WO2023120845A1

WO2023120845A1 - Security light controller for smart public lighting and remote control system comprising same

Info

Publication number: WO2023120845A1
Application number: PCT/KR2022/010016
Authority: WO
Inventors: 박병덕; 오경호
Original assignee: 주식회사 트로닉스
Priority date: 2021-12-22
Filing date: 2022-07-11
Publication date: 2023-06-29
Also published as: KR102433956B9; KR102433956B1

Abstract

Disclosed are a security light controller for smart public lighting and a remote control system comprising same. The present security light controller comprises: a wireless communication unit provided to perform LoRa communication with a relay that relays communication between a control server and the security light controller; a lighting control unit for controlling turning-on/off and dimming of a security light on the basis of a signal received from the relay; a current sensing unit which senses a current to identify the state of a light and the state of a switch, the light and the switching being provided in the security light; a storage unit which stores information about the amount of power used by the security light; and an MPU unit which controls the lighting control unit on the basis of the signal received from the relay to control the turning-on/off and dimming of the security light, allows information about the state of the light and the state of the switch, which are identified on the basis of a signal received from the current sensing unit, to be transmitted to the control server through the wireless communication unit, and allows the information about the amount of power stored in the storage unit to be transmitted to the control server through the wireless communication unit. Therefore, the present invention enables multi-dimensional remote control of the security light.

Description

Security light controller for smart public lighting and remote control system including the same

The present invention relates to a security light controller for smart public lighting and a remote control system including the same, and more particularly, to a control server to remotely manage whether or not the security light is operating and whether or not there is an abnormality, and a controller for smart public lighting security light including the same It is about a remote control system.

Security lights are mainly installed for the purpose of preventing various safety accidents and crimes in areas where visibility is not sufficient due to weak illumination or there is a risk of accidents.

In recent years, due to the rapid development of IoT technology, remote control and remote management by the control server have become possible without an administrator's on-site visit, and even when a failure report has not been received, any security light among the many managed security lights has problems. It is now possible to determine whether an incident has occurred in the control room where the control server is located.

However, such conventional remote control is limited to one-dimensional control such as control for remotely turning on or off a security light or determining the presence or absence of an abnormality based on information transmitted from an watt-hour meter, and There is a distance from multi-dimensional control, such as identifying the cause in detail, actively controlling on/off timing, or assisting in enabling more rapid and accurate dispatch to the site.

The present invention has been made to solve the above problems, and an object of the present invention is a controller for smart public lighting security lights that interacts with a control server and a repeater and enables multi-dimensional remote control of security lights, and a remote control including the same in providing the system.

A security light controller installed to remotely control a security light according to an embodiment of the present invention for achieving the above object is provided for LoRa communication with a relay relaying communication between a control server and the security light controller wireless communication unit; A lighting control unit for controlling on/off and dimming of the security light based on the signal received from the repeater; a current sensing unit for detecting a current so that a state of a light and a state of a switch provided in the security light can be grasped; a storage unit for storing information about the amount of power used by the security light; and controlling the lighting control unit based on the signal received from the repeater to control on/off and dimming of the security light, and to control the state of the lighting and the state of the switch based on the signal received from the current sensor. and an MPU unit for allowing information about to be transmitted to the control server through the wireless communication unit and transmitting information on the amount of power stored in the storage unit to the control server through the wireless communication unit.

Here, the control server may determine whether the security light is out of order based on the information received through the current sensor, and transmit state information of the security light to a manager terminal or a maintenance terminal.

In addition, the manager terminal or the maintenance terminal is provided so that the user can check the location where the security lights are installed on the map, and intuitively checks the status information of the security light through a change in the color of the displayed item. can

In addition, when the manager terminal or the maintenance terminal selects an item corresponding to a security light determined to be broken based on the status information, a navigation screen providing a path to the security light determined to be broken is displayed. can

Further, the manager terminal or the maintenance terminal may display a screen for detailed status information on the security light when an item corresponding to a security light determined to be non-faulty is selected based on the status information.

In addition, the control server transmits information on the sunrise time and sunset time of the GPS coordinates in which the security light controller is installed to the wireless communication unit via the repeater at each predetermined time period, and the MPU unit transmits the sunrise time and sunset time. The lighting control unit may be controlled based on time information.

And, when there are a plurality of security light controllers, the control server individually calculates the sunrise time and sunset time based on the GPS coordinates of each security light controller, thereby scheduling a scheduling table for on/off times for each day and each security light. can be saved.

In addition, when there are a plurality of security light controllers, the control server collects information on the amount of power stored in the storage unit for each security light, information on the amount of power for each individual security light, information on the amount of power for each group of security lights, and Information on the amount of power, such as total security, can be visualized and transmitted to the manager terminal.

And, an identification tag for identifying the security light; further comprising, when the identification tag is tagged by the civil petitioner terminal, information on the tagged identification tag is transmitted to the control server through the civil petitioner terminal, and the control server may specify a security light based on the information on the identification tag and automatically receive a failure report for the specified security light.

On the other hand, the remote control system for smart public lighting security lights according to an embodiment of the present invention for achieving the above object includes at least one security light; At least one security light controller installed for each security light; a repeater wirelessly communicating with at least some of the security light controllers; and a control server configured to wirelessly communicate with the repeater and control the at least one security light, wherein the security light controller includes: a wireless communication unit provided to perform LoRa communication with the repeater; A lighting control unit for controlling on/off and dimming of the security light based on the signal received from the repeater; a current sensing unit for detecting a current so as to determine the state of the light provided in the security light and the state of the switch; a storage unit for storing information about the amount of power used by the security light; and controlling the lighting control unit based on the signal received from the repeater to control on/off and dimming of the security light, and to determine the state of the lighting and the state of the switch based on the signal received from the current sensor. and an MPU unit for allowing information about to be transmitted to the control server through the wireless communication unit and transmitting information on the amount of power stored in the storage unit to the control server through the wireless communication unit.

This enables multi-dimensional remote control of security and the like.

In particular, it is possible to grasp information on a security light requiring management among a plurality of security lights to be managed in real time and intuitively grasped.

In addition, by reflecting the sunrise time and sunset time individually, the scheduling table for on/off time by date and security light can be automatically saved and updated, and the individual/group/total power consumption of security lights can be intuitively checked by the administrator. be able to provide it.

In addition, it enables civil petitioners to file a fault report more quickly and conveniently, and the path to security lights that require management can be automatically guided to maintenance personnel.

1 is a diagram provided to explain a remote control system for a security light for smart public lighting according to an embodiment of the present invention.

2 is a block diagram for explaining the configuration of a security light controller installed to remotely control a security light according to an embodiment of the present invention.

3 to 8 are diagrams illustrating screens displayed on a manager terminal or a maintenance terminal.

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

1 is a diagram provided to explain a remote control system for a security light for smart public lighting according to an embodiment of the present invention, and FIG. 2 is a security light installed to remotely control a security light according to an embodiment of the present invention. It is a block diagram for explaining the configuration of the controller. 3 to 8 are diagrams illustrating screens displayed on a manager terminal or a maintenance terminal.

The remote control system for smart public lighting security lights according to this embodiment is composed of a control server 100, a repeater 200 and a security light controller 300, and in some cases, as shown, the manager terminal 400, maintenance A maintenance terminal 500 and a civil petitioner terminal 600 may be added.

The control server 100 serves to remotely manage the security lights within its jurisdiction through control of the security light controller 300 . Among them, the control server 100 controls the security lights to perform their original role of turning off the security lights during the day and turning them on at night through on-off control of the security lights. to determine whether or not it has occurred.

As shown, the control server 100 may use the relay 200 to communicate with the security light controller 300 .

The control server 100 and the repeater 200 communicate with each other using a communication method such as Ethernet or LTE, and the repeater 200 and the security light controller 300 communicate with each other using a communication method such as LoRa communication.

The security light controller 300 may be installed for each light pole as shown in the upper right corner of FIG. 1 or installed for each distribution box in a distribution box that manages several light poles together as shown in the lower right corner of FIG. 1 . In general, the upper right corner is a security light and the lower right corner is a street light. Hereinafter, a case in which each security light is installed as in the upper right corner will be described.

The security light controller 300 includes a wireless communication unit 310, a lighting control unit 320, a current sensing unit 330, a storage unit 340 and an MPU unit 350.

As described above, the wireless communication unit 310 is provided for the purpose of transmitting and receiving various information, data, and signals with the control server 100 through LoRa communication with the repeater 200.

The lighting control unit 320 is provided for the purpose of controlling on-off and dimming of lights provided in security lights according to a pre-stored schedule or according to a command received from the control server 100 .

Specifically, the lighting control unit 320 may refer to an on-off time schedule pre-stored in the storage unit 340 to operate in an internal timer method based on sunrise/sunset time prediction as in the conventional method, but this method If only the time information is used, an error may occur in time information due to external noise, resulting in malfunction.

As a solution to this, a method of determining the on-off timing by calculating the sunrise/sunset time based on the GPS information by providing a separate GPS receiver inside the security light controller 300 can also be proposed, but this is also installed for each security light There may be a problem that the problem of the cost of the GPS receiver and the problem of failure of the GPS receiver still exist.

Accordingly, in the security light controller 300 according to the present embodiment, the control server 100 solves the calculation of the sunrise/sunset time for each security light position based on the GPS information, but the control server 100 ) receives real-time or periodic on-off timing information, and lights are turned on-off based on this information.

The current detection unit 330 serves to determine whether or not the security light is in a faulty state by detecting a current flowing through a light or switch provided in the security light.

The storage unit 340 serves to store a program for driving the security light controller 300, schedule information for controlling blinking or dimming of the security light, and information on the amount of power used by the security light.

Information on the amount of power used by the security light may be received from a watt-hour meter provided in the security light controller 300 or provided separately from the security light controller 300 .

When a plurality of security lights are provided, the control server 100 collects information on the amount of power stored in the storage unit 340 for each security light, information on the amount of power for each individual security light, and information on the amount of power for each group of security lights. And information about power consumption, such as total security, can be visualized and transmitted to the manager terminal 400 .

The MPU unit 350 controls the overall security light controller, and in particular, controls the lighting control unit 320 based on the signal received from the repeater 200 to control the on-off and dimming of the security light, and the current sensor ( 330) so that the information on the state of the lighting and the state of the switch identified based on the received signal is transmitted to the control server 100 through the wireless communication unit 310, and information about the amount of power stored in the storage unit 340 It serves to be transmitted to the control server 100 through the wireless communication unit 310.

The administrator terminal 400 is a terminal used or possessed by an administrator who collectively manages security lights installed in the area, and even in the case of a desktop or server used by an administrator, which is not in the form of a mobile terminal, if its role is the same as that of the mobile terminal, this It may be included in the concept of the manager terminal 400 .

The manager terminal 400 is used for purposes such as receiving various status information on security lights through the control server 100, receiving an alarm that a security light has failed, or selecting a maintenance company to solve a malfunction problem.

For example, as shown in FIG. 3 , the administrator terminal 400 may receive a message indicating that a security light has failed in the form of a list, so that the administrator can recognize the failure state.

In addition, the manager can check detailed information on individual security lights as shown in FIG. 4 through the manager terminal 400, and as shown in FIG. 5, the manager terminal ( 400), direct on-off control or brightness control can be performed.

In addition, after the maintenance company is selected through the manager terminal 400 and the failure problem is resolved, the manager can also receive breakdown repair results through the manager terminal 400 as shown in FIG. there will be

In addition, the manager receives information on the amount of power for each individual security light, information on the amount of power for each group of security lights, and information on the amount of power for all security lights from the management server 300 through the manager terminal 400 as a visualized report. be able to

Based on the maintenance command received from the control server 100 or the manager terminal 400, the maintenance terminal 500 allows the maintainer to check information on security, etc. It plays the role of automatically providing a path to the security light to be provided.

In the case of receiving a maintenance command directly from the control server 100, there is no need to select a separate maintenance company, and the case is selected in advance, and in the case of receiving a maintenance command from the manager terminal 400, multiple maintenance This may be the case of being selected as a company to perform maintenance among maintenance companies.

As shown in FIG. 7 , the maintenance terminal 500 that has received the maintenance command provides a screen on which items corresponding to actually installed security lights are displayed on a map, and among them, items corresponding to security lights requiring maintenance are displayed. When an item is selected, as shown in FIG. 8 , a fast route from the current location to the corresponding security light can be provided in real time. This enables more rapid maintenance.

The civil petitioner terminal 600 is a device such as a smartphone owned by the general public, and executes an application program related to reporting a failure such as security so that it can directly report a failure in security, etc., or an identification tag even if the program is not installed in advance It is prepared for the purpose of allowing reports to be automatically received only by the act of tagging.

For example, when a civil petitioner sees a security light in which a malfunction is found while walking, a corresponding program may be executed to register or select information about the location, symptom, etc. of the malfunctioning security light so that the report is received.

In addition, unlike this, the civil petitioner tags an identification tag such as a QR code attached to the lantern through the civil petitioner terminal 600, so that the failure reception can be received directly from the civil petitioner terminal 600 to the control server 100. It could be.

In this case, the control server 100 may specify a security light based on pre-stored information about the identification tag, and may automatically receive a failure report for the specified security light.

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, and is common in the art to which the present invention pertains without departing from the gist of the present invention claimed in the claims. Of course, various modifications are possible by those who have knowledge of, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

Meanwhile, it goes without saying that the technical spirit of the present invention can also be applied to a computer-readable recording medium containing a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, technical ideas according to various embodiments of the present invention may be implemented in the form of computer readable codes recorded on a computer readable recording medium. The computer-readable recording medium may be any data storage device that can be read by a computer and store data. For example, the computer-readable recording medium may be ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, hard disk drive, and the like. In addition, computer readable codes or programs stored on a computer readable recording medium may be transmitted through a network connected between computers.

Claims

In the security light controller installed to remotely control the security light,

A wireless communication unit provided for LoRa communication with a relay relaying communication between the control server and the security light controller;

A lighting control unit for controlling on/off and dimming of the security light based on the signal received from the repeater;

a current sensing unit for detecting a current so that a state of a light and a state of a switch provided in the security light can be grasped;

a storage unit for storing information about the amount of power used by the security light; and

Controls the lighting control unit based on the signal received from the repeater to control the on-off and dimming of the security light, and determines the state of the lighting and the state of the switch based on the signal received from the current sensor. A security light controller for smart public lighting comprising an MPU unit for transmitting information on the amount of power stored in the storage unit to the control server through the wireless communication unit and transmitting information on the amount of power stored in the storage unit to the control server through the wireless communication unit. .
According to claim 1,

The control server,

A security light controller for smart public lighting, characterized in that it determines whether the security light is out of order based on the information received through the current sensor, and transmits the identified state information of the security light to a manager terminal or maintenance terminal in real time.
According to claim 2,

The manager terminal or the maintenance terminal,

A security light controller for smart public lighting, characterized in that it is provided so that the user can check the location where the security lights are installed on the map, and intuitively check the status information of the security light through a change in the color of the displayed item.
According to claim 3,

The manager terminal or the maintenance terminal,

When an item corresponding to the security light that is determined to be faulty is selected based on the status information, a navigation screen providing a route to the security light that is determined to be faulty is displayed. Security light controller for smart public lighting.
According to claim 4,

The manager terminal or the maintenance terminal,

A security light controller for smart public lighting, characterized in that when an item corresponding to a security light determined to be non-faulty is selected based on the status information, a screen for detailed status information on the security light is displayed.
According to claim 2,

The control server,

Transmitting information about the sunrise time and sunset time of the GPS coordinates in which the security light controller is installed to the wireless communication unit via the repeater every predetermined time period;

The MPU unit controls the security light for smart public lighting, characterized in that for controlling the lighting control unit based on the information about the sunrise time and sunset time.
According to claim 6,

When the security light controller is plural,

The control server,

By calculating or obtaining the sunrise time and sunset time individually based on the GPS coordinates of each security light controller, a scheduling table for on-off time by date and by security light is automatically stored and updated for smart public lighting, characterized in that Security light controller.
According to claim 2,

When the security light controller is plural,

The control server,

Information on the amount of power stored in the storage unit is collected for each security light, information on the amount of power for each individual security light, information on the amount of power for each group of security lights, and information on the amount of power for all security lights are visualized and transmitted to the manager terminal Security light controller for smart public lighting, characterized in that.
According to claim 1,

Further comprising an identification tag for identifying the security light,

When the identification tag is tagged by the civil petitioner terminal, information on the tagged identification tag is transmitted to the control server through the civil petitioner terminal,

The control server,

A security light controller for smart public lighting, characterized in that for specifying a security light based on the information on the identification tag and automatically receiving a failure report for the specified security light.
at least one security light;

At least one security light controller installed for each security light;

a repeater wirelessly communicating with at least some of the security light controllers; and

A control server that wirelessly communicates with the repeater and controls the at least one security light;

The security light controller,

A wireless communication unit provided to perform LoRa communication with the repeater;

A lighting control unit for controlling on/off and dimming of the security light based on the signal received from the repeater;

a current sensing unit for detecting a current so that a state of a light and a state of a switch provided in the security light can be grasped;

a storage unit for storing information about the amount of power used by the security light; and

Controls the lighting controller based on the signal received from the repeater to control the on/off and dimming of the security light, and determines the state of the lighting and the state of the switch based on the signal received from the current sensor. Smart public characterized in that it comprises a; MPU unit for allowing information on the control server to be transmitted to the control server through the wireless communication unit, and information on the amount of power stored in the storage unit to be transmitted to the control server through the wireless communication unit Remote control system for security lights for lighting.