WO2019107705A1

WO2019107705A1 - Smart streetlight management system and method

Info

Publication number: WO2019107705A1
Application number: PCT/KR2018/009556
Authority: WO
Inventors: 박병덕
Original assignee: 주식회사 트로닉스
Priority date: 2017-11-30
Filing date: 2018-08-21
Publication date: 2019-06-06
Also published as: KR20190063834A

Abstract

The present invention discloses a smart streetlight management system and method. The present invention has an advantage that a plurality of lighting devices having unique information form one group, an integrated control unit which manages the group is connected to a control server, and the control server manages each group and the lighting devices through the integrated control unit, and thus real-time monitoring and management are possible.

Description

Smart streetlight management system and method

More particularly, the present invention relates to a smart streetlight management system and method, and more particularly, to a smart streetlight management system and method, To a smart streetlight management system and method capable of real-time monitoring and management by managing each group and lighting devices through an integrated control unit.

Generally, lighting fixtures such as security lamps and street lamps are installed and managed in a relatively large area with a large number of lighting lamps, and it is necessary to turn them on or off according to time. The management of the lighting time and the turn- It needs to be managed accurately in the dimension.

In addition, when the lamp or the ballast fails, there is a no-load power loss. Therefore, it is necessary to take measures such as detecting the power supply quickly and shutting off the power supply.

Therefore, it is a reality that street lamps and security lamps require regular and continuous maintenance even in normal times, and it is necessary to have separate management personnel for them. However, it is a self-governing system that manages street lamps and security lamps (the number of lamps is 1000 to 4000) Organizations (old, city hall, or government office, etc.) have a small number of personnel as management personnel, which makes management difficult. In order to put management personnel directly on site, it takes a lot of manpower, none.

Therefore, if the lamp life of the street lamp and the security lamp is broken or the lamp life has been broken up until now, complaints are raised and the management person receives the complaint and requests the maintenance company to repair the lamp, Is being managed.

The development of network communication technology enabled the integrated management of many management objects, which facilitated the management of public goods requiring temporary control at a certain time while being dispersed to a relatively wide range such as street lights and security lights.

The system proposed for this purpose is a system in which the integrated management device and the streetlight are directly communicated with one another and remote control is possible, and the integrated management type streetlight system is a system in which a plurality of streetlights are remotely controlled through an integrated management device and a repeater .

However, whichever method is applied, if a problem occurs in the street light itself, the problem of the street light can not be solved by the street light. Furthermore, when a problem occurs, the specific factors of the problem can not be confirmed by the integrated management device at the remote location, so the manager has to go to the site periodically to confirm the cause of the problem of the street lamp.

Of course, since the streetlight is located at a high place from above the ground, the manager had difficulty ascending the streetlight to check it, taking risks and troubles.

On the other hand, since the streetlight control is limited only at the remote integrated management apparatus, the range that the manager can manage in the field is limited to the replacement of the consumables such as the lamp or the inverter which is the main cause of the streetlight, There was a problem that complaints of complainants were accumulated because complaints were generated because the repair was not performed promptly.

Korean Registered Patent No. 10-1175996 entitled Streetlight Remote Management System and Method thereof, there is provided a system and method for remote management of a street lamp, which is capable of realizing the history information of the streetlight, temperature, humidity, illumination condition information, A streetlight management technology for notifying a street-lamp manager terminal and a smart phone in real-time when a power failure state or a fault state of a street light occurs, is disclosed.

However, in the related art, a plurality of streetlights are individually connected to each other through a wireless network, resulting in an increase in network management cost, and there is a problem in that the result can not be confirmed after repairing the fault.

In order to solve such a problem, the present invention is characterized in that a plurality of lighting apparatuses having unique information form one group, an integrated control unit for managing the group is connected to the control server, And an object of the present invention is to provide a smart streetlight management system and method capable of real time monitoring and management by managing lighting devices.

According to an aspect of the present invention, there is provided a lighting system including a plurality of street lamp modules provided with light sources for outputting light and arbitrary unique information for managing operation and failure of the light sources, A plurality of street lamps including an integrated controller for transmitting on / off, dimming, power, and fault occurrence of the module to the control server and outputting on / off control and dimming control signals transmitted from the control server to an arbitrary street lamp module group; And an on / off control and dimming control signal is output to the streetlight group through at least one of the streetlight group, the wired network, and the wireless network, and the operation state of the streetlight module , A fault server, and a control server for monitoring the amount of power.

In addition, the present invention receives fault occurrence information of the control server and fault occurrence information generated in the fault report terminal, transmits the received fault occurrence information to a preset contact person terminal, A service web server for transmitting fault occurrence information to an arbitrary maintenance company terminal; A failure reporting terminal connected to the service web server for generating failure occurrence information through a previously stored management program; The service provider server receives the monitoring information of the streetlight module and transmits the failure occurrence information to a predetermined maintenance company terminal, and the maintenance completion information inputted by the maintenance company terminal is transmitted to the service web server, A manager terminal for managing the manager terminal; And a maintenance company terminal for generating maintenance completion information on the failure occurrence information and storing the maintenance completion information in the service web server.

Further, the streetlight group according to the present invention may be configured such that a streetlight having a light source emitting light and an on / off and dimming of the streetlight are controlled, and if the streetlight is faulty and the amount of electric power is detected A plurality of streetlight modules each having a streetlight control unit for transmitting to the integrated control unit; And a control unit connected to the streetlight control unit of the streetlight module through a wireless network to transmit on / off and dimming control signals transmitted from the control server to the streetlight control unit, And an integrated control unit for transmitting to the server.

In addition, the streetlight control unit and the integrated control unit according to the present invention may be connected to each other by a communication format such as pico cast, ZigBee, or Bluetooth.

Further, the streetlight control unit according to the present invention may include an on / off dimming control unit for controlling on / off and dimming of the streetlight by controlling a power supplied to the streetlight; A power amount detecting unit for measuring an amount of power supplied to the streetlight; A fault discrimination unit for outputting a fault judgment signal to the street lamp to judge whether or not the fault has occurred; And a communication unit for outputting the on / off and dimming control signals transmitted from the integrated control unit to the on / off dimming control unit, and outputting the measured power amount and the determination result of the failure to the integrated control unit together with the unique information .

In addition, the integrated controller according to the present invention is installed in any one of a streetlight module or a separate distribution box.

In addition, the integrated controller according to the present invention is connected to the control server through at least one of Ethernet communication and broadband wireless communication.

Further, the control server according to the present invention may include a communication unit for transmitting and receiving data signals to and from the integrated control unit; And outputs the ON / OFF control and dimming control signals to the streetlight group through the integrated control unit, receives the operation state, failure occurrence, and power amount information transmitted from the streetlight group and stores the received information. A streetlight management unit for generating information and outputting the information to a service web server; And a database for storing operation state, failure occurrence, and power amount information of the streetlight group.

Also, the street lamp management unit according to the present invention compares the electric energy amount information with preset electric energy amount for replacement determination, generates a replacement request for the street lamp according to the result, and outputs the replacement request to the service web server.

In addition, the control server according to the present invention further includes an administrator terminal for inputting on / off control and dimming control signals of the streetlight group.

According to another aspect of the present invention, there is provided a method of controlling a light emitting device, comprising the steps of: a) detecting an operating state of a streetlight group by a control server and determining whether a fault has occurred in the streetlight group; b) If it is determined in step a) that a fault occurrence is detected in a certain streetlight group, the control server causes the fault occurrence information to be transmitted to a predetermined maintenance company terminal through a service web server, And controlling the streetlight group to be turned on if no fault is detected; And c) monitoring the operation status, failure occurrence, and power amount transmitted from the streetlight group by the control server.

According to another embodiment of the present invention, the step c) further comprises the steps of: d) calculating an amount of electric power of the individual street lamp and comparing the calculated amount of electric power with a preset lamp replacement determination reference value; And e) determining that the streetlight whose calculated amount of power is less than or equal to the reference value is an exchange lamp and transmitting the streetlight information to the maintenance company terminal as a result of the comparison.

The fault occurrence of the streetlight group according to the present invention is input from at least one of the fault occurrence information generated in the streetlight group and the fault report terminal that generates fault occurrence information through a previously stored management program .

In addition, the repairing company terminal in step b) of the present invention may detect the location information of the streetlight from the fault occurrence information and display it together with the fault related information when the fault occurrence information is received. And when the maintenance completion information is input, the maintenance company terminal accesses the service web server and stores the maintenance completion information.

Further, according to the present invention, when the repair completion information is stored, the service web server displays repair completion of the faulty street lamp, and determines whether a maintenance completion confirmation is input from the contact terminal; And if it is determined that the repair completion confirmation is input, the service web server generates a report including the maintenance completion information and a payment settlement report according to completion of maintenance, And requesting approval of the user.

The present invention is characterized in that a plurality of lighting apparatuses having unique information form one group, an integrated control unit for managing the group is connected to the control server, and the control server manages each group and the lighting devices through the integrated control unit, And management can be provided.

In addition, the present invention has an advantage of providing efficient management of an administrator through remote control, together with recycling of resources, by performing remote control by using an already installed lighting apparatus as it is.

Further, the present invention is advantageous in that, if a fault is determined by judging whether or not a lighting device is faulty, the faulty complaint acceptance is automatically processed to promptly perform a faulty process.

In addition, the present invention has an advantage that, when the repair details due to the occurrence of a fault are inputted, the maintenance can be effectively performed through the authentication of the inputted repair details and the authentication of the proof data and the cost fixing.

Further, according to the present invention, it is possible to control the dimming according to the characteristics of the lamp according to the type of the lighting apparatus installed in the lamp, to detect the amount of power consumed and determine the lamp replacement cycle, thereby preventing unnecessary power consumption, There is an advantage that can be prevented in advance.

In addition, the present invention is advantageous in that unnecessary waste of the wireless network resources can be prevented and the maintenance cost of the wireless network can be reduced by integrally controlling lighting devices capable of wireless connection with the control server.

1 is a block diagram showing a configuration of a smart streetlight management system according to the present invention;

2 is a block diagram illustrating a configuration of a streetlight control unit of a smart streetlight management system according to the present invention.

3 is a block diagram illustrating a configuration of a control server of a smart streetlight management system according to the present invention.

4 is a flowchart illustrating a management procedure of a smart streetlight management method according to the present invention.

5 is a flowchart illustrating a fault detection process of the smart streetlight management method according to the present invention.

6 is a flowchart illustrating a street lamp repair and settlement process of the smart streetlight management method according to the present invention.

Hereinafter, preferred embodiments of a smart streetlight management system and method according to the present invention will be described in detail with reference to the accompanying drawings.

The expression " comprising " or " including " any element in this specification means that it can include other elements, not excluding other elements.

Also, the terms "‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥‥" mean units that process at least one function or operation, and may be classified into hardware, software, or a combination of both.

FIG. 1 is a block diagram showing a configuration of a smart streetlight management system according to the present invention, FIG. 2 is a block diagram showing a configuration of a streetlight control unit of a smart streetlight management system according to the present invention, FIG. 4 is a flowchart illustrating a management procedure of the smart streetlight management method according to the present invention, FIG. 5 is a flowchart illustrating a fault detection process of the smart streetlight management method according to the present invention, 6 is a flowchart illustrating a street lamp repair and settlement process of the smart streetlight management method according to the present invention.

1 to 3, the smart streetlight management system according to the present invention includes a streetlight group 100, a control server 200, a service web server 300, a fault reporting terminal 400, A terminal 500, and a maintenance company terminal 600.

The streetlight group 100 includes a plurality of

streetlight modules

101, 101a, and 101b to which a light source for outputting light and arbitrary unique information for managing operation and failure of the light source are provided, and the plurality of streetlight modules Dimming, power, and fault occurrence of the

streetlight modules

101, 101a, and 101b to the control server 200. The control server 200 transmits the on / And an integrated controller 130 for outputting ON / OFF control and dimming control signals to arbitrary

street lamp modules

101, 101a and 101b. In this embodiment, a plurality of street lamp groups 100a, It can be made of street lamp group.

That is, the street lamp group 100 is formed into a group of the street lamp module 101, the street lamp module 1 101a, and the street lamp module n 101b installed within a certain range (for example, a radius of 1 km to 5 km) The streetlight module 101a and the streetlight module n 101b are connected to the integrated controller 130 and connected to the streetlight module 101, ), The operation state of the streetlight module n (101b), the occurrence of failure, and the electric energy amount information are transmitted to the control server (200).

The streetlight module 101 includes a streetlight 110 having a light source for emitting light and an on / off and dimming control unit for controlling the on / off and dimming of the streetlight 110, And a streetlight control unit 120 for detecting the failure and the amount of electric power and transmitting the detection result to the integrated control unit 130. [

The streetlight 110 is composed of a lamp, a halogen lamp, a metal halide lamp, or the like, which is installed in a louver (not shown) and emits light of arbitrary light. The streetlight 110 is controlled on and off by the streetlight control unit 120, Respectively.

In the present embodiment, the description is limited to street lamps for convenience of explanation. However, the present invention is not limited to this, and it is obvious that the present invention can be changed to a configuration in which a plurality of lighting devices are installed within a certain range such as a security tunnel or the like .

The streetlight control unit 120 is installed on a streetlight to control the on / off and dimming of the streetlight 110 and detects the failure and the amount of electric power of the streetlight 110 and transmits them to the integrated control unit 130, / OFF dimming control section 121, a power amount detection section 122, a failure discrimination section 123, and a communication section 124. [

The on / off dimming control unit 121 controls on / off control and dimming of the streetlight 110 by controlling the power supplied to the streetlight 110. The on / Off control and dimming control regardless of the type of the lamp installed in the streetlight 110. [

The power amount detecting unit 122 measures the amount of power supplied to the streetlight 110 and transmits the measured amount of power to the control server 200.

The fault discrimination unit 123 detects a malfunction of a lamp or a ballast or the like and outputs the fault signal to the control server 200. The fault detection unit 123 outputs a fault judgment signal to the control server 200.

The communication unit 124 receives the on / off and dimming control signals transmitted from the integrated controller 130 and outputs the signals to the on / off dimming control unit 121. The power amount detection unit 122 and the failure determination unit 123 And outputs a result of the determination as to whether or not the power has been measured to the integrated control unit 130 together with preset unique information so that data can be transmitted and received using the short range wireless network communication with the integrated control unit 130 And is connected to the integrated controller 130 in a communication format of one of pico cast, zigbee, and bluetooth, and is preferably a short range wireless network communication using a pico cast.

The integrated control unit 130 is connected to the streetlight module 101, the streetlight module 1 101a, the streetlight module n 101b included in the streetlight group 100 through the wireless network communication and transmitted from the control server 200 The on / off control and the dimming control signals of the streetlight 110, the streetlight 1 110a, the streetlight n 110b are transmitted to the streetlight control unit 120, the streetlight control unit 120a, and the streetlight control unit 120b, The lamp control unit 120, the street lamp control unit 1 120a, the street lamp 110, the street lamp n 110b, and the electric power amount information transmitted from the street lamp control unit 120b, To the control server (200).

The integrated controller 130 may be installed in any one of the street lamps 110, the street lamps 110a, and the street lamps 110b, or may be installed in one of the separate distribution boxes.

Also, the integrated controller 130 is connected to the control server 200 through at least one of Ethernet communication and broadband wireless communication.

The control server 200 is connected to the streetlight group 100, the streetlight group 1 100a, the streetlight group n 100b through a wired network such as Ethernet or a broadband wireless network such as CDMA or LTE, And the dimming control signal is output to the streetlight group group 100a and the streetlight group group 100a, the streetlight group group 100a, the streetlight group group 100a, The failure occurrence and the power consumption of the street lamp module 101, the street lamp module 1 101a, and the street lamp module n 101b of each streetlight group using the operation information transmitted from the communication unit A street light management unit 220, a database 230,

The control server 200 may transmit the failure occurrence information to the administrator terminal 240 when a failure occurs in any of the streetlight module 101, the streetlight module 1 101a, and the streetlight module n 101b, And transmitted to the service web server 300 to be displayed through the contact person terminal 500.

The communication unit 210 transmits and receives data by using an Ethernet communication using a wired network or a broadband communication using a wireless network.

The streetlight management unit 220 controls the on / off control and dimming control signals of the contact terminal 500 connected through the administrator terminal 240 or the service web server 300 through the integrated controller 130, , The street lamp group 1 (100a), and the street lamp group n (100b), and the operation state of the street lamp group 100, the street lamp group 1 (100a), and the street lamp group n (100b) And outputs a failure occurrence signal to the service web server 300 and the administrator terminal 240 when the failure occurrence is input.

Also, the streetlight management unit 220 may detect the electric energy amount information, calculate the accumulated electric energy amount, compare the calculated electric energy amount with the preset electric energy amount for replacement determination, and if the calculated electric energy amount is equal to or greater than the reference value, It is determined that normal operation is being performed. If the calculated amount of power is less than the reference value, it is determined that adequate power consumption has not been achieved, and a lamp replacement request signal is generated and output to the service web server 300.

The database 230 stores the operation state of the street lamp group 100, the street lamp group 1 100a, the street lamp group n 100b, the occurrence of a fault, the amount of electric energy, and the like.

The administrator terminal 240 inputs the on / off control and dimming control signals of the streetlight group 100, the streetlight group 1 100a, and the streetlight group n 100b to detect and check the occurrence of the fault, And generates a maintenance vendor setup and repair request signal.

The administrator terminal 240 may be a desktop PC, a notebook PC, a tablet PC, or a smart phone capable of installing application programs.

The service web server 300 is configured to manage operations such as receipt of a fault occurrence, confirmation, repair request, and repair completion through a wired Internet or a wireless Internet. The service web server 300 includes fault occurrence information of the control server 200 And transmits the received fault occurrence information to the contact person terminal 500 that has been set in advance, and transmits the fault occurrence information to the contact person terminal 500 in response to a request from the contact person terminal 500 And transmits it to an optional maintenance company terminal 600.

In addition, the service web server 300 displays the result information through the representative terminal 500 when the maintenance completion of the streetlight where the fault occurrence is received is input.

In addition, the service web server 300 may generate and output a report including repair completion information when the repair completion confirmation is input from the contact person terminal 500, So that fault occurrence reporting, maintenance, and cost settlement can be performed in a single process.

The failure reporting terminal 400 is a configuration capable of installing a management program for reporting a failure, and accesses the service web server 300 through a network, and generates failure occurrence information through the installed and stored management program.

The malfunction reporting terminal 400 includes a terminal such as a tablet PC or a smart phone capable of checking position information using map information, position information using a GPS signal, position information of a failed street lamp, And generates various kinds of fault occurrence information such as photographed picture information of the streetlight and text information describing the fault.

The contact person terminal 500 is connected to the service web server 300 through a network to receive and display monitoring information of the street light module 101, the street light module 1 101a, the street light module n 101b, When the information is input, the information of the predetermined maintenance company terminal 600 is retrieved and transmitted to the maintenance company terminal 600. The information can be configured as a desktop PC, a notebook PC, a tablet PC, a smart phone, and the like.

The representative terminal 500 may control the brightness of the streetlight module 101, the streetlight module 1 101a, and the streetlight module n 101b through dimming control, for example, between 0 and 100% So that the power consumption can be reduced.

The representative terminal 500 can provide different dimming control information according to the types of lamps installed in the street lamp module 101, the street lamp module 1 101a, and the street lamp module n 101b, So that the optimal control according to the present invention can be achieved.

When the repairer terminal 500 receives repair completion information from the repair shop terminal 600, the repairer terminal 500 displays the repair completion information. When the repair completion information is authenticated, the service provider server 500 generates The report including the result of the completion of the maintenance, and the approval of the payment to be made after completion of the maintenance.

The maintenance company terminal 600 is connected to the service web server 300 through a network. When the failure occurrence information is input in the contact person terminal 500, the maintenance company terminal 600 generates maintenance completion information for the failure occurrence information, And may be configured as a desktop PC, a notebook PC, a tablet PC, a smart phone, or the like, preferably a tablet PC or a smart phone.

Next, a management method of the smart streetlight management system according to the present invention will be described.

1, 4 to 6, the control server 200 detects an operation state of the streetlight group 100, the streetlight group 1 100a, and the streetlight group n 100b (S100) It is determined whether a fault occurrence has been detected for the street lamp group 100, the street lamp group 1 100a, and the street lamp group n 100b (S200).

The occurrence of a fault in the street lamp group 100, the street lamp group 1 100a, and the street lamp group n 100b is caused by a fault occurring in the street lamp group 100, the street lamp group 1 100a, Or is inputted from the failure reporting terminal 400 that generates the failure occurrence information through a previously stored management program.

The fault reporting terminal 400 may check the location information of the street lamp where the fault has occurred by using the unique number installed in the street lamp, or the location information of the street lamp displayed on the map, the surrounding feature information, the GPS information, The location information of the streetlight can be confirmed using the address information.

As a result of the determination in step S200, if the failure occurrence is detected in any of the street lamp group 100, the street lamp group 1 100a, and the street lamp group n 100b, the control server 200 detects a failure in the service web server 300 And transmits the occurrence information to the predetermined maintenance company terminal 600 (S300).

In step S300, the failure occurrence information transmitted to the service web server 300 is transmitted to the maintenance company terminal 600, which is preset through the contact terminal 500, and the failure occurrence information is received by the maintenance company terminal 600 (S310), the maintenance company terminal 600 detects and displays the location information and the failure related information of the street lamp in which the failure has occurred from the received failure occurrence information (S320).

Thereafter, when the maintenance related to the failure is completed, the maintenance company terminal 600 accesses the service web server 300 and inputs and stores maintenance completion information (S330).

The service web server 300 generates repair completion information of the faulty streetlight when the repair completion information of step S330 is stored, displays the repair completion information through the contact terminal 500, 500) is inputted (S340).

As a result of the determination in step S340, if the maintenance completion confirmation is input from the agent terminal 500, the service web server 300 generates a report including the stored maintenance completion information, And transmits the generated report to the contact person terminal 500 to request approval of output and cost settlement (S360).

In step S300, the control server 200 controls the off street lamp 400 to be turned off. If it is determined in step S200 that no fault has been detected, The streetlight group 100, the streetlight group 1 100a, and the streetlight group n 100b are turned on (S500).

After the step S500, the control server 200 determines whether or not each of the street lamps 110, the street lamps 1 110a, and the street lamps n transmitted from the street lamp group 100, the street lamp group 1 100a, The occurrence of a fault and the amount of electric power are monitored and the amount of electric power of each street light 110, the street light 1 (110a), and the street light n (110b) is calculated (S600).

The control server 200 compares the calculated amount of electric power of each of the street lamps 110, street lamps 1 110a, ..., street lamp n 110b with the preset lamp replacement determination reference value to determine whether lamp replacement is necessary (S700).

That is, lamps that have reached the end of their useful life can not be provided with adequate brightness due to a sudden decrease in power consumption, so that the lamp replacement period can be determined using the lamp power consumption.

If it is determined in step S700 that the calculated streetlight power is less than or equal to the reference value, the control server 200 determines that the lamp to be replaced is the lamp to be replaced and transmits the replacement streetlight information to the maintenance company terminal 600 (S800) do.

In operation S100, the operation states of the streetlight group 100, the streetlight group 1 100a, and the streetlight group n 100b are determined by the streetlight control unit 120, the streetlight control unit 1 120a, n 120b to output an operation confirmation signal S110 to determine whether a failure has occurred (S120).

If it is determined in step S120 that a fault has occurred due to an error such as a lamp or a ballast, the corresponding street lamp control unit generates fault occurrence information including the cause of the fault (S130), and generates the fault occurrence information Together with the unique information, to the control server 200 through the integrated control unit 130 (S140).

As a result of the determination in step S120, if the occurrence of a failure is not detected, lighting is performed according to the operation control of the control server 200. [

Accordingly, a plurality of lighting apparatuses having unique information form one group, and by managing the group, real-time monitoring and management can be provided, and by performing remote control using the lighting apparatus already installed, In addition to recycling, it is possible to provide an efficient management of the manager through the remote control. If it is judged that the lighting device is faulty, and if the fault is judged, the faulty complaint receiving process can be automatically processed to quickly deal with the fault.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. May be exaggerated for clarity and convenience of explanation, and the above-mentioned terms are terms defined in consideration of functions in the present invention, and this may vary depending on the intention or custom of the user, the operator, and the interpretation Should be based on the contents of the present specification.

Claims

A plurality of streetlight modules 101, 101a and 101b to which light sources for outputting light and arbitrary unique information for managing the operation and failure of the light sources are provided, and the plurality of streetlight modules 101, 101a and 101b, Dimming, power, and fault occurrence of the streetlight modules 101, 101a, and 101b to the control server 200, and controls on / off control and dimming control transmitted from the control server 200 A plurality of streetlight groups (100, 100a, 100b) having an integrated control unit (130) for outputting signals to arbitrary streetlight modules (101, 101a, 101b); And

100b and 100b are connected to at least one of the wired network and the wireless network to output on / off control and dimming control signals to the streetlight groups 100, 100a and 100b, And a control server (200) for monitoring an operation state, a failure occurrence, and an amount of electric power of the lamp modules (101, 101a, 101b) by using operation information transmitted from the controller (100, 100a, 100b).
The method according to claim 1,

Receives the failure occurrence information of the control server 200 and the failure occurrence information generated in the failure report terminal 400 and transmits the received failure occurrence information to a preset contact person terminal 500, A service web server 300 for transmitting the fault occurrence information to an arbitrary maintenance company terminal 600 at the request of the maintenance company terminal 600;

A fault reporting terminal (400) connected to the service web server (300) and generating fault occurrence information through a previously stored management program;

The maintenance information terminal 600 is connected to the service web server 300 to receive the monitoring information of the streetlight modules 101, 101a and 101b and to transmit the fault occurrence information to the predetermined maintenance company terminal 600, A charge person terminal 500 for managing the charge completion information input by the charge managing unit 500 and managing the charge completion information inputted by the charge managing unit 500, And

Further comprising a maintenance company terminal (600) for generating maintenance completion information on the failure occurrence information and storing the maintenance completion information in the service web server (300).
3. The method according to claim 1 or 2,

The streetlight group 100 includes a streetlight 110 having a light source emitting light and an on / off and dimming control unit for controlling the on / off and dimming of the streetlight 110, A plurality of streetlight modules (101) having a streetlight control unit (120) for detecting a failure and an amount of electric power and transmitting the detection result to the integrated control unit (130); And

And transmits the on / off and dimming control signals transmitted from the control server 200 to the streetlight control unit 120 through the wireless network communication with the streetlight control unit 120 of the streetlight module 101, And an integrated controller (130) for transmitting the failure information and the power amount information transmitted from the control server (120) to the control server (200).
The method of claim 3,

Wherein the streetlight control unit (120) and the integrated control unit (130) are connected in a communication format of one of pico cast, zigbee, and bluetooth.
The method of claim 3,

The streetlight control unit 120 includes an on / off dimming control unit 121 for controlling on / off and dimming of the streetlight 110 by controlling a power supplied to the streetlight 110;

A power amount detecting unit 122 for measuring an amount of power supplied to the streetlight 110;

A fault discrimination unit 123 for outputting a fault judgment signal to the streetlight 110 to judge whether the fault has occurred or not; And

Off and dimming control signals transmitted from the integrated controller 130 to the on / off dimming controller 121. The integrated controller 130 controls the ON / OFF dimming control unit 121, And a communication unit (124) for outputting the generated information to the smart streetlight management system.
The method of claim 3,

Wherein the integrated control unit (130) is installed in any one of the streetlight module (101) or a separate distribution box.
The method of claim 3,

Wherein the integrated control unit (130) is connected to the control server (200) through at least one of Ethernet communication and broadband wireless communication.
The method of claim 3,

The control server 200 includes a communication unit 210 for transmitting and receiving data signals to and from the integrated control unit 130;

And outputs the ON / OFF control and dimming control signals to the streetlight group 100 through the integrated controller 130 and receives and stores the operation state, failure occurrence, and power amount information transmitted from the streetlight group 100 A street lamp management unit 220 for generating and outputting fault occurrence information according to whether the fault has occurred, and outputting the fault occurrence information to the service web server 300; And

And a database (230) for storing operation state, failure occurrence, and power amount information of the streetlight group (100).
9. The method of claim 8,

The streetlight management unit 220 compares the electric energy amount information with preset electric energy amount for replacement determination, generates a replacement request for the streetlight lamp according to a result, and outputs the replacement request to the service web server 300.
9. The method of claim 8,

Wherein the control server (200) further comprises an administrator terminal (240) for inputting on / off control and dimming control signals of the streetlight group (100).
a) the control server 200 detects an operation state of the streetlight group 100, 100a, 100b, and determines whether a fault occurrence for the streetlight group 100, 100a, 100b is detected;

b) If the failure occurrence is detected in any of the streetlight groups 100, 100a, and 100b as a result of the determination in step a), the control server 200 notifies the service web server 300 that the failure occurrence information is preset Controlling the street lamp group (100, 100a, 100b) to be turned on if a fault occurrence is not detected; And

c) monitoring the operation status, failure occurrence, and power amount transmitted from the streetlight group (100, 100a, 100b) by the control server (200).
12. The method of claim 11,

d) calculating an amount of electric power of the individual street lamps 110, 110a, 110b and comparing the calculated amount of electric power with a preset reference value for lamp replacement determination; And

and e) transmitting the streetlight information to the maintenance company terminal (600) by determining that the streetlight whose calculated amount of electric power is less than or equal to the reference value is an exchange lamp.
13. The method according to claim 11 or 12,

The failure occurrence to the streetlight groups 100, 100a, and 100b may be caused by a failure notification terminal 400 that generates failure occurrence information through the failure occurrence information generated in the streetlight groups 100, 100a, and 100b and the pre- The method comprising the steps of:
13. The method according to claim 11 or 12,

The repairing company terminal 600 of the step b) detects the location information of the streetlight from the fault occurrence information and displays it together with the fault related information when the fault occurrence information is received. And

Wherein the maintenance company terminal (600) accesses the service web server (300) and stores repair completion information when the repair completion information is input.
15. The method of claim 14,

When the maintenance completion information is stored, the service web server 300 displays the maintenance completion of the fault street lamp, and determines whether a repair completion confirmation is inputted from the contact terminal 500; And

As a result of the determination, when the maintenance completion confirmation is input, the service web server 300 generates a report including the stored maintenance completion information, a cost settlement report upon completion of the maintenance, Further comprising the step of requesting approval of the output of the smart streetlight and the payment of the cost.