neutral wire.

Referring to the displacement detection means 60 in the present invention in more detail as follows.

First, the displacement sensor according to the present invention can use a variety of known forms. One example is a vibration sensor using a crystal oscillator, which generates an output voltage by vibration from the outside, is particularly suitable for its excellent sensitivity, and can be used in addition to various types of vibration detection sensors.

In addition, the displacement detection sensor in the present invention may use a tilt detection sensor, a representative example of the inert gas and mercury in the inside of the insulating tube sealed with the upper and lower electrodes or the outer wall and each electrode having a center in the center It is possible to use to configure the converter by the movement of the metal ball by having a metal ball in which movement occurs at a constant slope.

In addition, in the present invention, in order to detect the movement of the cable 30 based on a certain point in any direction, to fix the reed switch or permanent magnet inside the street lamp 12 and the permanent magnet or the connection portion 31 of the cable 30 When the connection part 31 of the cable 30 is moved in any direction by fixing the reed switch, a reed switch capable of detecting a displacement by operating the contact of the reed switch may be used.

The present invention selects any one of these various types of vibration sensors, tilt sensors or reed switches to be fixed to the cable 30 or the connection portion 31 by the displacement detecting means 60 or to select a plurality of sensors to displace The sensing means 60 may be fixed to the cable 30 or the connection portion 31.

By using the displacement detection means 60 according to the present invention to monitor the occurrence of physical impact or deformation on the streetlight facility, such as the connection portion 31 and the lamp pole 12 installed inside the underground cable 30 or street light pole 12 The configuration of the monitoring power supply circuit 29 is shown in FIG. 5, and the state in which such displacement means is installed is shown in FIG. 8. As can be seen from this, the displacement sensing means 60 according to the present invention is a street lamp pole 12 for connecting the street lamp distribution box 20 and the street lamp distribution box 20 is installed or adjacent to the RTU 40 is installed. It is installed in the form of fastening with a band made of metal or synthetic resin on the line consisting of the cable 30 and the connection portion 31 inside, it may be installed in the connection portion 31.

Looking at the specific operating state of the present invention thus made as follows.

The present invention calculates the correction value for the time from the sunset time to the sunrise time by region so that the street lamps are turned on by itself, while the ambient light is low by CdS, by itself or by the external control server 50 Of course, you can turn on or off the streetlight in a controlled manner.

Using a function of automatically controlling the blinking of the street lamp in such a known manner, power is supplied manually by the selector switch 90 to generate a predetermined output from the street lamp flasher 21 or to manually flash the street lamp. When the switching relay 81 and the time 1 relay 71 are turned on at the same time, the switching relay contact point 82 is turned off so that the monitoring power supply circuit 29 is immediately disconnected from the main street lamp line. do. On the other hand, when the time 1 relay contact 72 is turned on after the time 1 relay 71 is turned on and the time 1 relay 71 is set, the current flows in the magnet coil. Accordingly, the magnet contact 23 turns on and the voltage side and the neutral wire are turned on. Since power is supplied to the ballast 10 of the street lamp 12, the normal power is supplied to the street lamp lamp 11 is turned on, the vehicle is safe to run and walk after sunset by the lighting by the street lamp.

While maintaining such a state, when the sunrise time has elapsed and the surroundings become bright, or when the lights are controlled by the external control server 50 or by the selection switch 90 for manual operation, the street lamp blinker 21 is used. In the switching relay 81 and the time 1 relay 71, the current supplied to the magnet relay 22 is cut off. Accordingly, the magnet contact 23 is turned off (off), the power supplied to the street lamp line is cut off, the power supplied to the ballast 10 is cut off, the lamp 11 of the street lamp is turned off, the switching relay contact point 82 ) Is reversed and the contact is attached, so that the monitoring power is applied to the time 2 relay 73 so that the time 2 relay 73 starts to operate and after the time set in the time 2 relay 73, the time 2 relay contact 74 Since it is turned on, the monitoring power supply circuit 29 is connected to the main circuit to start monitoring. Here, since the monitoring power circuit switch 91 is a manual switch that determines whether or not the monitoring power circuit 29 itself is used, the monitoring power circuit 29 must be always on regardless of whether the monitoring power circuit 29 is connected to the main circuit. The monitoring power supply circuit 29 cannot be used even during the day to be monitored.

In the above-described operation, the time 1 relay 71 and the time 1 relay contact 72 are the magnet contacts (when the monitoring power supply circuit 29 is not completely separated from the main circuit which is the street light line when the street lamp is to be turned on at sunset). 23) When AC220V, which is the main power source for lighting the street lamp, is turned on, there is a possibility that a problem such as damage of the monitoring power supply circuit 29 may occur. Therefore, it delays the application time of the main power supply. 2 relay contact 74 is for improving the power factor built into the ballast 12 installed in the ballast 12 and the capacitance by the street lamp wire when the monitoring power supply circuit 29 is connected to the main circuit immediately after the main circuit is turned off. Since the electricity charged by the capacitor may flow backwards and damage the monitoring power supply circuit 29, the monitoring power supply circuit 29 is connected to the main circuit until the charged electricity is naturally discharged through the coil of the ballast 10. To It acts as a delay.

Under such monitoring conditions, heavy equipment such as excavators are used to excavate the ground, excavate, move, or refill the ground during the laying or repair of water pipes, power lines, and gas pipes. It is common to damage the conduit with shovels.

In this case, rather than breaking the conduit, as shown in Figure 3 is often taken by lifting a part of the conduit, in this case the cable 30 inside the conduit is pulled in most cases the connection part 31 is lowered. In this case, the connection part 31 connecting the cable 30 and the cable 30 inside the street lamp pole 12 is moved up and down or moves.

In addition, the construction as described above, but the driving vehicle hits the street lamp 12, or the vehicle retracted for parking the street lamp 12 receives the street lamp 12 itself while the cable 30 or the connection portion There is a case where the position of 31 changes.

Therefore, the displacement detection means 60 as described above in order to detect the damage or vibration of the cable 30 and the connection portion 31, the up, down, left and right or position movement and inform the administrator, as shown in FIG. The sensing means 60 is connected to the monitoring power supply circuit 29 through the neutral wire to drive the sensor relay 83 installed in the street lamp distribution box 20. In this case, since the displacement detecting means 60 may be temporarily operated and then returned, it is necessary to maintain the operating state until the RTU 40 detects the error completely in order to prevent an error. Therefore, when the sensor relay 83 is operated, the transmission relay 85 and the time 3 relay 75 are started by the sensor relay contact 84, and the transmission relay contact 86 is operated by the operation of the transmission relay 85. Since it is turned on, even when the sensor 60 is returned to the displacement detecting means 60, the operation of the transmission relay 85 may be maintained until the transmission relay contact 86 is turned off. Here, the time 3 relay 75 operating at the same time as the transmission relay 85 has a function of counting the time from the operation time and turning off the time 3 relay contact 76 after a time for maintaining the operation of the preset transmission relay 85. As a result, the operation of the transmission relay 85 is terminated, the transmission relay contact 86 is turned off, and the power supplied to the time 3 relay 75 is erased, so the time 3 relay contact 76 returns to its original state. The monitoring power supply circuit 29 returns to the normal state.

In addition, as described above, in the state in which the transmission relay contact 86 is turned on, the RTU 40 to which the transmission relay contact 86 is connected recognizes the ON of the transmission relay contact 86, and is determined through a communication unit and a CDMA module. The output signal of the will be transmitted wirelessly, the control server 50 will receive it in real time to recognize in real time that the abnormality has occurred in the street lamp 12 connected to the particular street lamp distribution box (20). As such, the time 3 relay 75 and the time 3 relay contact 76 allow the transmission relay 85 to operate for the time set in the time 3 relay 75 even after the operation of the sensor relay 83 is turned off. 40 functions to transmit a stable signal.

In addition, at this time, by transmitting a signal transmitted from the CDMA to the manager's mobile phone or PDA via the relay equipment, the manager can recognize the abnormality occurred in the street lamp 12 at any time, any place, of course, The signal sent out as well includes the ID of the street lamp distribution box (20).

In addition, in the present invention, although the RTU 40 and the control server 50 is shown as an example connected to the CDMA module, in the plurality of control server 50 by the connection of the Internet network through the CDMA, such as the known system shown in Figure 1 Of course, the street lamp 12 can determine whether or not.

In addition, in the present invention, the displacement sensing means 60 may be of various kinds as described above, and one sensor may be used, but a plurality of sensors may be used. When the displacement sensing means 60 using a plurality of sensors is installed as described above, the cable 30 and the connection portion 31 of the street lamp 12 vibrate up, down, left, and right, and the street lamp 12 is inclined. It can be detected.

That is, as shown in Figure 9, when the conduit is touched by the operation of heavy equipment during construction, if the conduit is deformed in the ground or above ground or sideways street lamp distribution box 20 or street lamp pole connected to the cable 30 inside the conduit The position of the connection part 31 in (12) necessarily changes. Accordingly, the distance between the permanent magnet fixed to the street lamp distribution box 20 or the street lamp 12, and the reed switch fixed to the cable 30 and the connecting portion 31 is changed, and the output of the reed switch is turned on accordingly. The sensor relay 83 is operated accordingly, and the sensor relay contact point 84 is turned on to operate the transmission relay 85 of the street lamp distribution box 20, and thus the transmission relay contact point 86 is turned on and the RTU is turned on. 40 transmits a radio wave having a predetermined signal from the CDMA module and transmits it to the control server 50.

In addition, as shown in FIG. 10, when the street lamp 12 is touched by the operation of heavy equipment during construction, or when a vehicle in progress or a vehicle that is moving backward to push the street lamp 12 for the parking is inclined or is traveling There is a high likelihood of harm to the vehicle, so it is necessary to take prompt action.

In this case, in the present invention, when the street lamp 12 is inclined, the displacement detection means 60, which is a tilt detection sensor installed in the cable 30 and the connecting portion 31, operates to generate an output, and as described above, the sensor relay ( 83 is activated, the sensor relay contact point 84 is turned on so that the transmission relay 85 of the street lamp distribution box 20 is activated. Accordingly, the transmission relay contact point 86 is turned on and the RTU 40 receives a predetermined signal. Since the radio wave with the CDMA module is to be transmitted to the control server 50, the situation can be detected in real time, it is possible to quickly take action.

In addition, in the present invention, the street lamp column 12 may be subjected to severe vibration due to the influence of heavy construction equipment, and in this case, the high-precision devices built into the street lamp column 12 may be damaged. In such a case, it is necessary to take proper measures to ensure that the management personnel are dispatched to the site to grasp the site situation and take a different work method, so that the manager must be notified in real time that such excessive vibration is being applied to the street lamp column 12. There is.

Even in such a case, the present invention, when severe vibration is applied to the street lamp 12, the displacement detection means 60, which is a vibration sensor installed in the cable 30 and the connection portion 31 is activated to generate an output, accordingly The sensor relay 83 is activated, the sensor relay contact point 84 is turned on, and the transmission relay 85 of the street lamp distribution box 20 is operated. Accordingly, the transmission relay contact point 86 is turned on so that the RTU 40 is turned on. The radio wave having a predetermined signal is transmitted from the CDMA module to be transmitted to the control server 50, so that the occurrence of a situation is notified in real time, so that a quick action is possible.

In the present invention, when the above-described vibration sensor, the tilt sensor and the reed switch are all installed in one module, the sensor relay 83 is operated in all cases as described above, the sensor relay contact point 84 When the turn-on relay 85 of the street lamp distribution box 20 is turned on, and thus the source relay contact point 86 is turned on, the RTU 40 transmits a radio wave having a predetermined signal from the CDMA module to control the server. It is to be sent to (50), so that the administrator can recognize in real time the occurrence of various kinds of abnormal situations associated with the street lamp 12, as described above all the street lamps 12 in the management area in the manager Since events can occur in real time can be recognized in the street lamp (12) can be fully managed.

In addition, in the present invention, the displacement detecting means 60 as described above can be used to select a variety of sensors in a variety of known forms, without departing from the technical scope of the present invention, to adopt a variety of sensors for specific implementation It is possible to design, such a displacement detection means 60 is installed in the street lamp distribution box 20 is a system for automatically notifying the failure of the street lamp distribution box 20 and the abnormality of the cable 30 connected to the street lamp distribution box 20 in real time. Of course, it can be configured.

In addition, in the above-described detailed embodiment of the present invention, although the monitoring power supply circuit 29 is configured through the neutral wire, the same may be configured as the voltage side line. In addition, as shown in FIG. 11, which is a circuit diagram illustrating the electrical configuration of the present invention according to another embodiment, the monitoring power circuit switch 92 is connected between the sensor relay 83 and the sensor relay contact point 84 in the monitoring power supply circuit 29. It is connected to the neutral line via the switching relay contact point 82B, and the time 2 relay contact point 74 is connected to the voltage line through the supervisory power circuit switch 92 and the switching relay contact point 82B to the voltage line and the neutral line of the street lamp line. It is possible to configure the monitoring power supply circuit 29B that is connected to all. The operation of the supervisory power supply circuit 29B is similar to the supervisory power supply circuit 29 described above. The difference is that the line on which the ground is formed by the output of the displacement sensing means 60 when the event occurs is the voltage side and the displacement sensing. The line for supplying the monitoring power supply to the means 60 is a neutral wire.

The embodiment of the circuit diagram shown in FIG. 11 will be described in more detail as follows.

As can be seen in the circuit diagram shown in FIG. 11, the magnet contacts 23 are controlled by a circuit breaker and a street lamp flasher 21, and the street lamp distribution box 20 includes an RTU 40 configured by a CDMA module and a communication unit. and; A street lamp column 12 having a ballast 10 and a lamp 11; A cable 30 and a connection part 31 installed to connect the street lamp distribution box 20 and the street lamp 12; In the real-time automatic notification system of a known streetlight abnormality that connects the status information of the street lamp distribution box 20 or street lamp 12 or cable 30 to the control server 50 by CDMA or the Internet or wired or wireless communication,

Lamp circuit separation relay 93 and lamp which can selectively connect and disconnect the circuit including the lamp 11 and the ballast 10, etc. in the street lamp 12 from the cable 30 connected to the street lamp distribution box 20 A circuit separation relay contact point 94 and the above-described displacement sensing means 60 installed on a line inside the street light pole 12 such as a cable 30 or a connection portion 31 inside the street light pole 12 and connected to any one of the lines; A ground relay contact point 96 connected between the displacement sensing means 60 and the ground and connected to one of the ground and the ground relay 95 and the line operated by the output of the displacement sensing means 60, as described above. The switching relay 81 and the time 1 are connected to the neutral line and the voltage side line in the street lamp distribution box 20 to monitor the output of the displacement sensing means 60 and the known street lamp flasher 21. Connect the relay 71 in parallel and do not match the time 1 relay 71. It consists of a street lamp flashing circuit 28 which connects the magnet relay 22 to the time 1 relay contact 72 and installs a magnet contact 23 that is operated by the magnet relay 22 on the neutral line and the voltage side of the street lamp line. do.

The monitoring power supply circuit 29B has a difference in connection with the street light line as compared with the monitoring power supply circuit 29 as described above, and its function and operation are similar.

In addition, in the present invention, the displacement detecting means 60 for detecting up, down, left and right vibrations, tilts or displacements is installed on a line inside the streetlight column 12 such as the cable 30 or the connection portion 31 inside the streetlight column 12 described above. In addition, the output of the displacement detection means 60 is connected to the neutral wire, the neutral wire connected to the displacement detection means 60 and the voltage side line of the inner line of the street lamp pole 12 to the lamp circuit separation relay 93, the above-described displacement A ground relay 95 is connected between the sensing means 60 and the ground. In addition, a lamp circuit separation relay contact point 94 is installed between the lamp circuit including the lamp 11 and the ballast 10 in the street lamp 12 and the line inside the street lamp 12, and the inside line of the street lamp 12. The ground is connected via the ground relay contact 96 to the other side of the lamp circuit separation relay contact 94 connected to the voltage side of the ground.

Looking at the specific operating state of the present invention thus made as follows.

By using the function of automatically controlling the flashing of the street lamp in the above-described known manner, a predetermined output is generated from the street lamp flasher 21 or the power is manually turned on by the selection switch 90 which enables the street lamp to flash manually. When the switching relay 81 and the time 1 relay 71 are turned on at the same time, the switching relay contact point 82B is separated so that the monitoring power supply circuit 29B is immediately disconnected from the main street lamp line. On the other hand, if the time 1 relay contact 72 is turned on after the time 1 relay 71 is turned on and the time 1 relay 71 is set, the current flows through the magnet coil, and accordingly, the magnet contact 23 is turned on to supply power to the voltage line. Is supplied. At this time, in the street lamp column 12, the lamp circuit separation relay 93, which operates as a street lamp lighting power source, is turned on to operate the lamp circuit separation relay contact point 94 to connect the lamp circuit with a line inside the street lamp column 12. Power is supplied to the lamp 11 is to be turned on, the vehicle is safe driving and walking after sunset by the illumination by the street light.

While maintaining such a state, when the sunrise time has elapsed and the surroundings become bright, or when the lights are controlled by the external control server 50 or by the selection switch 90 for manual operation, the street lamp blinker 21 is used. In the switching relay 81 and the time 1 relay 71, the current supplied to the magnet relay 22 is cut off. Accordingly, the magnet contact 23 is turned off, the power supplied to the street lamp line is cut off, and the lamp 11 of the street lamp is turned off. At this time, in the street lamp 12, the lamp circuit separation relay 93 is turned off to separate the lamp circuit by the lamp circuit separation relay contact 94, and the lamp circuit separation relay contact 94 is connected to the ground relay contact 96 side. Prepare to ground the voltage side to earth. In addition, since the switching relay contact point 82B is turned on in the opposite direction and the contact point is attached, the monitoring power is applied to the time 2 relay 73 so that the time 2 relay 73 starts to operate and the time is set after the time set in the time 2 relay 73. Since the two relay contacts 74 are turned on, the monitoring power supply circuit 29B is connected to the street lamp line to start monitoring. In this case, since the monitoring power circuit switch 92 is a manual switch for determining whether or not the monitoring power circuit 29B itself is used, the monitoring power circuit switch 29B should always be on regardless of whether the monitoring power circuit 29B is connected to the street lamp line. The monitoring power supply circuit 29B cannot be used even during the day to be monitored. In addition, even if the monitoring power is applied in this way, since the lamp circuit separation relay 93 is a relay operated at AC220V as the main power, it does not operate as the monitoring power.

In the above-described monitoring of the street lamp line of the monitoring power supply circuit 29B, the time 1 relay 71 and the time 1 relay contact 72 are connected to the main circuit whose monitoring power supply circuit 29B is a street lamp line when the street lamp is to be turned on at sunset. When the magnet contact 23 is turned on in a state where it is not completely separated, and AC220V, which is the main power source for lighting the street lamp, may cause a problem such as damage to the monitoring power supply circuit 29B, it may delay the application time of the main power supply. When the monitoring power supply circuit 29B is connected to the main circuit immediately after the main circuit is turned off, the time 2 relay 73 and the time 2 relay contact 74 are stabilized in the street lamp pole 12 and the ballast installed in the street lamp 12. Since the electricity charged by the power factor correction capacitor built in (10) may flow backwards and damage the monitoring power supply circuit 29B, until the charged electricity is naturally discharged through the coil of the ballast 10. Serve to delay the connection of the monitor power supply circuit (29B) to a circuit.

In such a monitoring state, when the displacement detecting means 60 as described above is operated to detect the damage of the cable 30 and the connecting portion 31, the up, down, left, right vibration, or positional movement and notify the administrator of the fact by the above-mentioned cause. The monitoring power is supplied to the ground relay 95 connected between the displacement sensing means 60 and the ground, which causes the ground relay contact 96 to operate so that the voltage side is grounded and the monitoring power circuit 29B is connected through the voltage side. The sensor relay 83 installed in the street lamp distribution box 20 is connected to the drive. In this case, since the displacement detecting means 60 may be temporarily operated and then returned, it is necessary to maintain the operating state until the RTU 40 detects the error completely in order to prevent an error. Therefore, when the sensor relay 83 is operated, the transmission relay 85 and the time 3 relay 75 are operated by the sensor relay contact 84, and the transmission relay contact 86 is turned on by the operation of the transmission relay 85. Therefore, even when the sensor 60 is returned to the displacement detecting means 60, the sensor relay contact point 84 may be turned off, and thus the operation of the transmission relay 85 may be maintained until the source relay contact point 86 is turned off. Here, the time 3 relay 75 operating at the same time as the transmission relay 85 has a function of counting the time from the operation time and turning off the time 3 relay contact 76 after a time for maintaining the operation of the preset transmission relay 85. As a result, the operation of the transmission relay 85 is terminated, the transmission relay contact 86 is turned off, and the power supplied to the time 3 relay 75 is erased, so the time 3 relay contact 76 returns to its original state. The monitoring power supply circuit 29 returns to the normal state.

In addition, as described above, in the state in which the transmission relay contact 86 is turned on, the RTU 40 to which the transmission relay contact 86 is connected recognizes the ON of the transmission relay contact 86, and is determined through a communication unit and a CDMA module. The output signal of the will be transmitted wirelessly, the control server 50 will receive it in real time to recognize in real time that the abnormality has occurred in the street lamp 12 connected to the particular street lamp distribution box (20).

In this detailed embodiment of the present invention, the transmission relay 85 and the contact 86 of the sensor and the sensor relay 83 and the contact point 84 of the displacement sensing means 60 operated by the power supply of the rectifier circuit operate. Although the RTU 40 transmits the abnormal data, the specific design can be appropriately modified according to various conditions in the field while maintaining the technical features of the present invention.

For example, the monitoring power supply circuits 29 and 29B to which the above-described displacement sensing means 60 shown in FIG. 5 are connected use a DC power source as shown in FIG. 6, the negative electrode is grounded, and the positive electrode is connected to the neutral line or the neutral line and the voltage side line. Time delay for maintaining time for ensuring the detection of the switching transistor 62 operating by the output of the displacement sensing means 60 described above and the output of the displacement sensing means 60 transmitted by the switching transistor 62. The input side 64 and the output side of the photocoupler which secures the detection time by the unit 66 and the time delay unit 66 and detects the output of the displacement detecting means 60 and transmits the detected output to the RTU 40. It is possible to configure the electronic circuit consisting of 65).

In addition, the monitoring power supply circuits 29 and 29B use a DC power supply as shown in FIG. 7, the negative electrode is grounded, and the positive electrode is connected to the neutral line or the neutral line and the voltage side line, and the output detected by detecting the output of the displacement sensing means 60 described above. It is possible to configure using the PLC (61), a programmable logic controller that performs the function of delivering to the RTU (40) by the program.

In addition, in the real-time automatic notification system for streetlight facilities abnormality using a conventional power line communication module, the displacement detection means 60 of the various sensors described above is installed in the street lamp column 12 in which the power line communication module is installed and the displacement detection means 60 of the The output is transmitted to the RTU 40 in the street lamp distribution box 20 by the power line communication module to wirelessly transmit a predetermined output signal from the RTU 40, and the control server 50 receives the specific street lamp distribution box ( A real-time automatic notification system for a street lamp cable and a street lamp facility that recognizes in real time that an abnormality has occurred in the street lamp column 12 connected to 20) is possible.

1 is a block diagram showing a conventional control system.

Figure 2 is a circuit diagram of a street lamp cable using a conventional video current transformer.

3 is an explanatory diagram illustrating a case where the conduit is damaged in the prior construction.

Figure 4 is a circuit diagram showing the electrical configuration of the real-time automatic notification system for the street lamp cable and street lamp facility damage according to the present invention.

5 is an explanatory diagram illustrating a configuration of a monitoring power supply circuit connected with a displacement sensing means applied to the present invention.

Figure 6 is an illustration of a monitoring power supply circuit composed of an electronic circuit applied to the present invention.

7 is a diagram illustrating a monitoring power supply circuit using a programmable logic controller (PLC) applied to the present invention.

8 is an explanatory diagram showing a state constructed by applying the present invention.

9 is an explanatory diagram for the operation of the present invention when the conduit is damaged during construction.

10 is an explanatory diagram for the operation of the present invention in a state in which the street lamp is inclined.

11 is a circuit diagram showing an electrical configuration of the present invention according to another embodiment.

* Explanation of symbols for the main parts of the drawings

 10: ballast 11: lamp 12: street lamp

 20: Street lamp distribution box 21: Street lamp blinker 22: Magnet relay

 23: Magnet contact 26: Trans 27: Rectifier

 28: side light flashing circuit 29, 29B: monitoring power supply circuit 30: cable

 31: connection part 40: RTU 50: control server

 60: displacement detection means 61: PLC 62: switching transistor

 63: photocoupler 64: input side of photocoupler 65: output side of photocoupler

 66: time delay part 71: time 1 relay 72: time 1 relay contact

 73: time 2 relay 74: time 2 relay contact 75: time 3 relay

 76: time 3 relay contact 81: switching relay 82, 82B: switching relay contact

 83: sensor relay 84: sensor relay contact 85: outgoing relay

 86: Outgoing relay contact point 90: Selection switch 91, 92: Monitoring power circuit switch

 93: lamp circuit disconnect relay 94: lamp circuit disconnect relay

 95: ground relay 96: ground relay contact

Claims (14)

A street lamp distribution box configured to control a magnet contact by a circuit breaker and a flasher and including an RTU composed of a CDMA module and a communication unit; A street light pole provided with a ballast and a lamp; A cable and a connection part installed to connect the street lamp distribution box and the street lamp; In the real-time automatic notification system of a known streetlight abnormality that transmits the status information of the street lamp distribution box or street lamp pole or cable to the control server by CDMA or the Internet or wired or wireless communication, Displacement sensing means is installed on the line inside the street lamp and made of various sensors connected to any one of the lines, A monitoring power circuit installed in the street light distribution box and connected to any one of the tracks to monitor the output of the displacement sensing means; Real-time automatic notification system for streetlight cable and streetlight facility, characterized in that the output of the displacement detection means detected by the monitoring power supply circuit to transmit the predetermined abnormal indication data to the control server by the RTU. A street lamp distribution box configured to control a magnet contact by a circuit breaker and a flasher and including an RTU composed of a CDMA module and a communication unit; A street light pole provided with a ballast and a lamp; A cable and a connection part installed to connect the street lamp distribution box and the street lamp; In the well-known automatic streetlight real-time automatic notification system for transmitting the status information of the street lamp distribution box or street lamp pole or cable to the control server by any one of CDMA, Internet, wired, wireless communication, A lamp circuit separation relay and a lamp circuit separation relay contact point for connecting or disconnecting a circuit including a lamp and a ballast in a street lamp pole to a cable connected to a street lamp distribution box; Displacement detection means installed on a line inside the street lamp and made of various sensors connected to any one of the lines; A ground relay contact connected between the displacement sensing means and ground and connected between any one of a ground relay and a line operated by an output of the displacement sensing means and a ground; A monitoring power supply circuit installed in the street light distribution box and connected to the neutral line and the voltage side line of the line and monitoring the output of the displacement sensing means; It is composed of a street lamp flashing circuit for automatically or manually controlling the flashing of the street lamp and controls the connection and disconnection of the monitoring power supply circuit with the street lamp line; Real-time automatic notification system for streetlight cable and streetlight facility, characterized in that the output of the displacement detection means detected by the monitoring power supply circuit to transmit the predetermined abnormal indication data to the control server by the RTU. A street lamp distribution box configured to control a magnet contact by a circuit breaker and a flasher and including an RTU composed of a CDMA module and a communication unit; A street light pole provided with a power line communication module, a ballast, and a lamp; A cable and a connection part installed to connect the street lamp distribution box and the street lamp; In a well-known automatic street lamp real-time automatic notification system for transmitting the status information of the street lamp distribution box or street lamp pole or cable to the control server by any one of CDMA, Internet, wired, wireless communication, Displacement detection means consisting of various sensors is installed on the line inside the street lamp column where the power line communication module is installed, and the output of the displacement detection means is transmitted to the RTU in the street lamp distribution box by the power line communication module to transmit predetermined abnormal indication data from the RTU to the control server. Real-time automatic notification system for street light cables and street light facilities, characterized in that the transmission. The method according to any one of claims 1, 2 or 3, The above-described displacement detection means is a real-time automatic notification system for a street lamp cable and street lamp facility, characterized in that the vibration sensor for detecting the up, down, left and right vibrations installed on the track inside the street lamp column, such as the cable or connection inside the street lamp. The method according to any one of claims 1, 2 or 3, The above-described displacement detection means is a real-time automatic notification system for a street lamp cable and street lamp facility, characterized in that the reed switch is installed on the track inside the street lamp column, such as a cable or connection inside the street lamp pole, or a permanent magnet or reed switch fixed inside the street lamp pole. The method according to any one of claims 1, 2 or 3, The above-described displacement detection means is a real-time automatic notification system for a street lamp cable and street lamp facility, characterized in that the inclination detection sensor installed on the line inside the street lamp column, such as a cable or connection inside the street lamp. The method according to any one of claims 1, 2 or 3, The above-described displacement detecting means includes at least two of a vibration sensor, a reed switch, a permanent magnet, and a tilt detection sensor installed on a line inside a street lamp such as a cable or a connection part of the street lamp. Notification system. The method according to any one of claims 1, 2 or 3, The above-described displacement detection means is a real-time automatic notification system for the street lamp cable and street lamp facility, characterized in that the installation is connected to the neutral line of the cable inside the street lamp. The method according to any one of claims 1, 2 or 3, The above-described displacement detection means is a real-time automatic notification system for the street lamp cable and street lamp facility, characterized in that the installation is connected to the voltage side of the cable inside the street lamp. The method according to any one of claims 1, 2 or 3, The system for real-time automatic notification of abnormality of street light cables and street light facilities, characterized in that the above-described displacement detecting means is additionally installed in the street light distribution box. The method according to claim 1 or 2, A system for real-time automatic notification of abnormality in a street lamp cable and a street lamp facility, further comprising a time 1 relay and a time 1 relay contact and a time 2 relay and a time 2 relay contact, which can set an operating time for protecting the aforementioned monitoring power circuit. The method according to claim 1 or 2, The above-described supervisory power circuit uses a DC power source, the negative electrode is grounded, the positive electrode is connected to the neutral line or the neutral line and the voltage side line, and the sensor relay and sensor relay contact point operated by the output of the above-described displacement sensing means, the sensor relay and the sensor Real-time automatic notification system for streetlight cables and streetlight facilities, comprising time3 relay and time3 relay contacts operated by relay contacts, transmission relays and transmission relay contacts operated by sensor relay contacts and time3 relay contacts . The method according to claim 1 or 2, The above-described supervisory power supply circuit uses a DC power source, the negative electrode is grounded, the positive electrode is connected to the neutral line or the neutral line and the voltage side line, and the displacement sensing means transmitted by the switching transistor and the switching transistor operated by the output of the above-described displacement sensing means. The detection time is secured by the time delay unit and the time delay unit for maintaining the time for ensuring the detection of the output of the output to the input side and the output side of the photocoupler which detects the output of the displacement sensing means and delivers the detected output to the RTU. Real-time automatic notification system for streetlight cable and streetlight facility, characterized in that consisting of the electronic circuit. The method according to claim 1 or 2, The above-described supervisory power supply circuit uses a DC power source, the negative electrode is grounded, the positive electrode is connected to the neutral line or the neutral line and the voltage side line, and the function of detecting the output of the above-described displacement sensing means and transmitting the detected output to the RTU by a program. Real-time automatic notification system for streetlight cable and streetlight facility, characterized by consisting of a programmable logic controller (PLC).

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