KR20230080015A - Smart home system for energy efficiency - Google Patents

Abstract

The present invention relates to a smart home system for energy efficiency, and in detail, a temperature sensor, a humidity sensor, an illuminance sensor, a fine dust sensor, and a CO ₂ sensor. A sensor unit that detects indoor environmental information, a data storage unit that receives and stores environmental information transmitted from the sensor unit, and changes in real-time power consumption and power consumption trends based on the stored environmental information A data analysis unit that calculates power status information including information, and compares the calculated power status information with a predetermined power consumption range, and when the real-time power consumption exceeds the power consumption range, the corresponding home appliance A control server including a control command generating unit generating an energy saving control command for the control server, and a hub device controlling the operation of the corresponding home appliance by transmitting a control signal according to the energy saving control command transmitted from the control server to the corresponding home appliance. and a terminal connected to the control server through wireless communication to receive and output the power status information.

Description

Smart home system for energy efficiency {Smart home system for energy efficiency}

The present invention relates to a smart home system for energy efficiency, and more particularly, by collecting and analyzing data related to indoor power consumption, to remotely control home appliances provided in the room, including air conditioners, humidifiers, and air purifiers. It is a technology related to a smart home system for energy efficiency to realize energy efficiency by enabling optimal power consumption for each situation.

The government announced that it would establish comprehensive IT-based smart power saving measures, including the expansion of energy saving management systems such as BEMS (Building Energy Management System) and FEMS (Factory Energy Management System), in order to improve energy demand management efficiency in "Power Supply and Demand Forecasts and Measures". .

In Korea, demand for electricity is increasing as the proportion of power-consuming industries (manufacturing, etc.) continues to increase. In addition, demand for non-industrial electricity is greatly increasing as the supply of air conditioners and heaters has rapidly increased due to repeated abnormal temperatures (heat waves, cold waves), but the power supply reserve is rapidly declining due to frequent failures of nuclear power generation facilities. Therefore, energy saving and management measures are urgently required.

On the other hand, Korean Patent Publication No. 10-2014-0086252 (Patent Document 1) discloses "a method for measuring electric energy savings and an energy management system applying the same", and the energy management method according to this is disclosed in an electric energy using device controlling energy use; Calculating an amount of electric energy saved by the control step; And it is characterized in that it provides information on the amount of electric energy savings calculated in the calculation step.

In the case of Patent Document 1 as described above, it is possible to calculate the amount of electric energy saved by the energy use control process of the electric energy using device, so it is not known whether there will be an effect of identifying the energy saving effect by the energy management system, but energy saving And it has not been able to suggest concrete ways to perform management more efficiently.

Korean Patent Publication No. 10-2014-0086252 (2014.07.08)

The present invention has been made to solve the above problems, and an object of the present invention is to collect and analyze data related to indoor power consumption, and use the analysis data to remotely control home appliances provided in the room to obtain optimal power. It is to provide a smart home system for energy efficiency that can perform energy saving and management more efficiently by enabling consumption.

The present invention, a temperature sensor, a humidity sensor, an illuminance sensor, a fine dust sensor and a CO ₂ sensor A sensor unit that detects indoor environmental information, a data storage unit that receives and stores environmental information transmitted from the sensor unit, and changes in real-time power consumption and power consumption trends based on the stored environmental information A data analysis unit that calculates power status information including information, and compares the calculated power status information with a predetermined power consumption range, and when the real-time power consumption exceeds the power consumption range, the corresponding home appliance A control server including a control command generating unit generating an energy saving control command for the control server, and a hub device controlling the operation of the corresponding home appliance by transmitting a control signal according to the energy saving control command transmitted from the control server to the corresponding home appliance. and a terminal connected to the control server through wireless communication to receive and output the power status information.

In addition, preferably, the fire risk level and whether or not a fire occurs for the home appliances provided in the room are monitored in real time, and emergency alarm information is generated when the fire risk level exceeds a predetermined standard or when it is confirmed that a fire has occurred. It is characterized in that it comprises a real-time monitoring unit to.

According to the present invention, a sensor unit for detecting indoor environmental information, a data storage unit for receiving and storing environmental information transmitted from the sensor unit, and real-time power consumption and power consumption trend change information based on the stored environmental information A data analysis unit that calculates power status information and compares the calculated power status information with a preset power consumption range, and saves energy for the home appliance when the real-time power consumption exceeds the power consumption range. A control server including a control command generation unit for generating control commands, and a hub device for controlling the operation of the corresponding home appliance by transmitting a control signal according to an energy saving control command transmitted from the control server to the corresponding home appliance, , There is an effect that energy saving and management can be performed more efficiently by automatically or remotely controlling home appliances provided in the room so that they can consume optimal power.

1 is a block diagram of a smart home system for energy efficiency according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a smart home system for energy efficiency, and more particularly, by collecting and analyzing data related to indoor power consumption, to provide lighting devices, air conditioners, air conditioners, humidifiers, dehumidifiers, ventilators, and air conditioners. As a technology related to a smart home system for realizing energy efficiency by remotely controlling devices to consume optimal power for each situation, the configuration of the smart home system according to the present invention will be described in detail below. See Figure 1.

1 is a block diagram of a smart home system for energy efficiency according to the present invention.

As shown in FIG. 1, the smart home system 1000 is composed of a sensor unit 100, a control server 200, a hub device 300, and a terminal 400, each of which is a wired/wireless communication network. are communicatively connected.

First, the sensor unit 100 includes a temperature sensor, a humidity sensor, an illuminance sensor, a fine dust sensor, and a CO ₂ sensor. and detects indoor environment information.

In detail, the sensor unit 100 measures environmental information including temperature, humidity, illuminance, fine dust concentration, and CO ₂ concentration, and transmits it to the control server 200 to be described later through wired or wireless communication.

The temperature sensor can know the season based on the measured temperature value, and can be used as a reference signal for controlling the air conditioning and heating device when the temperature reaches a preset temperature, above or below.

The humidity sensor may control a dehumidifier or a humidifier device to maintain a constant indoor humidity according to the measured humidity.

The illuminance sensor can detect the illuminance of a lighting device or outdoor illuminance, distinguish night and daytimes according to the brightness of the sensed illuminance, and appropriately adjust indoor brightness according to nighttime and daytime.

The fine dust sensor may be used as a reference signal for controlling a ventilation fan or an air conditioner by detecting the amount of fine dust and air quality in the room.

The CO ₂ sensor detects the concentration of carbon dioxide in the room and may be used as a reference signal for controlling a ventilator or an air conditioner.

Also, preferably, the sensor unit 100 may further include a power sensor provided in each home appliance provided in the room, and the power sensor includes a lighting device, an air conditioner, a humidifier, a dehumidifier, a ventilator, and an air conditioner. Power consumption used by a plurality of home appliances for a preset period of time may be collected and used as a reference signal for controlling a device of a specific home appliance that is used in excess of a preset appropriate consumption strategy amount.

Next, the control server 200 receives the indoor environment information, analyzes the indoor power status information based thereon, and when the power consumption exceeds the preset power consumption range, the corresponding home appliance is provided to save energy. As a configuration for generating a control command for, it is configured to include a data storage unit, a data analysis unit, and a control command generation unit.

The data storage unit receives and stores environmental information transmitted from the sensor unit 100, and the data analysis unit calculates power condition information including real-time power consumption and power consumption trend change information based on the stored environment information.

Specifically, the data analysis unit is based on environmental information collected at regular time intervals according to the XAI (Explainable Artificial Intelligence) algorithm, including real-time power consumption trend analysis, electricity rates that dynamically change according to time zone and power consumption, In addition to analyzing and providing indoor power consumption patterns by hour or season,

Power demand management based on the power consumption pattern analysis and distribution of usage time may be calculated to calculate an appropriate indoor power consumption range and driving control conditions of the home appliance according to the range.

The driving control conditions include operating conditions of home appliances to adjust environmental information including temperature, humidity, illumination, fine dust concentration, and CO ₂ concentration within an appropriate range,

Operating conditions related to power consumption, such as operation of home appliances, normal range of incoming voltage, normal range of incoming current, normal range of output voltage, normal range of output current, etc. It is also possible to be configured in a specified range or configured in a range in which only one of the minimum and maximum values is specified.

Configurations included in the control conditions listed above are examples, and are not limited thereto.

In addition, the XAI (Explainable Artificial Intelligence) algorithm is a series of processes that allow human users to understand and trust the results and outputs created by machine learning algorithms. is omitted.

In addition, home appliances refer to electrical devices including lighting devices, air conditioners, air conditioners, humidifiers, dehumidifiers, ventilators, and air conditioners as devices for controlling room temperature, humidity, illumination, fine dust concentration, and CO ₂ concentration.

The control command generating unit compares the calculated power status information with a preset power consumption range, and generates an energy saving control command for the corresponding home appliance when real-time power consumption exceeds the power consumption range.

More specifically, when the real-time power consumption exceeds the appropriate power consumption range, an energy saving control command is immediately generated to minimize power consumption by generating indoor environment information and a control command for controlling the operation of the corresponding home appliance. can create

The energy saving control command is generated based on driving control conditions of the home appliance calculated through the data analysis unit.

Also preferably, the control server 200 monitors in real time the fire risk level and whether or not a fire has occurred for the home appliances provided in the room, and when it is confirmed that the fire risk level exceeds a predetermined standard or a fire has occurred. It may further include a real-time monitoring unit for generating emergency alarm information.

When the home appliance is driven, the real-time monitoring unit receives driving state information including heating temperature, input power, and output power through a temperature sensor or power sensor provided in each home appliance, and monitors the information in real time. If the fire risk exceeds the preset standard as the status information exceeds the preset fire safety limit standard, or if it is confirmed that a fire has occurred, overvoltage or overcurrent of the incoming power, overvoltage or overcurrent of the output power, abnormal heat Emergency alarm information including the cause of the problem is generated and transmitted to the terminal 400 to be described later.

That is, the present invention enables integrated monitoring of power status information of home appliances, but enables individual monitoring of driving states of a plurality of home appliances, so that when a problem occurs, the cause of the problem can be quickly identified It works.

Next, the hub device 300 is a configuration for controlling the operation of the corresponding home appliance by transmitting a control signal according to the energy saving control command transmitted from the control server 200 to the corresponding home appliance, in detail IR It is configured to transmit and receive control signals directly through (infrared) sensors, and since IR signals can be emitted in a 360-degree direction, there is an effect of remotely controlling a plurality of nearby home appliances with one unit.

In addition, preferably, the hub device 300 is preferably connected to the control server 200 to transmit and receive data through wireless communication including ZigBee, LoRa, and WiFi.

This is to provide highly reliable data by narrowing the data transmission/reception time difference caused by the existing wired communication connection method.

Next, the terminal 400 is connected to the control server 200 through wireless communication to receive and output the power status information, and a control command for controlling indoor home appliances can be input, and the power status information can be input. A control app, web, or software that can check contextual information in real time can be executed.

In addition, the terminal 400 may be provided in the form of mobile phones, smart phones, notebook computers, tablet PCs, personal digital assistants (PDAs), portable multimedia players (PMPs), and watch type terminals 400 .

That is, the terminal 400 allows the user to remotely input a control command of the home appliance, as well as check the indoor power status information remotely in real time, so that when a problem occurs, it can be immediately checked and responded to. .

This concludes the description of the smart home system according to the present invention.

The above description is merely an example of the technical idea of the present invention, and those skilled in the art can make various modifications, changes, and substitutions without departing from the essential characteristics of the present invention. will be.

Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings. . The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

1000: smart home system
100: sensor unit
200: control server
300: hub device
400: terminal

Claims (2)

Temperature sensor, humidity sensor, light sensor, fine dust sensor and CO ₂ sensor A sensor unit for detecting indoor environment information, including at least one of the following;
A data storage unit for receiving and storing environmental information transmitted from the sensor unit, and a data analysis unit for calculating power condition information including real-time power consumption and power consumption trend change information based on the stored environment information; A control server including a control command generation unit that compares the power status information with a preset power consumption range, and generates an energy saving control command for the home appliance when real-time power consumption exceeds the power consumption range;
a hub device controlling the operation of the corresponding home appliance by transmitting a control signal according to the energy saving control command transmitted from the control server to the corresponding home appliance; and
A smart home system for energy efficiency, comprising: a terminal connected to the control server through wireless communication and receiving and outputting the power status information.
According to claim 1,
The control server,
Including a real-time monitoring unit that monitors in real time the fire risk and whether or not a fire has occurred for home appliances provided in the room, and generates emergency alarm information when the fire risk exceeds a predetermined standard or when it is confirmed that a fire has occurred A smart home system for energy efficiency, characterized in that.

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