KR101334209B1 - Living room management system and method for relaxing - Google Patents

Abstract

The present invention is capable of divided heating by a plurality of users, and according to the user's life cycle, optimal living room control, that is, temperature, humidity, ventilation, lighting color and brightness, etc., customized living room operation for relaxation A system and method thereof are provided.
Driving method of the living room operating system of the present invention, the initial setting step of reading the sound source setting mode, the rest mode set in the key setting unit; The living room control MCU may include an illuminance sensor signal loading step of reading an illuminance sensor signal, which is an output signal of the illuminance sensor; The living room control MCU may determine whether the rest mode read in the initial setting step is a reading mode, and if the reading mode reads a preset reading reference illuminance and reading reference color temperature to generate a lighting control signal and outputs a reading mode determination step; The living room control MCU determines whether the resting mode read in the initial setting step is the TV mode if the reading mode is not the reading mode, and reads the preset TV standard illumination and TV reference color temperature in the TV mode. A TV mode judging step of generating and outputting an illumination control signal; The living room control MCU determines whether the resting mode read in the initial setting step is the meditation mode if the TV mode is not the TV mode, and reads the preset meditation reference illuminance and the meditation reference color temperature in the meditation mode. Determining whether or not the meditation mode generates and outputs a control signal; The living room control MCU, if it is not the meditation mode as a result of the determination of the meditation mode, the other mode, the other mode step of reading the preset other reference illuminance and other reference color temperature to generate and output the lighting control signal; It is characterized by.

Description

Living room management system and method for relaxing

The present invention relates to a living room operating system and method for relieving tension, and more specifically, it is possible to divide and heat a plurality of users, and according to the user's life cycle, the optimum living room environment control, that is, temperature, humidity, ventilation, The present invention relates to a customized living room operating system and method for relieving tension, such as controlling color and brightness of lighting.

The living room is a space where families live together, and the living room, which is a space where you can relax with your family, is an important space for modern people who suffer from stress (tension) and heavy work.

Living room control tailored to Westerners is not suitable for Asians, and even more so for Asians. In particular, Koreans often watch TV in the living room, read or do other activities.

 Therefore, a Korean health living room operation algorithm and system for inducing tension among Korean health home models are desired. In particular, a Korean healthy living room operation algorithm and a system in which color temperature and illumination are controlled differently according to a TV mode, a reading mode, and the like are desired.

In addition, modern people are important to personal life, it is desired to be divided heating for each user in one living room.

In addition, since a lot of studies have been reported that the sound of nature is effective in reducing tension, it is desired to be made to provide a natural sound according to the TV mode, reading mode, meditation mode, guitar mode and the like.

In addition, although a system for controlling indoor heating or a system for controlling indoor ventilation has been studied conventionally, a system for integrating and controlling temperature, humidity, ventilation, and color and brightness of lighting has not been developed at present.

 Therefore, the present invention is capable of split heating by a plurality of users, and according to the user's life cycle, control of appropriate natural sound and optimal living environment, that is, temperature, humidity, ventilation, color and brightness of lighting, etc. We propose a customized living room operating system and method for relieving tension.

The problem to be solved by the present invention, a plurality of users can be divided heating, according to the user life cycle, the appropriate sound of nature and the optimal living room control, that is, temperature, humidity, ventilation, lighting color and brightness To provide a customized living room operating system and method for relieving tension, such as controlling the back.

In order to solve the problem of the present invention, the living room operating system of the present invention, the living room operating system comprising a living room control MCU (Micro controller) for receiving the illumination signal from the illumination sensor unit to generate a lamp control signal and transmit it to the lamp; The apparatus further includes a key setting unit configured to select a reading mode by including a reading mode setting key, and the living room control MCU provides an illumination control signal having an illuminance of 500 lx and a reference color temperature of 5500 K in the reading mode. It generates and outputs to the lamp.

In addition, the living room operating system of the present invention, the living room operating system comprising a living room control MCU (Micro controller) for receiving the illumination signal from the light sensor to generate a lamp control signal and transmits to the lamp, TV mode setting key And a key setting unit configured to select a TV mode, and the living room control MCU generates an illumination control signal having an illuminance of 150 lx and a reference color temperature of 4000 K when outputting to a lamp. It features.

In addition, the living room operating system of the present invention, in the living room operating system comprising a living room control MCU (Micro controller) for receiving the illumination signal from the light sensor to generate a lamp control signal and transmits to the lamp, the meditation mode setting key It is further provided with a key setting unit configured to select the meditation mode, the living room control MCU, in the meditation mode, the illuminance is 100lx, the reference color temperature to generate a light control signal of 3000K to output to the lamp It features.

In addition, the living room operating system of the present invention, the living room operating system comprising a living room control MCU (Micro controller) for receiving the illumination signal from the light sensor to generate a light control signal to transmit to the light, reading mode setting key Also, a key setting unit including a TV mode setting key, a meditation mode setting key, and a other mode setting key is further provided. The living room control MCU has a light intensity of 100 lx when the guitar mode is not a reading mode, a TV mode, a meditation mode, The reference color temperature is characterized in that for generating an illumination control signal of 3000K and output to the lamp.

In addition, the living room operating system of the present invention, the living room operating system comprising a living room control MCU (Micro controller) for receiving a temperature signal from the temperature sensor unit generates a temperature control signal and transmits it to the heating unit, the temperature sensor unit Floor temperature detection temperature sensor installed at each divided position of the floor of the living room, and air temperature detection temperature sensor spaced apart from the floor of the living room, the heating unit is divided into heating floor heating unit and air in the living room It is equipped with an air heating unit for adjusting the temperature, the living room control MCU generates a floor temperature control signal of the split position of the living room floor using the floor temperature sensor signal and the floor reference temperature signal received from the floor temperature detection temperature sensor It is characterized in that the output to the heating unit.

The bottom reference temperature is 30 ° C.

In addition, the living room operating system of the present invention, a living room operating system comprising a living room control MCU (Micro controller) for receiving a temperature signal from the temperature sensor unit to generate a temperature control signal and transmits it to the heating unit, the partition of the living room floor And a key setting unit including a living room floor partitioning position setting key for setting a position in the divided portion and a temperature setting key for setting a temperature of a position designated by the living room floor partitioning position setting key, wherein the temperature sensor unit includes: Floor temperature detection temperature sensor installed at each divided position of the floor, and air temperature detection temperature sensor spaced from the floor of the living room, the heating unit is divided into the heating floor floor heating unit and the air temperature of the living room It is provided with an air heating unit to adjust, the living room control MCU, receives the living room floor divided position and the set temperature from the key setting unit, Receive the bottom temperature sensor signal, which is the floor temperature signal detected from the Doc temperature detection temperature sensor, and generate the floor temperature control signal of the floor area of the living room using the floor temperature sensor signal and the set temperature, and output it to the floor heating unit. It is characterized by.

The present invention further includes a humidity sensor unit, and the living room control MCU generates a humidifier control signal from a humidity signal received from the humidity sensor unit and a preset reference humidity to the humidifier unit, and the reference humidity is 40-70%.

The present invention further includes a carbon dioxide sensor unit, the living room control MCU generates a ventilation control signal from the carbon dioxide concentration signal received from the carbon dioxide sensor unit and a preset reference ventilation amount, and transmits it to the ventilation unit, and the reference ventilation amount is 0.7 times / time of ventilation. h.

The present invention further includes a noise sensor unit, and the living room control MCU generates a noise control signal and transmits the noise control unit to the noise control unit if the noise signal detected from the noise sensor is greater than a predetermined reference noise, and the reference noise is 40 dB.

According to the present invention, the key setting unit further includes a natural sound sound setting key, and when a sound source is set among natural sound including rain sound through the natural sound sound setting key, the sound source of the natural sound set through the speaker is output.

In addition, the driving method of the living room operating system of the present invention, the initial setting step of reading the sound source setting mode, the rest mode set in the key setting unit; The living room control MCU may include an illuminance sensor signal loading step of reading an illuminance sensor signal, which is an output signal of the illuminance sensor; The living room control MCU may determine whether the rest mode read in the initial setting step is a reading mode, and if the reading mode reads a preset reading reference illuminance and reading reference color temperature to generate a lighting control signal and outputs a reading mode determination step; The living room control MCU determines whether the resting mode read in the initial setting step is the TV mode if the reading mode is not the reading mode, and reads the preset TV standard illumination and TV reference color temperature in the TV mode. A TV mode judging step of generating and outputting an illumination control signal; The living room control MCU determines whether the resting mode read in the initial setting step is the meditation mode if the TV mode is not the TV mode, and reads the preset meditation reference illuminance and the meditation reference color temperature in the meditation mode. Determining whether or not the meditation mode generates and outputs a control signal; The living room control MCU, if it is not the meditation mode as a result of the determination of the meditation mode, the other mode, the other mode step of reading the preset other reference illuminance and other reference color temperature to generate and output the lighting control signal; It is characterized by.

The present invention includes a temperature sensor signal loading step of receiving a temperature sensor signal from the bottom temperature detection temperature sensor located in the divided part of the floor and the air temperature detection temperature sensor located at a spaced apart position from the floor; The floor temperature control signal generation step of generating a floor temperature control signal and outputting the floor temperature control signal to the floor heating unit by using the floor temperature sensor signals and the floor reference temperature signals respectively received from the floor temperature detection temperature sensors in the temperature sensor signal loading step. ; Generating an air temperature control signal by using the temperature sensor signal received from the air temperature detection temperature sensor in the temperature sensor signal loading step and an air reference temperature signal, and outputting the air temperature control signal to the air heating unit; It is done by

The present invention, the humidity sensor signal loading step of reading the humidity sensor signal; And generating a humidity control signal which is driven to increase or decrease by a difference between the humidity sensor signal, which is a humidity signal detected by the humidity sensor, and the preset reference humidity value, and output the humidity control signal to the humidifier unit.

The present invention, the carbon dioxide sensor signal loading step of reading the carbon dioxide sensor signal that is the output signal of the carbon dioxide sensor; And a ventilation control signal generation step of generating a ventilation control signal using the carbon dioxide sensor signal and a preset reference ventilation amount and outputting the ventilation control signal.

The present invention includes a noise sensor signal loading step of reading a noise sensor signal which is an output signal of the noise sensor; Determining whether the noise sensor signal is less than or equal to the reference noise, and if the noise level is greater than the reference noise, generating a noise control signal and outputting the noise control signal to the noise controller.

According to the customized living room operating system and method of the present invention, it is possible to divide and heating a plurality of users, according to the user life cycle, appropriate natural sound and optimal living environment control, that is, temperature, humidity, ventilation, lighting To provide a customized living room operating system and method for relaxation of tension, controlling the color and brightness of the.

1 is a block diagram schematically illustrating the configuration of a customized living room operating system for relaxing tension according to an embodiment of the present invention.
2 is an explanatory diagram schematically illustrating a method for operating a customized living room for relieving tension according to an embodiment of the present invention.
3 is an example of a flowchart illustrating a method of driving a customized living room operating system for relieving tension of the present invention.
4 is an explanatory diagram schematically illustrating a house operating system including a living room operating system of the present invention.

 Hereinafter, a customized living room operating system for reducing tension according to an embodiment of the present invention and a method thereof will be described in detail with reference to the accompanying drawings.

First, the reference ranges and reference values specified in the present invention are known in advance that they use known data or data obtained through a survey or experiment.

FIG. 1 is a block diagram schematically illustrating a configuration of a customized living room operating system for relieving tension according to an embodiment of the present invention. The signal detection unit 100, a living room control MCU (Micro controller) 200, and a memory 210 are illustrated in FIG. The display unit 220 includes a key setting unit 240, a speaker unit 250, and a driving control unit 300.

The signal detection unit 100 is a means for measuring temperature, humidity, carbon dioxide, illuminance, and noise in a living room, and includes a temperature sensor unit 110, a humidity sensor unit 120, a carbon dioxide (CO ₂ ) sensor unit 130, and an illuminance sensor. The unit 140, and comprises a noise sensor unit 150.

The temperature sensor unit 110 includes a temperature sensor (not shown) and a temperature signal preprocessor (not shown) to detect a temperature signal from the temperature sensor (not shown) and to detect the temperature detected by the temperature signal preprocessor (not shown). Amplify the signal, remove the noise, and transmits to the living room control MCU (200). Temperature sensor unit 110 is a temperature sensor, a temperature sensor for detecting a floor temperature mounted on the living room floor (not shown) and an air temperature detection temperature sensor mounted at a position spaced apart from the living room floor to know the air temperature of the living room ( Not shown). A temperature sensor for floor temperature detection is provided for each floor division position.

As a temperature sensor, an infrared (IR) temperature sensor, a thermistor, etc. can be used. The living room floor is divided into a number of parts to enable divided heating.

The humidity sensor unit 120 includes a humidity sensor (not shown) and a humidity signal preprocessor (not shown) to detect a humidity signal with a humidity sensor (not shown) and detected by the humidity signal preprocessor (not shown). Amplify the humidity signal, remove the noise, and transmits to the living room control MCU (200). Humidity sensor Ceramic humidity sensor, polymer humidity sensor, electrolyte humidity sensor, ultrasonic hygrometer, thermal conductivity humidity sensor, etc. can be used.

The carbon dioxide (CO ₂ ) sensor unit 130 includes a carbon dioxide sensor (not shown) and a carbon dioxide signal preprocessor (not shown), and detects a carbon dioxide signal (ie, a concentration signal) with a carbon dioxide sensor (not shown). The carbon dioxide signal detected by the signal preprocessor (not shown) is amplified, noise is removed, and transmitted to the living room control MCU 200. As a carbon dioxide sensor, an infrared gas sensor (NDIR), a chemical gas sensor, or the like can be used.

The noise sensor unit 150 includes a noise sensor (not shown) and a noise signal preprocessor (not shown) to detect a noise signal from the noise sensor (not shown) and to detect noise from the noise signal preprocessor (not shown). Amplify the signal, remove the noise, and transmits to the living room control MCU (200). As the noise sensor unit 150, a microphone and a commercially available noise sensor may be used.

The illuminance sensor unit 140 includes an illuminance sensor (not shown) and an illuminance signal preprocessor (not shown) to detect an illuminance signal from the illuminance sensor (not shown) and illuminance detected from the illuminance signal preprocessor (not shown). Amplify the signal, remove the noise, and transmits to the living room control MCU (200). As the illuminance sensor, CDS sensor, UV sensor, solar panel sensor, etc. can be used.

Living room control MCU (Micro controller) 200 is a signal detection unit 100, that is, the temperature sensor unit 110, humidity sensor unit 120, carbon dioxide (CO ₂ ) sensor unit 130, the illumination sensor unit 140 , And receives a temperature signal, a humidity signal, a carbon dioxide signal, an illuminance signal, a noise signal from the noise sensor unit 150, and receives a set value of temperature, humidity, illuminance, and a rest mode from the key setting unit 240.

The living room control MCU 200 generates a floor heating control signal by arithmetic processing using the floor temperature signal received from the floor temperature detection temperature sensor and the floor temperature set value set by the key setting unit 240 to generate a floor heating control signal. The floor heating unit (not shown) is transmitted. When there is no floor temperature set value set in the key setting unit 240, the floor reference temperature stored in the memory unit 210 is received and set as the set value. The bottom reference temperature may be 30 ° C.

The living room control MCU 200 generates an air heating control signal by performing arithmetic processing using the air temperature signal received from the air temperature detection temperature sensor and the air temperature set value set by the key setting unit 240 to generate an air heating control signal. Transfer to an air heating unit (not shown). The air reference temperature may be 22 ° C.

If there is no air temperature set value set in the key setting unit 240, the air reference temperature stored in the memory unit 210 is received and set as the set value. Here, the air temperature reference range may be 24-26 degrees, and does not exceed 28.1 degrees in summer.

The living room control MCU 200 generates a humidifier control signal by performing arithmetic processing using the received humidity signal and the humidity set value set by the key setting unit 240, and transmits the generated humidifier control signal to the humidifier unit 330. If there is no humidity setting value set in the key setting unit 240, the humidity reference range stored in the memory unit 210 is received and set as the setting value. Here, the humidity reference range is determined according to age. For example, the humidity humidity reference range is 40 to 70%, more preferably 50%.

The living room control MCU 200 receives a carbon dioxide sensor signal which is a carbon dioxide concentration signal from the carbon dioxide sensor unit 130, reads a reference ventilation amount from a memory, generates a ventilation control signal, and transmits it to the ventilation unit 340. Here, the reference ventilation amount may be a ventilation frequency of 0.7 times / h. In addition, the living room control MCU 200 may generate a ventilation control signal for ventilating when the concentration of the received carbon dioxide signal is 1000ppm or more, and may transmit the ventilation control signal to the ventilation unit 340.

The living room control MCU 200 receives a noise signal from the noise sensor unit 150, reads reference noise from a memory, generates a noise control signal using these two signals, and transmits the noise control signal to the noise controller 370. The reference noise can be about 40 dB.

The living room control MCU 200 outputs a sound source selected from natural sound, meditation, classic, new age, etc. to the speaker 250 in the audio selection mode of the key setting unit 240.

The living room control MCU 200 generates an illumination control signal by performing arithmetic processing using the received illuminance signal and the preset reference illuminance signal from the illuminance sensor unit 140 and transmits it to the illuminator 350.

The living room control MCU 200 sets a rest mode, for example, reading, TV, meditation, or the like, in the key setting unit 240 to control the lighting control signal having a color temperature and illuminance suitable for the lighting unit 350. send.

The following shows the color temperature and illuminance for each resting mode.

In Table 1, meditation can be set up like a guitar mode.

That is, when the reading mode is set to the resting mode in the key setting unit 240, the living room control MCU 200 generates and outputs an illumination control signal such that the color temperature of the lamp is 5500K and the illuminance is 500lx.

In addition, when the TV mode is set to the rest mode in the key setting unit 240, the living room control MCU 200 generates and outputs an illumination control signal such that the color temperature of the lamp is 4000K and the illuminance is 150lx.

In addition, when the other mode is set to the rest mode in the key setting unit 240, the living room control MCU 200 generates and outputs a lighting control signal such that the color temperature of the lamp is 4000K and the illuminance is 100lx.

In addition, the living room control MCU 200 performs monthly, weekly and daily statistical processing from temperature signals, humidity signals, carbon dioxide signals, illuminance signals, and noise signals of the living room, and outputs them to the display unit 220 or the memory 210. ).

The memory 210 stores a reference range for the temperature, humidity, carbon dioxide, illuminance, noise, and reference values at the time of factory shipment, and stores user information. In addition, the memory 210 may store data output from the living room control MCU, and may store a temperature signal, a humidity signal, a carbon dioxide signal, an illuminance signal, a noise signal, and the like.

The display unit 220 displays a temperature signal, a humidity signal, a carbon dioxide signal, an illumination signal, a noise signal, and the like of the current living room, and also displays monthly, weekly, and daily statistics.

The key setting unit 240 is provided with an on-off key, a general keypad, etc., to set an on / off key, and to select one among natural sound, meditation, classic, new age, etc. in the sound source setting mode, and also rest. You can set the mode (e.g., reading, TV, meditation, etc.). In some cases, the key setting unit 240 may be configured as a user interface to input a key while viewing the screen on the display unit 220. The key setting unit 240 may further include a living room floor split position setting key for setting a position in a partitioned portion of the living room floor, and a temperature setting key for setting a temperature at a position designated by the living room floor split position setting key. have.

The speaker 250 may output music specified by the user, and may broadcast a announcement about the living room environment, such as that the temperature is too high.

The driving control unit 300 is an air conditioning unit 305 (that is, the air conditioner 310, the heating unit 320), the humidifier 330, the ventilation unit 340, the lamp 350, noise control unit 370 It is made, including. The driving control unit 300 receives a cooling control signal, a heating control signal, a humidifier control signal, a ventilation control signal, an lighting control signal, a curtain control signal, and a noise removing control signal from the living room control MCU 200. That is, the air conditioner 310, the heating unit 320), the humidifier unit 330, the ventilation unit 340, the living room brightness control unit 345 (that is, the lighting unit 350, the curtain unit 360), the noise The controller 370 is driven.

Air conditioning unit 305 is composed of the air conditioning unit 310 and the heating unit 320, the air conditioning unit 310 is an air conditioner provided in the living room, is driven in accordance with the cooling control signal received from the living room control MCU 200, The heating unit 320 is a heating of the living room, and comprises a floor heating unit 323, air heating unit 328. It is driven according to the heating control signal received from the living room control MCU (200). Here, the air heating unit 328 may be a heater, a radiator, an air conditioner, or the like.

The humidifier 330 is a humidifier provided in the living room and is driven according to the humidifier control signal received from the living room control MCU 200. Humidifier unit 330 is to maintain 50% in the case of humidity, 60% in the case of elderly people (60 years or older).

The ventilation unit 340 is a means for ventilating the living room and is driven according to the ventilation control signal received from the living room control MCU 200. The ventilation unit 340 may be an air conditioner, an air purifier, or the like.

In the present invention, in the case of ventilation by using a sensor of carbon dioxide, if the carbon dioxide concentration is more than 1000ppm using a system that is automatically ventilated, or the user can directly ventilate by the required amount by adjusting the number of resetters, Ventilation is usually maintained at 0.7 / h.

The lighting unit 350 is a living room lighting, and is driven according to the lighting control signal received from the living room control MCU 200.

The noise control unit 370 is a means for reducing noise in the living room and is driven according to the noise control signal received from the living room control MCU 200.

The noise control unit 370 may include a means for controlling the volume of the TV, audio, etc. in the living room to reduce the noise below the noise reference value. In addition, the noise control unit 370 is based on Korean Patent No. 10-1018783. It can be made including a noise control device made. The noise control device may include: an acquirer that is located outdoors and measures sound pressure of a sound; an acoustic analyzer that calculates a direction and speed of the sound based on the measured sound pressure; and an indoor unit based on the calculated direction and speed of the sound. It includes an internal sound field prediction unit for predicting the sound field of, and a noise removing unit for controlling the noise of the room based on the predicted sound field of the room.

In some cases, the noise sensor unit 150 and the noise control unit 370 may be omitted.

2 is an explanatory diagram schematically illustrating a method for operating a customized living room for relieving tension according to an embodiment of the present invention.

 In the case of the living room temperature, since the air temperature is 22 degrees and the floor temperature is 30 degrees, which is particularly good for humans to rest, in the present invention, the air temperature of the living room is maintained at 22 degrees, and the floor temperature is maintained at 30 degrees. Is driven to.

In particular, the floor is maintained using split heating. In this case, the split heating refers to the special warming or the warming of the floor of the area selected by the user.

 Humidity is to maintain 50%, ventilation is also to maintain a ventilation frequency of 0.7 / h.

 In case of sound, the noise is made to be maintained at 40 dB or less, and additionally, because introducing a natural sound may help the relaxation, the present invention includes a configuration that can selectively listen to the natural sound.

3 is an example of a flowchart illustrating a method of driving a customized living room operating system for relieving tension of the present invention, which is performed by the living room control MCU 200.

In the initial setting step, the sound source setting mode, the relaxation mode (for example, reading, TV, meditation, etc.) set in the key setting unit 240 is read (S110).

In the humidity sensor signal loading step, the humidity sensor signal is read (S115).

In the humidity control signal generating step, a humidity sensor signal, that is, generates a humidity control signal for driving to increase or decrease by a difference between the humidity signal detected by the humidity sensor and the predetermined reference humidity value and outputs it to the humidifier 330 (S120). . The reference humidity is about 40-70%, more preferably about 50%.

In the step of loading the carbon dioxide sensor signal, the output signal of the carbon dioxide sensor, that is, the carbon dioxide sensor signal is read (S125).

In the step of generating a ventilation control signal, a ventilation control signal is generated using a carbon dioxide sensor signal and a reference ventilation amount and output to the ventilation unit 340 (S130). The standard ventilation can be 0.7 times / h of ventilation.

In the noise sensor signal loading step, the output signal of the noise sensor, that is, the noise sensor signal is read (S135).

In the noise control signal generation step, it is determined whether the noise sensor signal is less than or equal to the reference noise (S140). If the noise is greater than the reference noise, the noise control signal is generated and output to the noise control unit 370 (S145). Here, the reference noise may be about 40 dB.

In some cases, the noise sensor signal loading step S140 and the noise control signal generating steps S135 and S145 may be omitted.

In the step of loading the temperature sensor signal, an output signal of the temperature sensor, that is, a temperature sensor signal is read (S150). That is, the temperature sensor signal, that is, the temperature sensor signal is received from the bottom temperature detection temperature sensors located in the divided portion of each floor and the air temperature detection temperature sensors located at a spaced apart position from each floor.

In the step of generating the floor temperature control signal, the floor temperature control signal is generated by using the floor temperature sensor signals and the floor reference temperature signals received from the floor temperature detection temperature sensors in the step of loading the temperature sensor signal. Output (S155). The bottom reference temperature may be 30 ° C.

In the step of generating the air temperature control signal, by using the temperature sensor signal received from the air temperature detection temperature sensor and the air reference temperature signal in the step of loading the temperature sensor signal, an air temperature control signal is generated and output to the air heating unit (S160). ). The air reference temperature may be 22 ° C.

In the step of loading the illuminance sensor signal, an output signal of the illuminance sensor, that is, the illuminance sensor signal is read (S165).

In the reading mode or not determining step, it is determined whether the rest mode read in the initial setting step is the reading mode (S170), and if the reading mode, reads the preset reading reference illumination and reading reference color temperature to generate and output an illumination control signal. (S175). The reading reference illuminance may be 500 lx and the reading reference color temperature may be 5500K.

In the TV mode determination step, if the reading mode determines whether the reading mode is not the reading mode, it is determined whether the resting mode read in the initial setting step is the TV mode (S180). The reference color temperature is read and an illumination control signal is generated and output (S185). The TV reference illumination may be 150 lx and the TV reference color temperature may be 4000K.

In the meditation mode determination step, if the TV mode determination result is not the TV mode, it is determined whether the rest mode read in the initial setting step is the meditation mode (S190), if the meditation mode, the preset meditation standard illumination and meditation The reference color temperature is read and an illumination control signal is generated and output (S195). The meditation reference illuminance may be 100 lx and the meditation reference color temperature may be 3000K.

In the guitar mode step, if the result of the determination of the meditation mode is not the meditation mode, since it is the guitar mode, it reads the preset other reference illuminance and other reference color temperature and generates and outputs an illumination control signal (S200). Other reference illuminance may be 100lx, and other reference color temperature may be 3000K.

In the present invention, the temperature sensor unit is provided with a temperature sensor for detecting the bottom temperature installed at each divided position of the floor of the living room, and a temperature sensor for detecting the air temperature spaced apart from the floor of the living room, the heating unit is a floor heating to divide the heating floor of the living room An air heating unit for adjusting the air temperature of the room and the living room is provided. The living room control MCU receives the living room floor split position and set temperature from the key setting unit, receives a floor temperature sensor signal, which is a floor temperature signal detected from the floor temperature detection temperature sensor, and receives the floor temperature sensor signal and the set temperature. By using this, a floor temperature control signal of the living room floor splitting position may be generated and output to the floor heating unit. At this time, the key setting unit includes a living room floor partitioning position setting key for setting a position in the partitioned portion of the living room floor, and a temperature setting key for setting the temperature of the position designated by the living room floor partitioning position setting key.

4 is an explanatory diagram schematically illustrating a housing operating system including a living room operating system of the present invention. The main operating system 10, a bedroom operating system 60, a living room operating system 70, and a children's room operating system 80 are illustrated. )

The main operating system 10 receives and stores data such as temperature, humidity, ventilation, and lighting from the bedroom operating system 60, the living room operating system 70, and the children's room operating system 80, and stores and manages the data on a monthly and daily basis. Statistical processing can be done. The main operating system 10 includes a main operation processing unit 20, a memory unit 30, an output unit 40, and a transceiver unit 50.

The main operation processing unit 20 receives data such as temperature, humidity, ventilation, and lighting from the bedroom operating system 60, the living room operating system 70, and the children's room operating system 80, and performs statistical processing on a monthly and daily basis. do.

The memory unit 30 receives and stores data such as temperature, humidity, ventilation, and lighting from the bedroom operating system 60, the living room operating system 70, and the children's room operating system 80 from the main operation processing unit 20. do.

The output unit 40 outputs the output of the main operation processing unit 20.

The transmitter / receiver 50 transmits the output of the main operation processor 20 to the outside (for example, PDA, smart phone, personal PC, etc.), and transmits the request received from the outside to the main operation processor 20. .

Living room operating system 70 refers to the living room operating system of the present invention.

Here, the bedroom operating system 70 includes a temperature sensor unit having a temperature sensor and outputting a temperature sensor signal, which is a temperature signal in the bedroom detected by the temperature sensor; A humidity sensor unit having a humidity sensor and outputting a humidity sensor signal which is a humidity signal in the bedroom detected from the humidity sensor; An illuminance sensor unit having an illuminance sensor and outputting an illuminance sensor signal which is an illuminance signal in the bedroom detected from the illuminance sensor; A carbon dioxide sensor unit configured to output a carbon dioxide sensor signal, which is a carbon dioxide concentration signal detected by the carbon dioxide sensor; Output noise sensor unit; Receives a temperature sensor signal from the temperature sensor unit to generate a heating and cooling control signal, receives a humidity sensor signal from the humidity sensor unit to generate a humidifier control signal, and receives an illuminance sensor signal from the illuminance sensor unit to receive a lamp control signal And a bedroom control MCU (Micro controller) for generating a noise control signal by generating a noise sensor signal to the noise sensor unit and receiving a carbon dioxide sensor signal from the carbon dioxide sensor unit and generating a ventilation control signal. .

The children's room operating system 80 may be configured to control temperature, humidity, ventilation, color and brightness of lighting, etc., depending on age and concentration needs.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Modification is possible. Accordingly, it is intended that the scope of the invention be defined by the claims appended hereto, and that all equivalent or equivalent variations thereof fall within the scope of the present invention.

10: main operating system 70: living room operating system
100: signal detection unit 110: temperature sensor unit
120: humidity sensor unit 130: carbon dioxide sensor unit
140: light sensor unit 150: noise sensor unit
200: living room control MCU 210: memory
220: display unit 240: key setting unit
250: speaker unit 300: drive control unit
305: Air conditioning unit 310: Air conditioning unit
320: heating unit 323: floor heating unit
328: air heating unit 330: humidifier unit
340: ventilation section 350: lighting
360: curtain part 370: noise control unit

Claims (21)

Receives an illuminance signal from the illuminance sensor unit, generates a lamp control signal and transmits it to the lamp unit, receives a temperature signal from the temperature sensor unit generates a temperature control signal and transmits it to the heating unit, including a living room control MCU (Micro controller) ,
The temperature sensor unit is provided with a temperature sensor for detecting the floor temperature installed in each divided position of the floor of the living room, and a temperature sensor for detecting the air temperature installed from the floor of the living room,
The heating unit is provided with a floor heating unit for heating the divided floor and the air heating unit for adjusting the air temperature of the living room,
In the living room control MCU generates a floor temperature control signal of the split position of the living room floor using the floor temperature sensor signal and the floor reference temperature signal received from the floor temperature detection temperature sensor, and outputs to the floor heating unit,
In the meditation mode, the living room control MCU generates an illumination control signal having an illuminance of 100 lx and a reference color temperature of 3000 K. The meditation mode setting key is provided to select a meditation mode. Output,
Further comprising a humidity sensor unit, the living room control MCU, generates a humidifier control signal from the humidity signal received from the humidity sensor unit and a predetermined reference humidity to transmit to the humidifier unit,
The living room control system further includes a noise sensor, wherein the living room control MCU generates a noise control signal and transmits the generated noise control signal to the noise control unit if the noise signal detected from the noise sensor is greater than a predetermined reference noise. The method of claim 1,
It is provided with a reading mode setting key, and further comprising a key setting unit configured to select a reading mode,
The living room control MCU, when in the reading mode, the illuminance is 500lx, the reference color temperature generates a light control signal of 5500K and outputs to the lamp. The method of claim 1,
It is provided with a TV mode setting key, further comprising a key setting unit configured to select a TV mode,
The living room control MCU, when in TV mode, the illuminance is 150lx, the reference color temperature generates a light control signal of 4000K and outputs to the lamp. The method of claim 1,
It further includes a key setting unit having a reading mode setting key, TV mode setting key, meditation mode setting key, other mode setting key,
The living room control MCU is a living room operating system, characterized in that in the other modes other than reading mode, TV mode, meditation mode, the illuminance is 100lx, the reference color temperature generates 3000K and outputs the light control signal to the lamp. delete The method of claim 1,
Floor reference temperature is a living room operating system, characterized in that 30 ℃. The method of claim 1,
And a key setting unit including a living room floor partitioning position setting key for setting a position in a partitioned portion of the living room floor, and a temperature setting key for setting a temperature at a position designated by the living room floor partitioning position setting key,
Living room control MCU,
When receiving the living room floor split position and set temperature from the key setting unit,
Receive a floor temperature sensor signal, which is a floor temperature signal detected from the floor temperature detection temperature sensor,
Living room operating system, characterized in that by using the floor temperature sensor signal and the set temperature, generates a floor temperature control signal of the living room floor split position and outputs to the floor heating unit. delete The method according to any one of claims 1 to 4, 6 and 7,
The reference humidity is a living room operating system, characterized in that 40-70%. The method according to any one of claims 1 to 4, 6 and 7,
Further provided with a carbon dioxide sensor,
The living room control MCU generates a ventilation control signal from the carbon dioxide concentration signal received from the carbon dioxide sensor and a preset reference ventilation amount, and transmits the generated ventilation control signal to the ventilation unit. 11. The method of claim 10,
The reference ventilation amount is a living room operating system, characterized in that the number of ventilation 0.7 times / h. delete The method of claim 1,
Living room operating system, characterized in that the reference noise is 40dB. The method according to any one of claims 1 to 4, 6 and 7,
The key setting unit further includes a natural sound setting key,
When the sound source is set out of the natural sound including the rain sound through the natural sound sound setting key, the living room operating system, characterized in that for outputting the sound source of the natural sound set through the speaker. delete delete An initial setting step of reading a sound source setting mode and a rest mode set in the key setting unit;
The living room control MCU may include an illuminance sensor signal loading step of reading an illuminance sensor signal, which is an output signal of the illuminance sensor;
The living room control MCU may determine whether the rest mode read in the initial setting step is a reading mode, and if the reading mode reads a preset reading reference illuminance and reading reference color temperature to generate a lighting control signal and outputs a reading mode determination step;
The living room control MCU determines whether the resting mode read in the initial setting step is the TV mode if the reading mode is not the reading mode, and reads the preset TV standard illumination and TV reference color temperature in the TV mode. A TV mode judging step of generating and outputting an illumination control signal;
The living room control MCU determines whether the resting mode read in the initial setting step is the meditation mode if the TV mode is not the TV mode, and reads the preset meditation reference illuminance and the meditation reference color temperature in the meditation mode. Determining whether or not the meditation mode generates and outputs a control signal;
If the living room control MCU is not the meditation mode as a result of the determination of the meditation mode, the other mode, the other mode step of reading the preset other reference illuminance and other reference color temperature to generate and output the lighting control signal;
Method of driving a living room operating system, characterized in that consisting of. 18. The method of claim 17,
A temperature sensor signal loading step of receiving a temperature sensor signal from a floor temperature detection temperature sensor located at a split portion of the floor and an air temperature detection temperature sensor located at a distance from the floor;
The floor temperature control signal generation step of generating a floor temperature control signal and outputting the floor temperature control signal to the floor heating unit by using the floor temperature sensor signals and the floor reference temperature signals respectively received from the floor temperature detection temperature sensors in the temperature sensor signal loading step. ;
An air temperature control signal generation step of generating an air temperature control signal and outputting the air temperature control signal to the air heating unit by using the temperature sensor signal received from the air temperature detection temperature sensor in the temperature sensor signal loading step and the air reference temperature signal;
Method of driving a living room operating system, characterized in that further comprises a. 19. The method of claim 18,
A humidity sensor signal loading step of reading a humidity sensor signal;
A humidity control signal generation step of generating a humidity control signal which is driven to increase or decrease by a difference between a humidity sensor signal, which is a humidity signal detected by the humidity sensor, and a preset reference humidity value, and outputting the humidity control signal to the humidifier unit;
Method of driving a living room operating system, characterized in that further comprises a. 19. The method of claim 18,
A carbon dioxide sensor signal loading step of reading a carbon dioxide sensor signal which is an output signal of the carbon dioxide sensor;
A ventilation control signal generation step of generating a ventilation control signal using a carbon dioxide sensor signal and a preset reference ventilation amount and outputting the ventilation control signal;
Method of driving a living room operating system, characterized in that further comprises a. 19. The method of claim 18,
A noise sensor signal loading step of reading a noise sensor signal which is an output signal of the noise sensor;
Determining whether the noise sensor signal is less than or equal to the reference noise and, if greater than the reference noise, generates a noise control signal and outputs the noise control signal to the noise controller;
Method of driving a living room operating system, characterized in that further comprises a.

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