KR20100124041A - Remote control cabinet panel apparatus for monitoring by self test - Google Patents

Abstract

PURPOSE: A remote control distribution device is provided to improve the stability of a self diagnostic process by supplying a low power test power source to a plurality of street lamps. CONSTITUTION: A first communications module communicates with a server(100) for the remote control of a street lamp. A second communications module communicates with a mobile terminal. A plurality of electronic switch device supply common power or test power to each street lamp. The electronic switch control device controls the switches. A plurality of intelligent breakers generate sensing information by sensing the state of power supplied to the street lamp. A test power supply device supplies test power to the street lamp through the switch. A street lamp distribution box control device(102) controls the operation of the electronic switch control device.

Description

Remote control cabinet panel apparatus for monitoring by self test}

The present invention relates to a street light remote control technology, and more particularly, to remotely control the lighting of the plurality of street lights, and to store the history information for each of the plurality of street lights, the stored history information to the portable worker terminal The present invention relates to a remote control distribution box device for self-diagnosing monitoring by wireless transmission, by supplying weak test power to the plurality of street lights in response to a wireless request of the portable worker terminal.

The general street lighting control system is controlled by the administrator to control the lighting directly or the lighting is implemented according to the illumination. The system such as the former has a problem in that the cost of manpower management is required. If there was a problem that it is not easy to control the flashing selectively at the desired time.

As a technique for solving such a problem, there is a patent application No. 1992-0002720 filed under the name of "Turning lights receiver circuit and lighting methods of street lights" to the Korean Patent Office.

The patented technology is an RF receiving module for amplifying a high frequency signal received through an antenna to an appropriate level and demodulating the amplified high frequency signal to detect an analog receiving code system signal, and converting the detected analog signal into a digital signal. A modem, a microprocessor for outputting a control signal on and off based on the received code system signal converted from the modem, a relay driver for driving a relay in accordance with an output control signal of the microprocessor, a relay for intermitting power supplied to a load, and Clock circuit for providing time information to the microprocessor, a power supply unit for supplying driving power without noise to each receiver, or a test set condenser supplied with the clock circuit and a time adjustment signal, and region code information set by a user Area code supplied to the microprocessor It discloses a street light distribution panel consisting of government.

Through these streetlight distribution boards, it is possible to remotely control the lighting of a large number of streetlights scattered over a large area.

However, in the related art, since one streetlight distribution board is in charge of controlling the lighting of a plurality of streetlights, it is not easy to grasp when one streetlight is damaged.

In more detail, when any one of a plurality of street lamps that control the street lamp distribution panel is cut off due to a short circuit or a short circuit, the driving power supply is cut off, and the power is supplied to check the operation state of the plurality of street lamps. There was a problem that caused the danger of the operator, or even the street lamp that was operating normally.

Accordingly, there is an urgent need for the development of a technology capable of performing a safe test for the plurality of street lamps in the case of controlling the lighting of the plurality of street lamps through one distribution panel.

The present invention, as well as remote control of the lights on the plurality of street lights, and stores the history information for each of the plurality of street lights, and wirelessly transmit the stored history information to the portable worker terminal, the wireless request of the portable worker terminal Accordingly, an object of the present invention is to provide a remote control distribution box device for self-diagnosis monitoring by supplying weak test power to the plurality of street lights.

Remote control distribution box device for self-diagnostic monitoring according to the present invention for achieving the above object, the first communication module for communication with the server for remote control street light; A second communication module for communicating with a portable terminal; A plurality of electronic switches for supplying commercial power or test power to each of the plurality of street lights or cutting off the supply; An electronic switch controller for controlling the plurality of electronic switches; A plurality of intelligent circuit breakers configured to generate sensing information by sensing a state of power supplied to a street lamp through each of the plurality of electronic switches; A test power supply for supplying test power to the plurality of street lights through the plurality of electronic switches, and generating sensing information from the plurality of intelligent breakers as self-diagnostic information; Controlling the operation of the electronic switch controller according to a remote control by the server or a test request of the portable terminal, instructing the test power supply to supply test power according to a test request through the portable terminal, And a streetlight distribution box control device receiving self-diagnosis information from a test power supply and transmitting the self-diagnosis information to the portable terminal.

The present invention makes it easy to check the history of abnormal operation for each of a plurality of street lamps, and has the effect of providing a low-power test power for the plurality of street lamps to self-diagnose and safety.

The configuration of a remote control street light system according to a preferred embodiment of the present invention will be described with reference to FIG.

The street lamp remote control system includes a server 100, at least one street lamp remote control distribution box device 102, and at least one portable terminal 104.

The server 100 controls the lighting of a plurality of street lamps connected to each street lamp remote control distribution box device 102 through one or more street lamp remote control distribution box devices 102.

The street lamp remote control distribution box device 102 connected to the server 100 controls the lighting of the plurality of street lamps 1061 to 1065 connected thereto according to a remote control command from the server 100.

In addition, the street lamp remote control distribution box device 102 according to a preferred embodiment of the present invention monitors the operating state of the plurality of street lights (1061 ~ 1065), and stores the result as street light history information.

In addition, the street lamp remote control distribution box device 102 transmits the stored streetlight history information to the portable terminal 104 at the request of the portable terminal 104, or compared to the commercial power at the request of the portable terminal 104 The low-power test power is supplied to the plurality of street lights 1061-1065, and at the same time, the self-diagnosis of the plurality of street lights 1061-1065 is performed, and the resulting self-diagnostic information is returned to the mobile terminal 104. . In particular, the operator can check the state of the plurality of street lights (1061 ~ 1065) with the naked eye at the time of the self-diagnosis, it is possible to check whether the plurality of street lights (1061 ~ 1065) actually behave abnormally, and the self-diagnostic information in real time By checking, it is easy to recognize which street lamp performs abnormal operation. In addition, the street lamp remote control distribution box device 102 of the present invention can be generated when the commercial power is supplied to the street lamp when the street lamp is short-circuit or short-circuit by self-diagnosis using a test power that is lower than the commercial power source. Prevent accidents in advance

In addition, the street lamp remote control distribution box device 102 in accordance with the request of the mobile terminal 104, and performs a collective lighting and collective extinguishing for a plurality of street lamps (1061 ~ 1065) connected to it, the point of the street lamp after the operator maintenance It is easy to confirm that the lights have been properly implemented.

The portable terminal 104 receives and displays streetlight history information from the streetlight remote control distribution box device 102 according to a user's operation, and transmits a test command to the streetlight remote control distribution box device 102 according to a user's operation. It receives and displays the self-diagnosis information provided from the street lamp remote control distribution box device 102.

<Detailed configuration of street lamp remote control distribution box device>

The configuration of the street lamp remote control distribution box device 102 will be described with reference to FIG.

The street lamp remote control distribution box device 102 is a street lamp distribution box control device 200 and the first communication module 202, the second communication module 204, street light history information storage and test power supply 206, first to An intelligent circuit breaker group 208 composed of the N-th intelligent circuit breakers 2101 to 201N, a relay control device 212, and a relay group 214 composed of the first to Nth electronic switches 2161 to 216N.

The street lamp distribution box control device 200 supplies first to Nth driving power to a plurality of street lights through the relay control device 212 according to a control command from the server 100 through the first communication module 202. By controlling the electronic switch (2161 ~ 216N) to supply or cut off the commercial power supply to a plurality of street lights, to carry out the flashing of a plurality of street lights.

In addition, the street lamp distribution box control device 200 performs communication with the mobile terminal 104 through the second communication module 204, and stores and tests the street light history information according to the request for the street light history information from the mobile terminal 104. The streetlight history information is requested from the power supply device 206 and provided to the portable terminal 104 through the second communication module 204.

In addition, when the test command is received from the portable terminal 104 through the second communication module 204, the street lamp distribution box control device 200 transmits the test command to the street lamp history information storage and test power supply 206. Self-diagnosis is performed by supplying test power to multiple street lights.

In addition, the street lamp distribution box control device 200 when the collective lighting or batch extinguished command for the plurality of street lights 1061 to 1065 is received from the mobile terminal through the second communication module 204, the plurality of street lights 1061 to 1065. ), The relay control device 212 is controlled so that the collective lighting or the collective lighting off is implemented.

The first communication module 202 performs communication between the server 100 and the street lamp distribution box control device 200.

The second communication module 204 performs communication between the portable terminal 104 and the street lamp distribution box control device 200.

The first to Nth intelligent circuit breakers 2101 to 210N monitor power supplied through the first to Nth electronic switches 2161 to 216N to sense whether there is no current, an overcurrent, a short circuit, or an overvoltage. The sensing information including the result and the identification information thereof is provided to the streetlight history information storage and test power supply 206.

The streetlight history information storage and test power supply 206 stores sensing information provided from the first to Nth intelligent breakers 2101 to 210N as streetlight history information.

In addition, the streetlight history information storage and test power supply 206 provides the stored streetlight history information to the street lamp distribution box control device 200.

In addition, the streetlight history information storage and test power supply 206, when a test command is provided from the streetlight distribution box control device 200, a plurality of streetlights through the first to N-th electronic switch (2161 ~ 216N) test power To supply. Here, the street lamp distribution box control device 200 controls the first to N-th electronic switch (2161 ~ 216N) through the relay control device 212 for the application of the test power.

While the test power is supplied to the plurality of street lamps, the first to N-th intelligent circuit breakers 2101 to 210N monitor power supplied through the first to Nth electronic switches 2161 to 216N, thereby providing no current, overcurrent, Sensing whether a short circuit or an overvoltage is detected, and sensing information including the sensing result and its identification information is provided to the streetlight history information storage and test power supply 206.

As described above, when sensing information is received from the first to N-th intelligent breakers 2101 to 210N while the test power is supplied, the streetlight history information storage and the test power supply 206 may self-detect the sensing information. Provided as diagnostic information to the street lamp distribution box control device 200, the street lamp distribution box control device 200 transmits the self-diagnostic information to the mobile terminal 104, so that the operator can quickly recognize whether abnormal operation is quickly. .

<Detailed Configuration of Intelligent Circuit Breaker>

Since the configurations and operations of the first to Nth intelligent circuit breakers 2101 to 210N are the same, the configuration and operation of any one of the intelligent circuit breakers will be described in detail with reference to FIG. 3.

The intelligent breaker is composed of a control device 300, a communication module 302, a current sensor 304, a ground fault sensor 308, a voltage sensor 310.

The control device 300 senses the current of the power supplied to the electronic switch connected to it and checks whether the current corresponds to no current or over current. In addition, the control device 300 senses the current of the power supplied to the electronic switch connected to it and checks whether the current corresponds to the short-circuit state. In addition, the control device 300 senses the voltage of the power supplied to the electronic switch connected to it and checks whether the voltage corresponds to the overvoltage.

The control device 300 configures sensing information by combining the non-current, overcurrent, leakage, and overvoltage sensing result with its own identification information, and stores the streetlight history information and the test power through the communication module 302. To the feeder 206.

The communication module 302 is an RS-232C interface or the like, and interfaces between the control device 300 and the streetlight history information storage and test power supply 206.

The current sensor 304 senses the current of the power supplied to the electronic switch connected thereto and provides the result to the control device 300.

The ground fault sensor 306 senses a ground fault through a current of power supplied to an electronic switch connected to the ground fault sensor 306, and provides the result to the control device 300.

The voltage sensor 308 senses the voltage of the power supplied to the electronic switch connected thereto and provides the result to the controller 300.

<Storage information of street lamp and detailed configuration of test power supply device>

A configuration of the streetlight history information storage and test power supply 206 will be described with reference to FIG. 4.

The streetlight history information storage and test power supply 206 is composed of a control device 400, a communication module 402, a memory 404, a test power supply 406.

The control device 400 stores the sensing information received from the first to N-th intelligent breaker (2101 ~ 210N) in the memory unit 404 as street light history information, and stores the stored street light history information in the communication module 402 It transmits to the street lamp distribution box control device 200 through.

In addition, the control device 400 supplies the first to N-th intelligent breakers 2101 to 210N while supplying test power to the plurality of street lights through the test power supply 406 at the request of the street lamp distribution box control device 200. When the sensing information is received, transmits it to the street lamp distribution box control device 200 as self-diagnostic information.

The communication module 402 may interface between the control device 400, the street lamp distribution box control device 200, and the first to Nth intelligent breakers 2101 to 210N through an RS-232C interface.

The memory 404 stores street light history information provided by the control device 400.

The test power supply 406 converts the commercial power into a test power of 48V and 5mA under the control of the control device 400, and supplies the test power supply 406 to the first to Nth electronic switches 2161 to 216N.

<Process of street lamp distribution box device>

Now, a process of the street lamp distribution box device according to the preferred embodiment of the present invention will be described with reference to FIG.

A plurality of intelligent breakers (2101 ~ 210N) of the street lamp distribution box device 102 senses the state of the power supplied to the plurality of street lights through a plurality of electronic switchgear (2161 ~ 216N), senses the state of each street light, The sensing information is provided to the streetlight history information storage and test power supply 206, and the sensing information is stored as streetlight history information (steps 500 and 502).

When the worker requests the streetlight history information through the portable terminal 104 (step 504), the streetlight distribution box control device 200 requests the streetlight history information to the streetlight history storage and test power supply 206 (506). step).

The streetlight history storage and test power supply 206 provides the stored streetlight history information to the streetlight distribution box control device 200 when the streetlight history information is requested through the streetlight distribution box control device 200, and the streetlight distribution box. The control apparatus 200 transmits the street light history information to the mobile terminal 104, and the mobile terminal 104 outputs the street light history information (steps 508 to 514).

When the worker requests a street light test through the portable terminal 104 (step 516), the street lamp distribution box control device 200 requests a test to the street lamp history information storage and test power supply 206 (step 518). .

The streetlight history information storage and test power supply 206 senses the state of the streetlight through a plurality of intelligent circuit breakers (2101 ~ 210N) at the same time to supply the test power to the plurality of streetlights, and the result is a streetlight distribution box as the self-diagnostic information Transmission to the control device 200, the street lamp distribution box control device 200 transmits the self-diagnostic information to the mobile terminal 104 to guide the worker (steps 520 ~ 528).

When the operator commands the collective lighting on the street lamp through the portable terminal 104, the street lamp distribution box control device 200 controls the relay control device 212 and supplies driving power to the plurality of street lamps to perform the collective lighting. (Step 530, 532).

In addition, when a maintenance commander turns off the lamp for the street lamp through the portable terminal 104, the street lamp distribution box control device 200 controls the relay controller 212 to cut off the driving power supplied to the plurality of street lamps. Perform mass extinction (steps 534, 536).

1 is a block diagram of a remote control street light system according to an embodiment of the present invention.

2 is a block diagram of a street lamp remote control distribution box device according to a preferred embodiment of the present invention.

3 is a block diagram of the intelligent breaker of FIG.

Figure 4 is a block diagram of the streetlight history information storage and test power supply of Figure 2;

5 is a view showing the processing of the street lamp remote control distribution box device according to a preferred embodiment of the present invention.

Claims (5)

In the remote control distribution box device for self-diagnosis monitoring, A first communication module for communicating with a server for remote control of a street light; A second communication module for communicating with a portable terminal; A plurality of electronic switches for supplying commercial power or test power to each of the plurality of street lights or cutting off the supply; An electronic switch controller for controlling the plurality of electronic switches; A plurality of intelligent circuit breakers configured to generate sensing information by sensing a state of power supplied to a street lamp through each of the plurality of electronic switches; A test power supply for supplying test power to the plurality of street lights through the plurality of electronic switches, and generating sensing information from the plurality of intelligent breakers as self-diagnostic information; Controlling the operation of the electronic switch controller according to a remote control by the server or a test request of the portable terminal, instructing the test power supply to supply test power according to a test request through the portable terminal, A streetlight distribution box control device receiving self-diagnosis information from a test power supply and transmitting the self-diagnostic information to the portable terminal; Remote control distribution box device for self-diagnosis monitoring characterized in that it comprises a. The method of claim 1, Further comprising a streetlight history information storage device for storing the sensing information from the plurality of intelligent breakers as streetlight history information, The street lamp distribution box control device, the remote control distribution box device for self-diagnostic monitoring, characterized in that for reading the street light history information and transmits to the portable terminal at the request of the portable terminal. The method of claim 1, The state of the power supply, remote control distribution box device for self-diagnostic monitoring, characterized in that any one or more of the non-current and overcurrent and the leakage and overvoltage conditions. The method of claim 1, The test power supply, Remote control distribution box device for self-diagnosis monitoring characterized by a weak power supply of 48 V AC and 5 mA. The method of claim 1, The street lamp distribution box control device, the remote control distribution box device for the self-diagnostic monitoring, characterized in that for controlling the plurality of electronic switchgear according to the request of the portable terminal to perform a collective lighting or collective fire for the plurality of street lights. .

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