KR102242787B1 - Smart lighting control system including fire and lighting condition monitoring and lighting control integrated module - Google Patents

Abstract

The present invention relates to a smart lighting control system including a fire and lighting condition monitoring and a lighting control integrated module, which combines IOT technology and sensor technology to automatically control lighting using human body detection and voice recognition, uses an illuminance sensor to automatically set the lighting according to a location and time standard to save electricity bills, helps to facilitate evacuation by switching to emergency lighting color in case of a fire, prevents an electric shock accident by giving a notification to a manager before an electric leakage due to humidity occurs, and controls the lighting remotely.

Description

Smart lighting control system including fire and lighting condition monitoring and lighting control integrated module}

The present invention relates to a smart lighting control system, and more particularly, automatically controls lighting using human body detection and voice recognition, and automatically sets lighting according to criteria such as place and time using an illuminance sensor to reduce electricity bills. In case of fire, it is converted to the color of emergency lighting to help evacuation, and before an electric leakage due to humidity occurs, a notification is given to the manager to prevent electric shock and fire and lighting conditions that allow remote control of lighting. It relates to a smart lighting control system including a monitoring and lighting control integrated module.

Recently, interest in and research on a home network service that can remotely monitor and control various electronic devices and lighting devices in a home through a gateway is increasing. In addition, as interest in energy saving and various policies and regulations for this increase, the demand for the home network service is also continuously increasing.

Such a home network service may include a lighting control system capable of remotely controlling lighting devices in the home. According to the lighting control system, the user can remotely turn on/off the power of the lighting device in the home through a smartphone.

However, in order to build such a lighting control system, there is a hassle of re-wiring and piping work for the power line of the lighting device, and moreover, general users cannot independently perform the wiring and piping work without the help of experts. In addition, in this case, there is a problem in that the cost burden of the user increases due to wiring and piping work.

Patent Document 1: Korean Patent Registration No. 10-2055508-Lighting control method of underground parking lot using IOT network Patent Document 2: Korean Patent Laid-Open No. 10-2019-0019302-Lighting control method and system based on indoor space usage information for power saving

Accordingly, the present invention is to solve all the disadvantages and problems of the prior art as described above, and automatically control lighting using human body detection and voice recognition, and automatically illuminate according to standards such as place and time using an illuminance sensor. To save electricity bills, and to help evacuation by switching to the color of emergency lighting in case of fire, and to prevent electric shock accidents by notifying the manager before a leakage due to humidity occurs, and to control the lighting remotely. Its purpose is to provide a smart lighting control system including an integrated module for monitoring fire and lighting conditions and lighting control.

In order to achieve the above object, the present invention controls the on/off of the lighting 100 and communicates with the terminal 500 receiving the status information of the lighting 100 and the router 300 connected to the Internet. Communication unit 210 for performing; A sensor unit 220 configured to include a temperature, gas, humidity, human body detection, and illuminance sensor; It is possible to prevent electric shock and fire accidents by constantly monitoring the short circuit of the lighting 100 with the image current transformer (ZCT), and the control state of the lighting 100 can be known with the instrument current transformer (CT), and the short circuit or the lighting 100 ) A measurement unit 230 for checking the state of; And controlling the communication unit 210, the sensor unit 220, and the measurement unit 230, and the lighting 100 is turned on by the value measured by the sensors of the sensor unit 220 using the sensor unit 220 , off and brightness are automatically adjusted according to the set method, and the fire is constantly monitored through temperature and gas sensors, and when it is recognized as a fire, the lighting 100 is switched to an emergency light to induce safe guidance of the user, and the human body detection sensor is used. Lighting ON/OFF using human body detection through, ON/OFF using voice from the terminal 500, automatically setting lighting according to location and time criteria using the illumination sensor, switching to emergency lighting color in case of fire, humidity Prevents electric shock accidents by giving a notification to the manager terminal to prevent electric shock and malfunction due to electric leakage due to condensation and leakage conditions through the sensor, and remotely controls lighting through the communication unit 210, and the terminal 500 A smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module comprising: a control unit 250 for controlling the lighting 100 through voice from an AI voice recognition speaker. to provide.

Here, the smart lighting control system including the fire and lighting condition monitoring and lighting control integrated module detects a person with a human body detection sensor and automatically turns on the lighting 100, and a bright place such as a window during the day needs lighting. Therefore, it is characterized in that it is possible to reduce unnecessary use of electricity by turning off the lighting 100 or adjusting the brightness according to the sensing of the illuminance sensor.

In addition, the smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module is characterized in that the color temperature of the lighting 100 can be adjusted from 6500 to 2800 using the terminal 500.

On the other hand, the smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module sends a first alarm and a second alarm to the terminal 500, respectively, according to the temperature and gas sensor setting values, so that the administrator knows the temperature. When both and gas reach the secondary value, it is notified to the terminal 500 as a fire, and the lighting 100 is changed to an emergency light.

In addition, a leakage current is measured through the image current transformer (ZCT), and a leakage current due to leakage is measured with a humidity sensor, and the terminal 500 is notified.

Here, when the lighting 100 is controlled in the ON state, the current value is input from the instrument current transformer CT to indicate that it has been operated, and if it is not operated, the terminal 500 notifies that the control has not been performed so that it is displayed. It is characterized by that.

And it is characterized in that the lighting can be turned on and off with the AI voice recognition speaker, and can be controlled by the terminal 500.

In order to achieve the above object, the present invention includes sensing temperature, gas, and humidity through a temperature sensor, a gas sensor, and a humidity sensor of the sensor unit 220 of the lighting control integrated module 200; According to the sensing result of the temperature sensor, a temperature alarm and a temperature alarm are transmitted to the terminal, a gas alarm and a gas alarm are transmitted to the terminal according to the sensing result of the gas sensor, or a humidity alarm and a humidity alarm and a humidity alarm are transmitted to the terminal according to the sensing result of the humidity sensor. In preparation for a fire or a short circuit through the step of transmitting a humidity alarm, the lighting control server 400 accumulates and processes the temperature alarm, temperature alarm, gas alarm, gas alarm, humidity alarm, and humidity alarm in the database (DB). Marking an administrator's terminal; And when the temperature and gas alarm occurs, through the fire alarm generation, the lighting control integrated module 200 emergency lighting the color and dimming of the lighting 100 connected to the lighting control integrated module 200 according to the set emergency lighting value. It provides a smart lighting control method including a fire and lighting condition monitoring and lighting control integrated module using a lighting control integrated module, characterized in that comprising the step of controlling to be turned on.

Here, the lighting control integrated module 200 monitors electric shock accidents and fires due to electric leakage through the configuration of a current transformer to prevent electric shock and fire due to electric leakage, and measures current using CT (Current Transformer), a current transformer for equipment. It provides an integrated management method in a smart fire detection integrated management system using a lighting control integrated module, characterized in that it further comprises a step (S420) of monitoring whether the lighting is actually controlled and monitoring malfunction of the lighting 100. .

According to an embodiment of the present invention, there are the following effects.

First, the human body detection sensor detects a person and automatically turns on the lighting, and since bright places such as a window during the day do not need lighting, the illumination sensor can be used to turn off the lighting or adjust the brightness to reduce unnecessary electricity use.

Therefore, 1. There is no need for a switch. 1) There is no need for piping wiring accordingly. 2) Lighting can be installed freely (no switch and piping wiring). 3) The construction cost is reduced. 4) The construction period is shortened.

2. When there are no people and the surroundings are bright, the lights are turned off. 1) Electricity bills are reduced. 2) As the turn-on time is shortened, the life of the device is prolonged. 3) Less maintenance.

Second, since the color temperature of the lighting equipment can be adjusted from 6500 to 2800 with the terminal, 1. Depending on the user's environment through color temperature control, 1) you can relax and enjoy music at 2800, and 2) math at 6500. By adjusting according to the situation, such as studying, you can increase your efficiency and create a pleasant environment.

Third, according to the temperature and gas sensor set values, the administrator sends the first and second alarms to the terminal to let them know. When both the temperature and gas reach the second value, the terminal is notified of a fire and the lighting is changed to an emergency light. It guides them to evacuate safely. 1. Since it is individually installed in the lighting equipment, it is possible to know more quickly than the fire-receiving team, and to know the location accurately, so that it can prevent the spread by initial extinguishing. 2. The detector of the fire-receiving group is operated. It is not known until now, but the lighting control integrated module (light on) can know the surrounding temperature and the sensor value of the gas through the server's past history inquiry, so it is possible to take precautions and prevent accidents. You can see the record of small values such as leakage.)

Fourth, by measuring the electric leakage through the image current transformer (ZCT), and by measuring the electric leakage due to the leakage with a humidity sensor and notifying the terminal, 1. There are many cases where the fire in the building is an electric leakage, and this can be known in advance so that a fire accident can be prevented. .

Fifth, if the lighting is controlled in the ON state, the current value is input from the CT, indicating that it has been operated, and if it is not operated, the terminal indicates that the control has not been performed. When it is controlled and turned on, the state can be known by CT. Existing products were unknown and could not be confirmed.

Sixth, the lighting can be turned on and off with the AI speaker, and can be controlled from the terminal. It is automatically adjusted by the surrounding environment or situation with AI, so it can become one with the user, so it is good for people with disabilities or people who are inconvenient to move. In addition, AI is applied to enable automatic emotional lighting.

Seventh, through human body detection, voice recognition, and illuminance sensor, lighting can be remotely controlled from mobile, tablet PC, PC, and lighting can be automatically set according to criteria such as location and time, and the integrated lighting control module is connected to power lines and lighting. It is installed in between, and remote control of lighting through mobile, tablet PC and PC is possible through the corresponding lighting control integrated module, so that unnecessary power consumption is minimized, or if lighting control is forgotten during a busy schedule, you can go home immediately after going out. In some cases, this can be solved at a remote location, and by installing a lighting control integrated module for lighting control using IOT between the power line and the lighting, it can be applied to new construction sites or temporary sites as well as existing already installed base sites without any special difficulties. .

1 is a view for explaining a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to the present invention.
FIG. 2 is a view for explaining an embodiment of functions of a control/sensor unit of an operation unit (terminal), a server, and a lighting control integrated module in a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module shown in FIG. 1 to be.
3 is a view for explaining an embodiment of the lighting control integrated module shown in FIG.
4 is a flowchart illustrating an embodiment of an integrated management method in a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to the first embodiment of the present invention.
FIG. 5 is a view for explaining an embodiment of a lighting control server of a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module shown in FIG. 1.
6 is a flowchart illustrating an embodiment of an integrated management method in a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to a second embodiment of the present invention.

Terms or words used in this specification and claims are not limited to their usual or dictionary meanings and should not be interpreted, and that the inventors can appropriately define the concept of terms in order to describe their invention in the best way. Based on the principle, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention, and the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, so the technical idea of the present invention It should not be viewed as representing all of these, and it should be understood that there may be various equivalents and variations.

1 is a diagram for explaining a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to the present invention, and FIG. 2 is a fire and lighting condition monitoring and lighting control integrated module shown in FIG. It is a diagram for explaining an embodiment of the function of the control/sensor unit of the operation unit (terminal), the server, and the lighting control integrated module in the smart lighting control system.

A smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to the present invention is, as shown in FIG. 1, a lighting 100, a lighting control integrated module 200, a router 300, a lighting control server It is configured to include 400 and the terminal 500.

Here, the lighting 100 is an LED lighting, and a converter for converting AC power to DC is provided.

The lighting control integrated module 200 includes: 1. Lighting ON, OFF using human body detection, 2. ON, OFF using voice, 3. Automatically setting lighting according to standards such as location and time using an illuminance sensor, 4. In case of fire, change to color of emergency lighting (helps to evacuate easily), 5. Prevent electric shock by giving notification to manager before electric leakage due to humidity occurs, 6. Remotely control lighting, using data stored in DB Carry out management and prediction of abnormal situations. In addition, the actual operation of the lighting is measured by electric leakage measurement and current measurement. To this end, the lighting control integrated module 200 detects a sensor (temperature/humidity, gas, human body detection, illuminance sensor) through a sensor unit/measurement unit as shown in FIG. 2, a short circuit, a current measurement, a communication state measurement function, and a control unit. Through the control unit (terminal) command execution, control by a sensor, two-way wireless communication through the communication unit, and control the emergency light display.

The router 300 is a communication network capable of connecting to the Internet including Wi-Fi.

The lighting control server 400 transmits the current state information of the lighting 100 connected to the lighting control integrated module 200 through the router 300 to the terminal 500, and transmits the control signal of the terminal 500 to the router 300 ) To the lighting control integrated module 200 that controls the lighting 100. This lighting control server 400 may be configured as a cloud server. The lighting control server 400 stores and processes data, and detects fire, temperature, humidity, gas, human body by temperature/gas, automatically changes the lighting color according to the reference illuminance value, stores a short circuit, and a communication state. , It is accumulated and processed. In addition, it predicts user patterns based on past history and makes AI predictions that predict potential risk situations.

The terminal 500 may be configured to include at least one of a smartphone, a tablet PC, a PC, and an AI voice recognition speaker. If the Internet is connected, a smartphone, a tablet PC, a PC and an AI voice recognition speaker are used to remotely The lighting 100 is controlled. These terminals perform lighting on/off, dimming, color temperature manipulation, method manipulation, fire/temperature/humidity/gas/leakage/communication status monitoring, fire/temperature/humidity/gas/leakage notification and alarm.

3 is a view for explaining an embodiment of the lighting control integrated module shown in FIG. Such a lighting control integrated module can be used as a kind of fire and lighting condition monitoring and lighting control integrated module.

An embodiment of the lighting control integrated module shown in FIG. 1 is as shown in FIG. 3, and includes a communication unit 210, a sensor unit 220, a measurement unit 230, a power supply unit 240, and a control unit 250. .

Here, the communication unit 210 supports \i-Fi communication between the lighting control integrated module 200 and the lighting control server 400 and the terminal 500 through the router 300.

The sensor unit 220 includes a temperature/humidity, gas, human body detection, and illuminance sensor.

The measuring unit 230 may be configured with a current transformer to prevent electric shock and fire due to a short circuit. As such a current transformer, a ZCT (Zero Current Transformer) is provided, and by electrically connecting the ZCT to each lighting 100, the occurrence of a short circuit can be monitored in real time to prevent electric shock and fire due to a short circuit.

In addition to ZCT, it is possible to prevent malfunction by monitoring whether the lighting is actually controlled by measuring the current by using a current transformer (CT), which is a device current transformer for checking the state of the lighting. In other words, depending on whether current is being consumed, it is possible to check whether or not the lighting is actually turned on.

The power supply unit 240 supplies power required by the lighting control integrated module 200.

The control unit 250 senses the sensing result of the sensor unit 220 to the terminal 500 through the communication unit 210 by controlling the communication unit 210, the sensor unit 220, the measurement unit 230, and the power unit 240 The result is transmitted or the on/off of the lighting 100 is controlled according to a control signal from the terminal 500. In addition, the controller 250 analyzes the user's voice sensed by the voice sensor through the sensor unit 220 to control on/off and dimming of the lighting.

Meanwhile, in the present invention, for dimming control, what was previously controlled by connecting to the primary side (input side) of the converter connected to the lighting 100 was connected to the secondary side (output side) to control. In other words, if the primary side is controlled, dimming is performed in a constant voltage method, so the lighting is not supplied with a stable voltage and the lights flicker (e.g., a problem that the lights flicker in hospital operating rooms, reading rooms, etc.) can be solved on the output side of the converter. The module was configured in a constant current method to control DC.

That is, the lighting 100 is an LED lighting that includes a converter that converts AC power (AC) to DC power (DC), and the lighting control integrated module 200 includes colors and colors for R, G, and B of the LED lighting. During dimming control, constant current control is performed on the DC power of the output side (secondary) of the converter.

On the other hand, 1. Lighting control can remotely control lighting using a smartphone, tablet PC, or PC if the Internet is connected. In addition, lighting can be controlled by voice through the AI speaker. In the case of such an AI speaker, the user can determine the time to control the lighting and automatically control the lighting, or determine the time when the user controls the lighting in the memory unit of the controller 250 of the lighting control integrated module 200 ( Memory) to automatically control the lighting. Of course, the lighting control server 400 to be described later may memorize the time for controlling the lighting by the user to automatically control the lighting.

And 2. In the case of temperature, humidity (fire prevention), in the case of temperature, a temperature sensor is installed in each light to prevent fire from occurring in the light, so that the temperature value can be monitored in real time and the past history can be checked. Fires are prevented by sending notifications to users step by step (notification, alarm, danger) according to the set criteria. On the other hand, humidity can be monitored in real time and past history by installing a humidity sensor in each light to prevent fire due to leakage. In accordance with the set criteria, a notification is sent to the user step by step (notification, alarm, danger) to prevent fire caused by leakage.

For reference, through the temperature sensor, the temperature value of each light is monitored in real time using the temperature sensor of the sensor unit 220 of the lighting control integrated module 200 in order to prevent fire that may occur in the lighting 100 itself. You can check the past history by accumulating. In this case, a fire can be prevented by sending a notification to the user terminal 500 in stages (notifications, alarms, dangers) according to a preset setting criterion. Of course, for this purpose, the stages may be classified according to the type of the lighting 100, the place where the lighting control integrated module 200 is installed, or the season. In other words, depending on the type of lighting electrically connected to the lighting control integrated module 200, it is a lighting (for example, a halogen lamp) that is prone to fire, or a lighting installation place is a place where a lot of fire is used, such as a kitchen, and a bedroom or a study room. As such, it is applied differently in places where no special heat is used. For example, in the case of the kitchen and in the summer and winter, and the bedroom and in the summer and winter, the temperature setting standard is different. These criteria can be established according to field test or experiment.

In addition, in order to prevent leakage due to leakage through humidity, the humidity value of each lighting can be monitored in real time using the humidity sensor of the sensor unit 220 of the lighting control integrated module 200 and accumulated to check the past history. have. Even in this case, it is possible to prevent a fire due to water leakage by sending a notification to the user terminal 500 step by step (notification, alarm, danger) according to the setting criteria. Of course, for this purpose, it is preferable to classify the stages according to the place or season where the lighting 100 or the lighting control integrated module 200 is installed. For example, in the case of a bath or bathroom, a bedroom or a study, and the rainy or dry season, the humidity setting standards can be different. These criteria can also be set according to field test or experiment.

And 3. In the case of gas (fire prevention), the gas sensor of the sensor unit 220 of the lighting control integrated module 200 is installed in each lighting 100 to monitor the gas value in real time and check the past history. In addition, it prevents fire by sending notifications to the user step by step (notification, alarm, danger) according to the set criteria. Even in the case of such gas prevention, it is possible to monitor the gas value using the place where the lighting 100 is installed (whether it is a cooking room, a kitchen, etc., a bedroom or a study room, or atmospheric pressure information (high pressure, low pressure information) using IOT). It is advisable to adjust the level of notification to the user by setting it according to the field test or experiment.

On the other hand, in the case of 4. dimming (light color control using AI), the terminal 500 can automatically change the lighting color according to conditions such as the user's mood, weather, conversation topic, time, etc. using an AI voice recognition speaker. In addition, the lighting color controls RGB or WARM/COOL color depending on the option. Of course, when you want to change the atmosphere by controlling the lighting brightness, you can change the lighting to a desired color using a smartphone or PC. In general, in recent years, users often have conversations with the AI voice recognition speaker, so when the AI voice recognition speaker is used, the AI voice recognition speaker analyzes and performs this through the lighting control server 400.

On the other hand, 5. In the case of performing automatic lighting control using motion detection using human body detection, when motion (motion) is detected, the light is automatically turned on for 1 minute, and if not detected, the light is automatically turned off to charge electricity. To save. At this time, when motion is detected, the lighting time is automatically updated. That is, in general, if it is set to turn on automatically for 1 minute, it turns off automatically after 1 minute, and automatically turns on at the same time as motion is detected. It eliminates the inconvenience caused by the lights out.

In addition, 6. illuminance (automatic lighting control using an illuminance sensor) performs automatic lighting control using an illuminance sensor of the sensor unit 220 of the lighting control integrated module 200, by setting the reference illuminance to convert the lighting into a reference illuminance value. Can be maintained. At this time, it is necessary to set the standard illuminance appropriate to the location and situation such as libraries and hospitals, and automatically turn off the lighting when the illuminance value is higher than the reference illuminance value, and turn on the lighting when the illuminance value is lower than the reference illuminance value to reduce electricity bills. desirable.

And 7. For prevention of electric shock and fire due to short circuit, and 8. Checking the lighting status using CT, refer to the previous explanation.

On the other hand, when lighting control (dimming) is possible with the user's voice through the AI voice recognition speaker, the lighting color using a smartphone, tablet PC or PC according to the analysis of conditions such as the user's mood, weather, conversation topic, time, etc. It can be used to automatically change, and the user can control the lighting automatically by learning the time for controlling the lighting for a preset time (according to the field test), and the lighting according to the present invention configured in this way If only the Internet is connected, the control integrated module 200 can remotely control the lighting anywhere in Korea and abroad, and can be turned on/off according to human body detection, and when a speaker is configured as the terminal 500, the Google Assistant is used. Through this, it is possible to control the lighting 100 by voice without a smartphone, and it is possible to save unnecessary electricity bills such as offices and construction phenomena by remotely booking lighting even when commuting.

4 is a flowchart illustrating an embodiment of an integrated management method in a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to the first embodiment of the present invention.

An integrated management method in a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to the first embodiment of the present invention is as shown in FIG. 4. Fire and lighting condition monitoring shown in FIGS. 1 to 3 And the smart lighting control system including the integrated lighting control module senses the temperature, gas and humidity through the temperature sensor, gas sensor and humidity sensor of the sensor unit 220 of the lighting control integrated module 200 (S280) (S320). (S360) Do it.

When the sensing result of the temperature sensor is higher than 30 degrees (S290), a temperature alarm is transmitted to the terminal (S300). And, if it is more than 50 degrees secondly, a temperature alarm is transmitted to the terminal (S310). Accordingly, you can prepare for fire.

On the other hand, when the sensing result of the gas sensor (S330) is 500ppm or more, the gas alarm is transmitted to the terminal (S340). And, if it is more than 700ppm secondly, a gas alarm is transmitted to the terminal (S350). Accordingly, you can prepare for gas leaks.

In addition, when the sensing result of the humidity sensor is 65% or more (S370), a humidity alarm is transmitted to the terminal (S380). And if it is 80% or more, the humidity alarm is transmitted to the terminal (S390). Accordingly, you can prepare for a short circuit.

In addition, when both the secondary temperature alarm (S310) and the gas alarm (S350) are generated (S400), a fire alarm is generated (S410). Meanwhile, the temperature alarm, gas alarm, and humidity alarm are processed in the server (S430) and displayed on the administrator's terminal (S440). This allows managers to properly prepare for temperature, gas, and humidity in advance.

On the other hand, at the time of fire alarm (S410), the lighting control integrated module 200 performs color and dimming control of the lighting by setting the emergency lighting value for the lighting 100 (S110) according to the usage (S100) (S190). Even when the lighting is off, the lighting is operated as on (S200). The emergency lighting value is set in advance so that the color and dimming control of the lighting at the time of the fire alarm is performed in a manner such as, for example, repeating on/off in red so that people can easily see it (S110).

In addition, the lighting control integrated module 200 detects the human body according to the sensing of the human body detection sensor (S120) according to the purpose of use (S130), and turns off the lighting when the human body is not detected (S140).

However, when a human body is detected, according to the control method (S150), according to the sensing value of the illuminance sensor (S160), the illuminance is measured (S170), and if the external illuminance is higher than the set value according to the measured value, the lighting is turned off (S180). ).

On the other hand, if the external illuminance is less than the set value, the lighting control integrated module 200 controls the color and dimming of the lighting 100 according to the illuminance sensor measurement (S170) value (S190).

In addition, when a human body is detected (S130) and a voice is called (detected) according to the control method (S150) (S210), AI is applied (S220), and an automatic determination is made (S230).

When the automatic determination (S230) occurs, the lighting control integrated module 200 controls the color and dimming of the lighting 100 according to the voice call value (S190).

And if it is manual control according to the control method (S150), the manual operation value from the terminal is set in the lighting control integrated module 200, and accordingly, the color and dimming of the lighting 100 are set and controlled as manual values (S250). .

On the other hand, in the present invention, the lighting 100 can also be used for crime prevention, depending on the purpose of use (S100), the on/off time of the lighting 100 in the lighting control integrated module 200 by manual or voice operation When the input is manually or voice input by (S260) and is set (S270), the color and dimming are controlled at a preset time for the lighting 100. Accordingly, for example, if you need to go out in the evening or leave your home or office, you can turn on the lighting as if there are people in the space outside, and automatically turn it off again in the daytime so that you can prevent crime. do.

In addition, the lighting control integrated module 200 monitors the communication and electric leakage state through the measurement unit 230 (S420). In other words, to prevent electric shock and fire due to electric leakage, electric shock and fire due to electric leakage are monitored through the configuration of current transformers, and current is measured using CT (Current Transformer), which is a current transformer for equipment, to monitor whether lighting is actually controlled. Thus, the malfunction of the lighting 100 can be prevented. In other words, depending on whether the current is being consumed, it is checked whether the lighting is actually turned on.

5 is a view for explaining an embodiment of the lighting control server of the lighting control integrated module 200 shown in FIG.

An embodiment of the lighting control server of the lighting control integration module 200 shown in FIG. 1 is a communication unit 410, a database 420, a current state transmission unit 430, a state change request receiving unit (reservation A sub) 440, a state change request transmission unit 450, a state change confirmation unit 460, a state change transmission unit 470, and a control unit 480 are included.

Here, the communication unit 410 communicates with the lighting control integrated module 200 and the terminal 500 through the router 300.

The database 420 stores an image of an existing site, an image of a new site, and an image of a temporary site. These images are later used to display the lighting controlled by the lighting control integrated module 200 on the screen of a smartphone, a tablet PC, and a PC among the terminals 500 at a corresponding site.

In addition, the database 420 includes information (name, contact information, etc.) of the members who purchased the lighting control integrated module 200 and installed on the site, the site image of the lighting control integrated module 200 installed by the member, and a member registration device (lighting Control integration module unique No) and the current state of the member registration device are stored (updated). In addition, the database 420 stores sensor monitoring information of the member registration device. According to the sensor monitoring information of the member registration device, it is possible to prevent fire by sending step-by-step (notification, alarm, danger) notification according to the set criteria through sensing information such as temperature, humidity, and gas. In addition, it can be used to accumulate dimming data according to analysis of conditions such as mood, weather, conversation topic, time, etc. through the AI voice recognition speaker, and automatically change to the user's preferred lighting color using the accumulated data. The user's mood through such an AI voice recognition speaker allows the user to receive and store the voice data that the user has spoken or commanded with the AI voice recognition speaker through the Internet, with the user's consent in advance. In addition, the database 420 stores the member's lighting 100 installation location information (cooking room, kitchen, toilet, bathroom, bedroom, living room) connected to the lighting control integrated module 200 to prevent fire and gas due to temperature and humidity. It can be used to prevent fire by sending user notifications for each stage according to the fire prevention and setting criteria. To this end, threshold information for each step (ilm, warning, danger) may also be stored in the database. Of course, the lighting control integrated module 200 and the member's lighting 100 installation location information (cooking room, kitchen, toilet, bathroom, bedroom, living room) or each step (illim, alarm, danger) threshold information is lighting control It is stored in advance in the memory area of the controller 250 of the integrated module 200, or can be set using a web page or an app.

The current state transmission unit 430 transmits the field state of the lighting 100 to the member's terminal 500 by referring to the database when the terminal 500 is connected.

The status change request receiving unit (reservation unit) 440 receives the request for changing the status of the lighting 100 from the terminal 500 of the member. In addition, the lighting 100 may be on/off reservation.

The state change request transmission unit 450 transmits a state change request from the terminal 500 received in the state change request receiving unit (reservation unit) 440 to the lighting control integrated module connected to the lighting 100 through the communication unit 310 ( 200).

The state change confirmation unit 460 receives confirmation of the state change from the lighting control integrated module 200 connected to the lighting 100.

The state change transmission unit 470 transmits the state change of the lighting 100 received by the state change confirmation unit 460 to the member's terminal 500 so that the member can check it.

The control unit 480 includes a communication unit 410, a database 420, a current state transmission unit 430, a state change request reception unit (reservation unit) 440, a state change request transmission unit 450, and a state change confirmation unit 460. ) And the state change transmission unit 470 are generally controlled, and the sensor monitoring information stored in the database 420 is analyzed, and through sensing information such as temperature, humidity, and gas, step-by-step (notification, alarm, risk) according to the set criteria The notification is compared and analyzed and sent to a user terminal (smart phone, tablet PC, or PC) through the communication unit 410 to prevent fire.

6 is a flowchart illustrating an embodiment of an integrated management method in a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module according to a second embodiment of the present invention.

In the integrated management method in the smart fire detection integrated management system using IOT according to the present invention, as shown in FIG. 6, a lighting control integrated module is installed on the site (S400). That is, a lighting control integrated module is installed between the power supply and the lighting 100.

And the lighting control integrated module contractor selectively registers member information, member site image, member lighting equipment, lighting control integrated module identification information, etc., in the database of the lighting control server as necessary, and the user can use the web (app) with his terminal. Sign up for a member through the server (S510). Of course, when using the app, install the app from the Play Store or App Store and run it.

Meanwhile, the user selects Wi-Fi as the model number of the lighting control integrated module from the Wi-Fi search list with his terminal, enters the password, and connects, enters the server address of the lighting control integrated module provider in the Internet address bar, and connects to the router. After entering the ID and password, it is stored (S520). That is, do the initial setting.

In addition, the user registers and controls his/her own lighting device by accessing the lighting control server through an app or web with his/her terminal (S530).

Meanwhile, the lighting control integrated module connected to the lighting in the field detects the occurrence of an event through a sensor, and when an event occurs, the controller of the lighting control integrated module transmits the event to the lighting control server through the communication unit, and the lighting control server controls the lighting. The event of the integrated module is transmitted to the terminal (S540).

The user checks the event transmitted through the terminal, and performs necessary actions through his terminal (S550). In these events, for example, motion detection through human body detection, temperature, humidity, and gas through a temperature sensor or a humidity sensor and a gas sensor can be sensed or prevented, and can be used to immediately solve this.

In addition, if there is an AI voice recognition speaker, it analyzes the user's voice recognized through the voice recognition speaker, and automatically changes the lighting color including weather information, conversation topic, current time, etc. with data accumulated in the database for each user. (S560).

On the other hand, the control unit of the lighting control server monitors temperature, humidity, gas, and electric leakage in real time, and by inquiring the past history and transmitting the dangerous situation to the user terminal in advance, various accidents such as fire, gas leakage, and electric leakage can be prevented in advance. Can be (S570).

Although the present invention has been described with the above examples, the present invention is not necessarily limited to these examples, and various modifications may be made without departing from the spirit of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these examples. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: lighting 200: integrated lighting control module
210: communication unit 220: sensor unit
230: measurement unit 240: power supply unit
250: control unit 300: router
400: lighting control server 410: communication unit
420: database 430: current state transmission unit
440: status change request receiving unit (reservation unit)
450: status change request transmission unit
460: status change confirmation unit 470: status change transmission unit
480: control unit
500: Terminal (smartphone, tablet PC, PC, speaker)

Claims (11)

A communication unit 210 for controlling on/off of the lighting 100 and performing Wi-Fi communication with the terminal 500 receiving the status information of the lighting 100 and the router 300 connected to the Internet;
A sensor unit 220 configured to include a temperature, gas, humidity, human body detection, and illuminance sensor;
It is possible to prevent electric shock and fire accidents by constantly monitoring the short circuit of the lighting 100 with the image current transformer (ZCT), and the control status of the lighting 100 can be known with the instrument current transformer (CT), and the short circuit or the lighting 100 ) A measurement unit 230 for checking the state of; And
The communication unit 210, the sensor unit 220, and the measurement unit 230 are controlled, and the lighting 100 is turned on by a value measured by the sensors of the sensor unit 220 using the sensor unit 220, The off and brightness are automatically adjusted according to the set method, and the fire is constantly monitored through the temperature and gas sensors, and when it is recognized as a fire, the lighting 100 is switched to an emergency light to induce safe guidance of the user, and through the human body detection sensor. Lighting ON/OFF using human body detection, ON/OFF using voice from the terminal 500, automatically setting lighting according to location and time criteria using the illumination sensor, switching to emergency lighting color in case of fire, humidity sensor Prevents electric shock accidents by giving a notification to the manager terminal to prevent condensation through condensation and electric leakage due to leakage conditions and electric shock in advance, and remotely controls lighting through the communication unit 210, among the terminals 500 The control unit 250 for controlling the lighting 100 through the voice from the AI voice recognition speaker: The lighting control integrated module 200 comprising,
It is configured to connect to the output side of the converter connected to the lighting 100 to control the direct current (DC) of the output side in a constant current method,
The first alarm and the second alarm are sent to the terminal 500 according to the temperature of the sensor unit 220 and the gas sensor set value, so that the administrator knows, and when both the temperature and the gas reach the second value, the terminal is fired. Notify 500 and the lighting 100 is changed to an emergency light to induce users to evacuate safely,
A short circuit of the lighting 100 is measured through the image current transformer (ZCT), and a leakage current of the lighting 100 due to the leakage is measured with a humidity sensor and notified to the terminal 500,
When lighting is controlled (dimming) with the user's voice through the AI voice recognition speaker, the lighting color according to the analysis of the user's mood and conversation topic is controlled by RGB or WARM/COOL color according to an option.
The lighting control integrated module 200,
The communication unit 410, which is connected to the router 300 through the Internet and communicates with the terminal 500 that receives the status information of the lighting 100, and an image of an existing site, an image of a new site, and an image of a temporary site are stored. The database 420 used to display on the screens of smartphones, tablet PCs and PCs among terminals 500 for the lighting controlled by the lighting control integrated module 200, and the field status of the lighting 100 (500) A current state transmission unit 430 transmitted to the member's terminal 500 with reference to the database 420 upon access, and a state in which a request for changing the state of the lighting 100 is transmitted from the terminal 500 A change request receiver (reservation unit) 440, and a state change request from the terminal 500 received by the state change request receiver (reservation unit) 440 is connected to the lighting 100 through the communication unit 410 A state change request transmission unit 450 transmitted to the control integration module 200, and a state change confirmation unit 460 that receives confirmation of the state change from the lighting control integration module 200 connected to the lighting 100, The status change transmission unit 470, the communication unit 410, and the database ( 420), a current state transmission unit 430, a state change request reception unit (reservation unit) 440, a state change request transmission unit 450, a state change confirmation unit 460 and a state change transmission unit 470 are controlled, and , The terminal 500 through the communication unit 410 by analyzing the sensor monitoring information stored in the database 420, comparing and analyzing step-by-step (notification, alarm, risk) notifications according to a set standard through temperature, humidity, and gas sensing information. It is connected to the lighting control server 400 configured including a control unit 480 that controls to prevent fire by sending it to),
Fire and lighting condition monitoring and lighting control, characterized in that the current state information of the lighting 100 is transmitted to the terminal 500, and a control signal from the terminal 500 is transmitted through the router 300. Smart lighting control system including an integrated module.
The method according to claim 1,
The smart lighting control system including the fire and lighting condition monitoring and lighting control integrated module,
The human body detection sensor detects a person and automatically turns on the lighting 100, and since bright places such as a window during the day do not need lighting, the lighting 100 is turned off or the brightness is adjusted according to the sensing of the illuminance sensor. Smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module, characterized in that to reduce the use of electricity.
The method according to claim 1,
The smart lighting control system including the fire and lighting condition monitoring and lighting control integrated module,
A smart lighting control system comprising a fire and lighting condition monitoring and lighting control integrated module, characterized in that the color temperature of the lighting 100 can be adjusted from 6500 to 2800 using the terminal 500. delete delete The method according to claim 1,
When the lighting 100 is controlled in the ON state, the current value is input from the instrument current transformer (CT) to inform that it has been operated, and if it is not operated, the terminal 500 informs that the control has not been performed and is displayed. Smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module characterized by.
The method according to claim 1,
A smart lighting control system comprising a fire and lighting condition monitoring and lighting control integrated module, characterized in that the lighting can be turned on and off with the AI voice recognition speaker and controlled by the terminal 500.
A lighting 100 comprising an LED lighting driven by receiving power and further comprising a converter that converts AC power (AC) to DC power (DC);
A router 300, which is a communication network capable of connecting to the Internet including Wi-Fi;
A terminal 500 comprising at least one of a smartphone, a tablet PC, a PC, and an AI voice recognition speaker and connected to the router 300 through the Internet to receive status information of the lighting 100;
Lighting ON/OFF using human body detection, ON/OFF using voice, automatically setting the lighting according to the location and time standard using the illuminance sensor, switching to the emergency lighting color in case of fire, to the manager before a leakage due to humidity occurs It prevents electric shock accidents by giving notifications and controls lighting remotely, performs management and prediction of abnormal situations using data stored in the DB, measures the actual operation of the lighting by measuring short circuit and current, and measuring the actual operation of the lighting, two-way wireless communication, and the lighting Lighting control integrated module 200 for performing emergency light display control using (100); And
The current state information of the lighting 100 is transmitted to the terminal 500 from the lighting control integration module 200 connected to the lighting 100 by being connected to the router 300 through the Internet, and the terminal 500 The lighting control server 400 in which the member information of the lighting 100 and the terminal 500 for transmitting the control signal from the router 300 to the lighting control integrated module 200 is registered; It is composed including,
The lighting control integrated module 200 controls the DC power of the output side (secondary) of the converter in a constant current method when controlling the color and dimming of the LED lighting of the lighting 100 and,
The lighting control server 400,
A communication unit 410 that communicates with the lighting control integration module 200 and the terminal 500 through the sharer 300, and an image of an existing construction site, an image of a new construction site, and an image of a temporary site are stored, and the lighting control integration module Database 420 used to display on the screens of smartphones, tablet PCs and PCs among the terminals 500 for lighting controlled by 200, and the field status of the lighting 100 is a database when the terminal 500 is connected. A current state transmission unit 430 transmitted to the member's terminal 500 with reference to 420, and a state change request receiving unit (reservation unit) that receives a state change request from the terminal 500 when the state change request is transmitted. ) 440, and the state change request from the terminal 500 received in the state change request receiving unit (reservation unit) 440, the lighting control integrated module 200 connected to the lighting 100 through the communication unit 410 A state change request transmission unit 450 transmitted to the light, a state change confirmation unit 460 receiving confirmation of a state change from the lighting control integrated module 200 connected to the lighting 100, and the state change confirmation unit ( The status change transmission unit 470 and the communication unit 410, the database 420, and the current status are transmitted so that the member can check the status change of the lighting 100 received by 460 to the member's terminal 500 Controls the unit 430, a status change request receiving unit (reservation unit) 440, a status change request transmission unit 450, a status change confirmation unit 460 and a status change transmission unit 470, and the database 420 By analyzing the sensor monitoring information stored in the terminal (smart phone, tablet PC or PC) through the communication unit 410 by comparing and analyzing step-by-step (notification, alarm, danger) notifications according to the set criteria through temperature, humidity, gas sensing information A smart lighting control system comprising a fire and lighting condition monitoring and lighting control integrated module using a lighting control integrated module, characterized in that it comprises a control unit 480 that sends to 500 and controls it to prevent fire.
delete A control method of a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module using the lighting control integrated module according to claim 8,
Sensing temperature, gas, and humidity through a temperature sensor, a gas sensor, and a humidity sensor of the sensor unit 220 of the lighting control integrated module 200;
According to the sensing result of the temperature sensor, a temperature alarm and a temperature alarm are transmitted to the terminal, a gas alarm and a gas alarm are transmitted to the terminal according to the sensing result of the gas sensor, or a humidity alarm and a humidity alarm and a humidity alarm are transmitted to the terminal according to the sensing result of the humidity sensor. In preparation for a fire or a short circuit through the step of transmitting a humidity alarm, the lighting control server 400 accumulates and processes the temperature alarm, temperature alarm, gas alarm, gas alarm, humidity alarm, and humidity alarm in the database (DB). Marking an administrator's terminal; And
When the temperature and gas alarm is generated, through the fire alarm generation, the lighting control integrated module 200 converts color and dimming into emergency lighting for the lighting 100 connected to the lighting control integrated module 200 according to the set emergency lighting value. Including the step of controlling to be turned on,
Installing the lighting control integrated module 200 between the power supply and the lighting 100 (S400), and the construction of the lighting control integrated module 200, the member information and the member site image in the database of the lighting control server 400 , Member lighting device, lighting control integrated module identification information is selectively registered, and the user subscribes to the lighting control server 400 through the web (app) with his terminal (S510), and the user Search Wi-Fi with the terminal Select Wi-Fi as the model number of the lighting control integrated module from the list, enter the password and connect, enter the server address of the lighting control integrated module provider in the Internet address bar, connect, enter the router ID and password, and save In step S520, the user accesses the lighting control server 400 through an app or web with his terminal to register and control his/her lighting device (S530), and the lighting control integration connected to the lighting The module 200 detects the occurrence of an event through a sensor, and when an event occurs, the controller of the lighting control integrated module transmits the event to the lighting control server 400 through the communication unit, and the lighting control server 400 controls the lighting. Transmitting the event of the integrated module 200 to the terminal (S540), the user confirms the event transmitted through the terminal, and performs the necessary action through his terminal (S550), and AI voice If there is a recognition speaker, analyzing the user's voice recognized through the voice recognition speaker, and automatically changing the lighting color including weather information, conversation topic, and current time by comparing the data accumulated in the database (DB) for each user. (S560) And, the control unit of the lighting control server 400 monitors temperature, humidity, gas, and electric leakage in real time, and by inquiring the past history, a dangerous situation to prevent accidents including fire, gas leakage, and electric leakage in advance. Including the step of transmitting in advance to the user terminal (S570),
The lighting control integrated module 200 monitors electric shock and fire due to electric leakage through the configuration of a current transformer to prevent electric shock and fire due to electric leakage, and measures current by using a current transformer (CT), which is a current transformer for equipment. A control method of a smart lighting control system including a fire and lighting condition monitoring and lighting control integrated module using a lighting control integrated module, characterized in that the malfunction of the lighting 100 is monitored (S420) by monitoring whether the lighting is actually controlled .
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