KR102119669B1 - Apparatus of remote streetlamp control and method thereof by centralized solar system based on big data - Google Patents

Abstract

The present invention relates to a system provided with a power supply system including a solar system at a position separate from a street lamp in order to control the power applied to the street lamp and the illuminance of the street lamp. According to an apparatus for remote control of a street lamp based on big data by a centralized solar system and a management method thereof of the present invention, information from a sensing unit and a device provided around the street lamp including a camera imaging unit or/and information on a state/situation around the street lamp are transmitted to a management server provided separately and remotely from the street lamp. The transmitted information is turned into big data. Then, street lamp ON/OFF, color-included street lamp illuminance control, power control, and notification are performed through comparison with currently received data (information) and the big data information or street lamp ON/OFF, color-included street lamp illuminance control, power control execution, and notification.

Description

Apparatus of remote streetlamp control and method thereof by centralized solar system based on big data}

The present invention relates to a system having a power system including a solar system in a separate location from a street light, and controlling a power applied to the street light and performing illumination control of the street light, provided around a street light including a camera imaging unit. Information by the device and the sensing unit and/or information about the status/situation around the street lamp is transmitted to a management server provided remotely from the street lamp, and the transmitted information is converted into big data to include on/off and color of the street lamp Centralized centrality that performs street light illumination control, power control, and notification including street light on/off and color through comparison of street light illuminance control, power control execution, notification, or the big dataized information and currently received data (information) It relates to a remote control device and a management method for a street light based on a big data by a solar system.

Street light is a lighting facility installed along the street for the safety and security of street traffic. Street lamps are used according to the installation location, such as highways, major roads in urban areas, commercial district roads, and residential district roads. There are various types of street lamp poles, the bend type is a highway type that bends the end of the pole and extends the branches horizontally at the end of the pole, and a bracket type that attaches it to the back of the pole, and a lamp on the top of the pole. There are Joo Doo-Hyung and others. As a light source, a high-pressure mercury lamp, a fluorescent lamp, a thorium lamp, an ordinary electric bulb, and an LED (Light Emitting Diode) are used.

In particular, in the case of LED light sources, power consumption is low, vibration-resistant, and long-life, which is increasingly used in street lights.

These street lamps should be turned off during the day and turned on at night. In the past, for this purpose, the manager has been turning around to open and close the street lights. This method has a problem in that it is difficult to match the power opening/closing time of a street light with a sunset time because the waste of manpower is heavy and it takes time to move.

In particular, in a street light system using recent sunlight, a solar module that provides power to each street light is provided.

1 is a view showing that power is supplied to a street light based on a conventional solar system.

As shown in the figure, each solar module 11 is provided to supply power to each lamp 12, and a battery 13 and a street light control device 14 for accumulating power are installed with street lights. Each was installed in the column (15).

Such a conventional system increases cost because each of the above-mentioned devices is provided in each street light, and depending on the state/situation around the street light (current illumination/pre-set illumination, whether there is a moving object, the type of the moving object, the number of moving objects, etc.) There was a lot of inefficiency and inconvenience because it was impossible to control the illuminance, and the switch had to be operated by moving on the street lamp to turn on/off the street light, and the battery state or the degree of battery charging stored in the battery was unknown.

In addition, the environmental information including the weather around the street light is not considered, and the illuminance of the street light is controlled.

To solve the above problems,

We propose a centralized solar street light system that not only senses the light of the lamp itself, but also senses all the surrounding light, as well as big data and maintains the illuminance according to the situation according to the number of people, cars, and the like.

In addition, the present invention is a camera imaging unit for checking at least one of the type of the moving object around the street light and the number of moving objects;

Among the information transmitted through the network, including the information of the sensors, the camera imaging unit information, the power information of the solar system, and the current illumination state input through the user command device through the user command device, the IoT is possible. It is an object of the present invention to perform at least one of control of the illuminance of a street lamp in advance, and on/off control of one or more street lamps, based on one or more pieces of information.

In addition, the present invention allows the battery and the solar system to be centralized in one place, enabling large-degree-based detection of battery charge/discharge status, solar system function status, etc. Propose a system.

A remote control device for a street light by a centralized solar system according to the present invention includes a plurality of street lights 100 including LEDs;

A power system 200 including a plurality of respective street lights and a solar system 201 that is remotely installed to generate and supply power; And

It includes; the management server 300 including a control unit 301 to be connected to and control the street light and the solar system; includes,

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 that senses illuminance based on the illuminance by;

A motion detection sensor 20 that senses the movement of the moving object around the street light;

A distance sensor 30 for sensing the distance between the street light and the moving object;

A camera imaging unit (70) for checking the type and number of moving objects around the street light;

The information of the sensors, the camera imaging unit information, the power information of the solar system, and the information transmitted through the network including that the current illuminance state input through the user command device by the user passing through the street light is possible for the IoT. In accordance,

It provides a remote control device for a street light by a centralized solar system comprising a; control unit 301 for performing the control of the illumination intensity of the street lamp set in advance.

In addition, a method for remotely controlling a street light by a centralized solar system according to the present invention includes a plurality of street lights 100 including LEDs;

A power system 200 including a photovoltaic system 201 which is installed at a separate location from each of the plurality of street lights and generates and supplies power;

The power system is further provided with an auxiliary power source 205 including an auxiliary battery in addition to the main power source 203 including a battery charged according to the solar system 201,

A management server 300 including a control unit 301 connected to and controlled by the street light and the solar system;

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 for sensing based on at least one of the illuminances by;

Motion detection sensor 20 for sensing the movement of the moving object around the street light; And

A camera imaging unit for checking at least one of the type of the moving object around the street light and the number of moving objects; In the method for remote control of a street light by a solar system comprising:

Checking a state of the solar module of the solar system based on usage time or charging efficiency information;

Checking the charge and remaining amount information of the battery;

Checking any illuminance information based on the illuminance sensor;

Checking information of a moving object including a person or a vehicle by the motion sensor;

At least one of the type of the moving object around the street light and the number of the moving objects are identified based on the camera imaging unit;

A step in which the user passing through the street light transmits the current illumination state input through the user command device to the server through a network including IoT-enabled; And

A battery management and a street light control based on the step information; It provides a method for remote control and management of street lights by a centralized solar system including a.

According to the present invention, a centralized solar street light system capable of not only sensing the light of the lamp itself, but also sensing all the surrounding light, making the data big data according to the number of people moving, cars, and the like, and maintaining illumination suitable for the situation. Can provide

In addition, the present invention is a camera imaging unit for checking at least one of the type of the moving object around the street light and the number of moving objects; Among the information transmitted through the network, including the information of the sensors, the camera imaging unit information, the power information of the solar system, and the current illumination state input through the user command device through the user command device, the IoT is possible. Based on any one or more information, it is possible to perform at least one of controlling the illuminance of a street lamp in advance and setting on/off control of one or more street lamps.

In addition, the present invention allows the battery and the solar system to be centralized in one place, enabling large-degree-based detection of battery charge/discharge status, solar system function status, etc. System.

In addition, according to the present invention, when a sensor breaks down based on big data of information around the sensed and/or transmitted illuminance, the sensor can self-diagnose through comparison with stored data and inform the user through the output unit.

1 is a view showing that power is supplied to a street light based on a conventional solar system.
2 is a view showing that power is supplied to a street light based on a plurality of each of the street lights of the present invention and a solar system 201 that is installed at a separate location remotely to generate and supply power.
3 is a view showing a system including various sensors and a management server connected to the sensors provided to detect a state around a street light in an embodiment of the present invention.
Figure 4 is a flow diagram of a first embodiment showing the control operation of the street light / power by the operation of the camera imaging unit and sensors of the present invention
5 is a flowchart of a second embodiment showing a control operation of a street light/power source based on environmental information
6 is a flowchart of a third embodiment showing a control operation of a street light/power source based on weather conditions among environmental information.
7 is a flowchart of a fourth embodiment showing a control operation of a street light/power source based on environmental information, information by a camera imaging unit, etc.
8 is a flowchart of a fifth embodiment showing a control operation of a street light/power by giving priority/weighting to environmental information
9 is a flowchart of a sixth embodiment showing the operation control of the main power/sub battery power based on various sensors provided to detect the state around the street light, information based on the camera imaging unit, environmental information, etc.
FIG. 10 is a flowchart of a seventh embodiment showing control of switching operation of the main power/sub battery to battery power based on various sensors provided to detect a state around the street light, information based on a camera imaging unit, environmental information, etc.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In describing the embodiments of the present invention, when it is determined that detailed descriptions of related well-known configurations or functions hinder understanding of the embodiments of the present invention, detailed descriptions thereof will be omitted.

In addition, in describing the components of the embodiments of the present invention, terms such as first, second, A, B, (a), (b), and the like can be used. These terms are only for distinguishing the component from other components, and the nature, order, or order of the component is not limited by the term.

Also, when a component is described as being "connected", "contacted", "coupled" or "connected" to another component, the component may be directly connected to or connected to the other component, but between each component It should be understood that another component may be "connected", "coupled" or "connected to".

The present invention is implemented based on a wired/wireless method, illuminance control/power control is implemented under the control of a control unit, and implementation of a transmission/reception network between components for operation is understandable to those skilled in the art, and thus detailed description is omitted.

It is understood that the data and information referred to in the present invention are substantially the same.

In the present invention, the illumination control is interpreted to include not only the illumination control of the street light itself, but also color control of the street light.

In the present invention, the illuminance control is stored in advance in the memory unit 305 of the management server or in the memory unit 305 in the control unit for comparison with the sensing unit and information derived based on each device. Based on 1) the control unit performs the illuminance control, 2) under the control of the control unit, it includes a technical idea of notifying the user through the notification device including the speaker 303 or outputting it through the display unit 303. It applies to each of the invention as a whole.

Each data of the present invention, that is, big data is stored in the memory unit 305.

The big data information in the present invention is not only the information sensed by the sensing unit, the battery information, the light of the lamp itself, but also all the surrounding light, as well as data according to the number of people, cars, and the like moving, It includes all the information of the above data by period / season / day / hour.

Also, since the technical idea of the present invention is based on big data using respective factors or situations/states, each data or big data of each data is stored in the memory unit 305, and the stored data or average data of the data, The reference data to be compared is set in advance and stored in the memory unit 305, compared with each other under the control of the control unit, and the operation of outputting information including the street lamp to the optimum illumination level, battery switching, and failure is performed to the user. do. This technical idea applies to all matters utilizing big data in the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

First, the general description of the present invention is as follows.

It provides a solar street light system that can reduce the illuminance of a street lamp including color and battery energy consumption to a minimum through the movement information of a moving object such as a person or a vehicle according to FIG.

It can sense not only the light of the lamp of the street light using the big data base, but also all the light around the street light, big data of different information according to the person moving, the moving car, etc., and maintain the illumination/color suitable for the situation. Provides a centralized solar street light system.

Based on big data and the battery (sub-power) and solar power are centralized in one place, it is possible to detect big charge based on battery charge/discharge status, solar system function status, etc. Provides a solar street light system that is easy to check and repair.

The central control unit 301 controls the predetermined illuminance value to be maintained or increases or decreases based on the illuminance value sensed by the sensing means, and maintains the illuminance minimally according to the state of charge of the battery to facilitate maintenance. .

In addition, sensing the ambient light intensity of the street light by external factors (headlights, natural light, ambient light), and/or sensing the light size of the street light operating in the system, the power generation state of the solar street light, and the charging state of the battery Forms big data such as calculating the illuminance holding time coming from.

Based on the camera imaging unit 70, the number of moving objects or the number of moving objects (the number of people, the number of automobiles, etc.) is data, and the sum of the illuminances on the moving path is transmitted to the management server and the illuminance can be controlled by the control unit.

Meanwhile, the information itself based on the camera imaging unit is transmitted to the management server, and illumination can be controlled based on the information transmitted based on the imaging unit stored in the memory unit 305 in the management server and comparison data accordingly. It might be.

Based on big data, it is possible to manage the sequential lamp turn on/turn off by the flow of moving objects (people, cars, etc.) through the calculation of the average illuminance by headlights of cars, natural light (moonlight, etc.) and future usage calculation. Can be.

Referring to FIG. 3, a street light control system capable of turning on/turning off a street lamp of a constant circumference in a control unit through calculating the illuminance due to seasonal factors and external factors is possible.

Based on the camera imaging unit, a centralized solar street light that recognizes movements of people and cars and controls the timing and duration of turning on and off the lights in an artificial intelligence manner based on big data is possible.

In the (central) control unit shown in FIGS. 2 and 3, it is possible to recognize the failure or replacement time of the lamp based on the big data and inform the administrator in the form of an alarm 303 or a display 303. In the present invention, the output unit 303 of FIG. 3 is shown as an example of an alarm device or a display unit.

Provided is a system capable of determining whether or not the lamp operates (constant illuminance maintenance) based on big data based on the battery capacity of the battery system.

The system of the present invention is also applicable to a lamp system such as a tunnel.

When the power of the main power system is insufficient, the auxiliary battery can be operated according to the control unit control and IoT function.

According to the operation of the sensing unit and the control unit of FIGS. 2 and 3, it is possible to prevent a malfunction by communicating with a user (administrator) before a battery failure through thermal monitoring of the battery.

In the present invention, facility management such as street light illumination and street light is possible using a big data in a closed circuit system (limited power source such as a battery).

In general, the illuminance is flexibly controlled according to the number of people and the number of vehicles (generally, the higher the illuminance when there are many people), the more flexible the illuminance can be.

Principle of controlling the illuminance is based on the principle, but it can be adjusted by the user according to the input unit provided in a terminal such as a button or a mobile phone or a stored application, which is a kind of user command device.

In addition, a central solar street light system operated by AI (Artificial Intelligence) based on the big data of the solar system state, battery state, illuminance state, and mobile state of FIG. 3 is provided.

In addition, when the sensor provided in FIG. 3 breaks through the big data, the current data (information) received from the sensor and the data accumulated by the big data, such as time/seasonal/day/hour/hour, etc., are compared to determine whether the sensor has failed. The control server, including the control unit, diagnoses and informs the output unit so that it can be repaired.

Incidentally, as an example, when the value of the 　 sensor is different from the accumulated data value, it may be determined that it is a failure, and the alarm device or the display unit may be informed of the failure.

In the present invention, the big data information is not only the battery information, the light of the street lamp itself lamp, but also the sensing of all the surrounding light, as well as data according to the number of people moving, the car, the number, and the like. It includes all information by data for each day/hour.

In addition, optimal illumination based on information derived based on big data such as changing the illuminance to the set illuminance due to weather, ambient illumination change, the degree of request for change of illuminance by a moving vehicle, and changing the illuminance due to changes in illuminance by a moving vehicle. Maintain and maintain optimal battery maintenance.

Since the technical idea of the present invention as described above is based on big data using each factor or situation/state, reference data to be compared with each data or big data of each data is preset and stored in the memory unit 305. Under the control of the control unit 301, they are compared with each other to set the street light to the optimal illumination, switch the battery, and perform output to the user. This technical idea applies to all matters utilizing big data in the present invention.

The present invention, a plurality of street lights 100 including an LED; A power system 200 including a photovoltaic system 201 which is installed at a separate location from each of the plurality of street lights and generates and supplies power; The power system is further provided with an auxiliary power source 205 including an auxiliary battery in addition to the main power source 203 including a battery charged according to the solar system 201, and at least one of the street light and the solar system. Management server 300 including a control unit 301 is connected to the control;

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 for sensing based on at least one of the illuminances by;

A motion detection sensor 20 that senses the movement of the moving object around the street light;

A camera imaging unit for checking at least one of the type of the moving object around the street light and the number of moving objects; And

The illumination data based on at least one of the data based on the sensing unit, the type of the moving object around the street light identified by the camera imaging unit, and the number of moving objects is stored and converted into big data, and corresponding to each data (information) In the remote control of a street light by a solar system comprising a; memory unit 305 that is stored in advance data,

Any illuminance information is confirmed based on the illuminance sensor,

Information of a moving object including a person or a vehicle is confirmed based on the motion sensor,

At least one of the type of the moving object around the street light and the number of moving objects is identified based on the camera imaging unit;

The current illuminance state input by the user passing through the street light through the user command device is transmitted to the server through a network including IoT enabled;

The current data checked or transmitted is compared with the big data stored in the memory unit.

As a result of the comparison, when the average value of the big data stored in the memory unit and the predetermined error range are out of range, the output unit is notified to inform of a failure or repair,

It is a technical idea that the battery management and the street light are controlled based on the output information, and each device or each operation described above is not necessarily required simultaneously, but is optional.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 2 is a view showing that power is supplied to a street light based on a plurality of each street light 100 of the present invention and a solar system 201 that is remotely installed and separately supplied to generate power.

As shown in the figure, in the present invention, each lamp 15 is provided with a lamp 12, and since each of these devices is shown as a street lamp 100 as a whole, the lamp 12 or a street lamp 100 in the embodiment description Understand this concept.

Each device including the sensing unit of FIG. 3 is provided around the street light.

In addition, the management system 300 including the power system of FIG. 3 including the solar system 201 and the control unit 301 is installed at a separate location from the street light, and each of the devices including the sensing unit of FIG. 3 is installed. Performs street light illumination control/power control based on information.

FIG. 3 is a view showing a system including various sensors provided to detect a state around a street light and a management server connected to the sensors in an embodiment of the present invention.

As shown in the figure, a plurality of street lights 100 including LEDs corresponding to the lamp 12;

A power system 200 including a plurality of respective street lights and a solar system 201 that is remotely installed to generate and supply power; And

It includes; a management server 300 including a control unit 301 to be connected to and control the street light and the solar system. The control unit is provided with one or more including a central control unit.

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 that senses illuminance based on at least one of the illuminances caused by;

A motion detection sensor 20 that senses the movement of the moving object around the street light;

A distance sensor 30 for sensing the distance between the street light and the moving object;

A weather information detection sensor 40 that detects a weather condition around the street light;

A camera imaging unit for checking at least one of the type of the moving object around the street light and the number of moving objects;

Among the information transmitted through the network, including the information of the sensors, the camera imaging unit information, the power information of the solar system, and the current illumination state input through the user command device through the user command device, the IoT is possible. And a control unit 301 that performs at least one of controlling the illumination intensity of the street lamp in advance and controlling on/off of the one or more street lights based on any one or more information.

Operations of the sensing device and devices are generally known methods, and thus a detailed description is omitted.

4 is a flowchart of a first exemplary embodiment showing a control operation of street light illuminance/power by operation of the camera imaging unit and sensors of the present invention of FIG. 3.

5 is a flowchart of a second embodiment showing a control operation of street light illumination/power based on environmental information (weather, temperature, etc.).

As shown in the figure, control information for outputting street light illuminance according to environmental information including time, weather, and temperature affecting street light illuminance is set for each environment information and stored in the memory unit 305 of the management server. .

At least one of the type of the moving object around the street light and the number of moving objects is identified based on the camera imaging unit.

The current illuminance state input by the user passing through the street light through the user command device is transmitted to the management server through a network including IoT-enabled.

Applied to the environment information, the information confirmed through the camera imaging unit and the information transmitted through the user command device, and applied to the street light operation control, the operation time control, the illuminance control, the street light based on any one of the battery state and the current street light state. Controls the type of power supply to be used.

6 is a flowchart of a third embodiment showing a control operation of a street light/power source based on weather conditions (cloudy, foggy, etc.) among environmental information.

7 is a flowchart of a fourth embodiment showing a control operation of a color/power source for a street light/street light based on environmental information, information by a camera imaging unit, and the like.

8 is a flowchart of a fifth embodiment showing a control operation of a street light/power supply by giving priority/weighting to environmental information.

FIG. 9 is a flowchart of a sixth embodiment showing operation control of the main power/sub battery power based on various sensors provided to detect a state around the street light, information based on a camera imaging unit, and environmental information.

10 is a flowchart of a seventh embodiment showing control of switching operation of the main power supply/sub battery to battery power based on various sensors, camera imaging unit information, and environmental information provided to detect a state around the street light. .

It will be described in detail with reference to the drawings.

2, 3, 4 and 5, a plurality of street lights 100 including LEDs corresponding to the lamp 12;

A power system 200 including a plurality of respective street lights and a solar system 201 that is remotely installed to generate and supply power; And

It includes; the management server 300 including a control unit 301 to be connected to and control the street light and the solar system; includes,

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 that senses illuminance based on at least one of the illuminances caused by;

A motion detection sensor 20 that senses the movement of the moving object around the street light;

A distance sensor 30 for sensing the distance between the street light and the moving object;

A weather information detection sensor 40 that detects a weather condition around the street light;

A camera imaging unit that checks at least one of the type of the moving object around the street light and the number of moving objects;

Among the information transmitted through the network, including the information of the sensors, the camera imaging unit information, the power information of the solar system, and the current illumination state input through the user command device through the user command device, the IoT is possible. A street light by a centralized solar system operating including; a control unit 301 for performing at least one of control of the illuminance of the street lamp in advance and on/off control of the one or more street lights based on any one or more information It shows a remote control device.

The following description is a description that merges information of the sensors or devices.

A plurality of street lights 100 including LEDs;

A power system 200 including a plurality of respective street lights and a solar system 201 that is remotely installed to generate and supply power; And

It includes; the management server 300 including a control unit 301 to be connected to and control the street light and the solar system; includes,

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 that senses illuminance based on the illuminance by;

A motion detection sensor 20 that senses the movement of the moving object around the street light;

A distance sensor 30 for sensing the distance between the street light and the moving object;

A weather information detection sensor 40 that detects a weather condition around the street light;

A camera imaging unit (70) for checking the type and number of moving objects around the street light;

The information of the sensors, the camera imaging unit information, the power information of the solar system, and the information transmitted through the network including that the current illuminance state input through the user command device by the user passing through the street light is possible for the IoT. In accordance,

It provides a remote control device for a street light by a centralized solar system that operates, including; a control unit 301 for controlling the light intensity of the street light to a preset light intensity.

In addition to the main power source 203 including a battery according to the solar system 201, an auxiliary power source 205 including an auxiliary battery is further provided, and the auxiliary power is provided based on a result of checking the state of charge of the main power source in the management server. It is changed by the power supply under the control of the control unit.

In addition, at least one of street light illuminance intensity control, street light illuminance maintenance time control, and street light on/off control is performed based on the control of the controller based on the charge/discharge state of the charged battery by the solar system.

The preset data for street light illumination control and power control of the present invention is stored in the memory unit 305, and is controlled by the control unit based on information of the sensing unit and devices.

Based on the operating time and operating state of the street light, the server informs the server of the intensity adjustment of the street light, the failure of the street light and the replacement time of the street light.

On the other hand, the information of the sensing unit and devices is transmitted to the management server, the intensity of illumination of the street lamp is adjusted based on the control unit of the management server based on the transmitted information, and information about the failure of the street lamp and the replacement time of the street lamp is displayed by the user. It appears in section 303.

The distance between the street light and the mobile body sensed by the distance detection sensor 30 of FIG. 3 increases, and the illuminance of the street light increases. The closer the distance to the street light, the smaller the illuminance of the street light, so that the movement of the mobile body becomes easier.

On the other hand, on the contrary, the larger the distance between the sensed street light and the moving object, the smaller the illuminance of the street light, and the closer the distance to the street light, the greater the illuminance of the street light.

The illuminance data based on at least one of the type (person, vehicle, etc.) of the moving object around the street light and the number of moving objects identified by the camera imaging unit of FIG. 3 are stored in the memory unit 305, and accordingly To be controlled.

For example, since the moving object increases the illumination of the street light in the case of a person, and the automobile has its own lamp, the illumination of the street light can be controlled low.

Incidentally, control of the illuminance data based on at least one of the type of the moving object around the street light and the number of moving objects identified by the camera imaging unit is

When the type of the moving object is a human, the type of moving object is controlled higher than that of a vehicle,

The case where the number of moving objects is large allows the illuminance to be controlled higher than when the number of moving objects is small.

In other words, the above operations are performed by the control unit based on the information of the devices of FIG. 3.

In addition, the illuminance information sent by various people transmitted through a network including the IoT-enabled current illuminance state input through a user command device (not shown, using a button or an application of a mobile phone, etc.) by a user passing through a street light The illuminance is controlled based on the control unit based on at least one of the number of times and the transmitted illuminance information, so that the passage of the moving object is facilitated for each situation.

It may further include a weather information receiving unit 50 for receiving weather information from the weather center (not shown) in the area where the street light is installed.

Based on the weather information sensed by the weather information detection unit 40 or received by the weather information reception unit 50, priority or weight for weather, temperature, humidity, and air pressure, which are factors affecting the illuminance of a street light, is determined. When the factors affecting the illumination of the street light are generated in combination, the operation control of the street light, the operation time control, the illumination control, and the operation control of the power supply device including the battery are performed according to the given priority or weight. There it is,

Of the weather, temperature, humidity, and air pressure affecting the street light illuminance, priority or weight is given to the weather the most, and when factors affecting the street light illuminance occur in a complex manner, the priority is given the most. Based on the weather information, operation control of a power supply device including operation control, operation time control, illuminance control, and battery of a street light is performed,

The weather information given the highest priority includes a clear day, a cloudy day, a cold day, a rainy day, or a foggy day. Among them, the weight of the foggy day is given the greatest weight to control the operation of the street light and the operation time. Control, illumination control, and operation control of the power supply device including the battery are performed.

Among the foggy days, to control the illuminance of the street light or to perform on/off based on the information of the moving object sensed by the motion detection sensor and the type of the moving object around the street light and the number of moving objects identified by the camera imaging unit do.

As an example of the present invention, when the movement information of the moving object including a person or a car is larger than the predetermined information of the moving object, the illuminance of the street light is increased.

In addition, the operation method in the next system of the present invention will be described.

A plurality of street lights 100 including LEDs;

A power system 200 including a photovoltaic system 201 which is installed at a separate location from each of the plurality of street lights and generates and supplies power;

The power system is further provided with an auxiliary power source 205 including an auxiliary battery in addition to the main power source 203 including a battery charged according to the solar system 201,

A management server 300 including a control unit 301 connected to and controlled by the street light and the solar system;

The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including car lights around the street light An illuminance sensor 10 for sensing based on at least one of the illuminances by;

Motion detection sensor 20 for sensing the movement of the moving object around the street light; And

A camera imaging unit that checks at least one of the type of the moving object around the street light and the number of moving objects; In the method for remote control of a street light by a solar system comprising:

Checking a state of the solar module of the solar system based on usage time or charging efficiency information;

Checking the charge and remaining amount information of the battery;

Checking any illuminance information based on the illuminance sensor;

Checking information of a moving object including a person or a vehicle by the motion sensor;

At least one of the type of the moving object around the street light and the number of the moving objects are identified based on the camera imaging unit;

A step in which the user passing through the street light transmits the current illumination state input through the user command device to the server through a network including IoT-enabled; And

A battery management and a street light control based on the step information; It works including.

The above operations can be implemented based on the operations of the sensors/devices and controllers of FIG. 3.

Also, as another embodiment, a plurality of street lights 100 including LEDs;

A power system 200 including a photovoltaic system 201 which is installed at a separate location from each of the plurality of street lights and generates and supplies power;

A management server 300 including a control unit 301 connected to and controlled by the street light and the solar system;

A camera imaging unit that checks at least one of the type of the moving object around the street light and the number of moving objects; And

In the method for remote control of a street light by a solar system comprising a; weather information unit for detecting or receiving weather conditions around the street light (40,50),

First giving priority or weight to weather first among weather, temperature, humidity, and air pressure that affect the street light illuminance;

The weather information given the highest priority includes a clear day, a cloudy day, a cold day, a rainy day, or a foggy day, and among these, the second priority or weight is given to the foggy day secondarily. ; And

According to the above, any one of the operation control of the power supply device including the operation control, the operation time control, the illuminance control, and the battery of the street light is performed.

At this time, the color of the street light may be controlled and output as shown in FIG. 7.

As described above, the present invention relates to a system having a power system including a solar system in a separate location from a street light, and controlling a power applied to the street light and performing illumination control of the street light, including a camera imaging unit. Information provided by the device and the sensing unit provided around the street light and/or the status/situation around the street light is transmitted to a management server provided separately from the street light, and the transmitted information is converted into big data to turn on/off the street light. , Street light illuminance control including color, power control performed, notification or street light illuminance control, power control, notification including color on/off, street light through comparison with the big dataized information and currently received data (information) The present invention relates to a remote control device for a street light and a management method using a centralized solar system.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present invention.

100: street light, 200: power system 300: management server

Claims (17)

A plurality of street lights 100 including LEDs;
A power system 200 including a plurality of respective street lights and a solar system 201 that is remotely installed to generate and supply power; And
A management server 300 including a control unit 301 connected to and controlled by at least one of the street light and the solar system; Including,
The street light itself, natural light illumination including the moonlight around the street light, natural light illumination by seasonal conditions including summer and winter at the location where the street light is installed, and artificial factors including automobile lights around the street light An illuminance sensor 10 for sensing illuminance based on the illuminance caused by the;
A motion detection sensor 20 that senses the movement of the moving object around the street light;
A distance sensor 30 for sensing the distance between the street light and the moving object;
A camera imaging unit (70) for checking the type and number of moving objects around the street light;
Among the information transmitted through the network, including the information of the sensors, the camera imaging unit information, the power information of the solar system, and the current illumination state input through the user command device through the user command device, the IoT is possible. , A control unit 301 for controlling the illuminance of the street lamp in advance and the on/off control of one or more street lights;
A weather information detection sensor 40 that detects a weather condition around the street light; And
It includes a weather information receiving unit 50 for receiving the weather information in the area where the street light is installed,
Priority or weight is given to the weather, temperature, humidity, and air pressure, which are factors affecting the illumination of the street light, based on the detected or received weather information, and when factors affecting the illumination of the street light are generated in a complex manner , According to the given priority or weight, the operation control of the street light, the operation time control, the illumination control, the operation control of the power supply device including the battery is performed,
Among weather, temperature, humidity, and air pressure affecting the street light illuminance, priority or weight is given to the weather the most, and when factors influencing the street light illuminance occur in a complex manner, the priority is given the most. Based on the weather information, the operation control of the power supply device including the operation control, operation time control, illuminance control, and battery of the street light is performed,
The weather information given the highest priority includes a clear day, a cloudy day, a cold day, a rainy day, or a foggy day. Among them, the weight of the foggy day is given the greatest weight to control the operation of the street light and the operation time. Big data-based street light remote control device by a centralized solar system, characterized in that operation control of a power supply device including control, illuminance control, and battery is performed.
delete According to claim 1, In addition to the main power source (203) including a battery according to the solar system 201 is further provided with an auxiliary power source (205) comprising an auxiliary battery, the auxiliary according to the charging state of the main power A big data-based street light remote control device by a centralized solar system characterized by changing to a power source. According to claim 3, Based on the charge and discharge state of the charged battery by the solar system, street light intensity control, street light illumination maintenance time control and street light on / off control by a centralized solar system Big data based street light remote control device. 5. The big data-based street light remote by a centralized solar system according to claim 4, characterized in that the server is informed of the illumination intensity adjustment of the street light, the failure of the street light, and the replacement time of the street light based on the operating time and operating state of the street light. controller. delete delete delete The method of claim 1, wherein a user passing through a street light controls the illuminance based on the number of illuminance information transmitted through the network and the transmitted illuminance information, wherein the current illuminance state input through the user command device is IoT-enabled. A big data-based street light remote control device by a centralized solar system, which features.
delete delete The illuminance according to claim 1, wherein, among the foggy days, the color of the street light is based on information of the mobile body sensed by the motion detection sensor and the type of the mobile body around the street light and the number of the mobile bodies identified by the camera imaging unit. Remote control device for a big data-based street light by a centralized solar system characterized in that it controls or performs on/off. The remote control of a big data-based street light by a centralized solar system according to claim 12, wherein the illuminance of the street light is increased when the movement information of the moving object including a person or a car is greater than the predetermined information of the moving object. Device. delete delete A plurality of street lights 100 including LEDs;
A power system 200 including a photovoltaic system 201 which is installed at a separate location from each of the plurality of street lights and generates and supplies power;
A management server 300 including a control unit 301 connected to and controlled by at least one of the street light and the solar system;
A camera imaging unit for checking at least one of the type of the moving object around the street light and the number of moving objects; And
In the method for remote control of a big data-based street light by a solar system comprising a; weather information unit for detecting or receiving weather conditions around the street light;
First giving priority or weight to weather first among weather, temperature, humidity, and air pressure that affect the street light illuminance;
The weather information given the highest priority includes a clear day, a cloudy day, a cold day, a rainy day, or a foggy day, and among them, the second priority or weight is given to the foggy day secondarily. ; And
By the centralized solar system characterized in that the operation control of the power supply device including the operation control, operation time control, illuminance control, battery of the street lamp is performed according to the priority or weight assigned to the primary and secondary Remote control and management method for big data based street lights. delete

Images