JP2016070553A - Air supply machine for moisture retention, air supply control system for moisture retention and operation management system for household electric appliance - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an operation management system of a household electric appliance which has strengthened coordination between an energy-saving operation of an air supply machine for moisture retention and an air conditioner.SOLUTION: An air supply machine for moisture retention has a moisture retention operation automatic adjustment function in which sleeping time data acquired by a sleeping time determination device 24 or sleeping time data acquire by a sleeping time determination unit 24 which is inside an integrated management device 5 is supplied to the air supply machine 20 for moisture retention via the integrated management device 5 or a communication unit of an information communication terminal device 25, and in a sleeping time zone shown in the data regarding the sleeping time, the air supply machine 20 for moisture retention starts and finishes an operation. A human detection sensor is provided at the air supply machine 20 for moisture retention which detects that there is a user at a supply destination of high humidity air of the air supply machine for moisture retention. The air supply machine for moisture retention has a control program in which, in the case where it is detected that there is no user in a proper position before or during the start of a moisture retention operation, waste of power consumption is avoided by automatically retaining or interrupting start of the moisture retention operation.SELECTED DRAWING: Figure 23

Description

  The present invention relates to operation management of home appliances that can control a personal humidifier that humidifies a specific area such as an individual, and a home appliance such as a control system and a moisturizing air supply unit and other home appliances. About the system.

  As a conventional personal humidifier, a water storage container (tank) and a blower are provided inside a container-shaped main body case, and water supplied from the water storage container is supplied as humidified air to the outside of the main body case by the blower. A construction is proposed (see, for example, Patent Document 1).

  Further, in order to easily adjust the wind speed and blowing temperature of the humidified air, air direction adjusting means is provided at the air outlet formed on the upper surface of the main body case, and a cylindrical nozzle is detachably provided at the air outlet. The thing is proposed (for example, refer patent document 2).

  In addition, a humidifier of a type in which humidified air reaches the target area such as the user's face by further radiating ultrasonic waves to the fine particle mist generated by the heating evaporation method to enlarge the particle size of the water Has been proposed (see, for example, Patent Document 3).

  Furthermore, a humidifier employing a method for generating nano-sized mist has been proposed. According to this, the humidifier is made of an insulating material and is provided with a mist case having a mist discharge port, an electrode (for discharge) disposed in the case, and moisture in the air. Water supply means for supplying water to the electrode, voltage application means for applying a high voltage to the electrode, and a cooling unit for cooling the electrode. Then, when a high voltage is applied to the water supplied to the electrode, a nano-sized mist is generated in the vicinity of the electrode, and the nano-sized mist is directed toward the living space from the discharge port provided in the ceiling portion of the mist case. Released (see, for example, Patent Document 4).

Japanese Patent Laying-Open No. 2014-20707 (first page, FIG. 2) JP 2014-36689 A (first page, FIG. 2) JP 2010-65919 A (first page, FIG. 1) JP2013-135931A (first page, FIG. 1)

By the way, it is generally said that one of the great merits on the human (user) side who receives humidified air is that the feeling of moisturizing the skin increases. However, in the conventional various types of personal humidifiers described above, no consideration is given to the relationship with the user's sleep. In other words, it is effective to supply air with a moisturizing effect at the time of good sleep because the relationship with high-quality sleep is very important for moisturized skin and beautiful skin. There was much room for improvement in this respect.
In addition, since this type of personal humidifier does not supply a large amount of moisturizing air, the moisturizing effect as expected cannot be obtained unless the moisturizing air is supplied toward the target position such as the user's face. Although it was important to be able to supply moisturizing air to the user, there was room for improvement with respect to this point as well.

  The present invention provides a moisturizing air supply machine and a moisturizing air supply control system that can supply moisturizing air during sleep of a user. Moreover, it is providing the operation management system of the household appliances for using household appliances, such as an air supply machine for moisture retention, effectively.

  As described below, the first and second inventions relate to a moisturizing air supply machine, the third and sixth inventions relate to a moisturizing air supply control system, and the fourth, fifth and seventh inventions. The present invention relates to a home appliance operation management system.

The air supply machine for moisturizing according to the first invention is
A main body having an air outlet for blowing out moisture-retaining air;
A steam generator provided inside the main body and generating steam for the moisturizing air;
An electric blower for generating an air flow for blowing out the steam of the steam generating section from the outlet into the room;
A control unit for controlling the steam generation unit and the electric blower;
An operation unit for inputting operating conditions to the control unit from outside the main body;
A display unit for displaying an input result of the operation unit;
A communication unit for exchanging signals with the outside;
A human sensor for detecting the presence of a person on an extension line of the direction of release of the moisturizing air;
In the air supply machine for moisturizing with
A storage unit that stores a driving program for determining a moisturizing operation, and stores data of a sleeping time period received through the communication unit,
The operation unit has an input key for instructing the control unit to automatically adjust the operation time of the moisturizing operation so that the moisturizing operation starts and ends during the sleep time period stored in the storage unit. Provided,
Further, the control unit shifts to a standby mode in which power consumption is reduced when a person cannot be detected by the human sensor within a predetermined time after a user gives a driving start command. Is.

  According to the air supply device for moisturizing of the first aspect of the invention, the operation of automatically adjusting the operation time of the moisturizing operation is performed so as to start and end the moisturizing operation in the sleep time zone. be able to. For this reason, moisturizing operation can be performed automatically during the user's sleep. In addition, useless power consumption can be suppressed by shifting to the standby mode.

The air supply machine for moisturizing according to the second invention is
A main body having an air outlet for blowing out moisture-retaining air;
A steam generator provided inside the main body and generating steam for the moisturizing air;
An electric blower for generating an air flow for blowing out the steam of the steam generating section from the outlet into the room;
A control unit for controlling the steam generation unit and the electric blower;
An operation unit for inputting operating conditions to the control unit from outside the main body;
A display unit for displaying an input result of the operation unit;
A communication unit for exchanging signals with the outside;
A human sensor for detecting the presence of a person on an extension line of the direction of release of the moisturizing air;
In the air supply machine for moisturizing with
A storage unit for storing an operation program for determining moisturizing operation;
A storage unit for storing data of a sleeping time period received via the communication unit,
The control unit causes the storage unit to store the data of the sleep time period received via the communication unit,
Further, the operation unit has an input key for instructing the control unit to automatically adjust the operation time of the moisturizing operation so that the moisturizing operation is started and ended during the sleep time period stored in the storage unit. Provided,
Further, after the controller generates steam from the steam generator and starts a moisturizing operation, the presence sensor is monitored by the human sensor, and power consumption is reduced when the user cannot detect the presence of the user. It is characterized by shifting to the interrupt mode.

  Since it is this structure, according to the air supply machine for moisturizing of this 2nd invention, the driving | running time of moisturizing operation is adjusted automatically so that moisturizing driving | operation may be started and ended in a sleep time zone. Such an operation can be performed. For this reason, moisturizing operation can be performed automatically during the user's sleep. Moreover, useless power consumption can be suppressed by shifting to the interruption mode.

The air supply control system for moisturizing according to the third invention is:
A moisturizing air supply,
A sleep determination device that receives biological information from a sleep sensor to measure a sleep time of a sleeping person and determines a sleep time zone;
An integrated management device that obtains determination data indicating a sleep time zone from the sleep determination device, and provides data indicating the sleep time zone to the moisturizing air supply device via wireless communication means,
The moisturizing air supply machine has a device-side storage unit that stores data indicating a sleep time zone transmitted from the integrated management device, and a control unit that controls the moisturizing operation,
Based on the data indicating the sleep time zone acquired from the integrated management device, the control unit of the moisturizing air supply unit moisturizes so that the moisturizing operation is started and ended during the sleep time zone. Has an operation program that matches the timing of operation,
The moisturizing air supply machine is provided with a human detection sensor that detects the presence of a person on an extension line in the direction of discharge of the moisturizing air,
The integrated management device operates the moisturizing air supply unit so that the moisturizing operation starts and ends during the period from when the sleep determination device detects a person's falling asleep to when the sleep is detected. Control
If the human sensor cannot detect the presence of a person at the stage before the start of the moisturizing operation, the integrated management device temporarily stops the acquisition of data related to sleep time from the sleep determination device, and The data relating to sleep time acquired in the above is stored in a storage device.

  Because of this configuration, according to the moisturizing air supply control system of the third aspect of the invention, the moisturizing air supply is received from the sleep determination unit and based on the sleep data transmitted from the control device by wireless communication, During the sleep period, the moisturizing operation can be automatically started and ended. For this reason, moisturizing operation can be performed automatically during the user's sleep. If the presence of the user can no longer be detected at the stage before the start of driving, the integrated management device temporarily stops the acquisition of the data related to the sleep time from the sleep determination device, and the data related to the sleep time acquired so far Can be stored in a storage device.

The operation management system for home appliances according to the fourth invention is:
A power command device that individually communicates with a plurality of household electrical appliances including a moisturizing air supply unit, controls the household electrical appliances individually, and controls the total amount of power in the home,
A sleep determination device that receives biological information from a sleep sensor to measure a sleep time of a sleeping person and determines a sleep time zone;
An information communication terminal device including a wireless communication unit that performs short-distance wireless communication with a moisturizing air supply,
The power command device has a storage device for storing data indicating a sleep time zone acquired by wireless communication from the sleep determination device,
The moisturizing air supply unit includes a device-side communication unit that can establish a communication state with the wireless communication unit, a device-side storage unit that stores data read from the device-side communication unit, and a direction of releasing the moisturizing air A human detection sensor for detecting the presence of a person on the extension line of, and a control unit for changing the condition of the moisturizing operation according to the detection result of the human detection sensor,
The information communication terminal device reads the sleep time data stored in the storage device of the power command device via the wireless communication unit, and the wireless communication is performed on the device side storage unit of the moisturizing air supply device. Send through the department,
The control unit stores the sleep time data received from the device-side communication unit in the device-side storage unit,
Further, the control unit of the air supply device for moisturizing automatically adjusts the timing of the moisturizing operation so that the time zone of the moisturizing operation overlaps the sleep time zone stored in the device-side storage unit. It is.

  Because of this configuration, according to the operation management system for home appliances of the fourth aspect of the invention, the operation time of the moisturizing operation is automatically adjusted so that the moisturizing operation is started and ended during the sleep time period. It is possible to perform such an operation. For this reason, moisturizing operation can be performed automatically during the user's sleep. Moreover, the conditions of the moisturizing operation can be automatically changed according to the presence or absence of the user.

The home appliance operation management system according to the fifth invention is
An integrated control device that individually communicates with a plurality of household electrical appliances including a portable moisturizing air supply and an air conditioner, and individually controls those household electrical appliances;
A sleep determination device that receives biological information from a sleep sensor that measures the sleep time of a sleeping person and determines a sleep state; and
A first wireless communication unit that communicates with the integrated control device via a wide-area communication network; and a second wireless communication unit that communicates via a home communication network or via a short-range wireless communication unit. Comprising an information communication terminal device,
The power command device includes an input unit that receives information indicating a sleep determination result from the sleep determination device, and an environment detection unit that measures an environment such as a temperature of a living space where a user of the moisture retention air supply machine is present. And a storage device that stores the sleep time zone data acquired by the sleep determination device and the environment data transmitted from the environment detection unit in pairs in time series,
The moisturizing air supply device includes a device-side first communication unit that can establish a communication state with the integrated control device, and a device-side second device that can establish a communication state with the information communication terminal device by short-range wireless communication. A wireless communication unit, a device-side storage unit that stores data read from these two device-side communication units, an operation unit that inputs an operation start command and operating conditions, and an input result of the operation unit A display screen, a human detection sensor that detects the presence of a person on an extension line in the direction of release of the moisturizing air, and a control unit that changes the condition of the moisturizing operation according to the detection result of the human detection sensor,
The control unit of the moisturizing air supply machine stores the sleep time zone data transmitted from the central control device in the device-side storage unit,
Further, the controller of the air supply device for moisturizing automatically operates the operation of automatically adjusting the timing of the moisturizing operation so that the moisturizing operation is started and ended in the sleep time stored in the device-side storage unit. Done
The control unit of the moisturizing air supply unit measures the sleep time zone data stored in the device-side storage unit according to the input operation of the operation unit, and the environment detection unit measures the sleep time. Environmental data is displayed on the display screen.

  Because of this configuration, according to the operation management system for home appliances of the fifth aspect of the invention, the operation time of the moisturizing operation is automatically adjusted so that the moisturizing operation is started and ended during the sleep time period. It is possible to perform such an operation. For this reason, moisturizing operation can be performed automatically during the user's sleep. Moreover, the conditions of the moisturizing operation can be automatically changed according to the presence or absence of the user. Furthermore, the display unit of the air supply device for moisturizing can display sleep time zone data stored in the storage unit and environmental data such as temperature measured at the time of measuring the sleep time.

The air supply control system for moisturizing according to the sixth invention is:
A moisturizing air supply,
Integrated management that has a sleep determination processing unit that receives living body information from a sleep sensor to measure a sleep time of a sleeper and determines a sleep time zone, and provides the sleep determination data to the air supply device for moisturizing An apparatus,
The moisturizing air supply machine has a device-side storage unit that stores data indicating a sleep time zone transmitted from the integrated management device, and a control unit that controls the moisturizing operation,
Based on the data indicating the sleep time zone acquired from the integrated management device, the control unit of the moisturizing air supply unit moisturizes so that the moisturizing operation is started and ended during the sleep time zone. Has an operation program that matches the timing of operation,
The moisturizing air supply machine is provided with a human detection sensor that detects the presence of a person on an extension line in the direction of discharge of the moisturizing air,
The integrated management device controls the operation time of the moisturizing air supply unit so that the start and end of the moisturizing operation is performed during the period from the time of falling asleep detected by the sleep determination processing unit to the time of awakening. And
If the human sensor cannot detect the presence of a person at the stage before the start of the moisturizing operation, the integrated management device stores data relating to sleep time acquired so far from the sleep determination processing unit in a storage device. It is characterized by this.

  With this configuration, according to the moisture retention air supply control system of the sixth aspect of the present invention, the moisture retention air supply unit is based on the sleep data received from the sleep determination processing unit and sent from the integrated management device by wireless communication. Thus, the moisturizing operation can be automatically started and ended during the sleep time period. For this reason, moisturizing operation can be performed automatically during the user's sleep. Moreover, when it becomes impossible to detect the presence of the user at the stage before the start of driving, the integrated management device temporarily stops the acquisition of the data related to the sleep time from the sleep determination processing unit, and relates to the sleep time acquired so far Data can be stored in a storage device.

The home appliance operation management system according to the seventh invention is:
A moisturizing air supply,
A power command device that individually communicates with a plurality of home appliances including the air supply machine for moisturizing, controls the home appliances individually, and controls the total amount of power in the home,
An information communication terminal device including a wireless communication unit that performs short-distance wireless communication with a moisturizing air supply,
In the power command device, a sleep determination processing unit that receives biological information from a sleep sensor and measures a sleep time zone to measure a sleep time of a sleeper, and a sleep time zone acquired from the sleep determination processing unit are shown. A storage device for storing data,
The moisturizing air supply unit includes a device-side communication unit that can establish a communication state with the wireless communication unit, a device-side storage unit that stores data read from the device-side communication unit, and a direction of releasing the moisturizing air A human detection sensor for detecting the presence of a person on the extension line of, and a control unit for changing the condition of the moisturizing operation according to the detection result of the human detection sensor,
The information communication terminal device reads the sleep time data stored in the storage device of the power command device via the wireless communication unit, and the wireless communication is performed on the device side storage unit of the moisturizing air supply device. Send through the department,
The control unit stores the sleep time data received from the device-side communication unit in the device-side storage unit,
Further, the control unit of the moisturizing air supply unit automatically adjusts the moisturizing operation time so that the moisturizing operation is completed within the sleep time based on the sleep time zone data stored in the device-side storage unit. It is characterized by this.

  Because of this configuration, according to the operation management system for household electrical appliances of the seventh aspect of the invention, the operation time of the moisturizing operation is automatically adjusted so that the moisturizing operation is started and ended during the sleep period. It is possible to perform such an operation. For this reason, moisturizing operation can be performed automatically during the user's sleep. Moreover, the conditions of the moisturizing operation can be automatically changed according to the presence or absence of the user.

  According to the present invention, according to the present invention, in a moisturizing air supply device for individuals, automatic operation is possible in accordance with a user's sleep time zone, and a moisturizing air supply device having a high moisturizing effect, and a moisturizing air supply device. An air supply control system and a home appliance operation management system can be realized. In addition, an energy saving effect can be expected by avoiding useless moisturizing operation when the user is absent.

The schematic diagram of one household to which the air supply machine for moisturizing concerning Embodiment 1 of the present invention is applied. The conceptual diagram which shows the external communication structure of one household to which the air supply machine for moisturizing which concerns on Embodiment 1 of this invention is applied. The block diagram of the operation management system of household appliances containing the electric power instruction | command apparatus which concerns on Embodiment 1 of this invention. The center part longitudinal cross-sectional view of the air supply machine for moisturizing which concerns on Embodiment 1 of this invention. The block diagram which shows the internal structure of the information communication terminal device used for the operation management system of the household appliances which concerns on Embodiment 1 of this invention. The block diagram of the air supply machine for moisturizing which concerns on Embodiment 1 of this invention. Explanatory drawing 1 which shows control operation | movement of the electric power instruction | command apparatus and moisturizing air supply machine which concern on Embodiment 1 of this invention. Explanatory drawing 1 which shows control operation | movement of the information communication terminal device and the air supply machine for moisturizing which concern on Embodiment 1 of this invention. Explanatory drawing 2 which shows the control operation of the information communication terminal device which concerns on Embodiment 1 of this invention, and the air supply machine for moisture retention. FIG. 1 is a flowchart showing a control operation of a moisturizing air supply device according to Embodiment 1 of the present invention. FIG. 1 is a flowchart showing a control operation of an information communication terminal device according to Embodiment 1 of the present invention. The front view 1 of the information communication terminal device of FIG. The front view 2 of the information communication terminal device of FIG. FIG. 1 is a flowchart 1 showing an operation of a control unit of a power command device according to Embodiment 1 of the present invention. The front view 3 of the information communication terminal device of FIG. The front view 4 of the information communication terminal device of FIG. The front view 1 which shows the operation part and display screen of a moisturizing air supply machine. The front view 2 which shows the operation part and display screen of a moisturizing air supply machine. Explanatory drawing which shows the transmission / reception of the various command signals between the moisturizing operation of the air supply machine for moisturizing which concerns on Embodiment 1 of this invention, and an electric power command apparatus, and an alerting signal in time series. The block diagram which shows the whole structure of the communication adapter, the electric power instruction | command apparatus, and household appliances which show the modification of Embodiment 1 of this invention. The flowchart figure which shows the operation | movement step of the operation management system in Embodiment 1 of this invention. The front view which shows the display screen of the air supply machine for moisture retention of FIG. FIG. 2 is a flowchart showing a control operation of the moisturizing air supply device according to the first embodiment of the present invention. FIG. 3 is a flowchart showing a control operation of the moisturizing air supply device according to Embodiment 1 of the present invention. FIG. 2 is a flowchart showing an operation of a control unit of the power command apparatus according to Embodiment 1 of the present invention. It is a block diagram of the sleep determination apparatus (sleep determination part) which concerns on Embodiment 1 of this invention. Explanatory drawing which showed transmission / reception of the various signals between the three persons of the integrated management apparatus of the system which concerns on Embodiment 2 of this invention, a sleep determination apparatus, and a moisturizing air supply machine in time series. The flowchart figure which shows the operation | movement step of the operation management system in Embodiment 3 of this invention. The front view which shows the display screen of the air supply machine for moisturizing of FIG. The display screen example of the TV receiver which is one of the household appliances controlled by the operation management system of the household appliance which concerns on Embodiment 3 of this invention, and the schematic diagram of a remote control. The display screen example of the TV receiver 2 of the operation management system of the household appliances which concerns on Embodiment 4 of this invention, and the schematic diagram of a remote control. The front view 1 which shows another example of the display screen of TV receiver 2 of FIG. The front view 2 which shows another example of the display screen of TV receiver 2 of FIG. The front view 3 which shows another example of the display screen of TV receiver 2 of FIG. The front view 4 which shows another example of the display screen of TV receiver 2 of FIG. It is a flowchart figure which shows a series of operation | movement steps in which the integrated management apparatus 5 requests | requires the operating condition confirmation of an air conditioner via TV receiver.

Embodiment 1 FIG.
The first embodiment will be described below with reference to FIGS.
FIG. 1 is a schematic diagram of one household to which a moisturizing air supply device according to Embodiment 1 of the present invention is applied. FIG. 2 is a conceptual diagram showing an external communication configuration of one home to which the moisturizing air supply device according to Embodiment 1 of the present invention is applied. FIG. 3 is a configuration diagram of the home appliance operation management system according to Embodiment 1 of the present invention. FIG. 4 is a vertical cross-sectional view of the central portion of the moisturizing air supply device according to Embodiment 1 of the present invention. FIG. 5 is a block diagram showing an internal configuration of the information communication terminal device used in the system according to Embodiment 1 of the present invention. FIG. 6 is a block diagram of the air supply machine for moisturizing according to Embodiment 1 of the present invention. FIG. 7 is an explanatory diagram 1 showing a control operation of the power command device and the moisturizing air supplier according to Embodiment 1 of the present invention. FIG. 8 is an explanatory diagram 1 showing control operations of the information communication terminal device and the moisturizing air supply device according to Embodiment 1 of the present invention. FIG. 9 is an explanatory diagram 2 showing a control operation of the information communication terminal device and the moisturizing air supply device according to Embodiment 1 of the present invention. FIG. 10 is a flowchart 1 showing a control operation of the moisture-retaining air supply device according to Embodiment 1 of the present invention. FIG. 11 is a flowchart 1 showing a control operation of the information communication terminal device according to Embodiment 1 of the present invention. 12 is a front view 1 of the information communication terminal device of FIG. 13 is a front view 2 of the information communication terminal device of FIG. FIG. 14 is a flowchart 1 showing the operation of the control unit 36 of the power command device 5 according to Embodiment 1 of the present invention. 15 is a front view 3 of the information communication terminal device of FIG. 16 is a front view 4 of the information communication terminal device of FIG. FIG. 17 is a front view 1 showing an operation unit and a display screen of a moisturizing air supply machine. FIG. 18 is a front view 2 showing an operation unit and a display screen of a moisturizing air supply machine. FIG. 19 is an explanatory diagram showing, in time series, transmission / reception of various command signals and notification signals between the moisturizing operation of the moisturizing air supply device according to Embodiment 1 of the present invention and the power command device. FIG. 20 is a block diagram showing an overall configuration of a communication adapter, a power command device, and a home appliance, showing a modification of the first embodiment of the present invention. FIG. 21 is a flowchart showing operation steps of the operation management system according to Embodiment 1 of the present invention. 22 is a front view showing a display screen of the moisturizing air supply device of FIG. 21. FIG. FIG. 23 is a flowchart 2 showing a control operation of the air supply machine for moisturizing according to Embodiment 1 of the present invention. FIG. 24 is a flowchart 3 showing a control operation of the air supply machine for moisturizing according to Embodiment 1 of the present invention. FIG. 25 is a flowchart 2 showing an operation of the control unit 36 of the power command device 5 according to Embodiment 1 of the present invention. FIG. 26 is a block diagram showing an internal configuration of the sleep determination device (sleep determination unit) according to Embodiment 1 of the present invention.

(Definition)
In the present invention, the “home appliance” EE refers to an electrical device designed mainly for use at home. The moisturizing air supply unit 20, the household appliance KP in the kitchen, and the TV receiver 2 described later. Used for image equipment such as air conditioner 3, air treatment machine such as air purifier and air deodorizer, heating equipment such as electric stove, vacuum cleaner, electric washing machine (including drying function), bath Including hot water supply equipment (including a hot water supply tank). In the following description, the term “home appliance” includes a moisturizing air supply unless otherwise specified.

In the present invention, the “identification information” of the home appliance EE is information for specifying the home appliance EE, which is information specific to the home appliance EE, and is necessary for accurate repair and inspection. Information. For example, specifically, the following is included in the identification information, but is not limited thereto. The home appliance EE will be described in detail later.
(1) Manufacturer name of home appliances (2) Model name (3) Model number (4) Rated power consumption (5) Date of purchase (In many cases, this is the date of the quality assurance period of the manufacturer or distributor. )
(6) Date of commencement of use (for dishwashers, this is the date of “statutory check”)
(7) Quality Guarantee Number “Legal check” in (6) above is the “Long-term product safety check system” established by the “Consumer Product Safety Act” revised and enforced on April 1, 2009 "Inspection by". In addition, the “Electrical Appliance and Material Safety Law”, which is separate from this law, has created a long-term product safety labeling system due to the revision of the Ordinance of the Technical Standards. Regarding the above standard use period and aging deterioration, it is obliged to display warnings etc. to encourage consumers to perform appropriate maintenance inspections. Therefore, the “Production Date” and “Elapsed Year” information calculated from the date of manufacture are displayed in the “Identification Information” of the home appliance EE so that it can be used as a reference for the standard usage period. May be included.
In addition, whether or not it is a “specific home appliance” (environment improvement device) SP1 such as an air conditioner 3 described later is also a part of the identification information, and when performing wireless communication with the power command device 5, the power command device The identification information is provided on the 5 side from the specific home electrical appliance (environment improvement device) SP1 side.

In the present invention, “environmental information” is a general term for “environmental data” itself detected by the environment detection unit 9 and “environmental evaluation information” created based on such environmental data. Including, but not limited to, the following types of information that affect the comfort of a person:
(1) Temperature information (2) Humidity information (3) Dust scattering degree (per unit volume) information (4) Pollen scattering amount information (5) Light quantity (visible light amount) information ・ In other words, information on living space brightness It is.
(6) Noise information: Information on the quietness of the living space.
In the first embodiment, “use of environmental information” means that various household electrical appliances EE, which will be described later, use the environmental information for efficient operation, effective operation, or environmentally friendly operation of the electrical home appliance EE. This includes the following examples:
(1) When the temperature is high, the heat retaining function of the electric rice cooker is operated continuously at the end of the rice cooking process.
(2) In the case of humidity, a dehumidifier that is one type of home appliance EE is operated. Or start the ventilation fan. The operating conditions (target room temperature, etc.) of the air conditioner 3 are changed.
(3) When fine dust that floats in the air is flying, the air cleaner is operated. Or start the ventilation fan.
(4) In the case of pollen scattering amount, the operation of the air cleaner is started.
(5) When the diameter or length is relatively large, and dust or clothes falling on the floor, the self-propelled vacuum cleaner is started.
(6) In the case of light quantity (visible light quantity), the lighting fixture 4 is turned on.
(7) In the case of noise, it is judged that there is no noise and it is a quiet time zone such as midnight, and the operation of the self-propelled vacuum cleaner that generates the operating noise and running noise of the blower motor, the drum for washing and drying Avoid operating the washer / dryer, which generates driving noise from the electric motor that rotates the motor.
In addition, calculating the so-called “discomfort index” based on the relationship between the temperature and humidity and starting the operation of the air conditioner 3 is included.

  In the present invention, “environmental data” refers to data itself indicating physical conditions such as measured temperature and humidity. For example, a temperature of 35 ° C. corresponds to environmental data. Information that has been classified, ranked, or otherwise processed based on the temperature of 35 ° C. through some evaluation standard, calculation processing, or the like corresponds to “environmental evaluation information”. For example, information such as “room temperature is high” and “standard temperature” corresponds to the “environmental evaluation information”.

  In the first embodiment, “sleep time data” refers to data that can specify both the sleep time and the awake time. The present invention is not limited to the case where the data includes both the sleep time and the awake time, and may include data including the start time and the elapsed time (sleep time) from that time. “Sleep determination data” (sometimes referred to as “sleep determination information”) is data indicating the result of analyzing the state of a sleeper in the sleep time period from sleep time to awake time, and the depth of sleep depth. Contains information that can determine the level, that is, the quality of sleep.

Furthermore, in this Embodiment 1, the convenience of a resident improves as follows by using environmental information.
(1) Advice information is given about the use of the home appliance EE to improve the living environment (for example, a ventilation fan or an air cleaner). This advice information ensures the convenience and comfort of the resident.
(2) You can see the home appliance EE that is currently in operation.
(3) You can see the existence / non-existence of people in remote living spaces
(4) Uncomfortable living space with high temperature and high humidity.
(5) When doing indoor exercise, you can find a living space unsuitable for exercise.
(6) If an upper limit value of room temperature is set in order to issue an alarm from the power command device 5, it can be known that there is a room exceeding the set value, and the environment of a remote room is also known. Can do.

Further, the home electric appliance EE that has a good influence on the air in the living space and can be improved may be referred to as “first specific home electric appliance” (“environment improving apparatus”) SP1. In order to maintain and improve the comfort of the indoor space, an electric heater stove that generates heat for heating and an air conditioner 3 are one type of environmental improvement device. On the other hand, maintaining and improving the comfort of the indoor space is not the original purpose, and the home appliance EE such as an electric heating cooker that gives heat to the indoor space may be referred to as a “second specific home appliance SP2”. .
Furthermore, among the plurality of home appliances EE, the one that receives the power reduction request signal AS2 and the power reduction command signal AS3 may be referred to as “first home appliance” and is distinguished from the first home appliance. Therefore, another home appliance may be referred to as a “second home appliance”.

  “Environmental improvement device” SP1 refers to a device that has an effect of improving the temperature, humidity, and quality of air in a living space. When the air quality is improved, the content of harmful substances and dust is reduced, and the air becomes clean.

  The “sleep determination unit” 218 (see FIG. 26) of the present invention refers to a unit that exhibits a function of receiving biological information periodically (predetermined time interval) from the sleep sensor 24S and determining a sleep state. This biological information is, for example, information indicating changes in the heart rate, respiratory rate, and body movement of the living body at the time when the resident is sleeping (when bedtime), but is not limited thereto.

Various sleep detection means and sleep state determination techniques have already been proposed. For example, Japanese Patent Publication No. 2007-199025 proposes a body wearing device with a sleep sensor and a sleep notification control method. Japanese Patent Publication No. 2014-73237 proposes a sleep monitoring system that estimates the sleep state from the breathing of the subject, and Japanese Patent Publication No. 2014-70766 discloses a bed having legs, The load meter that detects the load on the legs installed in the room, the air conditioner that air-conditions the bedroom, and the user's sleep state is determined based on the variation in the load detected by the load meter, and based on the user's sleep state There has been proposed a sleep environment control system including a temperature determination unit that determines a set temperature of an air conditioner and a control board that controls the air conditioner so that the temperature of the bedroom is determined by the temperature determination unit and becomes the set temperature. In Japanese Patent Publication No. 2014-42773, a sleep environment in which optimal control is performed when transitioning from shallow sleep to deep sleep and the user can be guided from shallow sleep to deep sleep without giving a sense of incongruity to the user. A temperature control device has been proposed. As another example, Japanese Patent Publication No. 2013-213642 proposes an indoor environment control system that can provide a comfortable sleeping environment for a sleeping person.
Various techniques and configurations as described above can be applied to the sleep determination unit 218H according to the first embodiment of the present invention.

In the first embodiment, the “at-home detection means” 41 includes the following means, but in the following description of the embodiment, all the means are not described in detail, and only representative means are described in detail. explain.
(1) Means for detecting that the resident has come home from the electronic lock 42 installed outside the entrance (entrance) of the house and the personal identification number or biometric information (for example, fingerprint information) input to the electronic lock.
(2) Personal identification information recorded on a resident ID or ID card, etc., directly to the power command device 5 by magnetic or optical means, or by short-range communication or other communication means Means for reading and decoding the read information to determine that the person is at home.
(3) The personal identification information recorded in the information communication terminal device 25 such as a portable telephone held by a resident is directly read into the power command device 5 by short-range communication or other communication means, and is read. A means of deciphering information and determining that the person is at home.
(4) The personal identification information recorded in the information communication terminal device 25, such as an identification card or ID card unique to the individual, is read into a specific home appliance EE, or an ID number known only by the individual, Means for reading the password into the home appliance EE or inputting it with an input key, decrypting the personal identification information and password on the power command device 5 side, and determining that the read person is at home.

  In the first embodiment, “resident” means a person who lives in one house described later, and includes a parent-child, a brother, a sister, etc. who are related to each other. Visitors staying in the city and others living together. It includes those who borrow one or more living spaces by one or more people. In addition, when using household appliances EE, a resident is called a "user" and when measuring sleep time, the target person may be called a "sleeper."

  In the first embodiment, “household” means one house managed by a specific manager, and may include multiple houses that have a plurality of rooms and a plurality of families. . That is, even in such an apartment house, as in the case of one house, if the upper limit of the commercial power is centrally managed by one power cut-off device (breaker BK), it is regarded as a home here.

  In the first embodiment, “operation information” of the power command device 5 to be described later is information indicating an upper limit total power amount set in one household, information indicating a currently used power amount, Information indicating the difference between the total electric energy and the used electric energy, information such as a name that specifically identifies the household electric appliance EE that is controlled by the electric power command device 5, and information indicating the usage state of the electric household appliance EE The information on the amount of power used in each home appliance EE (for example, the average amount of power for one minute) is referred to, but is not limited thereto.

  In the first embodiment, “storage device” (storage unit) of the moisturizing air supply machine 20 described later refers to one or both of the storage unit 33R of the control device 33 and the NFC storage unit 31 unless otherwise specified. And

  In the first embodiment, “home appliance side power limit information” refers to information related to some signal related to the power consumption received by the home appliance from the power command device 5, and includes a power reduction request signal AS2 and a power reduction which will be described later. The transmission of the command signal AS3 includes information related to the command. Such information includes information indicating the reception time of the signal (time in year and month) and the meaning of the signal. For example, it is information such as “reception time: Jan. 15, 2014, 17:00 seconds, 2% reduction in instantaneous maximum power consumption” for the power reduction command signal AS3 at a certain time for the induction heating cooker. In addition, the power limit information on the home appliance side is stored in time series in the storage device of the control device in the home appliance, for example, the induction heating cooker, and does not disappear even if the main power supply is turned on or off. . Considering that the main power supply is turned on and turned off as one time of cooking, it is stored and held at least several times. The excess is automatically erased sequentially.

  In the first embodiment, the “location information on the home appliance side” is information (code) indicating in which room in the living space HA the home appliance exists. For example, the living room has code 001. When the kitchen is code 002, the bedroom is 003, and the control unit 36 of the power command device 5 is ruled in advance, and the home appliance EE is to be controlled by the power command device 5, The position information is registered in the power command device 5 together with the identification information of the home appliance.

  The built-in type induction heating cooker installed in the kitchen furniture of the kitchen and the air conditioner 3 used by being fixed to the wall or ceiling are not changed. In the case of a (non-portable) home appliance EE, the position information can be used permanently.

  However, in the case of a home appliance EE that is easy to carry to a user at any position, such as a self-propelled electric vacuum cleaner or a moisturizing air supply device 20 that is a subject of the present invention, a power command device 5, the latest position is determined by the power command device 5. As a result of the determination, if the humidifying air supply 20 is present in a certain living space and the humidifying operation is performed, the identification code of the living space at that time is the data of the moisturizing operation of the humidifying air supply 20 ( For example, a pair of operation start time and end time) is stored in a storage unit (second storage unit described later) 36B of the control unit 36 of the power command device 5. In other words, when the moisturizing air supply unit 20 is subsequently moisturized in another living space, an identification code for the other living space is attached and stored in the storage unit of the control unit 36.

Various techniques have been proposed for specifying the position of a home appliance that has established an electrical connection or communication session with the power command device 5 from the power command device 5 side. For example, recently, in Japanese Patent Publication No. 2014-79036, in order to manage the relationship information between a newly introduced home appliance and a power strip, conventionally, the user of the home appliance has to manually enter the information manually. In order to solve the problem of having to register, when a home appliance is connected to the power strip, a device connection detection event is sent from the power strip, and a startup completion event notification is sent from the home appliance. The home appliance (information home appliance) management apparatus that has received one notification registers candidate information indicating which information terminal is inserted into which outlet port in the table. Thereafter, the home appliance management device instructs the power tap to turn off the power to the corresponding outlet, and monitors the communication state with the information home appliance assuming a correlation. As a result of the power-off instruction, when communication with the home appliance assuming the correlation is interrupted, the power-on instruction is again given to the corresponding outlet, and the home appliance and the connected outlet are assumed that the assumed correlation is correct. Register. As a result, the home appliance management apparatus proposes a technology that can automatically detect the correct connection relationship between the outlet and the home appliance without the need for human intervention, and perform automatic registration processing. That is, by grasping the outlet, it is possible to identify the place where the home appliance is used.
Therefore, in the description of the first embodiment, a detailed description of the means for grasping the latest position of the moisturizing air supply machine 20 and other portable electric home appliances is omitted.

(overall structure)
FIG. 1 shows an example of one house to which the power control system of the first embodiment is applied. The present invention can be applied to an apartment house such as a condominium instead of such a detached house.
In FIG. 1, HA1 indicates a living space (bedroom) of one house. HA2 indicates an adjacent living space (kitchen) partitioned by the living space HA1 and the wall SB. Note that HA is used as a reference when generically referring to living spaces. Although the living space is not shown in FIG. 1, there are “living room”, “bathroom”, etc., and there are rooms with toilets. There may be other rooms.

  All living spaces HA are supplied with, for example, 200V of power from a commercial power source EP of an electric power company outside the house. The electric power is drawn into the house through the watt-hour meter 300. Reference numeral 1 denotes a power supply line (main trunk line) connected to the 200 V commercial power supply EP via a breaker BK. The power line includes a television receiver (hereinafter referred to as “TV receiver”) 2, an air conditioner 3, lighting fixtures 4 </ b> A and 4 </ b> B, and kitchen appliances (hereinafter referred to as “home appliances in the kitchen”) KP. Each is connected. In FIG. 1, only one TV receiver 2, air conditioner 3, and home appliance KP in the kitchen are shown, but there may be a plurality of them. Further, the lighting fixtures are not only two, 4A and 4B, but are not shown.

  5 is an electric power command device to which electric power is supplied through the breaker BK, and is installed in a wall-mounted state where the family can easily approach, such as the wall surface of the living space HA2 (kitchen), or the floor surface It is on the top. Note that there are a plurality of other home appliances, such as a dishwasher (not shown), an automatic washing clothes dryer (not shown), and other home appliances, which will be described later. The “power command device” may be referred to as “integrated management device” or “centralized management device”. The reason will be described later.

  In FIG. 1, SL shows the wall surface which comprises the ceiling of living space HA. Reference numeral 6 denotes a composite sensor (temperature / humidity sensor) that detects the air temperature and humidity in the living space HA2, and is a kind of environmental sensor. Reference numeral 7 denotes a temperature / humidity sensor that detects the indoor air temperature and the indoor humidity of the living space HA1, and is a kind of environmental sensor. Reference numeral 8 denotes a temperature sensor installed in the external space of the house, which is a kind of environmental sensor.

  The composite sensor 6, the temperature sensor 8, and the temperature / humidity sensor 7 have a function of transmitting the measured temperature and humidity to the environment detection unit 9 of the power command device 5 described later by radio or electrical signal. The power source may be a charged battery, or may be power from the power line 1. In addition, since the power consumption of these sensors is as small as about 1 W (Watt), even when operating with the power from the power line 1, the power command device 5 does not limit the power consumption. These environmental sensors continuously transmit measurement data to the power command device 5 at a predetermined timing. For example, the temperature and humidity are measured at intervals of 10 minutes in the living space (bedroom) HA2 where the air conditioner 3 is located and at intervals of 5 minutes in the kitchen.

  Although not shown, in addition to the above-described ones, as one type of environmental sensor, a pollen sensor that measures the amount of pollen in the air, a dust sensor that measures the amount of dust per unit volume in the air, A noise sensor for detecting the noise level and an illuminance sensor for detecting the brightness of the room are provided at appropriate positions in each living space. In addition to the temperature / humidity sensor 7, a temperature sensor or humidity sensor for detecting the temperature and humidity outside the room or outside the house may be provided. The pollen sensor is not only indoors but also outdoors (for example, the outer wall surface of the house or It may also be installed on the window frame, veranda, rooftop, etc.). The environment detection unit 9 itself is installed in a place separated from the main body 5A of the power command device 5 or in another living space and connected to the main body 5A wirelessly or by wire. In the invention, it is defined as “equipped in the power command device 5”.

  In FIG. 1, reference numeral 10 denotes a human sensor that can detect whether a human is present in the living space HA1 by detecting infrared rays that are naturally emitted by the human. Reference numeral 11 denotes a human sensor that can detect whether a human is present in the living space HA2 by detecting infrared rays that are naturally emitted by the human. In addition, you may install such a person detection sensor also in other living space HA.

  The human detection sensors 10 and 11 have a function of transmitting a result of detecting whether or not there is a person to the human detection unit 12 of the power command device 5 to be described later by radio or electric signal. Further, the power source may be a battery charged in advance, or may use power that is branched from the power line 1 and supplied. In addition, since the power consumption of these sensors is as small as about 1 W to several W, even when operating with the power from the power line 1, the power command device 5 is not subject to power restriction, so a predetermined timing is required. Measurement data is continuously transmitted to the power command device 9 (for example, every 10 seconds). Note that the human sensors 10 and 11 are not limited to the infrared type, and other types such as an ultrasonic type may be employed.

  Next, FIG. 1 will be described. Reference numeral 13 denotes an outdoor antenna connected to a tuner (not shown) of the TV receiver 2, and reference numeral 14 </ b> A denotes a router A connected to the power command device 9. The router A connects the power command device 5. Connected to an external organization 15A such as a regional earthquake information providing organization that transmits information to the area of the electric power company or its home via a wide area communication circuit network (sometimes referred to as “communication network” or “Internet”) 16 such as the Internet. doing.

  Reference numeral 14B denotes a router B connected to the TV receiver 2. The router B connects the TV receiver 2 to the external engine 15B via the wide area network 16. The external organization 15B is, for example, a broadcasting station that provides a broadcast program, or a public organization or private company that provides medical / health management information / exercise measurement (exercise management) information. . The two external engines 15A and 15B may be separate or the same engine.

  Private companies that provide exercise measurement information, for example, provide a full-scale training program to the applicant, and data on various exercises (walking, running, dancing, yoga, etc.) An organization that manages various data such as body composition balance (for example, body fat ratio) and activity calories consumed. It also includes institutions that provide rehabilitation information aimed at improving motor function for people whose motor function has declined due to injury or illness.

  In FIG. 1, reference numeral 20 denotes a moisturizing air supply machine that is an object of the present invention, and is used by being placed near a bedding 21 such as a bed or a sofa installed in one living space HA <b> 1. Reference numeral 22 denotes furniture such as a side table for placing the moisturizing air supply machine 20.

  In FIG. 1, reference numeral 23 denotes a sleep data input unit that receives sleep time data from the sleep determination device 24 that is used near the bedding 21. The sleep determination device 24 has one or a plurality of sleep sensors, and details will be described with reference to FIG.

  HM is a resident. In FIG. 1, the user is sleeping on the bedding 21. The sleep sensor 24S of the sleep determination device 24 is attached to, for example, a part of the resident HM's body (including legs and fingers) and measures blood pressure, heart rate, body temperature, and the like. In addition, movement (acceleration) of the body (including arms, fingers, head, etc.) is measured. The sleep determination device 24 and the sleep data input unit 23 are configured to transmit measurement data by wireless communication or wired communication. Further, instead of acquiring body temperature data directly from a living body, a sensor that performs non-contact measurement may be used. Further, by providing the sleep data input unit 23 with a short-range wireless communication function, biological data related to direct sleep or the like can be directly transmitted from the information communication terminal device 25 having a short-range wireless communication function (NFC function), which will be described later. The time data determined as the sleeping time by the information communication terminal device 25 may be received.

  Next, a communication environment outside the home will be described with reference to FIG. The power command device 5 according to the first embodiment is connected to the external engine 15A via the router A 14A via a communication network, but a device generally called a home gateway may be used. The home gateway in this case refers to home appliances installed between various digital information media such as the Internet connection, digital broadcasting, and IP telephone, and terminals such as the power command device 5 and digital home appliances. It plays a role of controlling the command device 5 and the like by networking and transmitting information received from communication / broadcast media to the power command device 5 and digital home appliances. A router that lends to a resident (user) of such a family when an IP phone or content distribution service is provided in addition to the Internet connection in an always-on broadband service. "Is often called.

  The power command device 5 is connected to the external engine 15A via the wide area communication network 16 in FIG. 1, but actually, as shown in FIG. 2, the wide area communication network 16 includes 16A and 16B. It consists of two, and accesses an ASP (referred to as “application service provider”) server 27 of the external organization 15A via the relay server 26 and the respective wide area communication networks 16A and 16B. The ASP server 27 is provided with various databases as described later, and is configured to store various information described later corresponding to a large number of houses. That is, the ASP server 27 has a function as an information server, and is hereinafter referred to as an information server 27.

  The information server 27 mainly functions as a control unit and an information providing unit for various household electrical appliances EE, and an organization such as a manufacturer (manufacturer), a distributor, a repairer, or an information service provider of the household electrical appliance EE. Independently or jointly installed by two or more organizations, various services related to the home appliance EE are provided to users via the wide area communication networks 16A and 16B.

  The information server 27 includes a central processing unit 27CP that functions as a host computer of the server, a communication unit 27IF that is a communication unit that is connected to the wide area communication network 16 to exchange information, and the home appliance EE. Improvement software (countermeasure program) providing unit 27S storing application software and accumulating improvement software, and a user specifying database (also referred to as “user information database”) for specifying a user of home appliance EE 27U and a manufacturer-side information database 27M that stores technical information provided by a manufacturer (manufacturer) of the home appliance EE.

  The information server 27 may be generally called a “Web server” (hereinafter referred to as “Web server”). The web server is based on HTTP (protocol used for exchanging data such as HTML documents and images between the web server and the web browser), and is provided in various information communication terminal devices 25, homes, etc. and has an information communication function. Display information of HTML and objects (images, etc.) for the information processing device (client) side software web browser such as the power command device 5 or other personal computer And a server computer on which the service operates. The web browser is also referred to as an “Internet browser” or “WWW browser”, and is a browser provided for use of “World Wide Web”.

  In the user specifying database 27U, as information received from the user by so-called user registration, for example, user-specific information such as a login ID and password to the information server 27, a network address (MAC address) of the router A 14A, etc. Specific information (including the above-mentioned “identification information”) such as the setting information, the network address and type of a specific household electrical appliance EE, and the model name. That is, it has a function of storing user information of the home appliance EE in a searchable state.

  The application database 27B includes control application software that allows the power command device 5 or the home appliance EE to be remotely controlled from the outside of the living space, for example, from a remote place such as a resident's work place or a place to go. Is stored and stored. Thus, the remote control can be realized by accessing the information server 27 from an information communication terminal device 25 described later, for example, a terminal device called a smartphone, and downloading (reading) the control application software. it can.

  The information server 27 stores “improvement software” that improves the contents of the operation program of the home appliance EE corresponding to a specific model of the home appliance EE, and the power command device 5 uses the wide area communication circuit. When obtained via the network 16, the improvement software is provided from the power command device 5 to the home appliance EE via the input / output unit 30 </ b> C (see FIG. 3) of the power command device 5. Note that “improved software” here is the same as “countermeasure software”. The improved software is not only created once, but a further improved version-up version may be prepared as necessary.

  The information communication terminal device 25 referred to in the first embodiment is a portable communication device that can be easily carried by a user to communicate calls and data (including mail information) indoors, outdoors, and other places. That is. A device that can download text information, images, music, etc. over the Internet, send and receive e-mails, and send remote operation signals, but may be a device that cannot make calls, and is a generic term for such portable communication devices. The information communication terminal device 25 is called. Small portable personal computers and tablet information terminal devices are also types of information communication terminal devices.

  The information communication terminal device 25 according to the first embodiment has a function of causing the input / output unit of each household electrical appliance EE to approach (or contact) about several centimeters and send and receive signals through short-range communication. Yes. The short-range communication is an international standard technology for wireless communication known as Near Field Communication (abbreviation: NFC).

  In this NFC communication, a so-called wireless tag (NFC tag) is embedded on the home appliance EE side including the moisturizing air supply unit 20. The NFC tag is connected to an NFC communication control IC (hereinafter referred to as “NFC control circuit”) 28 (see FIG. 6) and the control circuit, and receives the radio signal having a predetermined frequency from the outside. An antenna 29 for generating power for the circuit and a microchip memory (hereinafter referred to as “NFC storage unit 31”) connected to the NFC control circuit (see FIG. 6).

  On the other hand, on the information communication terminal device 25 side, data is read from the NFC storage unit 31 of the home appliance EE via the NFC tag (also referred to as “acquiring status information”), and conversely, the information communication terminal The control data (also referred to as “control command”) is sent from the device 25 side to the NFC storage unit 31 of the home appliance EE, and the control device 33 (also referred to as “host computer”) of the home appliance EE stores in the NFC storage unit 31. A control operation can be performed according to the stored control command (this type of NFC tag may be referred to as an “active tag”).

  The NFC according to the first embodiment has a function of reading information stored in the internal storage device of the home appliance EE on the information communication terminal device 25 side (an NFC tag having such a function may be referred to as a “simple tag”). In addition, the operation on the home appliance EE side has a function that can be activated by a control command from the information communication terminal device 25. That is, the information communication terminal device 25 has a function of writing to the NFC storage unit 31 as well as reading of various information from the home appliance EE, and has two functions of a reader and a writer. It is said that the advantage of NFC is that, in general, the format of data that can be exchanged by communication is not limited, and video data, XML data, etc. can be exchanged as well as text data.

  In FIG. 2, reference numeral 35 denotes a base station. When the information communication terminal device 25 owned by the resident is used at the place of the work facility 34 at a remote place as shown in FIG. Communication is performed with the communication terminal device 25.

  In FIG. 2, the base station 35 of the information communication terminal device 25 is connected to the wide area communication circuit network 98B via the relay server 26 and the wide area communication circuit network 16A. Thus, the information server 27 and the router A14A can be accessed. That is, if the information communication terminal device 25 owned by the resident of the household is connected to the wide area communication network 16A from the work facility 34 at a remote location as shown in FIG. The electric equipment EE can be remotely controlled from the facility 34 away from the home by downloading the application software for controlling the electric power command device 5 or the electric equipment EE.

  In the first embodiment, direct remote operation from the information communication terminal device 25 to the home appliance EE side including the moisturizing air supply device 20 is not allowed. This is because some household electrical appliances EE generate high heat, such as an electric heating cooker (second specific household electrical appliance SP2), and therefore via a communication circuit used by many people from outside the house. Remote operation is not adopted for safety reasons. Instead, all the home appliances EE can be operated via the power command device 5. In the house, the information communication terminal device 25 is restricted so that only the TV receiver 2 can be operated. The contents of the remote control will be described in detail later.

  FIG. 3 is a block diagram illustrating a configuration example of hardware such as the power command device 5 and the home appliance EE to which the power control system of the first embodiment is applied. In FIG. 3, 5A is the main body of the power command device 5, and the outer shape is box-shaped. This main body 5A has a power usage limit setting device that can be used in one process, a comparator that determines the difference between the home appliance EE and the power upper limit value (total power that can be used in the home), In the case of reducing the power, all the setting means for setting the priority order of household electrical appliances to be reduced and the control unit 36 for controlling each of these components are stored.

  In FIG. 3, 37 is a display board provided in front of the main body 5 </ b> A of the power command device 5, and 37 </ b> A is a display screen of the display board 37. Reference numeral 38 denotes a storage device (large-capacity memory) built in the main body 5A, such as a DVD recording device, various semiconductor memories, or a hard disk drive device (HDD). Further, the surface of the display panel 37 is configured by, for example, a touch panel, and functions as a display unit for displaying power control and environmental information such as temperature and humidity of the living space HA, and by touching the screen. And a function as an operation input unit 39 for performing input from the user. By operating this operation input unit 39, it is possible to set the upper limit power value of the above-described use limit setter and the priority order of household electrical appliances to be reduced in the power command device 5.

  In FIG. 3, 30A, 30B, and 30C are input / output units for performing wireless communication. One input / output unit 30A is for performing wireless communication with various home appliances EE. The input / output unit 30B is for performing wireless communication with the router 14A. 30C is for performing wireless communication with the TV receiver 2. Note that each home appliance EE is provided with one communication adapter 100 (described in FIG. 16) without incorporating a communication function. The communication adapter 100 uses a frequency band called a 2.4 GHz ISM band defined in “International Standard IEEE 802.11b”, which is one of the widely used wireless LAN-related standards established by IEEE. To do. In the first embodiment, the actual use center frequency is set to 2.412 GHz (2412 MHz) to 2.472 GHz.

  In FIG. 3, reference numeral 40 denotes a wireless input / output unit for NFC. This is information when the wireless communication unit 41 (also referred to as “wireless input / output unit”, not shown) (see FIG. 5) of the information communication terminal device 25 approaches a predetermined distance (about 10 centimeters). In this state, a communication established state (beginning of one communication session) is established, and an input / output unit can be used to exchange information.

  The wireless input / output unit 40 is always provided with characters “NFC” displayed below the operation input unit 39 of the display board 37 in the power command device 9. Thus, the installation position of the wireless input / output unit 40 is clarified.

  The TV receiver 2 receives urgent information from the external organization 15B, for example, request information requesting that the upper limit of the total power consumption of the household be reduced immediately (so-called “peak cut correspondence”) during the summer day. When arriving at the receiver 2, or when emergency earthquake information arrives from the Japan Meteorological Agency or the regional disaster prevention center or earthquake warning center in charge of the residential area, etc. I can know. Even when the TV receiver 2 is not being watched, various TV receivers have been proposed that are activated by the information and notify the information when emergency cut-off information is transmitted. Therefore, a specific description is omitted here.

  The power-related information of the power command device 5, for example, the total power consumption in the home at that time, information indicating that a power reduction request is received from the outside, and the like are displayed on the display screen 37 </ b> A of the power command device 5. Instead, it can be displayed on the TV receiver 2 installed in a living space such as a living room where residents are gathering.

  As described above, 36 is a control unit that centrally controls the three radio communication input / output units 30A to 30C and the display screen 37A. In addition, as will be described later, the control unit 36 instructs the home appliance EE to transmit a power reduction request signal AS2 and a power reduction command signal AS3. Since the moisturizing air supply machine 20 is not the “first home appliance”, the power reduction request signal AS2 and the power reduction command signal AS3 are not received from the input / output unit 30A of the power command device 5.

  The control unit 36 has a first memory (not shown) 36A that is a dedicated “first storage unit” in relation to power control, and the total power amount upper limit value set in the breaker BK. Information, power amount upper limit data for limiting the power consumption amount of various home appliances EE, and information such as a power upper limit value set for each resident are stored.

  Further, the control unit 36 has a second memory (not shown) 36 </ b> B that becomes a dedicated “second storage unit” in relation to the moisturizing air supply machine 20, and is acquired by the sleep determination unit 218. Various data such as sleep time and time and information of the analysis result (sleep determination data) are stored in time series in pairs with detailed information such as date and time when the data is actually acquired.

  Furthermore, in the second storage unit 36B, environmental information or environmental data (for example, temperature, humidity) in the living space where the moisturizing air supply unit 20 is used during the moisturizing operation of the moisturizing air supply unit 20 is stored. Recorded in chronological order with the moisturizing operation time. For example, when the sleep time is 23:10, environmental data of temperature and humidity acquired by the environment detection unit 9 every 10 minutes thereafter are sequentially stored together with the time information, and the sleep time zone is, for example, 23:00 When the time is determined to be 6 hours from 10 minutes to 5:10 am, the control unit 36 can calculate the average temperature and humidity for the 6 hours. Accordingly, it is possible to generate “environment information” such as “environmental comfort level” based on the environment data.

  The input / output unit 30A is used when the power command device 9 reads specific computer program software for improving the operation program of each electrical device EE obtained via the Internet.

  In FIG. 3, 9 is the environment detection unit. The environment detection unit receives information on temperature and humidity measured by the temperature / humidity sensors 6, 7, and 8. Reference numeral 41 denotes a person detection unit that receives the person detection information of the person detection sensors 10 and 11.

  The environment detection unit 9 is provided with an illuminance sensor (not shown) in each living space HA. The illuminance sensor is for distinguishing whether the living space is bright or dark. For example, the illuminance sensor is in a bright state when the human sensing unit 12 determines that there is no person in the certain living space HA. If it indicates that there is a possibility, the resident may have forgotten that the luminaire 4 is still on. Therefore, in such a case, even if the control unit 36 of the power command device 5 is a small amount with a sufficient margin than the upper limit value set by the use limit setting device at that time, From the viewpoint of eliminating the waste of electric energy, the user is advised to turn off the luminaire 4 (through the display screen 37A and the display screen of the TV receiver 2). Thereafter, the control unit 36 of the power command device 5 issues a turn-off command signal to the lighting fixture (however, it is necessary to connect the lighting fixture 4 so as to become a power reduction target device of the power command device 4). .

In FIG. 3, reference numeral 43 denotes an at-home detection means (also referred to as “at-home detection unit”), which is configured to receive a detection signal from the person detection unit 12 as to whether or not the presence of a person is detected.
In addition, an electric lock 42 is installed outside the entrance (not shown), which is a common entrance / exit of the living space HA, and is based on a personal identification number or biometric information (for example, fingerprint information) input to the electronic lock. The personal authentication means (not shown) which detects that the resident came home is provided. This personal authentication device is configured to determine whether or not the user is a resident based on the password input from the resident, and the determination result is transmitted to the at-home detection means 43.

  The electronic lock that locks the front door electronically and the personal authentication means will not be described in detail because many configuration examples have already been proposed, but in the first embodiment, each resident (for example, A unique password is assigned to each of four residents (A to D). All residents are instructed to decide on a password according to the rule of “two digits for each individual after a four-digit (common) number”. The password of the resident A is “123401”, the password of the resident B is “123402”, and the password of the resident A is “123403”. This password is entered with ten input keys (ten keys) installed at the electronic lock of the front door.

  After entering the password and entering the living space, when exiting from the entrance, no password input is required, but the human detection unit 12 is allowed to enter for a predetermined time (for example, 30 minutes). When the presence of a person cannot be detected from all the living spaces HA, the home detection means 41 determines that all the residents are out and cancels the password input records of all the residents entered so far. The detection information is changed from the home state to the absence state.

  After this, when the resident comes home, he / she needs to input the password again. In addition, when going out from a front door, if it is made to input into the said personal authentication apparatus that each resident goes out, the detection of a home state will become further accurate. In addition, as described above, in order to omit the input of a password, the biometric information (for example, fingerprint information) is changed to a means for detecting that the resident has returned home, or a unique ID or ID held by the resident. The personal identification information recorded on the card or the like may be directly read into the personal authentication device by magnetic or optical means, but detailed description is omitted.

  On the display screen 37A of the display board 37 shown in FIG. 3, the sleep time-related data determined and stored by the sleep determination device 24 can be read from the NFC input / output unit 40 of the information communication terminal device 25. it can. In other words, even when the wireless communication is not possible (for example, temporary communication failure) between the moisturizing air supply device 20 and the input / output unit 30A of the power command device 5, the information related to sleep time can be exchanged. Yes. Moreover, since the information communication terminal device 25 can acquire the sleep time data, the information communication terminal device 25 is taken out of the home, and the data of the sleep time is viewed by an expert (for example, a doctor) at a remote place. It is also possible to obtain a good sleep advice or process the data so that it is read by the moisturizing air supply machine 20 after returning home and used for setting the time of the moisturizing operation that night. .

  The icons referred to in the first embodiment are displayed on the display screen 37A and the display screen 101 of the moisturizing air supply device 20 described later, and a specific function is selected. It also includes the case where the specific function is expressed in characters. If the icon is touched, a predetermined input associated with the icon can be performed.

  There is basically no difference between the information that can be displayed on the display screen of the TV receiver 2 shown in FIGS. 1 to 3 and the information that can be displayed on the display screen 37 </ b> A of the display panel 37. That is, the “operation information” of the power command device 5 and the “environment information” of the environment detection unit 9 can be displayed on the display screen of the TV receiver 2 and the display screen 37 A of the display panel 37 in the same manner. However, in the TV receiver 2, the screen size is usually 20 to 60 inches, whereas the screen size of the display screen 37 </ b> A of the display board 37 is about 10 to 15 inches, which is as narrow as a few fractions. The exact same content is not displayed in the same size. Naturally, the size of the displayed character is reduced, but the above-described temperature / humidity display information and various environmental information of the living space are displayed.

  With the configuration described above, the same information can be confirmed in the kitchen and the living room so that the displayed information is not flawed between the liquid crystal display screen of the TV receiver 2 and the display screen 37A of the display panel 37. I have to. The display of these various types of information on the display screen 37A is executed by the display control program of the control unit 36.

(Moisturizing air supply machine)
Next, the moisturizing air supply machine 20 will be described with reference to FIG.
In FIG. 4, the moisturizing air supply unit 20 supplies high humidity air (a mixture of steam and air) at a predetermined temperature (for example, 40 ° C.), and the high humidity air causes the occupant to moisturize the face and the like. Is what you expect. It is specifically designed for use during sleep.

  The moisturizing air supply machine 20 has a main body case 49 that surrounds the entire main body 20A, a bottom plate 51 that closes the bottom surface of the main body case 49, and a forward direction ( The outer shell is constituted by three members with a duct 50 movably attached in the direction of arrow X1 shown in FIG.

  Inside the main body case 49, a cartridge tank 56 is placed on a support base 58 at the rear part thereof. And the water put in this cartridge tank 56 is supplied to the bottom part of the hot air production | generation part (boiler chamber) 59 mentioned later via the water receiving valve 57 with a pipe (not shown). The cartridge tank 56 can be easily taken out from the main body case 49 and can be replenished with water.

  Reference numeral 59 denotes a high-temperature air generation unit (boiler chamber) which is a sealed space, and water 60 is supplied from the cartridge tank 56 so that the water level is always constant. In addition, an electric heat source 90 (see FIG. 4) such as an electric heater is attached to the outer wall surface of the high-temperature air generation unit (boiler room) 59, and in order to generate high-temperature steam for moisturizing during the moisturizing operation, Water 60 can be vaporized.

  55 is an electric blower such as a cross flow fan, which sucks air in the living space HA from a suction port (not shown) provided in a part of the main body case 49, and conveys it as indicated by an arrow F1. (Guiding wind) is sent to the air blowing port 53 formed in the upper part of the front surface of the moisturizing air supply 20.

  A blowout port 52 having a width dimension equivalent to the width dimension of the blower port 53 is provided at a position directly below the blower port 53. The air outlet 52 has a louver (lattice) shape so that foreign matter such as a user's finger does not enter. The high-humidity air of about 40 ° C. blown out from the air outlet 52 is sent forward (in the direction of arrow X1 in FIG. 4) while being suppressed from rising by the cold air flow from the air outlet 53. Thus, at a position of 1 meter (m) or less, for example, about 70 cm to 80 cm from the air outlet 52, a moderate humidity space having a diameter of about 30 cm and a humidity of 40% to 50% is generated. If there is a user's face in the space, the effect of keeping the humidity of the face moderate can be expected. Note that the high-humidity wind speed blown from the outlet 52 is a slow speed of about 25 cm per second, and the amount of air blown by the electric blower 55 so that the wind is gentle to the user and does not cause discomfort. The amount of steam generated in the high-temperature air generation unit (boiler chamber) 59 is adjusted.

  54 is a duct whose one end opening constitutes the air blowing space of the electric blower 55 and whose other end opening constitutes the air blowing port 53. 61 is a mixing chamber connected to the upper part of the high temperature air generating part (boiler chamber) 59, and air distributed from the middle of the duct 54 is introduced to the back side thereof as shown by an arrow F2. A communication hole (not shown) is formed.

  A wind direction plate 50 </ b> A that is inclined as a whole is installed at the ceiling portion at the end of the duct 50 so as to descend toward the left end. This wind direction plate has an effect of turning the blown wind (F1) downward.

  On the front surface (front side) of the main body case 49, a position just above the air outlet 52 is an extension of the direction in which the high-humidity air from the air outlet 52 is sent, that is, the direction of the person in the direction of the arrow X2 in FIG. A human detection sensor 65S for detecting the presence is provided, and a detection signal from the human detection sensor 65S is input to a human detection unit 65 (see FIG. 6) described later. The human sensor 65S is, for example, an ultrasonic sensor, an infrared sensor, or a combined sensor that combines these. The operation for detecting the presence or absence of a person is automatically and repeatedly executed at predetermined time intervals (desirably less than 5 minutes) after the main power switch 70A of the air supply device 20 for moisturizing is turned on.

  Since a touch panel using a liquid crystal screen 95 is disposed on the front surface (front surface) of the main body case 49, the liquid crystal screen 95 also serves as the input operation unit 71 (see FIG. 6). Near the lower part of the liquid crystal screen 95, there is provided a display unit 63 indicating a touch position for proximity communication, and this display unit is also an input / output unit for near field communication (NFC). Reference numeral 64 denotes a light emitting diode element (LED) for illuminating the near field communication (NFC) input / output unit 63 with light from the inside. Hereinafter, both the liquid crystal screen 95 and the display unit 63 are collectively referred to as a “display screen” or a “touch display screen” 101.

  A touch panel using a liquid crystal screen 95 is arranged on the front wall (front wall) 61 of the main body case 49 at the upper part thereof. Near the lower part of the liquid crystal screen 95, there is provided a display unit 63 indicating a touch position for proximity communication, and this display unit is also an input / output unit for near field communication (NFC). Reference numeral 64 denotes a light emitting diode element (LED) for illuminating the near field communication (NFC) input / output unit 63 with light from the inside.

  70A is a push button of the main power switch 70 (see FIG. 6) supported by the front wall (front wall) 61 of the main body case 49 so as to be capable of being pressed. 69 is a circuit board on which a microcomputer constituting the core of the control device 33 functioning as a host computer of the moisture keeping air supply machine 20, the light emitting diode element (LED), the electronic circuit components for driving the liquid crystal screen 55, and the like are mounted. It is.

  Reference numeral 67 denotes a table for the information communication terminal device 25, which has a built-in non-contact power feeding unit, and can be automatically charged simply by placing the information communication terminal device 25 on the table.

  Reference numeral 68 </ b> A denotes a communication antenna unit for performing direct wireless communication with the input / output unit 30 </ b> A of the power command device 5, and is installed horizontally in the space behind the liquid crystal screen 55. This communication antenna and a transmission / reception circuit (not shown) constitute an input / output unit 68 for wireless communication.

(Internal configuration of information communication terminal device 25)
In FIG. 5, the information communication terminal device 25 is a high-function communication terminal device called “smart phone”, for example, and includes a display unit 73 having a display screen 73 </ b> A composed of a liquid crystal display substrate and the like, and a plurality of operations operated by the user. An operation input unit (operation unit) 74 having an input key, a wireless interface (wireless input / output unit) 41, an attitude detection unit 75, a control unit 76 with a built-in microcomputer, and a plurality of types corresponding to operation scenes And a notifying unit 87 including a small vibrator that outputs synthesized voice and vibrates the information communication terminal device 25 as necessary. This vibrator can vibrate the information communication terminal device 25 itself in synchronism with the sound (sound) from the notifying unit 87, so that the display unit 73 alone can reliably Even in a situation where it is not possible to notify the operation status, incoming notification, etc., the notification can be supplemented by sound and vibration.

  The wireless input / output unit 41 includes two input / output units, one of which is a wireless input / output unit 41A that performs predetermined communication with the wide area communication circuit network (communication network) 16. One is a wireless input / output unit 41 </ b> B that performs near field communication between the NFC input / output unit 40 of the power command device 5 and the NFC input / output unit 63 of the moisturizing air supply unit 20.

  Although not shown, the display unit 73, the operation unit 74, the wireless input / output unit 41, the attitude detection unit 75, the control unit 76, and the notification unit 87 are connected to each other through a signal circuit. The posture detection unit 75 includes a gyro sensor (not shown), detects a posture when the user tilts the information communication terminal device 25 (in the left / right / front / rear direction), and a signal indicating the posture. Is output to the controller 76.

  The control unit 76 includes a central processing unit (CPU) 77 and a storage unit 78 formed mainly of semiconductor storage elements. The CPU 77 executes the entire processing of the information communication terminal device 25 in accordance with the control program stored in the ROM and RAM unit 79 in the storage unit 78. Data read out from the ROM / RAM unit 79 or generated in the course of executing the process is stored in the ROM / RAM unit 79.

  Reference numeral 86 denotes a semiconductor non-volatile memory that constitutes a part of the storage unit 78. The memory 86 can store various information (including sleep time information) read from the wireless input / output unit 41. In addition, information indicating the driving status of various electric devices EE read from the power command device 5, sleep time information, environmental information provided from the environment detection unit 9, “abnormality occurrence information”, transmitted from the information server 27 Each of the information, countermeasure software described later, etc. is temporarily stored and accumulated. The meaning of “temporary” is automatically stored and retained for a certain period of time, such as one month or one week, unless the user specifically performs an erasure command operation, and automatically erases after that period. Refers to the case.

  The storage unit 78 includes the application software unit 80. The application software unit 80 includes a reception processing unit 81, a transmission processing unit 82, a communication establishment unit 83, a display control unit 84, and a selection confirmation unit 85. , A memory 86 is included.

  The “abnormality occurrence information” is a signal indicating that the control unit 36 of the power command device 5 indicates an emergency stop of the electric heat (heating) source 90 (see FIG. 6) from the home appliance EE, for example, the moisturizing air supply 20. This is special information that is newly generated when a message is received. This abnormality occurrence information is dedicated information recognized by the information communication terminal device 25 and the information server 27. That is, it is information for notifying the outside of the home of the occurrence of an abnormality in the home appliance EE. This abnormality occurrence information also includes individual abnormality occurrence data (for example, voltage value, temperature, temperature rise rate, etc.) of the electric equipment EE.

  The storage unit 78 includes an application software unit 80 that can store application software of the household electrical appliance EE such as the moisturizing air supply unit 20. The application processing unit 80 also stores application software for the display board 37 of the power command device 5. The software of the application software unit 80 may be installed from the outside of the information communication terminal device 25, or may be stored in the storage unit 78 from the time of shipment of the information communication terminal device 25. That is, the countermeasure software program transmitted from the information server 27 is also stored in the storage unit 78.

  When the CPU 77 executes processing according to the application software unit 80 described above, the functions of a predetermined reception processing 81, transmission processing unit 82, communication establishment unit 83, display control unit 84, and selection confirmation unit 85 are realized. . The operation of each part will be described later.

Next, FIG. 6 will be described. FIG. 6 is a block diagram mainly illustrating the display screen 101 and the short-range wireless communication input / output unit 63 in the moisturizing air supply unit 20.
The display screen of the liquid crystal display substrate 95 constituting the display screen 101 is a known dot matrix type liquid crystal display screen. In addition, a high-definition screen (QVGA with a resolution of 320 × 240 pixels or 640 × 480 dots, equivalent to VGA capable of displaying 16 colors) can be realized, and a large number of characters can be displayed even when characters are displayed. Can do. The liquid crystal display screen is not limited to a single layer but may be a screen that displays two or more layers in order to increase display information.

(Circuit configuration of air supply machine for moisturizing)
In FIG. 6, reference numeral 91 denotes a drive circuit for the display screen 101. This drive circuit is connected to the control device 33.
The drive circuit 91 includes a display memory 91A, a display controller 91B, an interface 91C, a power source 91D, a common driver 91E, and a segment driver 91F.

  As shown in FIG. 6, the drive circuit 91 operates with the power from the power supply circuit 92, and acquires display image information from the built-in memory 33R of the control device 33 through the interface 91C. The memory 33R is hereinafter referred to as “first storage unit”. The display memory 91 </ b> A stores image information acquired from the control device 33.

  In FIG. 6, the display controller 91B reads the image information stored in the display memory 91A, and continuously drives the common driver 91E and the segment driver 91F based on this image information. The common driver 91E and the segment driver 91F drive the liquid crystal by applying a voltage to mutually intersecting electrodes provided corresponding to each pixel of the display screen 55.

  The driving circuit 91 displays the image information stored in the display memory 91A on the display screen 101 whenever necessary. Note that the information displayed on the display screen 101 by the display controller 91B includes text data that is documented so that the type and cause of the abnormality can be understood as will be described later.

  In FIG. 6, reference numeral 28 denotes an NFC communication control IC (NFC control circuit) that constitutes a part of the NFC tag arranged at a predetermined position. Reference numeral 29 denotes an antenna which is connected to the NFC control circuit 28 and generates inductive power as a power source for the NFC control circuit 28 when receiving radio waves of a predetermined frequency from the outside. Reference numeral 31 denotes a microchip memory (same as the above-described “NFC storage unit”) connected to the NFC control circuit 28. This memory is hereinafter referred to as “second storage unit”.

  In FIG. 6, 64 is a light emitting diode element (LED) installed so as to surround the vicinity of the antenna 29 portion constituting the NFC input / output unit 63. The display unit 63 (same as the short-range communication input / output unit) indicating the touch position for proximity communication by this LED is illuminated with light from the inside of the front wall (front wall) of the main body case 49, so that the user When the NFC communication state is established between the moisturizing air supply unit 20 and the information communication terminal device 25, the position where the information communication terminal device 25 is approached can be easily known.

  The LED 64 does not have to emit light constantly, and is linked with the operation of the drive circuit 91 by the control device 33. Therefore, in the information communication terminal device 25 having a near field communication (NFC) function, the sleep time It is turned on at a predetermined timing by the drive circuit 35 in synchronism with the display that data, detailed information on abnormal contents and countermeasures, etc. are obtained. Note that the LED 64 may be automatically turned off after a certain time has elapsed since lighting.

  The display unit driving circuit 91 is configured by a dedicated microcomputer different from the microcomputer configuring the control device 33, but may be configured by the same microcomputer.

  In FIG. 6, a clock circuit 93 is also called a real-time clock, and is supplied with power from a dedicated power source (built-in battery) different from a power circuit 92 connected to a main power switch 70 described later. It is driven over. This may be, for example, a radio-controlled timepiece. If there is always a request from the control device 33, the current date and the accurate time are notified in seconds. For this reason, it is set to the correct date and time at the manufacturing stage of the moisture retention air supply machine 20. Therefore, even if the main power supply of the moisturizing air supply unit 20 is turned off and then turned on again, the time information of the clock circuit is not affected and there is a function of always transmitting the latest correct time to the control device 33. For this reason, various information recorded in the storage device 33R of the control device 33 is always recorded and stored at the same time. Therefore, the occurrence time information described above is added to the abnormality monitoring data read out by the information communication terminal device 25 from the NFC input / output unit 63. Thereby, when data is analyzed later, the time passage can be accurately grasped.

  The control device 33 may request the power command device 5 to provide realistic information such as time data at the time of falling asleep in order to grasp the sleep time (this will be described with reference to FIG. 7). ). That is, the function which can grasp | ascertain an actual sleep time slot | zone from the information which shows timings, such as a sleep time and awakening time itself, instead of waiting for the determination result of the sleep time by the electric power instruction | command apparatus 5 using the sleep determination part 218. There is.

  In FIG. 6, 70A is an operation button of the main power switch 70 as described above. When the button is pressed once, the switch is closed (ON), and when pressed next, it is opened (OFF), and this is repeated thereafter.

  Reference numeral 65 denotes a person detection unit that receives a detection signal from the person detection sensor 65S and detects the presence of a person. The person detection unit 65 can detect the presence of a person in a range of about 75 cm to 1 m from the air outlet 52 in front of the main body case 49, for example. The operation key (not shown) can be enlarged or reduced as appropriate. However, it cannot be adjusted in the left-right direction that intersects the direction of the arrow X2 at a right angle. That is, the user can adjust the “person sensing distance” based on the outlet 52 according to the sleeping position.

Next, FIG. 7 will be described. FIG. 7 is a time chart (descriptive diagram) showing the control operation of the power command device 5 and the moisturizing air supply device 20 according to Embodiment 1 of the present invention.
FIG. 7 shows a case where the sleep time data is acquired from the power command device 5 and the moisturizing operation is started at the start of the operation of the moisturizing air supply device 20.

  The control operations of the power command device 5 and the moisturizing air supply device 20 corresponding to the “absence case 1” and “absence case 2” shown in FIG. 7 are particularly relevant to the present invention.

Hereinafter, each operation T1 to T13 will be described.
When the user turns on the main power switch 70 of the moisturizing air supply machine 20 (T1) and selects the “reliable mode”, also referred to as “sleep mode”, a signal indicating the selection result is supplied with the moisturizing air supply. Is transmitted from the machine 20 to the power command device 5 (T2). This transmission is performed from the wireless communication input / output unit 68.

  The control unit 36 of the power command device 5 instructs the sleep determination device 24 to activate the sleep sensor 24S and acquire sleep time data (T3). Then, the sleep determination device 24 activates the sleep sensor 24S.

  Thereafter, when the user falls asleep and the sleep determination device 24 determines that “the sleep state has been entered”, the time information at that time is notified to the control unit 36 (T4). The control unit 36 transmits the sleep time data from the wireless communication input / output unit 68 of the immediate moisturizing air supply unit 20 to the control device 33 (T5).

  In the moisturizing air supply device 20, the control device 33 stores data such as a sleep time notified from the control unit 36 of the power command device 5 in the storage device 33 </ b> R, while starting to energize the electric heat source 90 to generate high-temperature air. The generation of water vapor is started in the section (boiler room) 59. When the steam is generated, the electric blower 55 is also energized to start blowing. Since supply of moisturizing air is thereby started, the control device 33 notifies the power command device 5 that the moisturizing operation has started (T6).

  In FIG. 7, the time A from T2 to T5 is described as 30 minutes, but this time depends on the time until the user falls asleep, so it is not the same every time (every sleep). . In the example of FIG. 7, the user sets the entrust mode and then goes to sleep, but the time point when it is determined to fall asleep is 30 minutes after the entrust mode is set.

  The control device 33 of the air supply machine 20 for moisturizing has a core portion realized by a microcomputer (hereinafter referred to as “microcomputer”), but the computer program for determining the operation of the microcomputer starts the moisturizing operation. When the user gives an instruction via the operation unit 71, from the instruction (time T2 in FIG. 7) to the time (time T9 in FIG. 7) through the moisturizing operation to store (store) the sleeping time zone. The longest driving time is set. For example, this time is 10 hours. This upper limit setting of the operation time is provided from the viewpoint of safety. A moisturizing operation program is stored in the control device 33 of the moisturizing air supply machine 20 so as to execute such a sequence of up to 10 hours. Note that this maximum operating time can be extended or shortened by the user.

  Next, in the moisturizing air supply machine 20, the control device 33 performs the above-described moisturizing operation only for a predetermined time (in this example, 3 hours = 180 minutes, “moisturizing operation time B”), and for a predetermined time. After the elapse of time, the energization to the electric heat source 90 is automatically stopped, and after a few minutes, the energization to the electric blower 55 is also stopped, and the supply of the moisturizing air is stopped. Then, the end of the moisturizing operation is notified to the power command device 5 (T7).

  The “moisturizing operation” referred to in the first embodiment is that the electric heat source 90 is completely stopped from the point of time when a predetermined amount of high-temperature steam is generated by the electric heat source 90, and at the same time or thereafter, the electric blower 5 Refers to the period up to the point of stopping. Even when energization of the electric heat source 90 is started, high-temperature steam is not generated immediately, so the intermediate stage does not correspond to the “moisturizing operation”. Generally, the period from the time L7 to the time L9 shown in FIG. 19 is close to the period of the moisturizing operation. Moreover, even if the energization of the electric heat source 90 is stopped, the generation of water vapor is not immediately stopped. However, after the energization of the electric blower 5 is stopped, the moisturizing operation time is not counted. Since there is a limit to the capacity of the cartridge tank 56, there is a limit to lengthening the moisturizing operation time. Therefore, the electric heat source 90 may be energized intermittently. In addition, the “moisturizing operation” may be defined as a period from the start of energization to the electric heat source 90 to the time when the energization of the electric heat source 90 is completely stopped.

  Thereafter, when the user wakes up and the sleep determination unit 23 determines that “the state is awakening”, the time information at that time is notified to the control unit 36 (T8). The control unit 36 transmits the awakening time data from the wireless communication input / output unit 68 of the immediate moisturizing air supply 20 to the control device 33 (T9). In this example, the controller 33 of the moisturizing air supply machine 20 shows that the elapsed time from the sleep time T5 to the awakening time T9 is 360 minutes and the sleep time is 6 hours. Therefore, the control unit 33 stores such a series of data in the storage device 33R and the NFC storage unit 31, respectively. Also, the date and time of acquisition of this sleep time data is stored as a set. The reason for storing the data in the NFC storage unit 31 is to enable the information communication terminal device 25 to read data even when the main power supply of the moisturizing air supply unit 20 is turned off.

  On the other hand, in the power command device 5, the sleep determination unit 218 aggregates and organizes the biometric data and changes thereof from the time T4 to T8 into a series of data (T10), and notifies the control unit 36 of the result (T11). . The control unit 36 creates sleep time zone data based on the received biological data and sleep time data (sleeping time, awakening time, date and time), and the identification code and date data indicating the sleeper, and the moisturizing operation are performed. A set with various data such as a living space name (position code) is stored in the second storage unit 36B (T12). Then, the sleep time determination unit 23 is instructed to end the determination operation (T13).

  As is clear from the above description, in the moisturizing air supply machine 20, there is no data on the sleep time of the user at the stage when the moisturizing air supply machine 20 is activated (when the main power switch 70 is turned on). Even if it is in a state, it is possible to automatically start and end the moisturizing operation during the sleep by simply selecting the sleep mode (automatic mode) first, corresponding to the actual sleep time . Since the moisturizing operation time B is 3 hours as described above, it is usually shorter than the sleep time of most people, and is operated for 3 hours according to the standard conditions defined in the control program of the control device 33. Also, the moisturizing operation can be terminated before awakening.

Next, FIG. 8 will be described. FIG. 8 is a time chart (descriptive diagram 1) showing control operations of the power command device 5 and the moisturizing air supply device 20 according to the first embodiment of the present invention.
FIG. 8 shows that after operation of the moisturizing air supply device 20, the information communication terminal device 25 acquires sleep time data from the moisturizing air supply device 20, changes the sleep time data, and uses the data again for moisturizing. This is a case where it is stored in the air supply machine 20 and used for the next moisturizing operation. Note that the method by which the moisturizing air supply unit 20 acquires sleep time data from the power command apparatus 5 has already been described with reference to FIG.

  Hereinafter, the operations T21 to T31 will be described. The operation timings T21 to T31 are not continuous with the operation timing T13 shown in FIG.

  When the user brings the information communication terminal device 25 close to the NFC input / output unit 63 of the moisturizing air supply unit 20, a communication session between the information communication terminal device 25 and the moisturizing air supply unit 20 is established. Therefore, a signal for requesting reading of sleep time data is transmitted from the information communication terminal device 25 to the moisturizing air supply unit 20 (T21).

  In response to this, the moisturizing air supply machine 20 sends a sleep permission data read permission signal to the information communication terminal device 25 (T22). In the moisturizing air supply machine 20, the control unit 33 sends a sleep time data read command signal to the information communication terminal device 25 (T23).

  Next, the information communication terminal device 25 reads the sleep time data stored in the NFC storage unit 31 via the NFC tag on the moisturizing air supply machine 20 side (T24). In the information communication terminal device 25, the obtained sleep time data is temporarily stored in the storage unit 78 (T25), the data is displayed on the display unit 73 (T26), and a part of the data is changed (for example, awakening). The time is advanced by 1 hour and the sleeping time is shortened by 1 hour as a whole) (T27), and the final data is stored again in the storage unit 78 (overwritten on the data at the time of T25) (T28).

On the contrary, the information communication terminal device 25 sends a write request signal to the moisturizing air supply device 20 in order to store the changed sleep time data (T29). In response to this, a write permission signal arrives from the moisturizing air supply machine 20 (T30). Therefore, an instruction to write sleep time data temporarily stored in the information communication terminal device 25 is sent (T31).
Each of the operation timings T21 to T24 and T29 to T31 described above is performed during a period in which a communication session between the information communication terminal device 25 and the moisturizing air supply unit 20 is established. Further, the above operations T21 to T31 can be performed while the main power switch 70 of the moisturizing air supply machine 20 is kept OFF.

  Next, FIG. 9 will be described. FIG. 9 is a time chart (descriptive diagram 2) for explaining the control operation of the moisturizing air supply device 20 according to Embodiment 1 of the present invention in relation to the information communication terminal device 25.

  FIG. 9 is an example in which the sleep time zone data is acquired from the information communication terminal device 25 and the moisturizing operation is started immediately before the start of the operation of the moisturizing air supply device 20. In addition, since it has already demonstrated about the information communication terminal device 25 acquiring sleep time zone data, description is abbreviate | omitted.

Hereinafter, the operations T41 to T49 will be described. The operations T41 to T49 are not continuous with the operation T31 shown in FIG.
First, the user turns on the main power switch 70 of the moisturizing air supply machine 20 (T41), and selects the “sleep mode” (trust mode) (T42). If the control device 33 determines that there is no appropriate sleep time data in the moisturizing air supply device 20, the control device 33 recommends acquisition of sleep time data. Therefore, when the user thinks of acquiring his / her sleep time from the information communication terminal device 25 before the start of the moisturizing operation, in order to read the information communication terminal device 25 via the NFC input / output unit 63, the NFC The information communication terminal device 25 is brought close to the input / output unit 63 (at this time, the position of the NFC input / output unit 63 is clearly displayed by the LED 64).

  When the communication session between the information communication terminal device 25 and the moisturizing air supply unit 20 is established, a sleep request write request signal is issued from the information communication terminal device 25 (T43). Then, the moisturizing air supply unit 20 recognizes that the information communication terminal device 25 is a predetermined terminal device recognized in advance, and issues a sleep time data write permission signal (T44).

  The information communication terminal device 25 issues a sleep time data write command signal (T45). Then, the sleep time data temporarily stored in the storage unit 78 of the information communication terminal device 25 is read out and transmitted to the moisturizing air supply unit 20 (temporarily stored in the storage unit 78 of the information communication terminal device 25). The stored sleep time data remains as it is and does not disappear automatically).

  When the sleep time data from the information communication terminal device 25 is read, a communication session between the information communication terminal device 25 and the moisturizing air supply unit 20 becomes unnecessary. Ends.

  In the information communication terminal device 25, the sleep time data is first stored in the NFC storage unit 31, and the same data is transferred to the storage device 33R of the control device 33. Therefore, the control device 33 displays the sleep time data on the display screen 101 (T46).

  When the user checks the sleep time by checking the display screen 101 and corrects the sleep time, the user waits for the correction input and waits for a final driving start command from the user (T47).

  When there is an operation start command, the control device 33 calculates the start time and end time of the moisturizing operation in the sleep time based on the finally set sleep time data (T48). For example, if the current time is 22:10 and the sleep time indicated by the sleep time data is 23:10, it is known that there is 60 minutes until the start of the moisturizing operation. When the moisturizing operation is started at the timing, it is known that 10 minutes are required until high-temperature steam is generated from the high-temperature air generation unit (boiler chamber) 59 by starting energization of the electric heat source 90. It can be seen that energization should be started at 0:00.

  Actually, it takes some time to fill the inside of the high-temperature air generating part (boiler room) 59 with steam, so that the electric heat source 90 is energized at a time earlier than 23:00. Then, the elapsed time is counted down to the end time of a predetermined moisturizing operation (for example, 180 minutes) determined by the operation program of the control unit 33 (T49). When the user changes the predetermined moisturizing operation (for example, 180 minutes) and determines the operation condition, the time after the change is compared with the sleep time (at step T48).

  In general, since it is said that the quality of sleep is good at the early stage from the time of falling asleep, in the first embodiment, the moisturizing operation is started at a timing that is not so late from the time of falling asleep as much as possible. For example, energization of the heat source 90 is started at a timing of 30 minutes at the latest from the time of falling asleep. The electric blower 55 is energized at the latest 35 minutes after falling asleep. In addition, in the scene where the moisturizing air supply device 20 is used for the first time, the (first) energization start timing to the electric heat source 90 and the energization start timing to the electric blower 55 are always set to maintain an interval of 5 minutes. Yes.

  Next, FIG. 10 will be described. FIG. 10 is a flow chart 1 showing the control operation of the moisturizing air supply machine according to Embodiment 1 of the present invention.

  Hereinafter, each operation step from the start (S1) to the end (S17) will be described. When the main power switch 70 is first turned on (S2), the control unit 33 confirms the presence / absence of sleep time data stored in the storage unit 33R and the latest status of the target resident (sleeping person) and the like. These are read temporarily (S3).

  Then, the display screen 101 is activated (S4). Then, on the display screen 101, the user displays a touch key (icon) 102 for “sleep mode” (automatic mode) and a touch key (icon) 103 for “manual mode”. A display is made to select one (S5). The display contents of the display screen 101 will be described with reference to FIGS.

  When the user selects the “manual mode”, the process proceeds to the next step (S6), and the user sets the driving time. The operation time in this case includes a case where an “automatic start / automatic stop” operation using a timer is performed. Therefore, for example, if the current time is 22:00, the moisturizing operation starts immediately and ends 3 hours later, and the operation starts at 23:15, 3 hours later (4 hours later or other time) However, there are two options: a pattern that automatically stops.

  When the user sets the operation time, the process proceeds to the next step (S7), and when the user gives an instruction to start the moisturizing operation, the process proceeds to the next step (S8), and energization of the electric heat source 90 is started. The moisturizing operation is started.

  When the prescribed predetermined time or the time set in advance by the user has elapsed, or when the user gives a stop command in the middle, the condition of the next step (S9) is satisfied, and the operation ends ( S16).

  Next, when “sleep mode” (reliable mode) is selected in step (S5), the process proceeds to step (S10), and the user is requested to confirm the driving start at that step. When the user touches a predetermined input key, a “Yes” determination is made and the process proceeds to the next step (S11).

  If there is no appropriate sleep time data, “Yes” determination is made in step (S11), and it is recommended that the user's sleep time data be read on the display screen 101 (S12). The case where there is no appropriate sleep time data is, for example, the case where the user matches, but the acquired data is older than one year, or the target person is different data. In addition, before acquiring sleep time data, the code number according to a resident is input into the power command device 5 for identification of a subject (measured person), or the acquired data is read, Processing such as adding an identification code or organizing it into a database for each resident is good.

  In the next step (S13), if the user wishes to obtain sleep time data, as described in step (S5), the touch key (icon) of the “sleep time compatible mode” (trust mode) 102 may be touched. On the other hand, if the user does not wish to acquire sleep time data, the process returns to step (S5), and the “manual mode” can be selected.

  When the user performs an operation that the user desires to acquire sleep time data, the process proceeds to the next step, and the control unit 33 performs an operation of reading the latest sleep time data from the power command device 5. Therefore, a communication session is established with the power command device 5, and the latest sleep time data is read (S14). Then, the communication session is canceled, and the read sleep time data is stored in the storage device 33R (S15). Further, the NFC storage unit 31 may be subjected to a process of copying and transferring the same data as that data.

  Next, based on the obtained sleep time data, it is calculated at what timing the moisturizing operation should be started and ended in the sleep time (S15). And the energization start time etc. of the electric heat source 90 are calculated, and the whole driving | operation schedule is determined (S16). Since the operation start command has been received from the user already in the step (S10), the process proceeds to step (S8) without waiting for another operation from the user. If there is sleep time data in the step (S11), the process proceeds directly to the step (S16).

  In step S14, sleep time data is acquired from the power command device 5, but sleep time data cannot be acquired from the power command device 5 (if there is no sleep time data or some wireless communication failure occurs. The control device 33 cancels the sleep time data acquisition from the power command device 5 and sleeps from the information communication terminal device 25 instead. Acquisition of time data is recommended to the user on the display screen 101 (at the same time, the voice guidance device also notifies the user). Then, as described above, a communication session between the information communication terminal device 25 and the moisturizing air supply unit 20 is established, and the sleep time acquisition operation is performed.

  During the moisturizing operation, the controller 33 monitors whether there is a physical or electrical abnormal state. Further, the control device 33 obtains temperature information from a temperature detection element (not shown), and monitors whether or not main parts, electrical components, etc. in the body case 49 are at an abnormally high temperature. Yes. For example, the high-temperature air generation unit (boiler chamber) 59 is supplied with water 60 from the cartridge tank 56 so that the water level is always constant. For some reason, the temperature of the high-temperature air generation unit 59 is a predetermined temperature. If it exceeds, the control device 33 recognizes that it is in an abnormal state and cuts off the power supply to the electric heat source 90 (see FIG. 6).

  And the change state of the electrical and physical (temperature of the above-mentioned high-temperature air production | generation part 59 as an example) of the main part of the moisture retention air supply machine 20 in the period from the initial state of such an abnormality to an emergency stop is shown. (Abnormality monitoring) information is stored in the storage unit 33R of the control device 33. The abnormality monitoring information stored in the storage unit 33R starts to be acquired from the time when the main power switch 70 is turned on, and reflects the history of electrical and physical changes until the moisturizing operation is completely stopped. Become. The abnormality monitoring information is not automatically deleted even after the main power switch 70 is turned off, and is continuously stored in the storage device 33R.

  Next, an operation in which the information communication terminal device 25 acquires abnormality monitoring data from the moisturizing air supply machine 20 will be described with reference to FIG. Note that not only the abnormality monitoring data but also the data (for example, sleep time data) acquired by the moisturizing air supply machine 20 from the power command device 5 is basically an information communication terminal as shown in FIG. The device 25 operates.

  FIG. 11 shows processing steps of the information communication terminal device 25. A control program for executing the steps shown here is stored in the central processing unit (CPU) 77 from the beginning. In the description of FIG. 11, the symbol “SV” indicates a processing step. Further, in the moisturizing air supply device 20, since some abnormality has occurred during the moisturizing operation, the following description will be made assuming that the user confirms the abnormality content by looking at the display content displayed on the display unit 101. The displayed content is, for example, the text “Explanation was stopped because an abnormality was detected. For details, information can be obtained by bringing a terminal device such as a mobile phone with an NFC function close to the NFC display section” Information. At the same time, it may be notified by a voice guide device (not shown).

The previously started information communication terminal device 25 is brought closer to the NFC input / output unit 63 of the moisture retention air supply unit 20. Then, the information communication terminal device 25 starts processing by activating the application software unit 80 stored in the storage unit 76.
In step SV1, the communication establishment unit 83 of the information communication terminal device 25 monitors that an NFC communication session is established between the information communication terminal device 25 and the moisturizing air supply unit 20. NFC communication is short-range wireless communication using radio waves in the 13.56 MHz band.

  When the user brings the information communication terminal device 25 close to and close to the NFC input / output unit 63 of the moisturizing air supply device 20 (for example, up to 5 cm), the communication establishment unit 83 establishes an NFC communication session.

  When the NFC communication session is established, the communication establishment unit 83 determines YES in SV1, and proceeds to SV2. In SV2, the transmission processing unit 82 uses the NFC communication session established in SV1 to send information for requesting provision of abnormality monitoring data and identification information of the moisturizing air supply unit 20 to the moisturizing air supply unit 20. Transmit (SV2). This request information is temporarily stored in the NFC storage unit 31 shown in FIG.

Subsequently, in SV3, the information communication terminal device 25 uses the NFC communication session established in SV1 to select “dedicated display” for selecting information that the user desires to display from the moisturizing air supply unit 20. Information for displaying “screen” on the display unit 73 of the information communication terminal device 25 is received. This information is described as “information for display menu” in FIG.
The “display menu” here refers to at least the following three information groups when an abnormality occurs.
(1) Identification information (product identification information)
(2) Abnormal content information (detailed information explaining the abnormal content)
(3) Advice information (information explaining how to use the product correctly and how to deal with abnormalities)
The “dedicated display screen” is, for example, the one shown in FIGS.

  When the display menu information is received, the reception processing unit 81 confirms the received content, and in SV4, the control unit 76 rings the information communication terminal device 25. As a result, the user is notified that reception (here, reception of display menu information) has been completed. Immediately after this, the information communication terminal device 25 transmits the MAC address to the moisturizing air supply unit 20 using the NFC communication session established in SV1. When the MAC address is received by the moisturizing air supply unit 20, it is used to identify the communication device on the moisturizing air supply unit 20 side in order to ensure continuity and relevance in subsequent communications.

  By the notification at the time of the SV4, the user knows that the information communication terminal device 25 may be moved away from the moisturizing air supply device 20. Even if this is not known, in step SV6, the reception of the display menu information is completed on the display unit 73 of the information communication terminal device 25, and the communication is temporarily interrupted. So that the user's useless confusion is avoided. The screen processing of the display unit 73 is executed by the display control unit 84.

  The information communication terminal device 25 can be moved away from the moisturizing air supply device 20 and moved closer to the user's hand so that the display unit 73 can be easily seen, and the subsequent operations can be performed. As a result, when the distance between the information communication terminal device 25 and the moisturizing air supply unit 20 becomes larger than the distance that radio waves reach each other, the NFC communication session established in S1 is interrupted (SV7). If the process up to this point is defined as the first NFC communication session, it can be said that the stage of SV7 is the completion of the first NFC communication session.

  If the NFC communication session is not interrupted at SV7 as described above at SV7, the process returns to SV6 and the user is advised to temporarily interrupt NFC communication.

Next, in SV8, the control part 76 rings the moisturizing air supply machine 20. As a result, the user is notified that NFC has been interrupted.
The display control unit 84 generates a predetermined selection screen using the text data included in the display menu information received in SV3 (SV9). That is, the content that the user first checks on the display unit 73 of the information communication terminal device 25 is a “dedicated display screen” as shown in FIG. 13, and the type of information desired to be displayed is one of three. Only one can be selected. Since there are a plurality of methods for selecting the type of information in this SV9, it will be described in detail when explaining FIG. 13 and FIG.

  In SV9, for example, when “abnormal content information display” is selected, an NFC communication session needs to be established before the selection result is input to the moisturizing air supply unit 20. Therefore, as described above, the user brings the information communication terminal device 25 close to the NFC input / output unit 63 on the front wall 61 of the moisture retention air supply device 20, and the communication establishment unit 83 confirms the establishment of the NFC communication session. In this case, the communication establishment unit 83 determines YES in SV10 and proceeds to SV11.

  Thereafter, the information communication terminal device 25 transmits the MAC address to the moisturizing air supply device 20 again using the NFC communication session established in SV11. When the moisturizing air supply unit 20 receives the MAC address again, the moisturizing air supply unit 20 confirms the relevance of communication with the previous time. At the same time, the information communication terminal device 25 transmits a display command of “abnormal content information display” selected in SV9 to the moisturizing air supply machine 20 (SV11).

  Subsequently, in SV12, the information communication terminal device 25 receives information related to “abnormal content” designated by the user to be displayed from the moisturizing air supply device 20, using the NFC communication session established in SV10.

  When the information regarding the abnormal content is received, the reception processing unit 81 confirms the received content, and in SV13, the control unit 76 rings the information communication terminal device 25. Thereby, it is notified that the reception of the information designated by the user (reception of “abnormal content information” in this case) has ended.

  Thereafter, the control unit 76 displays on the display unit 73 that the NFC communication session is to be disconnected, and the NFC communication session is automatically cut off and a series of processing is performed unless the user inputs a new operation within a predetermined time. Exit. The "abnormal content information" received by the user is stored in the memory 86 of the storage unit 80 of the information communication terminal device 25, so that the user can read the content again and display it on the display unit 73 at a later date. Can do. Further, the “abnormal content information” can be transmitted to the sales company of the moisturizing air supply machine 20 or the server of the repair company via the wide area communication circuit 16 using the communication function of the information communication terminal device 25, The information communication terminal device 25 can be brought to a place such as a repair company, and the contents of the abnormality monitoring data can be shown at the shop. In such a case, since the identification information of the moisturizing air supply machine 20 is also recorded, accurate identification information can be transmitted to a repairer or the like.

  The abnormality monitoring data includes various operation information signals L1 to L10 to be described later, a target device registration signal AS1, a request signal (notice signal) AS2 for lowering the total power amount of home appliances, and a power reduction command signal AS3. For this reason, measurement timing of data indicating actual abnormality (for example, temperature or voltage value) and transmission timing of the operation information signals L1 to L7 are temporally associated with each other, so that cause analysis after occurrence of abnormality is easy. become.

  When the information communication terminal device 25 transmits a display command “abnormal content information display” to the moisturizing air supply unit 20 in SV11, the display command is temporarily recorded in the NFC storage unit 31 of the moisturizing air supply unit 20. In response to the display command, the NFC control circuit 28 issues a data transmission command to transmit the abnormality monitoring data stored in the storage device 33R of the control device 33 to the NFC control circuit 28 side (abnormality management).

The control device 33 of the moisturizing air supply machine 20 that has been monitoring the data transmission command of the NFC control circuit 28 operates in response to the transmission command of the NFC control circuit 28. That is, control data (a control command called a data transmission command) is sent from the information communication terminal device 25 side to the NFC storage unit 31 of the moisturizing air supply device 20 that is a kind of the home appliance EE, and the moisturizing air supply device 20 The control device 33 (having a “host computer” function) performs a control operation in accordance with the control command stored in the NFC storage unit 31. However, in the flowchart of FIG. 14 to be described later, there is a step (SY11) of permitting abnormality monitoring data acquisition in the information communication terminal device 25 from the power command device 5 side to the moisturizing air supply device 20 from the security aspect. The information communication terminal device 25 can read the abnormality monitoring data after such a command arrives at the moisturizing air supply device 20 via the first communication means 8A.
Even when the moisturizing air supply unit 20 is turned off or the moisturizing operation is finished or temporarily stopped, the user connects the information communication terminal device 25 to the NFC input / output unit 63 of the moisturizing air supply unit 20. The step (SY11) may be deleted so that NFC communication can be performed each time.

Next, the display content of the display unit 73 when the information communication terminal device 25 acquires the abnormality monitoring data from the moisturizing air supply machine 20 will be described with reference to FIGS. 12 and 13.
FIG. 12 shows the display contents of the display unit 73 of the information communication terminal device 25. The display content of the display unit 73 shown here is at the stage of step SV9 in FIG.

As shown in FIG. 12, the display unit 73 generates a screen for requesting to select one of the three types of information desired to be displayed.
In FIG. 12, 111 is character information for notifying the occurrence of an abnormality, 112 is operation guidance information for prompting the user to select the type of information to be displayed, and 113A is selection information displayed as “product identification information display”. 113B is selection information displayed as “abnormal content information display”, and 113C is selection information displayed as letters “advice information display”.

For example, when “abnormal content information display” is selected on the display screen of FIG. 12, there are two methods.
First method:
Using the selection keys (touch type or push button type) in the four directions provided in the operation input unit 74, for example, in order to sequentially select the selection items downward, the downward direction selection selection key 114B may be pressed. If the character information 113A is highlighted and highlighted so that the item “product identification information display” is initially selected, the above-described downward direction designation selection key 114B is pressed once. The item “abnormal content information display” is selected, and the character information 113B is highlighted and highlighted. If the down direction designation selection key 114B is pressed once more, the item "advice information display" displayed further below is selected, and the character information 113C is highlighted and displayed. If the down direction designation selection key 114B is pressed once more, the item "Product identification information display" is selected from the beginning, and the character information 113A of "Product identification information display" is highlighted by highlighting or the like. Display. Thereafter, if the downward direction designation selection key 114B is pressed in this way, the selection items are circulated. Similarly, an upper direction designation selection key 114A, a right direction designation selection key 114C, and a left direction designation selection key 114D are also provided in the operation input unit 74. To confirm the selection, a confirmation key (touch type or push button type) 115 at the center of the operation input unit 74 may be pressed. When the confirmation key 115 is pressed, the process of SV9 shown in FIG.

Second method:
“Product identification information display” is an operation in which the information communication terminal device 25 is tilted left and right or horizontally from the stage where the information communication terminal device 25 is leveled without using any of the four direction selection keys 114A to 114D provided on the operation input unit 74. To “advice information display” can be selected. As described above, since the information communication terminal device 25 includes the posture detection unit 75, the posture (more specifically, the rotation angle) when the user tilts the information communication terminal device 25 is detected. Then, a signal indicating the posture is output to the control unit 76. Therefore, for example, in order to perform the same operation as pressing the down direction designation selection key 114B once, the display unit 73 of the information communication terminal device 25 is inclined so that it is at the top and the down direction designation selection key 114B is at the bottom. Just do it. Then, when the desired item is selected, the confirmation key 115 may be pressed. When the confirmation key 115 is pressed, the process of SV9 shown in FIG.

Next, FIG. 13 will be described.
FIG. 13 shows a scene in which the abnormality monitoring data is displayed on the information communication terminal device 25 from the moisturizing air supply device 20. In FIG. 14, 116 is character information that informs the content of the abnormality, 117A is character information that indicates the location of the abnormality, and 117B is character information that indicates the cause of the abnormality. Reference numeral 118 denotes selection information for requesting the user to determine whether or not to display information on a request for repair or inspection regarding an abnormality of the product (humidity holding air supply device 20). When selecting the item 118 and obtaining more detailed information, the right direction designation selection key 114C may be pressed once. Although not shown in FIG. 13, when the moisturizing air supply unit 20 is sold, character information such as a contact address and a telephone number written in the NFC storage unit 31 by the manufacturer is displayed on the display unit 73. Can be displayed.

  The above-mentioned “identification information” is information unique to the moisturizing air supply machine 20 and is important information necessary for performing appropriate repairs and inspections. Therefore, the “identification information” is recorded in the NFC storage unit 31. It is desirable to store the “identification information” in the storage device 33R of the control device 33. Alternatively, it may be stored in duplicate on both sides. For example, the manufacturing date, product (serial) number, warranty card number, etc. for which identification information is determined at the manufacturing stage of the factory are stored in the storage device 33R, and the sales date, the name of the seller, etc. are determined at the time of product sales. As for the information, the store or the installer may write the information later through the NFC input / output unit 63.

  The moisturizing air supply unit 20 and the air conditioner 3 communicate with the main body 5A of the power command device 5 such as a power reduction command and an operation state notification by radio signals. Abnormality monitoring data and identification information from the moisturizing air supply unit 20 are transmitted to the main body 5A side of the power command device 5 by using wireless communication between the input / output unit 68 and the input / output unit 30A. Specifically, the data is recorded in the storage device 38 in the main body 5A.

  Even when the capacity of the abnormality monitoring data of the moisturizing air supply device 20 is large and there is a concern that it will take time for the information communication terminal device 25 to read the data by short-range wireless communication (NFC), the abnormality is quickly detected. Monitoring data can be retrieved from the moisturizing air supply 20. The abnormality monitoring data stored in the storage device 38 can be displayed on the display screen 37 </ b> A of the display panel 37 by an operation from the operation input unit 39. Therefore, even if the user does not have the appropriate information communication terminal device 25 at hand, the user can check the content of the abnormality, the estimated cause, and other advice using the display panel 37 of the power command device 5.

  Similarly, the identification information may be transmitted to the main body 5A side and stored in the storage device 38. By doing so, even if the moisturizing air supply machine 20 is purchased several years ago and there is no physical document or document such as an instruction manual or warranty card, the user can Even when an abnormality occurs in the air supply machine 20 for moisturizing, the contents of the abnormality and the identification information are confirmed, and even when a repair or inspection is requested to a dealer or a manufacturer (manufacturer or contracted contractor, etc.) It is possible to accurately transmit the facts relating to the moisturizing air supply machine 20, enabling an appropriate response at an early stage, and improving convenience not only for the user but also for the store or manufacturer.

  Unlike the abnormality monitoring data, the identification information of the household electrical appliance EE such as the moisturizing air supply machine 20 does not always change, and therefore it may be stored in the storage device 38 only once. Therefore, it is not always necessary to acquire the identification information every time an abnormality occurs, but in order to reduce the labor for searching from old records, the identification information is provided from the moisturizing air supply machine 20 when an abnormality occurs. It is desirable.

  Next, a case where the selection information 113C displayed with the characters “advice information display” in the scene shown in FIG. 12 is selected will be described with reference to FIG. When this selection information 113C is selected, the information communication terminal device 25 is connected to the information server 27 by the wireless input / output unit 41, and the abnormality occurrence information including the abnormality monitoring data acquired from the moisturizing air supply unit 20 is obtained. The information server 27 can be transmitted to elucidate the cause of the abnormality and obtain reference information from the manufacturer-side information database 27M for the abnormality occurrence.

  As described above, in the method in which the information communication terminal device 25 directly receives the abnormality monitoring data from the moisturizing air supply device 20 and transfers the abnormality monitoring data to the information server 27, the environmental data around the moisturizing air supply device 20 ( For example, the command information such as the temperature limiting and humidity information of the living space HA and the power limiting operation that is output from the power command device 5 to the other home appliances EE cannot be transmitted to the information server 27. Therefore, as a method for solving this problem, the power command device 5 is configured so that the abnormality monitoring data is changed to the “abnormality occurrence data” (data enrichment) and sent to the information server 27. . This will be described with reference to FIG.

FIG. 14 is a flowchart showing the operation of the control unit 36 of the power command device 5.
When the information indicating that the moisturizing operation of the moisturizing air supply machine 20 has been urgently stopped reaches the control unit 36 of the power command apparatus 5 via the input / output unit 68 and the input / output unit 30AC (SY1), Determines whether transmission of abnormality monitoring data is set to the outside via the information communication terminal device 25 (SY2).

  In the case where the abnormality monitoring data is set in advance to be transmitted via the information communication terminal device 25, the control unit 36 causes the information communication terminal device 25 to transmit the abnormality monitoring data to the moisturizing air supply unit 20. Acquisition and notification of transmission to the outside (SY10). Subsequently, the moisturizing air supply unit 20 is instructed to permit the information communication terminal device 25 to read the abnormality monitoring data grasped by the control device 33 by NFC communication (SY11). . Thereafter, as described above, the information communication terminal device 25 can directly receive the abnormality monitoring data and transfer the abnormality monitoring data to the information server 27. In addition, as described above, the two steps (SY10) and (SY11) are performed so that the information communication terminal device 25 can read abnormality monitoring data and identification information by NFC communication at any time from the moisturizing air supply unit 20. May be omitted.

  On the other hand, if the abnormality monitoring data is not set in advance to be transmitted via the information communication terminal device 25 in step SY2, the control unit 36 acquires the latest environment information from the environment detection unit 9. The environment detection unit 9 acquires environmental information such as the temperature and humidity of the bedroom or the like where the moisturizing air supply unit 20 is installed, and transmits it to the control unit 36 (SY3).

  Next, the control unit 36 acquires the operation information when there is another household appliance in operation in the bedroom or the like in which the moisturizing air supply unit 20 is installed. For example, the air conditioner 3 is in operation, the power consumption is 1300 W, that 120 minutes have elapsed since the start of operation, that no power restriction command has been issued from the power command device 5, Etc. are acquired (SY4). Such information acquisition is possible because information on the installation position of each home appliance EE is registered in the power command device 5. Household appliances in the same living space can be readily identified by searching for “installation position information” stored in the control unit 36 on the power command device 5 side.

  Next, the control unit 36 issues a command for transmitting the abnormality occurrence information to the information server 27 by setting the environmental data in the abnormality monitoring data received from the moisturizing air supply unit 20. At the time of this data transmission, the above-mentioned “driving information of other home appliances EE in the same living space” is also transmitted (SY5). That is, “abnormality occurrence information” includes not only data that is measured and acquired by simply monitoring an abnormality, but also a special identification code indicating that the electrical device has primarily determined that an abnormality has occurred. In addition, when the abnormality occurrence information cannot be transmitted by one communication, it may be automatically transmitted by being divided into a plurality of times.

  Next, the control unit 36 stores abnormality occurrence information such as abnormality monitoring data transmitted to the information server 27 in the storage device 38 as a set together with the identification information. Thereby, even if transmission to the information server 27 fails due to some communication abnormality, the data can be taken out as the power command device 5 later and retransmitted.

  Next, the control unit 36 determines whether the TV receiver 2 in the living room has already been activated (SY12). While it is difficult to assume that the user (sleeping person) is away from the bedroom and going to another room (living space) while using the air supply device 20 for moisturizing in the bedroom, Therefore, it is more safe to inform the user of the moisturizing air supply unit 20 and other residents about the occurrence of abnormality with the TV receiver 2 in the living room. For this purpose, there is this processing (SY12). However, when the abnormality occurrence timing of the moisturizing air supply unit 20 is from midnight (23:00) to early morning (5am), the TV receiver 2 in the living room is suddenly activated and notified by an image or sound. If this is done, there is a risk of disturbing sleepiness and anxiety of other residents, so the process (SY7) described below for starting up the TV receiver 75 in response to the process of SY12 described above is performed from midnight to early morning. The interval is omitted.

  Next, when the TV receiver 2 has already been activated, the control unit 36 promptly notifies the occurrence of an abnormality with an alarm character or animation on the display screen (SY8).

  If the TV receiver 2 is not activated in this step (SY12), the control unit 36 of the power command device 5 sends an activation command signal to the TV receiver 2 to activate the TV receiver 2 (SY7). ). Then, the occurrence of abnormality is promptly notified by an alarm character or animation (SY8).

  Next, the control unit 36 sets the abnormality monitoring data received from the moisturizing air supply unit 20 and the environmental data as a set, and transmits the abnormality occurrence information (to the information server 27) so as to transmit the input / output unit 30B. Command. Further, at the time of this data transmission, the above-mentioned “driving information such as other home appliances EE in the same living space” is also transmitted (SY9). Thus, the transmission operation of the abnormality occurrence information to the information server 27 is completed by the power command device 5.

  The function described in FIG. 14 is, for example, when an abnormality occurs when a child or an elderly person is using the moisturizing air supply device 20 in a bedroom at home, It can be confirmed by the information communication terminal device 25 held by a caregiver and can be known from the TV receiver 2 in the living space away from the sleeping place, so that the safety and security of the resident are increased. Can do.

Next, FIG. 15 will be described.
FIG. 15 shows that after the moisturizing operation of the moisturizing air supply unit 20 is finished, for example, the use of the moisturizing air supply unit 20 is started at 23:00 on the previous day, the use is finished at 6 am on the next day, and information communication is performed at 7 am that morning. The display content of the display screen 73 when the terminal device 25 confirms the result of the moisturizing operation is shown.

  The information communication terminal device 25 in this scene is the moisturizing operation immediately before (from last night to this morning) immediately stored in the NFC storage unit 31 of the moisturizing air supply device 20 by establishing the NFC communication session described in FIG. The data has been read.

  In FIG. 15, 120 is character information informing that it is a screen for confirming the end of the moisturizing operation. As shown in FIG. 15, the display unit 73 generates a screen for requesting to select one type of information desired to be displayed from among three items. 121 is character information that prompts selection.

The three pieces of information that can be selected in FIG. 15 are information about sleep time, information about the result of moisturizing operation, and advice information.
122A is selection information displayed as “sleep information display”, 122B is selection information displayed as “moisturizing operation result display”, and 122C is selection information displayed as “advice information display”.

  In FIG. 15, when the selection information 122 </ b> B displayed as “Moisturizing operation result display” is selected by the input operation unit 74, the screen display changes to that of FIG. 16. In FIG. 16, reference numeral 124 denotes character information that informs that the screen displays the result of the moisturizing operation.

  125A is information indicating the time when the moisturizing operation is started, 125B is information indicating the time when the moisturizing operation is ended, and 126 is information indicating the content of advice to the user in the moisturizing operation last night.

  In the example of FIG. 16, at the same time as the moisturizing operation, the air conditioner 3 is informed that air conditioning is performed in the living space where the moisturizing air supply unit 20 is used, so that the set temperature is not lowered too much. It is calling attention to. Note that the air conditioner 3 may be operated to lower the humidity of the bedroom, especially in the hot summer, in order to speed up sleep, but if the set humidity is too low, the sleep may be disturbed by thirst. There is a concern that it may cause rough skin. Further, depending on the direction and strength of the air-conditioning air blown out from the air conditioner 3, the flow and direction of the high-humidity air blown out from the moisturizing air supply unit 20 may be adversely affected. The precautions are shown so that the original purpose and effect of the machine 20 are not impaired. Such operation information of the other home appliances EE such as the air conditioner 3 is configured to be provided from the power command device 5 to the moisturizing air supply device 20 as needed. explain.

  FIG. 17 shows a display example of the display screen 101 of the moisturizing air supply machine 20. When the main power switch 70 is turned on, the screen of FIG. 17 is displayed first. That is, this FIG. 17 is a display screen of the scene of “Step S4” in the flowchart of FIG.

  As is clear from FIG. 17, the touch screen (also referred to as “icon”) 102 of “sleep mode” (left-to-back mode) 102 is displayed on the left side for selecting the operation mode on the display screen 101. On the right side, a “manual mode” touch key (icon) 103 is displayed. The display screen 101 is a touch-type display screen that employs contact-type input keys that can be input by changing the capacitance when the user touches a finger or the like. Therefore, an effective input signal to the control device 33 is generated when the user touches the display portions of the touch keys (icons) 102 and 103 lightly.

  On the surface of the display screen 101 on which the touch keys (icons) 102 and 103 are displayed, characters or figures indicating the input function of the touch keys are not displayed by printing or engraving, but below these keys. The liquid crystal screen 95 is configured to display a character or a figure indicating a key input function every time the touch key is operated. When the display screen 101 is touched, a key at the touched position is displayed. It will be selected.

  Reference numeral 130 denotes a selection display section (in the operation mode) that informs the user to prompt the user to select an operation mode. Since the selection display unit 130 does not have an input key function, no input is made to the control device 33 even if the selection display unit 130 is touched.

  Reference numeral 131 denotes a help mode key. When the user touches the help mode key, information useful for the user's operation in that scene is displayed, and correct operation is performed by a voice guide device (not shown) provided separately. The method is notified by voice. When this key is pressed many times, how to view and operate this display screen 102 is displayed on the entire display screen 101 with a schematic diagram and characters.

  132 is an information key, and each time you touch it, you will find detailed information on the display screen 101 that will serve as a reference for setting conditions for moisturizing operation and points to note when performing moisturizing operation well. indicate.

Reference numeral 133 denotes a time zone display unit that indicates the most recent (recent) sleep time zone in use. In the example of FIG. 17, since the moisturizing operation was performed last night, “last night sleep time zone” is displayed. .
Reference numeral 134 denotes an environmental information display unit that similarly indicates the average temperature and humidity during sleep at the latest use time. Such environmental information by the air conditioner 3 or the like is provided to the moisturizing air supply unit 20 and the TV receiver 2 or the like by the power command device 5 analyzing the detection result of the environment detection unit 9. The configuration is described with reference to FIG.

  135 is an air-conditioning operation display unit that indicates whether or not the air conditioner 3 has been used at the same time of new use (sleeping). This information is also provided to the moisturizing air supply machine 20 by the power command device 5.

  FIG. 18 shows a display example of the display screen 101 of the moisturizing air supply machine 20. When the touch key (icon) 102 of the “sleep mode” (reliable mode) shown in FIG. 17 is selected, the screen of FIG. 18 is displayed.

  136 is detailed environmental information. When the newest (the latest moisturizing air supply 20) is used, the operating condition of the air conditioner 3 (in this case, the target room temperature) is 25 ° C., and the wind speed is “low”. You can see that it was set.

  Reference numeral 137 denotes information on the degree of comfort (comfort) calculated by the control unit 36 of the power command apparatus 5 from the temperature and room temperature acquired by the environment detection unit 9. Other indicators such as an unpleasantness index may be displayed, or a user may define an evaluation level of comfort level in advance and store it in the power command device 5 and calculate based on it.

Specifically, 137A is a star-shaped comfort level mark calculated by the power command device 6 from temperature and humidity as comfort level (comfort) information.
By the way, in Japan, there is an index called discomfort index calculated by temperature and humidity. For example, the discomfort index is 80 at a temperature of 29 ° C. and a humidity of 70%. If this discomfort index exceeds 75, 10% of the population feels uncomfortable, and if it exceeds 80, all are said to be uncomfortable.

  Therefore, when the comfort level mark 137A is displayed in two stages, it may be defined and displayed as two when the discomfort index is less than 75 and one when the discomfort index is 75 or more. That is, the more the comfort level mark 137A is, the higher the comfort is. The mark 137A is also displayed in each living space on the display screen 37A of the display board 37 of the power command device 5, and is used as one of the environmental information of the living space.

  In addition, when room temperature is 30 degree | times or more and humidity exceeds 75%, a discomfort index exceeds 80 and there exists a risk of becoming heat stroke even if it exists indoors. In particular, looking at the onset of heat stroke, it is known that indoors are overwhelmingly large for both men and women over 65 years old (Reference: “Health Heat Environmental Health Manual” by the Ministry of the Environment of Japan: 2011 Revised in May).

Therefore, the environment detection unit 9 sends a “first alarm” level signal to the control unit 36 at a temperature of 29 ° C. and a humidity of 70%, and the room temperature is 30 ° C. or higher and the humidity exceeds 75%. In this case, a signal of the “secondary alarm” level is sent to the control unit 36. If the living space in which the human detection unit 12 detects the presence of a person such as a resident is issued the “first alarm”, the control unit 36 displays the “first alarm” described below. Process to issue.
Countermeasure 1: An alarm is issued on the display screen 37 </ b> A of the display panel 37 of the power command device 5.
Countermeasure 2: If the TV receiver 2 is being viewed, an alarm is displayed on the display screen.

If the temperature does not improve to less than 29 ° C or less than 70% within 5 minutes after issuing the action commands for measures 1 and 2, the person in the living space may not experience the heat. In this case, the control unit 36 performs a process for issuing a “secondary alarm”.
Measure 3: Forcibly start the air conditioner 2 having the cooling ability (temperature rise suppressing effect) among the environmental improvement devices in the living space (for example, the indoor target temperature at that time is 27 ° C.).
Then, whether or not the primary alarm and the secondary alarm are issued may be included in the environmental detailed information 136 (see FIG. 18) and displayed.

  In the first embodiment, the case where the air conditioner 3 is in the living space naturally includes the fact that the device itself is inside the living space. Moreover, although the apparatus itself may exist in the exterior of a living space, the case where the processed air is supplied in a living space is also included. If the air conditioner 3 is not in the living space or if the power cord is unplugged from the connection port, etc., it is found that the operation is impossible. Start operation of a purifier.

  It is known that convection of room air is effective for preventing heat stroke. Therefore, in the first embodiment of the present invention, a resident outside the living space is notified that the environmental condition is dangerous for health. Specifically, the notification information is transmitted from the input / output unit 30B (see FIG. 3) of the power command device 5 to the outdoor wide area communication network 16 via the router 14A, and information on another resident who is outdoors. It reaches the communication terminal device 25.

  Residents who are outdoors will operate the air conditioner 3 via the power control device 5 by remote control. If this is not possible, contact a close relative or a care helper dispatch office. It is also possible to visit the living space directly (in this case, the resident B tells the visitor how to unlock the electronic lock at the entrance). In other words, the control unit 36, if the temperature and humidity do not improve to a state below the first predetermined value within a predetermined time after receiving the second warning signal, the resident outside the living space Notify that the environmental condition is dangerous. Because of this configuration, even when an elderly person or child unfamiliar with the use of the environmental improvement device is alone in the room, the environment is expected to be monitored by the detection unit 9 and expected to increase safety in indoor living spaces. it can.

  The environment detection unit 9 immediately sends a “secondary alarm” to the control unit 36 when the room temperature is 30 ° C. or more and the humidity exceeds 75% regardless of whether or not the “first alarm” has been issued. To the contrary. When the living space where the human detection unit 12 detects the presence of a person such as a resident is issued the “secondary alarm”, the control unit 36 instructs the processing of the above-described countermeasure 3. . The environment detection unit 9 measures and monitors the latest environmental conditions of the living space where the alarm is issued every minute after the measure 3 is instructed.

  The environmental improvement device such as the air conditioner 3 that has been forcibly started as described above is instructed by the control unit 36 when the environmental condition of the living space becomes a predetermined condition determined by the resident. And automatically stop the operation of environmental improvement equipment. Or, if the operation of the environmental improvement device is continued for 30 minutes, it may be automatically stopped. This is because driving more than necessary is not preferable from the viewpoint of energy saving.

  Reference numeral 138 denotes operation information at the time of the latest use (at the time of sleep last night), which is a touch key (icon) for instructing to operate the moisturizing air supply 20. In this case, information on the sleep time zone (sleeping time and awakening time) is also used as it is, and the sleep time of the user is not actually measured.

  139 refers to last night's sleep time information, etc., but as a result, it does not follow the past moisturizing driving conditions and past sleeping time compatible driving results, etc. It is a touch key (icon) in manual mode for selecting to do. The difference between the touch key (icon) 139 and the “manual mode” touch key (icon) 103 shown in FIG. 17 is that the display screen 101 in FIG. 18 is not displayed when the latter is selected. That is.

  140 is a touch key (icon) for proceeding to the next display step, and 141 is a touch key (icon) for instructing to return to the display screen of the previous step. Reference numeral 142 denotes character information indicating a convenient information display screen.

  17 and 18, the NFC input / output unit 63 has a frame indicated by a broken line, which schematically shows the position of the NFC antenna 29, and the size of the antenna 29 is This is different from the shape shown by the dotted frame. Since the NFC antenna 29 is not directly visible, the front wall (front wall) 61 of the main body case 49 can be seen so that the position of the antenna 29 of the NFC input / output unit 63 can be seen even when the light emitting diode element (LED) 64 is not lit. The position of the antenna 29 of the NFC input / output unit 63 is shown on the surface of FIG. In the examples of FIGS. 17 and 18, “Near Field Communication TOUCH” is displayed in characters.

Next, FIG. 19 will be described.
In FIG. 19, L <b> 1 to L <b> 10 are operation information signals transmitted from the moisturizing air supply machine 20 to the power command device 5. L1 is a signal indicating that the main power is turned on (ON), AS1 is a notification signal that the signal L1 has been registered as a communication target device, and L2 is that the display screen 101 of the moisturizing air supply unit 20 has been activated. It is a signal which shows.

  L3 is a signal for requesting the provision of sleep time data from the moisturizing air supply machine 20, and a reception notification signal that is transmitted for confirmation when it is obtained.

  L4 is a signal for informing whether the driving mode, that is, the sleep mode corresponding to the mode ("trust mode") or the manual mode is selected, L5 is a signal indicating that the sleep time is set, and L5 is This is a notice signal for starting the operation of the air supply device 20 for moisturizing.

KS is a signal that permits the start of operation from the power command device 5 in response to the notice signal L5.
L6 is a signal indicating that energization of the electric heat source 90 is started and the steam generation operation is actually started, and L7 is that energization of the electric blower 55 is started after the signal L6 (for example, after 5 minutes). From this stage of L7, air is mixed with high-temperature steam, and a high-humidity wind of about 40 ° C. is blown out, so that the moisturizing operation is started.

  L8 is a signal indicating that the power supply to the electric heat source 90 has been stopped, L9 is a signal indicating that the power supply to the electric blower 55 and the display screen 101 has been stopped, and L1 is that the main power supply has been cut off (OFF). It is a signal to show.

  17 and 18, it has been described that the environmental information display unit 134 and the air conditioning operation display unit 135 are provided on the display screen 101. However, the control unit 36 of the power command device 5 stops the moisturizing air supply 20. When the operation information signal L9 knows that the air conditioner 3 has been operated, whether or not the air conditioner 3 has been operated during the moisturizing operation period to the moisturizing air supply machine 20 Transmit (notification signal EV shown in FIG. 19).

  Further, regardless of whether or not the air conditioner 3 was operated during the moisturizing operation period, the average temperature during at least the operation information signals L7 to L9, that is, during the period during which the moisturizing operation was substantially performed. The control unit 36 transmits the data such as to the moisturizing air supply unit 20. The data such as the average temperature is based on the environmental data acquired by the control unit 36 from the environment detection unit 9. That is, in the second storage unit 36B, the environmental data (for example, temperature and room temperature) of the living space where the moisturizing air supply unit 20 is used during the moisturizing operation of the moisturizing air supply unit 20 is stored in the moisturizing operation time. It is recorded in time series in pairs, and this environmental data is used by residents.

  The power command device 5 stores the reception times of the signals L1 to L10 up to a second unit. The same applies to the other signals AS1, LM, KS.

  The moisturizing air supply machine 20 is not a target product for which the upper limit value of power consumption is restricted by the power command device 5, but if it is a target product, after the operation information signal L5, or at least L6 After that, the power command device 5 may issue a power reduction request signal AS2 or a power reduction command signal AS3.

  The power reduction request signal AS2 is a signal urged by the power command device 9 to promptly reduce the power. If the total power does not decrease within a predetermined time from this signal, the power reduction request signal AS2 is forcibly reduced. Therefore, the power reduction command signal AS3 is issued within a predetermined time (for example, within several seconds to 10 seconds) after the power reduction request signal AS2 is issued. When sufficient marginal power is secured by any of the moisturizing air supply unit 20 and other home appliances EE voluntarily reducing power within a predetermined time after the power reduction request signal AS2 is issued, The power reduction request signal AS2 may be withdrawn.

  The power command device 5 compares the total power value of the required power from each home appliance EE with the upper limit capacity of the breaker BK (not limited to one. The user may set a plurality), and the total power If there is a possibility of exceeding the upper limit capacity, a predetermined command is output from a required power excess amount determining means (not shown) so as to reduce the excess amount. If there is no excess amount (that is, the excess amount is 0), the same usable power as the required power is returned to the household electrical appliance EE that has transmitted the required power. If there is an output of excess power, the power consumption reduction range and target household appliances are determined according to this total power excess amount and a predetermined priority order. It is configured to command.

  In addition, although the household appliances which are not registered as household appliances for power reduction are referred to as “unregistered devices”, the power command device 5 assumes the power usage amount of the “unregistered devices”. decide.

  As described with reference to FIG. 1, the power command device 5 is connected to a power company outside the house or a server of another external organization 15 </ b> A. For this reason, for example, when power tightness information or the like is transmitted from a public office or a local power company, the information is transmitted to the control unit 36 of the power command device 5 and displayed on the display panel 37 to Calls attention and recommends electricity reduction. However, there are at least two types of power tightness information: a command to forcibly reduce the power consumption of each household and a command at the request level that you want to reduce it arbitrarily rather than forcibly. Since the control unit 36 selects an appropriate appliance from the household electrical appliances that use electric power and issues a power reduction command, the electric power of the household electrical appliance EE may be forcibly reduced.

  The resident can select the power limit value of the power command device 5 from a plurality of points at an arbitrary time. For example, when power tightness information or the like is received from the wide area communication network 16, it is displayed on the display board 37 (also notified by the voice guide device), so that the upper limit value is voluntarily lowered by watching this. Can be set up easily.

  In the power control system shown in the first embodiment, the home appliances EE such as the moisturizing air supply machine 20 are not directly connected to the communication network (wide area communication network) 16 outside the house. Since these home appliances EE are connected to the communication network 98 via the power command device 9, the risk that the moisturizing air supply unit 20 and the like are illegally operated from the outside through the communication network 16 can be greatly reduced. . That is, in general, household appliances used in the kitchen KP and bedrooms and living rooms do not have a high-performance firewall or information processing device and do not have sufficient security functions. Many. For this reason, a case in which an unauthorized intrusion into a kitchen appliance KP such as a refrigerator from the outside through a communication network has been used as a stepping stone against an information terminal device or a computer of another person has recently become a social problem. Security agencies, etc. pointed out the dangers of home routers and home appliances being manipulated illegally, using the same trick as using botnet-type malware (MALWARE) ing.

  On the other hand, in the first embodiment, the home appliance EE alone such as the moisturizing air supply unit 20 cannot perform direct communication with the communication network 16, but via the power command device 5 or information communication. Information can be exchanged via the terminal device 25 only. For this reason, this Embodiment 1 is advantageous also in terms of security measures, and can provide a living space where the resident can feel comfortable in daily life.

Modification of home appliances.
FIG. 20 shows a modification of the first embodiment of the present invention, and is a block diagram showing the overall configuration of a communication adapter, a power command device, and a home appliance used in the home appliance operation management system according to the present invention. FIG. In the figure, the same or corresponding parts as those in the first embodiment are denoted by the same reference numerals.

  The power control system employed in the home appliance operation management system in FIG. 19 has the same basic configuration as that of the first embodiment. However, the control unit 36 of the power command device 5 and the home appliance EE including the moisturizing air supply device 20 cannot exchange information directly, and a large point is that a separate communication adapter is used as an inclusion. Is different. In addition, the air supply device 20 for moisturizing is defined as “first home electrical appliance” and is significantly different from the first embodiment in that it may receive the power reduction command signal AS3 and the like from the power command device 5. Is different,

  The “communication adapter” refers to a communication control device provided between each home appliance and its power source. For example, the communication adapter here refers to a communication adapter as disclosed in Japanese Patent Application Laid-Open No. 2010-288388, which has a power plug and an outlet, and an electric device to be energized is connected to the outlet. When the communication adapter receives the power command signal by wireless or wired communication means, it restricts or cuts off the power supply of the home appliance to be controlled. In this way, a communication adapter is connected to an existing home appliance, a power command signal is sent from the power control device 5 to the communication adapter, and the communication adapter controls the home appliance by that signal. Can be provided on the power source side, so that the power command device 5 can provide an advantage of centralized control of power.

  Reference numeral 150 denotes a communication adapter. The communication adapter includes an input / output unit 151 that is wirelessly connected to the input / output unit 30A of the power command device 5, a control unit 152 that controls the communication adapter 150 itself, and a moisturizing air that is controlled by the communication adapter 150. A program storage unit 153 storing a control program and control data for performing energization control of the supply device 20, and an input / output unit (interface unit) connected to the control device 33 of the moisturizing air supply device 20 by a predetermined signal cable 154.

  The communication adapter 150 may be connected directly to the power line (main trunk line) 1 separately from the moisturizing air supply unit 20 and obtain power from the power line. Alternatively, a method of obtaining power by connecting with a connecting means such as a connector may be used. When the main power supply of the moisturizing air supply unit 20 is disconnected, the mains power supply is always supplied to the communication adapter 150 even if the main power supply of the moisturizing air supply unit 20 is cut off. Communication with the power command device 5 can be executed in any of the disconnections.

  In the modification shown in FIG. 20, adapters (not shown) having the same configuration as that of the communication adapter 150 are also installed in household electrical appliances EE other than the moisturizing air supply unit 20. For this reason, since a plurality of communication adapters 150 are simultaneously used in one home, living space, etc., each communication adapter 150 is given an identification number (communication adapter ID) unique to each communication adapter, Viewed from the power command device 5 side, only a specific communication adapter 150 of the communication partner can be identified.

  One communication adapter 150 is directly fixed to a main body case (box) that is an outline of the main body 20A of the moisturizing air supply machine 20, or is connected to such a main body with a signal cable or the like, and in the vicinity of the main body. Installed and used. In addition, since the communication adapter 150 is provided, the wireless communication input / output unit 68 provided in the moisturizing air supply unit 20 according to the first embodiment is not necessary. However, when the manufacturer sells the air supply device 20 for moisturizing, the communication adapter 150 is sold as a set at the same time. It is expressed that “the moisturizing air supply unit 20 includes an input / output unit 68 for wireless communication”.

  In this modified example, as in the first embodiment, when the controller 33 determines that an abnormality has occurred in the moisturizing air supply machine 20, the operation of the moisturizing air supply machine 20 is immediately stopped, A signal indicating an emergency stop of the electric heat source 90 is transmitted from the communication adapter 150 to the power command device 5, and then the monitoring data continuously acquired by the control device 33 during the moisturizing operation is transmitted from the communication adapter 150 to the power. It is transmitted to the command device 5.

According to this modification, the communication adapter 150 can exchange various signals with the power command device 5.
In addition, since it is not necessary to manufacture the moisturizing air supply machine 20 by incorporating a function such as the communication adapter 150 described above, the cost of the moisturizing air supply machine 20 itself can be kept low. In other words, the communication adapter 150 does not have to be designed exclusively for a specific model of the moisturizing air supply machine 20, and is also used for other home appliances EE (by replacing the stored contents of the program storage unit 153, etc.). Since it can be widely used, there is also an effect that the entire installation cost can be suppressed even in one home using a large number of home appliances EE.

  In the first embodiment and the modification described above, the specific index of the comfort of the living space HA has not been described. However, the initial setting is a temperature range of 26 ° C. and a humidity range of less than 50% as a default value. There is a plan to set.

  In general, it is difficult to express a comfortable environment with absolute values. For example, comfort is defined as “a state of perception representing satisfaction with environmental conditions” according to ASHRAE (American Society of Heating, Refrigerating and Air Conditioning, 1996). In other words, it means an environmental condition that causes discomfort when it gets hotter or colder than it is now. For this reason, the impression received by the resident does not always correspond to the feeling received from the environment, but changes depending on the resident's mood, experience, physical condition, and the like.

Therefore, generally speaking, the state of “comfortable indoor environment (climate)” is described. For example, in the IEA (International Energy Agency), the state in the room (room) is defined as follows. .
(1) Room temperature: In winter, it should be around 20 ° C.
Must be around 28 ° C in summer.
(2) Room horizontal temperature: It must be uniform.
(3) Temperature difference between the upper and lower sides of the room: 3 ° C to 4 ° C or less.

  On the other hand, the set temperature in the air conditioner of a room or office in the home is 28 degrees Celsius during cooling in summer and 20 degrees during heating in winter, which is recommended in Japan from the viewpoint of energy saving. It is generally said that the comfortable room temperature is around 25 ° C.

  Therefore, when the first embodiment of the present invention or the above-described modification is implemented, the comfort level is calculated and displayed, such as the type of area where the house is located or the age and sex of the resident. Since there is a possibility that the judgment of comfort may change under various preconditions, it is better that the resident can adjust the “temperature” of comfort as appropriate. In addition, a radio clock or the like may be built in the power command device 5 so that the temperature is automatically changed according to the season. More specifically, when the resident feels comfortable, the time point when the user feels comfortable with the TV receiver 2, the power command device 5, the information communication terminal device 25, or the moisturizing air supply device 20 is specified. A signal may be input to the power command device 5, and the power command device 5 may use environment information (such as temperature and humidity) at the time of receiving the input as basic data for subsequent comfort determination. The accumulation of information related to the occupant's comfort can make the comfort determination by the power command device 5 closer to the resident's perception and sense.

  21 to 22 relate to the first embodiment. FIG. 21 is a flowchart showing a series of operation steps until the power command device permits the start of operation of the moisturizing air supply and receives an operation signal for starting operation, and FIG. 22 shows the display of the moisturizing air supply It is a front view which shows a screen, The same code | symbol is attached | subjected to the same or equivalent part as what was shown in FIGS. 1-20, and the overlapping description is abbreviate | omitted.

  The operation management system having the power command device (integrated management device) 5 of the first embodiment as a core assumes a case where the air supply unit 20 and the air conditioner 3 in the same living space are operated simultaneously. In order to prevent the moisturizing air supply device 20 from being adversely affected by the operation of the air conditioner 3, improvements are made as described in detail below.

  The moisturizing air supply device 20 shown in FIGS. 21 to 22 and the other household electrical appliance EE perform wireless communication with the power command device 5 and start operation upon receiving an operation permission command from the power command device 5. It can be done. That is, when the moisturizing operation permission signal arrives, the moisturizing air supply unit 20 can start using the operation command from the user. However, in order to limit the total amount of power in the home, the power command device 5 provides commands such as a power reduction request signal AS2 and a power reduction command signal AS3 to the air conditioner 3 and the home appliance KP in the kitchen. However, since the command such as the power reduction request signal AS2 is not issued to the moisturizing air supply unit 20, when viewed from the moisturizing air supply unit 20, the power command device 5 It is positioned as (information) “integrated management device” for home appliances. Therefore, in the following description, the “power command device” 5 will be described in a unified manner as “integrated management device” in principle.

  Hereinafter, FIG. 21 will be described. FIG. 21 is a flowchart showing operation steps until the moisturizing operation is permitted after the integrated management device 5 receives a warning signal from the moisturizing air supply device 20 to start the moisturizing operation. The control unit 36 of the integrated management apparatus 5 has a “humidity / air-conditioning cooperation program” for performing operation steps from the start (S100) to the end (S113) in FIG.

First, when the integrated management device 5 receives from the moisturizing air supply device 20 a notice signal (one of operation information signals) to start the moisturizing operation (S101), the process proceeds to the next step (S102). Then, it is determined whether or not the environment improvement device SP1 is present in the living space (for example, bedroom) where the air supply device 20 for moisturizing is present.
If there is the environmental improvement device SP1, the process proceeds to the next step (S103).

  In the next step (S103), it is determined whether the environmental improvement device SP1 is the air conditioner 3 and is operating, and if the air conditioner 3 is operating, the next step In (S104), the operating condition of the air conditioner 3 is determined.

  In the next step (S104), it is determined whether or not the air conditioner 3 is set to “strong operation” or “medium operation”. “Strong operation” refers to a case where the air speed of air conditioning for cooling or heating blown out from the air conditioner 3 is high so that the cooling or heating capability is at the highest level. “Medium operation” refers to a case where the wind speed is medium. On the other hand, “weak operation” refers to the case where the air speed of the air conditioner is 1 m / s or less at the outlet of the air outlet of the air conditioner 3.

  If “strong operation” or “medium operation” is set in step (S104), the display screen is displayed from the integrated management device 5 on the moisturizing air supply unit 20 in the next step (S105). A display command signal is transmitted to 101.

  When a display command signal is transmitted in the step (S105), the display screen 101 of the moisturizing air supply machine 20 changes as shown in FIG. 22 (S106), but FIG. 22 will be described later.

  If all of the three steps (S102), (S103), and (S104) are “No”, the process proceeds to a step (S110) of issuing a moisturizing operation permission command.

  As a result of prompting the user to pay attention to the operating conditions of the air conditioner 3 by looking at the display screen 101, the fact that the user has confirmed that is that a specific input key (icon) on the display screen 101 ) By touching 166, the integrated management device 5 can detect it. That is, when the special icon 166 is operated in step (S106), it means that a predetermined “confirmation” has been input on the operation unit 71. Therefore, the process proceeds to step (S110), and a moisturizing operation start permission signal is transmitted. It will be.

  On the other hand, while the confirmation request is made to the moisturizing air supply unit 20 in the step (S106), the integrated management device from the moisturizing air supply unit 20 within a predetermined time (for example, within 30 seconds). In contrast, when a predetermined confirmation signal is not transmitted, a confirmation request signal for the direction and speed of the conditioned air is sent from the integrated management device 5 to the air conditioner 3 (S107). Specifically, a voice guide for confirmation is provided by a voice guide device provided in the air conditioner 3, or a message is displayed in characters or figures on a light emitting display unit or a remote control outside the main body of the air conditioner 3. And notify.

  While a confirmation request is made to the air conditioner 3 in step (S107), a predetermined confirmation signal is transmitted to the integrated management apparatus 5 within a predetermined time (for example, within 30 seconds). Is determined (S108), and if there is no transmission, the process proceeds to step (S109). In this stage (S108), if the user changes the air speed of the air-conditioning air of the air conditioner 3 to a “weak” level or stops the operation of the air conditioner 3 itself, this step ( The process proceeds from S108) to the moisturizing operation permission transmission step (S110).

  In the step (S109), the integrated management device 5 designates the air direction of the conditioned air to be lower than the horizontal by the operation information signal transmitted from the air conditioner 3 as needed, and the wind speed is “strong”. ”Or“ Medium ”stage, it is known that these setting conditions are forcibly changed so that the supply of the moisturizing air to the predetermined direction and the predetermined area is not adversely affected (for example, The wind speed is changed to “weak” level (S109). As a result, if the moisturizing air supply unit 20 is separated from the air conditioner 3 by 2 m or more (in a linear distance), the conditioned air from the air conditioner 3 is at a very low speed near the moisturizing air supply unit 20. It is. However, the integrated management device 5 does not command change of the set value of the air conditioning target temperature. This is because changing the target temperature may affect the user's sleep (sleeping).

  Thereafter, the process proceeds from step (S109) to the moisturizing operation permission transmission step (S110), and the sleep determination operation by the sleep determination unit 218 is started (S111). Then, it is determined whether or not the operation information signal indicating the start of the moisturizing operation has arrived from the moisturizing air supply machine 20 (S112), and when the signal comes, the moisturizing operation has been started. This series of operations is terminated (S113). Thereafter, the control unit 36 of the integrated management device 5 continues to control the operation of acquiring environmental data such as the temperature and humidity of the bedroom, which is the installation space of the moisturizing air supply machine 20, and also receives biological data from the sleep sensor. The operation received by the sleep determination unit is monitored.

  In addition, from the said step (S100) to step (S112), it was a premise that the residence space (bedroom) of the moisturizing air supply machine 20 has one or more residents. Whether or not there is a person in at least this living space (bedroom) can be detected by the person detection unit 12. Therefore, when the integrated management device 5 receives a warning signal from the moisturizing air supply device 20 to start the moisturizing operation (S101), since the person is also detected, the person detecting unit 12 determines that there is no person. If it is determined, the process does not proceed to step 101 and thereafter. That is, the steps (S105) to (S108) are meaningless if there is no person in the living space (bedroom) where the air supply device 20 for moisturizing is present. Also, the integrated management device 5 can perform more accurate control.

Next, the display screen 101 of the moisturizing air supply machine 20 mentioned in step (S105) will be described with reference to FIG.
As shown in FIG. 22, various kinds of alert information are displayed on the display screen 101 for the purpose of allowing the user to reconfirm the relationship with the air conditioner 3 when starting the operation of the air supply device 20 for moisturizing. doing.

In FIG. 22, 160 is guide information indicating a check request before the start of the moisturizing operation, and requests the user of the moisturizing air supply machine 20 to touch the confirmation key.
161 is the wind direction information that urges attention not to apply the conditioned air from the air conditioner (air conditioner 3) to the moisturizing air supply machine 20, 162 is an image diagram showing the position of the moisturizing air supply machine 20, 163, Similarly, the image diagram 164 of the air conditioner 3 is two pieces of caution information listed as precautions for the air conditioner 3 with respect to the product (humidity retention air supply unit 20). In this example, two points are pointed out: no wind, and the lowest wind speed.

165 is position information indicating that the product (humidity-retaining air supply unit 20) is positioned downward so that an interval of 1 meter (m) or more is maintained when viewed from the air conditioner 3. is there.
In FIG. 22, reference numeral 166 denotes an input key (icon) for confirmation, and by touching it, a predetermined confirmation signal is transmitted from the moisturizing air supply machine 20 to the integrated management apparatus 5, and FIG. Step (S106) is “Yes”.

  As is apparent from the description so far, in the first embodiment, attention is paid to the operation state of the air conditioner 3 in the living (sleeping) space in the scene where the occupant uses the air supply device 20 for moisturizing. be able to. If the user overlooks the alert information from the integrated management device 5 for any reason, the integrated management device 5 is forced to reduce the adverse effects on the supply of the moisturizing air from the moisturizing air supply unit 20. In particular, some restrictions can be imposed on the air conditioning operation of the air conditioner 3. In other words, in this Embodiment 1, such a cooperative operation is performed without acquiring a dedicated device for the moisturizing air supply 20 and acquiring environmental information and operation information signals of the living space to integrate the home appliances. This is realized by using the integrated management apparatus 5 to be managed, and the reliability of the entire system can be improved. In addition, when the moisturizing air supply unit 20 is used, an appropriate moisturizing operation environment can be obtained. For this reason, high-humidity moisturizing air containing steam of about 40 ° C. and moisturizing air containing nano-sized mist reach the surface of the skin in a slow and gentle wind state around the user's face. The expected moisturizing effect can be expected by lengthening the contact time.

  In general, the home air conditioner 3 is provided with an “automatic operation mode (also referred to as“ air-conditioning entrusted mode ”)”. In this mode, while the air conditioner 3 monitors the detection output of a dedicated room temperature detection sensor or the like, the air conditioner 3 automatically adjusts the temperature and volume of the conditioned air so that the air conditioner 3 reaches the target room temperature set by the user. However, if such an “automatic operation mode” is set during the operation of the moisturizing air supply device 20, the intensity and direction of the conditioned air changes from an unexpected time point, and the moisturizing effect is thus achieved. Since there is a possibility of an influence, the integrated management device 5 changes the automatic operation mode immediately before the start of the moisturizing operation to the manual mode, and prohibits the setting of the automatic operation mode during the moisturizing operation. Also execute. Specifically, the integrated management device 5 has received an operation information signal indicating that a moisturizing operation has started from the moisturizing air supply device 20 after transmitting an operation permission signal to the moisturizing air supply device 20. During the period from the time point (step S112 in FIG. 21) to the reception of the operation information signal for which the moisturizing operation has been completed, a command signal for prohibiting the air conditioner 3 from changing the air speed is transmitted. Control.

  In step (S104) of FIG. 21, it is determined whether or not the air conditioner 3 is set to “strong operation” or “medium operation”, and is used for moisturizing the moisturizing air supply device 20 during the moisturizing operation. Although it has been determined whether or not it is an operating state that inhibits the flow of air, in addition to this, the blowing direction of the conditioned air may be a determination requirement.

  In general, in the wall-mounted air conditioner 3 for home use, for example, as shown in Japanese Patent Publication No. 2014-44039, one sheet is provided near the air outlet in order to change the vertical direction of the conditioned air. Alternatively, a plurality of wind direction control plates are provided. And in order to improve the comfort of the living space, at the time of cooling, the angle of the wind direction control plate is turned upward so that the cold air flows toward the ceiling and does not directly hit the user. Yes. On the other hand, at the time of heating, the angle of the wind direction control plate is turned downward so that warm air flows in the floor direction so that the entire living space is warmed.

  Therefore, during the moisturizing operation, the integrated management device 5 grasps the setting of the air-conditioning wind direction control plate as described above from the operation information signal of the air conditioner 3, and sets the wind direction control plate downward from the horizontal. If it is, the air conditioner 3 is changed to the angle of the wind direction control plate so that the operation of the moisturizing air supply device 20 is started after the wind direction control plate is changed horizontally or upward. A command may be issued. In other words, the integrated management device 5 issues a command to change the wind direction control plate to be horizontal or upward before substantially starting the supply of the moisturizing air from the moisturizing air supply machine 20, and the command After that, a control method may be used in which an operation start command is issued to the moisturizing air supply unit 20. For this reason, the determination step “Is the airflow direction horizontal or upward?” Is provided in the condition of step (S104) in FIG. 21, and only in the case of “No” in that step, step (S110) in FIG. You may be allowed to proceed to).

  In addition, if the wind direction of the conditioned air is also determined in step (S104), the guidance information 160 on the display screen (see FIG. 22) that asks the user for confirmation according to the result, and the wind direction information 161, More specific alerts can be made. For example, “Please set the air-conditioning wind horizontally” or “Do not turn the air-conditioning wind diagonally downward” or the like can be notified, and a more reliable confirmation operation of the user can be expected.

Features of the present invention.
Next, features of the present invention shown in FIGS. 23 to 25 will be described in detail. FIG. 23 is a flowchart 2 showing a control operation of the air supply machine for moisturizing according to the first embodiment of the present invention. In the flowchart shown in FIG. 10 described above, it is assumed that the user is in front of the moisturizing air supply unit 20, but FIG. The operation when the human detection unit 65 performs is shown.

In FIG. 23, each operation step from start (S31) to end (S44) will be described below.
First, on the display screen 101, the touch key (icon) 102 of "sleep mode" (trust mode) and the touch key (icon) 103 of "manual mode" are displayed to the user as described in FIG. However, when the user gives a command to start the moisturizing operation by selecting “Let's leave mode” in that scene (step S32), the process proceeds to the next step (S33) and issues a command to start the moisturizing operation. The elapsed time (TX1) from the time point starts counting. This counting can be easily performed by the control device 33 using the time information since the clock circuit 26 is provided.

  Next, energization of the electric heat source 90 is started continuously (for example, with an electric power of 200 W). For this reason, within a few minutes, high-humidity air is actually supplied in the direction of the user (in front of the front of the moisturizing air supply machine 20), and the moisturizing operation is started. Incidentally, the maximum humidification amount (continuous energization with power consumption of 200 W) is 210 cc per hour. Moreover, the minimum humidification amount by intermittent energization mentioned later is about 100 cc per hour.

  Therefore, the human detection unit 65 analyzes the latest signal from the human detection sensor 65S and estimates whether or not there is a person (S35). If the person (user) can be detected, the person detection unit 65 is in a normal state. Therefore, the process proceeds to the next step (S36), where a predetermined time defined by the control device 33 or a time set in advance by the user has elapsed, or when the user gives a stop command in the middle (step) The condition of S36) is established, and the operation ends (S44).

  On the other hand, if the presence of the user cannot be detected in the step (S35), the process proceeds to a step (S37) and waits for 30 minutes. That is, this step (S37) is a step for creating a grace time before switching to the next “standby mode”.

  When the elapsed time (TX1) from the time when the instruction to start the moisturizing operation is issued in the step (S37) exceeds the first grace time (TH1: 30 minutes), the process proceeds to the next step (S38). Then, the control device 33 proceeds to step (S37) when “the presence of the user cannot be detected”, and switches to “standby mode” at that step.

  The “standby mode” of the moisturizing operation referred to in the first embodiment suppresses power consumption to the minimum, but when the “standby mode” is canceled, a regular amount of high-humidity air is supplied promptly. Driving under conditions that can be started.

  When the standby mode is set, first, the display screen 101 displays a message to the effect that “the operation is temporarily suspended for detecting the absence of the user” (S39). At the same time, a warning may be issued in the same manner by a voice guide device (not shown). As a result, when the user is careless and is in the vicinity of the moisturizing air supply machine 20, the user is advised to move to a predetermined position on the display screen 101 or the like. In this case, since data indicating sleep onset is not transmitted from the integrated management device 5, the integrated management device 5 has already considered the possibility that the user is awake (in an awake state) in another room. You may issue the instruction | indication which displays that the moisturizing operation is a pending | holding state with respect to all the TV receivers 2 which are started (viewing state). However, since there is a possibility that the family is already sleeping at midnight, it is not executed until the TV receiver 2 is forcibly activated.

  In the next step (S40), when the elapsed time (TX1) from when the moisturizing operation start command is issued exceeds the second grace time (TH2: 40 minutes), in the next step (S41), As a precaution, the human detection unit 65 analyzes the latest signal from the human detection sensor 65S, estimates whether there is a person, and returns to a normal state when a person (user) can be detected. Therefore, the process proceeds to the step (S36), and when the predetermined time defined by the control device 33 or the time set in advance by the user has elapsed, or when the user gives a stop command on the way The condition of (Step S36) is established, and the operation ends (S44).

  However, if the presence of the user cannot be detected even in the step (S41), the process proceeds to the step (S42), the operation in the “reliable mode” is forcibly released, and the electric heat source 90 is intermittently performed. Since the energization that has been stopped is stopped and the user is not detected, it is notified on the display screen 101 that the automatic stop has been made for safety (S43). At the same time, a warning may be issued in the same manner by a voice guide device (not shown). All the series of operations are completed (S44).

  As is apparent from the flowchart shown in FIG. 23, in the first embodiment, when it is not detected that the user is in a predetermined position after issuing a moisturizing operation start command, It was switched to the “standby mode” after a grace period of 1 (TH1: 30 minutes) to reduce power consumption. In the “standby mode”, the electric blower 55 is operated, but it may be switched to a power saving state by reducing the rotational speed.

  If the presence of the user cannot be detected even after the second grace period (TH2: 40 minutes) is exceeded, the control device 33 completely stops the operation of the moisturizing air supply machine 20. It was.

  The “absence case 1” shown in FIG. 7 is dealt with by the operation of the moisturizing air supply machine 20 shown in FIG.

Next, the features of the present invention shown in FIG. 24 will be described in detail. FIG. 24 is a flowchart 3 showing a control operation of the air supply machine for moisturizing according to Embodiment 1 of the present invention.
Hereinafter, each operation step from the start (S51) to the end (S63) will be described. After the user designates the “sleep time mode” (entrusted mode) and issues a moisturizing operation start command, continuous energization of the electric heat source 90 is started (S52). For this reason, after this, high-humidity air is forcibly supplied in the direction of the user (in front of the front of the moisturizing air supply machine 20), and the moisturizing operation is started. The unit 65 periodically obtains and analyzes the latest signal from the human detection sensor 65S (for example, at intervals of 2 minutes), and estimates whether there is a person (S53).

  When a person (user) can be detected, it is in a normal state, so the moisturizing operation is continued as it is, and a predetermined time defined by the control device 33 or a time set in advance by the user has elapsed. If the user gives a stop command on the way, the operation ends.

  On the other hand, when the presence of the user cannot be detected in the step (S53), the operation is switched from the next step (S54) to the “interrupt mode” as shown in the step S61.

  If the presence of the user cannot be detected in the step (S53), counting of the elapsed time (also referred to as “interruption time”) (TY1) from the time when the determination is “Yes” is started (S54). This counting can be easily performed by the control device 33 using the time information since the clock circuit 26 is provided.

  Then, as in the “standby mode” of the moisturizing operation described above, the process proceeds to the “interrupt mode” that suppresses the power consumption to the minimum (S55). Note that the “interrupt mode” is the same as the “standby mode” because when the mode is canceled, the operation is performed under a condition that a normal amount of high-humidity air can be supplied promptly. .

  Then, as part of halving the power supplied to the electric heat source 90 and minimizing power consumption, the continuous energization is changed to intermittent energization, and the energization rate per unit time is set to 50% (S56).

  When the elapsed time (TY1) has not exceeded the predetermined time (TZ) (also referred to as “suspended grace time”: for example, 30 minutes) after the counting of the suspended time is started, in the next step (S58) Therefore, the human detection unit 65 analyzes the latest signal from the human detection sensor 65S, estimates whether or not there is a person, and if the person (user) can be detected, the user takes a short time. Since it has returned to an appropriate position in front of the moisturizing air supply machine 20 and returned to a normal operating environment, the energization of the electric heat source 90 is restored to continuous energization (S59), and the process returns to step (S51). .

  On the other hand, if the elapsed time (TY1) exceeds a predetermined time (TZ: 30 minutes, for example) after the counting of the interruption time is started, whether the user has moved from the sleeping place for some reason, or Although the sleeping place is the same, the bedding (blanket, futon, etc.) covers the user's face and head, etc., and the human sensor 65S cannot detect the presence of a person (for example, infrared rays). The interruption mode is terminated, and the intermittent energization to the electric heat source 90 is also completely stopped (S60). And the control apparatus 33 preserve | saves the data which show the history to this step (S60) in the memory | storage device 33R. Therefore, the time data in which the absence of the user is detected and the interruption mode is set is also stored in the storage device 33R (S61). These stored data are first displayed on the display screen 101 by the user at the next use, thereby notifying the user of the fact of interruption.

  And the control apparatus 33 transmits the driving | operation information signal L8 which shows that the electricity supply to the heat source 90 was stopped completely in step S60 to the integrated management apparatus 5, and that the electricity supply to the display screen 101 was also stopped subsequently. Similarly, the operation information signal L9 is transmitted to the integrated management device 5 (S62), and the series of operation steps is terminated (S63). In the flowchart of FIG. 24, the description of transmission of the operation information signals L6 and L7 shown in FIG. 19 is omitted.

  Next, features of the present invention shown in FIG. 25 will be described in detail. FIG. 25 is a flowchart 2 showing an operation of the control unit 36 of the power command device (integrated management device) 5 according to the first embodiment of the present invention.

  Even if the air supply machine 20 for moisturizing does not have a control program corresponding to the absence case 1 and the absence case 2 as shown in FIGS. Can do.

  Hereinafter, each operation step from the start (S201) to the end (S211) will be described. When the user designates the “sleeping time mode” (entrusted mode) and issues a warning signal for starting the moisturizing operation, the integrated management device 5 issues a moisturizing operation start permission signal KS (see FIG. 19). And the acquisition operation | movement of the sleep time data from the sleep time determination apparatus 24 is started (S201). After that, high-humidity air is actually supplied in the direction of the user (in front of the front of the moisturizing air supply device 20) by continuous energization of the electric heat source 90, and the moisturizing operation is started. After issuing the start permission signal KS, the integrated management device 5 analyzes the human detection signal periodically transmitted from the human detection unit 65 and checks whether the signal indicates that there is a person (S202). .

  In step (S202), if a person (user) can be detected, it is normal and the continuation of the moisturizing operation is allowed as it is. However, if the presence of the user cannot be detected, from that stage The measurement of the elapsed time is started and the operation is switched from the next step (S204) to the “interrupt mode” operation as shown in step S208. This “interruption mode” is substantially the same as the “interruption mode” shown in FIG.

  When the presence of the user cannot be detected in the step (S202), counting of the elapsed time from the time when the determination is “Yes” starts (S203). Then, as in the “standby mode” of the moisturizing operation described above, the process proceeds to the “interrupt mode” that suppresses power consumption to the minimum (S204). Note that the “interrupt mode” is the same as the “standby mode” because when the mode is canceled, the operation is performed under a condition that a normal amount of high-humidity air can be supplied promptly. .

  Then, the integrated management device 5 issues a command to the moisturizing air supply unit 20 to halve the power supplied to the electric heat source 90 and suppress the power consumption to a minimum (S207). Specifically, the continuous energization in the electric heat source 90 is changed to intermittent energization, and a command is issued so that the energization rate per unit time is 50%.

  If the elapsed time (interruption grace time) has not exceeded a predetermined time (for example, 30 minutes) since the counting of the interruption time has started, in the next step (S205), the human detection unit 65 again returns to make sure. Analyzing the latest signal, estimating whether a person is present, and if a person (user) is detected, the user returns to an appropriate position in front of the moisturizing air supply machine 20 in a short time, Since the normal operating environment has been restored, the energization of the electric heat source 90 issues a command signal permitting the return (resumption) to the normal moisturizing operation to return to the continuous energization, and from step (S202). The acquisition of sleep time data from the sleep determination device 24 that has temporarily suspended the acquisition is also resumed (S206). Then, the process returns to step (S202).

  On the other hand, if the elapsed time exceeds a predetermined time (for example, 30 minutes) after counting the interruption time, the user has moved from the sleeping place for some reason, or the sleeping place is the same. However, it is determined that the bedding (blanket, futon, etc.) has covered the user's face, head, etc., and the human sensor 65S cannot detect the presence of a person (for example, infrared rays). Then, the interruption mode ends, and a command is issued from the integrated management device 5 to the moisturizing air supply unit 20 so that the intermittent energization to the electric heat source 90 is also completely stopped (S208).

  And the control part 36 preserve | saves the data which show the history to this step (S208) in the 2nd memory | storage device 36B. Therefore, the time data in which the absence of the user is detected and the interruption mode has been detected is also saved (S08). These stored data are first displayed on the liquid crystal display screen 37A by the user at the next use, so that the user can be informed of the fact of the interruption. In addition, the control part 36 has the 2nd memory | storage part 36B for exclusive use of the moisturizing air supply machine 20, The sleep time acquired by transmitting from the sleep determination apparatus 24 to the 2nd memory | storage device 36B, Various data such as time and information of the analysis result are stored in time series in pairs with detailed information such as date and time when the data is actually acquired.

  And the control part 36 transmits the sleep time data, interruption time data, etc. which were acquired so far to the moisturizing air supply machine 20. FIG. Then, an operation stop command signal is issued to the moisturizing air supply unit 20. When the operation is stopped in response to the operation stop command signal, the moisturizing air supply unit 20 is instructed to issue a predetermined operation information signal (L8, L9 in FIG. 19) for confirmation (210).

  Then, the control part 36 receives the predetermined | prescribed driving | operation information signal which shows having stopped operation as mentioned above from the moisturizing air supply machine 20 (S210), and complete | finishes the process corresponding to a series of interruption modes (S211).

  In FIG. 25, the process corresponds to the absence of the person after the start of the moisturizing operation. However, as illustrated in FIG. 23, the process corresponds to the absence due to an improper movement of the user before the start of the moisturizing operation. it can. That is, after receiving the notice signal of the start of the moisturizing operation from the moisturizing air supply machine 20 and issuing the moisturizing operation start permission signal KS (see FIG. 19) from the integrated management device 5, the integrated management device 5 receives the signal from the human detection unit 65. The person detection signal that is sent periodically is analyzed to check if there is a person, so if you receive a signal that there is no person in this check, When the absence time is short, the moisturizing air supply unit 20 is instructed to start the standby mode (S38) in FIG.

  If the absence time is long, a command to release the “reliable mode” is issued to the moisturizing air supply machine 20 as shown in step (S42) of FIG. In this case, the integrated management device 5 uses the information of the human detection unit 12 that the integrated management device 5 owns in addition to the information of the human detection unit 65 of the moisturizing air supply machine 20.

  Then, when it is detected that the presence of a person can no longer be detected, the acquisition of the sleep determination information from the sleep determination device 24 is temporarily stopped, and the sleep time determination information acquired so far and the absence of the person Information such as detection time is stored in the second storage device 36B by the integrated management device 5 so that it can be used for notifying the user. That is, after that, the user can confirm the interruption status of the moisturizing operation and the data of the sleep time, etc. stored in the second storage device 36B by operating the operation input unit 39. The information can also be provided to the information communication terminal device 25 via the input / output unit 40.

Next, although the sleep determination apparatus 24 shown in FIG. 26 is demonstrated, the sleep which this sleep determination apparatus determines before that is demonstrated.
As introduced in prior art documents (for example, Japanese Patent Publication No. 2013-24466), human sleep is generally roughly divided into sleepless REM sleep and sleepy (non-REM) sleep. Is done. International standards further define six sleep states: wakefulness, REM sleep, and sleep depths 1, 2, 3, and 4. The sleep depths 1 to 4 are obtained by dividing the non-REM sleep into four stages. In the non-REM sleep, the sleep depth 1 is the shallowest sleep and the sleep depth 4 is the deepest sleep state.
During REM sleep, various organs and organs are active, and activities such as increase in pulsation, increase in blood pressure, increase in sweating, and movement of the eyeball occur. During non-REM sleep, the body tension is relaxed and the body becomes relaxed, and a deep sleep state such as a pulsation phenomenon, a decrease in blood pressure, and a decrease in the amount of sweating occurs. The sleep state transitions to deep sleep, shallow sleep, REM sleep and sleep after going to sleep, and then the cycle of transition to deeper REM sleep, shallow sleep, deep sleep and sleep is usually about 90 minutes. Repeatedly, it is said that the depth of sleep becomes shallower at dawn.

  The sleep determination device 24 shown in FIG. 26 can detect the depth of sleep as described above, but has a function of grasping at least the estimated time of falling asleep and the time of waking up in seconds.

Hereinafter, the sleep determination device 24 shown in FIG. 26 will be described in detail.
FIG. 26 is a block diagram illustrating mainly the display screen 201 and the short-range wireless communication input / output unit 205 in the sleep determination device 24.
The display screen of the liquid crystal display substrate constituting the display screen 201 is a known dot matrix type liquid crystal display screen. Reference numeral 202 denotes a drive circuit for the display screen 201. This drive circuit is connected to a central control device 203 that controls the entire sleep determination device.
The drive circuit 202 includes a display memory 204A, a display controller (not shown), an interface circuit 204B, a power supply circuit (not shown), a common driver 204D, and a segment driver 204C.

  The drive circuit 202 operates with electric power from a power supply circuit (not shown), and acquires image information for display from the built-in memory 203R of the central controller 203 by the interface circuit 204B. This memory 203R is referred to as a “first storage unit”. The display memory 204A stores image information acquired from the central controller 203.

  The display controller provided in the drive circuit 202 reads the image information stored in the display memory 204A, and continuously drives the common driver 204D and the segment driver 204C based on this image information. The common driver 204D and the segment driver 204C drive the liquid crystal by applying a voltage to mutually intersecting electrodes provided corresponding to each pixel of the display image 201.

  The drive circuit 202 displays the image information stored in the display memory 204A on the display screen 201 whenever necessary. Note that the information to be displayed on the display screen 202 includes text data that has been converted into sentences.

  In FIG. 26, reference numeral 205 denotes a short-range wireless communication communication unit (also referred to as “input / output unit”) for communicating with the information communication terminal device 25. Reference numeral 206 denotes an NFC communication control IC (NFC control circuit) that constitutes a part of the NFC tag arranged at a predetermined position.

  Reference numeral 207 denotes an antenna which is connected to the NFC control circuit 206 and generates inductive power to be a power source for the NFC control circuit 206 when receiving radio waves of a predetermined frequency from the outside. Reference numeral 208 denotes a microchip memory (NFC storage unit) connected to the NFC control circuit 206. This memory is referred to as a “second storage unit”.

  In FIG. 26, reference numeral 209 denotes a light emitting diode element (LED) installed so as to surround the vicinity of the antenna 207 portion constituting the NFC input / output unit 205. The display unit (same as the short-distance communication input / output unit) indicating the touch position for the proximity communication by this LED is illuminated with light from the inside of the main body case that is the outline of the sleep determination device 24. When the NFC communication state is established between the sleep determination device 24 and the information communication terminal device 25, the position where the information communication terminal device 25 is approached can be easily known.

  The LED 209 does not need to emit light constantly, and is linked with the operation of the drive circuit 202 by the central control device 203. Therefore, the information communication terminal device 25 having a near field communication (NFC) function can be used for sleep. In synchronization with the display indicating that the time data is obtained, the central controller 203 turns on the light at a predetermined timing. Note that the LED 209 may be automatically turned off after a predetermined time has elapsed since lighting.

  The display unit driving circuit 202 is configured by a dedicated microcomputer different from the microcomputer configuring the central control device 203, but may be configured by the same microcomputer.

  In FIG. 26, reference numeral 210 denotes a clock circuit, also called a real time clock, which is supplied with power from a dedicated power source (built-in battery) different from the power circuit 212 connected to the main power switch 211 described later. It is driven over. This may be, for example, a radio-controlled timepiece. If there is always a request from the central control unit 203, the current date and the exact time are notified in seconds. For this reason, it is set to the correct date and time at the manufacturing stage of the sleep determination device 24. Therefore, even when the main power of the sleep determination device 24 is turned off and then turned on again, the time information of the clock circuit is not affected, and there is a function of always transmitting the latest correct time to the central control device 203. For this reason, various data for sleep determination recorded in the storage device 203R of the central controller 203 are always recorded and stored at the same time. Therefore, the sleep determination time information described above is added to the sleep time data read out by the information communication terminal device 25 from the NFC input / output unit 205. Thereby, when data is analyzed later, the time passage can be accurately grasped.

  In FIG. 26, 211A is an operation button of the main power switch 211 as described above, and when pressed once, the switch is closed (ON), and when pressed next, is opened (OFF), and this is repeated thereafter.

  213 is an operation unit of the sleep determination device 24 operated by the user, 214 transmits sleep time data by wireless communication with the sleep data input unit 23 of the integrated management device 5, and from the integrated management device 5 An input / output unit (wireless communication unit) that receives various command signals.

  Reference numeral 215 denotes a wired input / output unit for connecting a sphygmomanometer and other measuring devices attached to the user's body and the like, and connects a sphygmomanometer, a thermometer, and other measuring devices as necessary.

  Reference numeral 216 denotes various sensors that detect a user's heart rate, blood pressure, amount of sweat, brain waves, eye movement, and the like. The sensor and the sensor of the measuring device connected to the wired input / output unit 215 may be the same or different types.

  Reference numeral 217 denotes an acceleration sensor that detects the acceleration when the user's arm, foot, head, or the like moves. When the sleep becomes gradually shallower, the movement of the body increases, so it is detected.

  218 is a sleep determination unit that acquires data periodically measured by the various sensors 216 and 217 and determines whether or not the user is in a sleep state. The determination unit can determine the timing (time) when the user (sleeping person) fell asleep and the time when he / she woke up. That is, as described above, six sleep states of awakening, REM sleep, and sleep depth (four stages) This is to determine which one is present.

  Reference numeral 219 denotes a data selection unit that selects data of the measurer when there are a plurality of residents measured by the sleep determination device 24, and inputs a number (identification code) designated for each resident by the operation unit 213. If this sleep determination device 24 is used, sleep determination data for each resident is accumulated in time series in the storage device 203R. Therefore, even in the case of joint use by a plurality of residents, only the own sleep determination data is stored. Can be displayed on the display screen 201, used in the air supply device 20 for moisturizing, or read out by the information communication terminal device 25.

Reference numeral 220 denotes a sleep determination data storage unit that stores sleep determination data that is a result determined by the sleep determination unit 218, reference data for sleep determination, and the like.
221 is a storage unit that stores sleep determination data for each user, and 222 is a determination reference data storage unit that stores reference values for sleep determination, that is, threshold values and the like. The “reference value” here is not the same for all users, but may be used according to gender and age, and even the same user can use the indoor environment at bedtime (for example, It may be changed according to room temperature and humidity. Different ones can be used during cooling and heating, and these various parameters are used to grasp the sleep state more accurately.

  Reference numeral 222 denotes a storage unit for measurement environment data. When the storage unit transmits the sleep determination data of a resident to the integrated management device 5 from the sleep determination device 24, the living space in which the sleep determination device 24 is used when the transmission data is received. The measurement environment data, such as the temperature and humidity, is obtained by the integrated management device 5 by the environment detection unit 9, and the sleep determination data is integrated with the integrated management device 5. Is sent from the integrated management device 5 immediately. Therefore, the central control unit 203 makes a pair of sleep determination data and measurement environment data at the time of data acquisition so that the indoor environment when the sleep state is determined can be known what temperature and humidity. The data is stored in the storage unit 223.

(Summary of Embodiment 1 from FIGS. 1 to 26)
As described above, the moisturizing air supply machine 20 according to the first embodiment is
A main body 20A having an outlet 52 for blowing out moisture-retaining air;
A steam generator 59 provided inside the main body 20A and generating steam for the moisturizing air;
An electric blower 55 for generating an air flow for blowing the steam of the steam generating part 59 from the blower outlet 52 into the room;
A controller 33 for controlling the steam generator 59 and the electric blower 55;
An operation unit 71 for inputting operating conditions to the control unit 33 from the outside of the main body 20A;
A display unit 101 for displaying an input result of the operation unit 71;
Communication units 63 and 68 for exchanging signals with the outside;
A human detection sensor 65S for detecting the presence of a person on an extension line in the direction of release of the moisturizing air;
In the air supply machine for moisturizing with
A storage unit 31, 33R for storing a driving program for determining a moisturizing operation, and storing sleep time zone data received via the communication units 63, 68;
The operation unit 71 has an input key for instructing the control unit to automatically adjust the operation time of the moisturizing operation so that the moisturizing operation is started and ended during the sleep time period stored in the storage unit. 102 (including an “auto mode” or “sleep mode” icon that appears on the display screen 101 in a timely manner)
Further, the control unit 33 shifts to a standby mode in which power consumption is reduced when the human sensor 65S cannot detect the human motion sensor 65S within a predetermined time after the user gives a driving start command. It was the composition.

For this reason, according to the moisturizing air supply device 20 of the first embodiment, an effect that high-humidity air can be more accurately supplied to the user can be expected.
That is, when the measurement data from the sleep determination device 24 (indicating sleep time / wake time) does not reach the moisturizing air supply 20, the sleep determination unit 218 actually acquires the sleep data continuously. Even if there is a person at an appropriate position in front of the moisturizing air supply machine 20, it cannot be detected by the moisturizing air supply machine 20 whether or not the person is in the state of measurement (sleeping state).
Accordingly, when the user inputs an operation start command on the moisturizing air supply device 20 side, a predetermined operation process until steam generation proceeds on the moisturizing air supply device 20 side, and the high humidity steam is supplied. Even if the user is not in the predetermined direction (front) of the moisturizing air supply machine 20, there is a concern that the supplied high-humidity air will not contribute to moisturizing the user's face and will be wasted. It was.
On the other hand, in the first embodiment, when it is detected that the user is not in a predetermined position, the standby mode is set according to the absence time or the moisturizing operation is automatically stopped. Therefore, waste of electric energy can be suppressed and the energy saving effect can be improved.

Furthermore, the air supply machine 20 for moisturizing in Embodiment 1
A main body 20A having an outlet 52 for blowing out moisture-retaining air;
A steam generator 59 provided inside the main body 20A and generating steam for the moisturizing air;
An electric blower 55 for generating an air flow for blowing the steam of the steam generating part 59 from the blower outlet 52 into the room;
A controller 33 for controlling the steam generator 59 and the electric blower 55;
An operation unit 71 for inputting operating conditions to the control unit 33 from the outside of the main body 20A;
A display unit 101 for displaying an input result of the operation unit;
Communication units 63 and 68 for exchanging signals with the outside;
A human detection sensor 65S for detecting the presence of a person on an extension line in the direction of release of the moisturizing air;
In the air supply machine for moisturizing with
A storage unit 33R for storing an operation program for determining the moisturizing operation;
Storage units 31 and 33R for storing data of sleeping hours received through the communication units 63 and 68, and
The control unit 33 stores the sleep time zone data received via the communication units 63 and 68 in the storage units 31 and 33R.
Further, the operation unit 71 automatically adjusts the operation time of the moisturizing operation so that the moisturizing operation starts and ends during the sleep time period stored in the storage units 31 and 33R. Input keys (including a “reliable mode” or “sleep mode” icon) that appear on the display screen 101 in a timely manner,
Further, after the controller 33 generates steam from the steam generator 59 and starts the moisture retention operation, the presence sensor is monitored by the human sensor, and if the user cannot detect the power consumption, It is the structure which transfers to the interruption mode which reduced the number.

For this reason, according to the moisturizing air supply device 20 of the first embodiment, an effect that high humidity air can be supplied when the user is in a predetermined position can be expected.
That is, after the moisturizing operation is started, when the measurement data from the sleep determination device 24 (indicating sleep time / wake time) does not reach the moisturizing air supply device 20, the sleep data is actually continuously obtained. Even if the sleep determination unit 218 has acquired, whether or not a person is present at a suitable position in front of the moisturizing air supply machine 20 and is in a state of being measured (sleeping state) is determined. Cannot be detected on the side.
On the other hand, according to the moisturizing air supply device 20 of the first embodiment, in the stage where the moisturizing operation is started and the high-humidity steam is supplied, the user moves the moisturizing air supply device 20 in a predetermined direction ( When not in the front), it is detected that the user is not in a predetermined position in order to solve the problem that the supplied high-humidity air does not contribute to moisturizing the user's face and is wasted. Since the automatic transition to the interruption mode and the moisturizing operation can be automatically stopped according to the absence time, waste of electric energy can be suppressed and the energy saving effect can be improved.

Furthermore, the air supply control system for moisturizing in Embodiment 1 is
A moisturizing air supply 20;
Integration that has a sleep determination unit 24 that receives living body information from a sleep sensor to measure sleep time of a sleeper and determines a sleep state, and exchanges data with the moisturizing air supply device by wireless communication A management device 5;
The moisturizing air supply machine 20 includes a device-side storage unit 33RB that stores sleep data transmitted from the integrated management device 5, and a control unit 33 that controls the moisturizing operation.
Based on the sleep data received by wireless communication from the sleep determination unit 24, the control unit 33 of the moisturizing air supply unit starts and ends the moisturizing operation in the sleep time period. It has an operation program that matches the timing of moisturizing operation,
The moisturizing air supply machine 20 is provided with a human detection sensor 65S for detecting the presence of a person on an extension line of the moisturizing air discharge direction,
The integrated management device 5 includes the moisturizing air supply unit 20 so that the moisturizing operation starts and ends during the period from the stage where the sleep determination unit 24 detects human sleep to the stage where awakening is detected. Control the operation time of
If the human sensor 65S cannot detect the presence of a person at the stage before the start of the moisturizing operation, the sleep determination unit 24 temporarily stops acquiring sleep determination information, and the information acquired up to that point is The integrated management device 5 stores the data in the storage device 36B.

  According to this moisturizing air supply control system, when it is detected by the moisturizing air supply machine 20 that the user is no longer in a predetermined area after deciding to start the operation of the moisturizing air supply machine 20 The acquisition of sleep data is temporarily stopped, and the integrated management device 5 maintains the sleep determination data acquired so far. For this reason, the data for sleep determination stored in the integrated management device 5 until the sleep determination work is stopped are used by turning on the main power switch 70 after the next day, for example, during operation of the moisturizing air supply machine 20. In the scene to start, before starting a moisturizing operation, for example, it can be used to notify the user first or display it. Thereby, it can also be used for the reference of the body movement at the time of sleep which a user cannot recognize, or for analysis of a sleep result. It can also be used as a reference when considering the optimum place to install the air supply machine 20 for moisturizing.

The home appliance operation management system in the first embodiment is
A power command device 5 that individually communicates with a plurality of home appliances EE including the air supply machine 20 for moisturizing and controls the home appliances individually to control the total amount of power in the home;
An information communication terminal device 25 including an NFC communication unit 41 that performs short-range wireless communication with the moisturizing air supply unit 20;
The power command device 5 stores a sleep determination unit 23 that receives biological information from the sleep sensor 24 to measure a sleep time of a sleeper and determines a sleep state, and sleep time data acquired by the sleep determination unit. Storage device 36B
The moisturizing air supply unit 20 includes a device-side communication unit 63 that can establish a communication state with the NFC communication unit 41, and device-side storage units 31 and 33R that store data read from the device-side communication unit 63. , A human sensor 65S for detecting the presence of a person on the extended line in the direction of release of the moisturizing air, and the conditions of the moisturizing operation (for example, the power consumption applied to the electric heat source 90 or the The control unit 33 for changing the timing of energization, the energization period, etc.)
The information communication terminal device 25 reads the sleep time data stored in the storage device 36B of the power command device 5 via the NFC communication unit 41, and stores the data on the device side of the moisturizing air supply device 20. Parts 31 and 33R via the NFC communication part 41,
The control unit 33 of the moisturizing air supply machine 20 stores the sleep time data received from the device-side communication unit 63 in the device-side storage units 31 and 33R.
Further, the control unit 33 of the moisturizing air supply device 20 automatically adjusts the timing of the moisturizing operation so that the time zone of the moisturizing operation overlaps the sleep time zone stored in the device-side storage units 31 and 33R. It is a configuration.

  According to the operation management system for home appliances according to the first embodiment, an effective moisturizing operation can be performed using the power command device 5 that centrally controls the home appliance EE. That is, since the sleep time data acquired by the power command device 5 is provided to the moisturizing air supply device 20 using the information communication terminal device 25 such as a smartphone, the moisturizing air supply device 20 The moisturizing operation time can be determined based on the data, and the moisturizing operation can be effectively performed while the user is sleeping. For this reason, it can be expected that the utility value of the power command device 5 having the original function of controlling the total amount of power in the home will be improved. In addition, when the user is not in the predetermined direction (front) of the moisturizing air supply machine 20, the moisturizing operation can be postponed or the operation start time can be automatically delayed to improve the energy saving effect. You can expect

Another operation management system of the household electrical appliance in this Embodiment 1 is
An integrated control device 5 that individually communicates with a plurality of household electrical appliances EE including the portable moisturizing air supply 20 and the air conditioner 3 and individually controls those household electrical appliances;
A first wireless communication unit 41A that communicates with the integrated control device 5 through the wide area communication network 16 and a second wireless communication unit that communicates through the home communication network or through the short-range wireless communication unit 41B, and an information communication terminal device 25 provided with
The power command device 5 includes a sleep determination unit 23 that receives living body information from the sleep sensor 24 to measure the sleep time of the sleeper and determines the sleep state, and the temperature of the living space where the sleeper is located. An environment detection unit 9 that measures the environment, and a storage device 36B that stores the sleep time data acquired by the sleep determination unit 23 and the environment data transmitted from the environment detection unit 9 in pairs in time series. ,
The moisturizing air supply unit 20 includes a device-side first communication unit 68 capable of establishing a communication state with the integrated control device 5 and a device capable of establishing a communication state with the information communication terminal device 25 by short-range wireless communication. Second wireless communication unit 63 on the side, device-side storage units 31 and 33R that store data read from these two device-side communication units, an operation unit 71 that inputs an operation start command and operation conditions, A display screen 101 for displaying the input result of the operation unit, a human detection sensor 65S for detecting the presence of a person on an extended line in the direction in which the moisturizing air is released, and conditions for the moisturizing operation according to the detection result of the human detection sensor (E.g., the amount of power consumption applied to the electric heat source 90, the timing of the energization, the period, etc.)
The control unit 33 of the moisturizing air supply machine stores the sleep time data transmitted from the central control device 5 in the device-side storage units 31 and 33R,
Further, the control unit 33 of the moisturizing air supply device 20 automatically adjusts the timing of the moisturizing operation so that the time zone of the moisturizing operation overlaps the sleep time zone stored in the device-side storage units 31 and 33R. Perform the action
The control unit 33 of the air supply device for moisturizing the environment corresponding to the sleep time data stored in the device-side storage units 31 and 33R according to the input operation of the operation unit 71 and the measurement of the sleep time. The data is displayed on the display screen 101.

  For this reason, according to this operation management system, it is possible to perform an effective moisturizing operation using the central control device 5 that centrally controls the home appliance EE. That is, using the information communication terminal device 25 such as a smartphone, the sleep time data acquired by the power command device 5 and the environmental data such as the temperature are provided to the moisturizing air supply unit 20. The feeder 20 can determine the moisturizing operation time based on the sleep time data, and can effectively perform the moisturizing operation while the user is sleeping. In addition, when the user confirms the sleep time, environmental information such as the temperature during the sleep can also be confirmed. Therefore, when using the moisturizing air supply device 20 again, it is helpful when examining the timing of the moisturizing operation. It becomes. For this reason, the central control device can be expected not only to centrally control the home appliance EE but also to effectively supply the moisturizing air and improve the utility value. In addition, when the user is not in the predetermined direction (front) of the moisturizing air supply machine 20, the moisturizing operation can be postponed or the operation start time can be automatically delayed to improve the energy saving effect. You can expect

  In the first embodiment, it has been described that the moisturizing operation is continuously performed (for example, 3 hours) in the sleep time period (for example, continuous 6 hours) of the sleeper. You may drive intermittently. For example, for 1 hour after falling asleep, high humidity air is continuously supplied so that the (target) humidity of the atmosphere around the user's face is 55% to 65%, and then the moisturizing operation is stopped for 30 minutes. Then, after that, a plurality of steps of operating for the same target humidity for 1 hour may be repeated several times. In addition, it has been proposed in the humidifier of Japanese Patent Publication No. 2004-294058 that the moisturizing effect is enhanced by controlling the fluctuation of the humidity of the skin between the target 65% and 55%. According to this, the target humidity is maintained at 65% for 30 minutes, and then the humidification is stopped for 15 to 60 minutes. When the humidity drops to 50% during this 15 to 60 minutes, the humidification is started again, and the target humidity 65 The example of maintaining for 30 minutes as it is when it becomes% is introduced. It is also beneficial to combine such techniques in the practice of the present invention.

  The sleep determination device 24 includes an input / output unit 214 capable of transmitting sleep time data by wireless communication with the integrated management device 5, an acceleration sensor 217 that detects acceleration of a part of the user's body, and the user's A biometric sensor 216 that detects biometric data, a sleep determination unit 218 that acquires data measured by these two types of sensors and determines whether or not the patient is in a sleep state, and a data selection unit 219 that selects measured human data And a storage unit 220 for sleep determination data.

  For this reason, the sleep determination device 24 moves from a specific living space such as a bedroom to another living space in accordance with the movement of the portable moisturizing air supply device 20, and supplies the moisturizing air even at the moving destination. Can be used as a set with the machine 20. In addition, the input / output unit 214 can exchange sleep time data and other command signals by wireless communication with the integrated management device 5, and the moisturizing air supply unit 20 is moved in many rooms in one home. This is convenient for use.

  The sleep determination device 24 includes an input / output unit 205 capable of transmitting sleep time data through short-range wireless communication with the moisturizing air supply device 20, an acceleration sensor 217 that detects acceleration of a part of the user's body, The biometric sensor 216 that detects the biometric data of the user, the data measured by the two types of sensors are acquired, the sleep determination unit 218 that determines whether the user is in a sleep state, and the measured human data are selected. A data selection unit 219 and a sleep determination data storage unit 220 are provided.

  For this reason, in the case where the integrated management device 5 is not installed, the sleep determination data of the sleep determination device 24 is transferred to the information communication terminal device 25 having the NFC function, and the information communication terminal device 25 is used for moisture retention. Sleep determination data can be transferred to the air supply machine 20. That is, even in a home where the integrated management device 5 is not installed, the moisturizing air supply machine 20 can be operated according to the sleeping hours.

Embodiment 2. FIG.
FIG. 27 relates to the second embodiment of the present invention. FIG. 27 is an explanatory diagram showing, in time series, the exchange of various command signals and notification information among the three members of the integrated management device 5, the sleep determination device 24, and the moisturizing air supply device 20. The same reference numerals are given to the same or corresponding parts as in the first embodiment, and the description will be omitted. The operation shown in FIG. 27 is not continuous with the operations shown in other flowcharts.

  Hereinafter, FIG. 27 will be described. FIG. 27 shows operation steps after the power command device 5 receives a moisturizing operation start notice signal (one of operation information signals) from the moisturizing air supply 20. When a signal is transmitted from one of the power command device 5, the moisturizing air supply device 20, and the sleep determination device 24 to the other party by wireless communication or wired communication, the signal is received by another device or device. Strictly speaking, since time is required, there is a time difference between transmission and reception. In FIG. 27, it is assumed that there is no such time difference.

  In FIG. 27, M1 to M9 indicate operation time points. The notice signal of the start of the moisturizing operation is transmitted to the integrated management device 5 at time M1. Then, the integrated management device 5 issues a sleep time measurement start preparation command to the sleep time determination device 20 (M2).

  When the power command device 5 receives a warning signal from the moisturizing air supply device 20 to start the moisturizing operation, the maximum power consumption (for example, 250 W) simultaneously notified from the moisturizing air supply device 20 is set by the breaker BK. It is calculated whether it is less than the upper limit value of the total electric energy in the home that is set or less than the upper limit value of the user and does not exceed the upper limit value of the total electric energy set by the user. In response to this, a moisturizing operation start permission signal is issued (M3). The permission signal includes information for permitting a condition that the maximum value of power consumption is 250 W and the longest energization time is 10 hours.

  The sleep determination device 24 attaches a sleep sensor (biological data measurement sensor 216, acceleration sensor 217, etc.) 24S to a part of the body, or places it under the bedclothes to sleep and uses the data for sleep determination. When it becomes possible to acquire the sleep sensor 24S, it is estimated that the user is present by detecting the wearing of the sleep sensor 24S, and a detection signal indicating "user has been detected" is transmitted to the integrated management device 5 ( M4a). That is, it does not have a human sensor such as an infrared sensor that is used only for detecting the presence of the user.

  When the detection signal indicating that the user has been detected arrives, the integrated management apparatus 5 transmits “person detection information” indicating that the user has been detected to the moisture retention air supply unit 20 (M5a). However, the “person detection information” in this case only indicates the presence of the person, and the person is suitable for the moisturizing operation (in the range of about 70-100 cm from the front of the moisturizing air supply 20). ) Is not detected.

  Next, for the first time on the condition that the “human detection information” is received, the moisturizing air supply machine 20 is positioned in the front direction of the moisturizing operation (approx. Whether the user is in the range) is detected by the human sensor 65S, and if the person can be detected, the electric heat source 90 is energized (power consumption 210W) to start the moisturizing operation. The information indicating the start of energization is notified to the integrated management device 5 (M6a).

The integrated management device 5 issues a sleep time measurement start command to the sleep determination device 24 (M7a). Thereafter, high-temperature water vapor is generated from the moisturizing air supply unit 20, and high-humidity air is blown out to the user side. That is, at the stage when the signals indicating the above three information at the time M4a, M5a, and M6a are gathered, at the time M7a for the first time, the sleep determination device 24 receives a command signal that starts measurement of the sleep state and sleep time. .
A case where information has been exchanged at the time of M4a, M5a, M6a, and M7a is referred to as “Case 1”.

  Next, the timing at which the user attaches the sleep sensor 24S of the sleep determination device 24 to a part of the body or places it under the bedclothes to go to bed is delayed, and the sleep determination data can be acquired. If the case where the time is delayed to the time of M4b is “case 2”, the timing is later than the case of “case 1” as in the case of M5b and M6b in FIG. At the time of M7b, the sleep determination device 24 receives a command to start measurement of sleep time or the like.

  By the way, at the time (M1) when the moisturizing air supply device 20 issues a moisturizing operation notice signal, the person detecting sensor 65S detects a person and starts energizing the electric heat source 90 (power consumption 210W). It calculates how much late timing is allowed. For example, when the user sets an estimated wake-up time (desired wake-up time) for the moisturizing air supply device 20, the remaining time until the expected wake-up time is calculated each time, and the remaining time (RT1) is calculated. The controller 33 of the moisturizing air supply machine 20 is programmed so that the electric heat source 90 is energized before it becomes less than 3 hours. In addition, in this moisturizing air supply machine 20, after energization of the electric heat source 90 (with power consumption of 210 W) is started, high-temperature steam is generated in the steam generation chamber 59 in about 5 to 10 minutes at the latest. I know. Note that the time required for steam generation varies depending on the temperature of the water supplied to the steam generation chamber 59.

Therefore, the remaining time (RT1) is less than 3 hours in the case of M4c (case 3) in which the timing at which the detection signal indicating “user has been detected” is transmitted to the integrated management apparatus 5 is delayed from M4a and M4b. For example, the remaining time (RT2) is 2 hours.
Therefore, in this embodiment, the moisturizing air supply unit 20 waits for reception of “person detection information” indicating that the user has been detected from the integrated management device 5, but the remaining time (RT1) is less than 3 hours. Immediately before, energization (power consumption 210 W) is started to the heat source 90, and information indicating the start of energization is notified to the integrated management device 5 (M6c). That is, at the time (M6c) before the detection signal indicating “user has been detected” is transmitted from the sleep determination device 24 to the integrated management device 5, the electric heat source 90 is energized and the moisturizing operation is started. To do.

  Due to the above configuration, in the second embodiment, the moisturizing air supply unit 20 starts energizing the heat source 90 before the remaining time (RT1) becomes less than 3 hours, In addition, the moisturizing operation for at least two consecutive hours can be executed. For this reason, due to some sort of wireless communication state malfunction from the sleep determination device 24 to the integrated management device 5, a sleeping sensor 24S in the sleeping person, a measurement error in biological data, or the like, Even when power transmission such as sleep time measurement data is lost, the control device 33 of the air supply device for moisturizing 20 can operate to start and end the moisturizing operation before the user wakes up. .

  When the user sets the desired wake-up time by operating the operation unit 71 of the moisturizing air supply device 20, the remaining time (RT1, RT2) is supplied with the moisturizing air. Although it is calculated and determined by the control device 33 of the machine 20, it is not certain whether the actual wake-up time completely coincides with the desired wake-up time. For example, a case where the user awakes about 30 minutes early can be assumed. Therefore, in order to operate the moisturizing air supply unit 20 for a minimum of 2 hours, the moisturizing operation is started at the latest before the remaining time reaches 3 hours.

Embodiment 3 FIG.
28 to 30 relate to a home appliance operation management system according to Embodiment 3 of the present invention. FIG. 28 is a configuration diagram of an operation management system for household electrical appliances, FIG. 29 is a flowchart showing the operation steps of a series of operations until the integrated management device 5 starts operation of the moisturizing air supply machine, It is a front view which shows the display screen of a moisturizing air supply machine, and attaches | subjects the same code | symbol to the same or equivalent part as Embodiment 1, and abbreviate | omits description. In FIG. 29, the same or corresponding parts as those in the flowcharts of the first and second embodiments are denoted by the same reference numerals and redundant description is omitted, but the flowcharts in the first and second embodiments are continued. is not.

  The feature of the third embodiment is that the determination function portion of the sleep determination device 24 described in the first embodiment is incorporated in the main body 5A of the integrated management device 5 as a “sleep determination processing unit” 240 shown in FIG. It is in the place where I let you. The sleep determination processing unit 240 can be realized mainly by software. On the other hand, a sleep sensor 240S composed of various sensors for measuring biological data (for example, a blood pressure sensor or a heart rate measurement sensor) 216, an acceleration sensor 217, and the like is formed separately from the main body 5A. The data can be exchanged via wireless communication. In addition, the sleep determination unit 218, the sleep determination data selection unit 219, and the sleep determination data storage unit 220 of the sleep determination device 24 described with reference to FIG. 26 of Embodiment 1 are incorporated in the sleep determination processing unit 240.

  FIG. 29 shows that after the integrated management device 5 receives a notice signal (one of operation information signals) for starting the moisturizing operation from the moisturizing air supply device 20, the moisturizing operation is permitted and an operation start signal is sent. It is a flowchart figure which shows the operation | movement step until it receives. The control unit 36 of the integrated management apparatus 5 has a “humidity / air-conditioning cooperation program” for performing operation steps from the start (S100) to the end (S125) in FIG.

In FIG. 29, the process from the start (S100) to the step (S107) in which the confirmation request signal for the direction and speed of the conditioned air is issued is the same as that in FIG.
While a confirmation request is made to the air conditioner 3 in step (S107), a predetermined confirmation signal is transmitted to the integrated management apparatus 5 within a predetermined time (for example, within 30 seconds). Is determined (S115), and if there is no transmission, the process proceeds to step (S121). In this stage (S115), when the user changes the air speed of the air-conditioning unit 3 to the “weak” level or stops the operation of the air-conditioning unit 3 itself, The process proceeds from S115) to the next step (S116). The next step (S116) is a step of determining whether or not the operation information signal L7 (see FIG. 19) indicating that the moisturizing operation has substantially started has been received from the moisturizing air supply unit 20.

Step (S <b> 121) is a step of determining whether or not an operation information signal indicating that the moisturizing operation has been started has been received from the moisturizing air supply machine 20.
When the operation information signal is received, it indicates that the user has instructed the operation unit 71 to start the operation of the moisture retention air supply unit 20. Similar to step (S116), this step (S121) is a stage where the user may have already started a moisturizing operation with the operation unit of the moisturizing air supply machine 20 and has already shifted to a sleeping action. Yes, there is a possibility that even if the user is notified, it may not be visible, and thereafter, the user is not asked for any input operation.

  If “Yes” in the step (S121), the process proceeds to the next step (S122). And the control part 36 of the integrated management apparatus 5 acquires environmental information from the environment detection part 9, and confirms the environmental condition of the living space (bedroom) with the air supply machine 20 for moisturizing. For example, a resident who is going to sleep in this bedroom sleeps while the room temperature is high and the uncomfortable situation is resolved (lowering the room temperature), so the air conditioner 3 has an air conditioning condition of a target room temperature of 26 ° C. before going to bed. If the control unit 36 is forcibly changed for the reason of the start of the moisturizing operation of the moisturizing air supply unit 20, the resident may be disturbed to fall asleep or sleep quality may be reduced. There is a possibility of inviting.

  Therefore, in this step (S122), the control unit 36 determines whether the air conditioner 3 is set within the range of the set room temperature set by the resident. Note that if not only the set room temperature but also the humidity is set, it is also determined. In the above example, when the air conditioning condition of the target room temperature of 26 ° C. is set, the air conditioner 3 controls so that the upper limit temperature of cooling is 26 ° C. and the lower limit temperature is 25 ° C. If yes, this step (S122) is “Yes”. For example, in one example of heating, when the target temperature is set to 22 ° C, the air conditioner 3 controls the upper limit temperature to be 23 ° C and the lower limit temperature to be 22 ° C. This step (S122) is “Yes”. Depending on the size of the living space and the air conditioning capacity of the air conditioner 3 until this step (S122) is determined to be “Yes”, for example, it may take 30 minutes or more (the resident will fall asleep during the 30 minutes). However, there is still no problem. The sleep is detected in step S119).

  In the next step (S123), the integrated management device 5 designates the air direction of the conditioned air to be lower than the horizontal by the operation information signal transmitted from the air conditioner 3 as needed, and the wind speed is also set. Since it is known that it is set to the “strong” or “medium” stage, these setting conditions are forcibly changed so that the supply of the moisturizing air to the predetermined direction and the predetermined area is not adversely affected ( For example, the wind speed is changed to a “weak” level). As a result, if the moisturizing air supply unit 20 is separated from the air conditioner 3 by 2 m or more, the conditioned air from the air conditioner 3 is suppressed to a very low speed level in the vicinity of the moisturizing air supply unit 20.

  Thereafter, from step (S123), the human detection unit 65 of the moisturizing air supply unit 20 detects whether or not there is a person in front of the moisturizing air supply unit 20 (S118). If the determination is “No”, the process proceeds to step S124, and the person detection unit 12 of the integrated management apparatus 5 checks whether there is a user. This is a measure for the possibility that the user detection sensor 65S of the human detection unit 65 of the moisturizing air supply device 20 may not be able to detect the user who is already in the sleeping place immediately before falling asleep at that time. . For example, most of the user's body may be covered with bedding or the like, and the human sensor 65S of the human detection unit 65 may not be able to detect infrared rays emitted from the user's body.

  Thereafter, the process proceeds from step (S118 or S124) to the moisturizing operation permission transmission step (S119), the sleep determination operation by the sleep determination processing unit 240 is started (S120), and the series of operations is terminated (S125). Thereafter, the control unit 36 of the integrated management device 5 continues to control the operation of acquiring environmental data such as the temperature and humidity of the installation space (bedroom) of the moisturizing air supply machine 20, and the biological data from the sleep sensor 240S. Is monitored by the sleep determination processing unit 240.

  On the other hand, when the step (S116) for determining whether or not the operation information signal indicating the start of the moisturizing operation has been received from the moisturizing air supply unit 20 is "Yes", the process proceeds to the next step (S117). .

In step (S117), as in step (S122), the environment information is acquired from the environment detection unit 9, and the environmental condition of the living space (bedroom) where the moisturizing air supply machine 20 is located is confirmed.
Although it depends on the size of the living space and the air conditioning capacity of the air conditioner 3 until this step (S117) is determined to be “Yes”, for example, it may take 30 minutes or more (the resident will fall asleep during the 30 minutes). In some cases, there is no problem, but the sleep is detected in the step S119).
If it is determined in this step (S117) that the air conditioner 3 is within the set room temperature range set by the resident, the process proceeds to the next human detection check step (S118). Thereafter, as described above, the sleep determination data is collected by the sleep determination processing unit 240, and the sleep time and sleep state determination operations are started from the data (S120), and the series of operations is ended (S120).

  The integrated management device 5 transmits the moisturizing operation permission signal to the moisturizing air supply unit 20 (step S119), and as long as the moisturizing air supply unit 20 is in the moisturizing operation, the air conditioner 3 On the other hand, even if the user inputs a change that increases the wind speed of the conditioned air through the operation unit or the remote control of the air conditioner 3, the control unit 36 sends a command signal to prohibit the operation by the input to the air conditioner. Since the transmission is performed, a situation in which the air conditioner 3 blows out a “strong” level conditioned air at an unintended time during the moisturizing operation due to a setting error of the user (sleeping person) or another resident is prevented. .

As is apparent from the above description, the home appliance operation management system shown in the third embodiment is
A moisturizing air supply machine 20 for releasing moisturizing air locally in the living space HA1,
A sleep determination processing unit 240 for determining a resident's sleep time and sleep state (sleep depth, etc.);
Integrated management device 5 that receives driving information signals L1 to L9 from home appliances EE including air conditioner 3 and moisturizing air supply device 20 used for improving the environment of the entire living space HA1 and transmits a driving permission signal. And comprising
When the integrated management device 5 receives an operation information signal for notifying the start of the moisturizing operation from the moisturizing air supply unit 20 (S101), the air conditioner in the living space HA where the moisturizing air supply unit 20 is located. When the operation condition of the air conditioner 3 satisfies a predetermined condition (S104, S117, S122), the integrated management device 5 operates with respect to the moisturizing air supply device 20 when the air conditioner 3 is in operation. A home appliance operation management system characterized by transmitting a permission signal (KS: see FIG. 19) (FIG. 29: step S119).

  Because of this configuration, in the third embodiment, the operating state of the air conditioner 3 in the living (sleeping) space HA1 in the scene where the moisturizing air supply device 20 is used is the moisturizing air supply device 20 In order not to impair the operation effect, when the humidification air supply machine 20 is used and is controlled by the integrated management device 5, an appropriate moisturizing operation environment can be obtained.

  In addition, the integrated management device 5 transmits information for confirming whether or not the operation condition of the air conditioner 3 satisfies a predetermined condition before transmitting an operation permission signal to the moisturizing air supply unit 20. The operation start permission signal is transmitted (FIG. 29: step S119) when a predetermined confirmed signal is received from the moisturizing air supply device 20 (FIG. 29: step S106). It is the operation management system of the household appliances characterized by this.

  Because of this configuration, in the third embodiment, attention can be paid to the operating state of the air conditioner 3 in the living (sleeping) space when the occupant uses the moisturizing air supply unit 20. Such a cooperative operation is performed by an integrated management device 5 (electric power management) that integrates and manages household appliances by acquiring environmental information and operation information signals of living spaces without preparing a device dedicated to the air supply machine 20 for moisturizing. 5), which also serves as a command device, and can improve the reliability of the entire system. In addition, when the moisturizing air supply unit 20 is used, an appropriate moisturizing operation environment can be obtained.

Furthermore, the integrated management device 5
When a predetermined confirmed signal is not received within a predetermined time from the moisturizing air supply unit 20, information recommending that the conditioned air speed be restricted is transmitted to the air conditioner 3 ( Step S107).

  With this configuration, in the third embodiment, even if the alert information from the integrated management device 5 is overlooked for some reason on the moisturizing air supply unit 20 side, the integrated management device 5 supplies the moisturizing air supply. In order to reduce the adverse effect on the supply of the moisturizing air of the machine 20, information recommending that the air speed of the conditioned air be limited is transmitted to the air conditioner 3 (step S107). An environment can be obtained and the reliability of the entire system can be further improved.

  With this configuration, in the third embodiment, even if the alert information from the integrated management device 5 is overlooked for some reason, the integrated management device 5 adversely affects the supply of the moisturizing air of the moisturizing air supply machine 20. Since the air conditioning operation of the air conditioner 3 can be forcibly restricted in some manner (step S123), the moisturizing air reaches the periphery of the user's face in a slow and light wind state. The expected moisturizing effect can be expected by lengthening the time of contact with the skin surface.

  In the household appliance operation management system according to the third embodiment, the moisturizing air supply unit 20 has the integrated management device 5 put the operation permission signal on hold until the air conditioner 3 satisfies a predetermined environmental condition, When the condition is satisfied, the display screen 101 informs that it automatically shifts to the moisturizing operation (see FIG. 30), so the air conditioner 3 is operated before the moisturizing air supply unit 20. Even if the user goes to sleep after giving a command to start operation to the moisturizing air supply machine 20 while using the air conditioner 3 without causing unnecessary confusion to the resident who has started. A sense of security can be given that the desired moisturizing operation can be performed automatically.

Furthermore, in the operation management system for household electrical appliances according to the third embodiment, the moisturizing air supply machine 20 is moisturized at a stage before receiving an operation start permission signal from the integrated management device 5 (FIG. 29: step S118). It is detected whether or not there is a person in the front position of the air supply machine 20, and if there is a “user absent” determination there, there is also a user by the person detection unit 12 of the integrated management device 5. If this is passed, the start of moisturizing operation is obtained for the first time when this is passed, and the moisturizing operation can be started.
Waste of electrical energy is suppressed, and high-humidity air can be effectively supplied around the user's face.

The operation management system for home appliances according to the third embodiment is
A moisturizing air supply 20;
An integrated management device 5 that has a sleep determination processing unit 240 that determines the sleep time of a sleeper and provides the sleep time data determined by the sleep determination processing unit 240 to the moisturizing air supply device 20 by wireless communication; Prepared,
The moisturizing air supply machine 20 includes a device-side storage unit 36B that stores sleep data transmitted from the integrated management device 5, and a control unit 36 that controls the moisturizing operation.
Based on the sleep data received by wireless communication from the sleep determination processing unit 240, the control unit 36 of the moisturizing air supply machine 20 starts and ends the moisturizing operation in the sleep time period. Has an operation program that matches the timing of moisturizing operation,
The moisturizing air supply machine 20 is provided with a human detection sensor 65S for detecting the presence of a person on an extension line of the moisturizing air discharge direction,
The integrated management device 5 includes a moisturizing air supply so that the start and end of the moisturizing operation is performed during the period from when the sleep determination processing unit 240 detects a person's sleep, to when the sleep is detected. Control 20 operating hours,
If the human sensor 65S cannot detect the presence of a person at the stage before the start of the moisturizing operation, the sleep determination processing unit 240 temporarily stops acquiring sleep determination information, and the information acquired so far Is a moisturizing air supply control system in which the integrated management device 5 stores the data in the storage device 36B.

According to this configuration, it can be expected that high-humidity air can be supplied when the user is at a predetermined position.
That is, according to the third embodiment, when it is detected that the user is not in the predetermined direction (front) of the moisturizing air supply machine 20 before starting the moisturizing operation, the high humidity air is used as it is. The sleep determination processing unit 240 temporarily stops the sleep determination work, and the integrated management device 5 stores and stores the data for sleep determination acquired so far. It is possible to suppress waste of energy and improve the energy saving effect.
Since the integrated management device 5 stores sleep determination data until the sleep determination work is stopped, the data is stored in the main power switch 70 when the moisturizing air supply 20 is operated, for example, the next day or later. It can be used for notifying the user or displaying it before the start of the moisturizing operation, for example, at the scene where the use is started after starting. Thereby, it can also be used for the reference of the body movement at the time of sleep which a user cannot recognize, or for analysis of a sleep result. It can also be used as a reference when considering the optimum place to install the air supply machine 20 for moisturizing.

  The third embodiment can also be applied to the moisture-retaining air supply device 20 that generates steam using the electric heat source 90 as described in the first embodiment, and also uses an ultrasonic vibrator to mist water. It can be similarly applied to a method for generating a nano-size mist (particle) using a discharge electrode and a discharge electrode.

  In addition, the first to third embodiments described above also apply to a moisturizing air supply device that increases the moisture content of the skin surface by simultaneously irradiating the skin surface with positive ions and negative ions generated from the air by discharge in the atmosphere. The same applies. Such a system is proposed in, for example, Japanese Patent Publication No. 2011-98187 (Patent No. 4790068) and Japanese Patent Publication No. 2011-200722 (Patent No. 528549).

  According to those prior art documents, positive and negative ions generated using an ion generating element are placed on a low-speed air stream and irradiated to the user, and the ion concentration irradiated to the skin surface is increased to a predetermined value or more. Thus, the water produced by the reaction of positive and negative ions moisturizes the skin and improves the elasticity of the skin. In addition, when discharging ions supplied from the ion generating means from the blowout port, a blowout ion detector is provided so that the ion concentration becomes high, thereby controlling the blowout speed at a low speed while increasing the ion concentration. doing. Specifically, the number of ions contained in the air discharged from the ion outlet decreases rapidly as the distance increases. Moreover, since it is also affected by the blown wind speed, the blown wind speed is determined by experiment. As a desirable experimental example, positive ion concentration and negative ion concentration on the human face surface are more than 7,000 each (per cubic centimeter) The amount of generated ions and the wind speed are adjusted so that

  In other words, even with a moisturizing air supply device (called “beauty device” in the prior art literature) that increases the moisture content of the skin surface by simultaneously irradiating the skin surface with positive ions and negative ions, positive ions and negative ions It is essential to blow air containing air at a low speed while maintaining a predetermined ion concentration up to the position of the user's face. For this reason, in particular, as in Embodiments 1 and 2 of the present invention, the present invention that can eliminate the adverse effects of high-speed wind by the air conditioner 3 can be expected to be highly effective even in such positive / negative ion systems.

Embodiment 4 FIG.
31 to 36 relate to a home appliance operation management system according to Embodiment 4 of the present invention. FIG. 31 is a schematic diagram of an example of a display screen and a remote control of the TV receiver 2 which is one of the home appliances controlled by the home appliance operation management system of the present invention. FIG. 32 is a front view 1 showing another example of the display screen of the TV receiver 2 of FIG. FIG. 33 is a front view 2 showing another example of the display screen of the TV receiver 2 of FIG. FIG. 34 is a front view 3 showing another example of the display screen of the TV receiver 2 of FIG. FIG. 35 is a front view 4 showing another example of the display screen of the TV receiver 2 of FIG. FIG. 36 is a flowchart showing a series of operation steps in which the integrated management apparatus 5 requests confirmation of the operating condition of the air conditioner via the TV receiver. The same or corresponding parts as those in the first and second embodiments are denoted by the same reference numerals, and redundant description is omitted. 36, the same or corresponding parts as those in the flowcharts of FIGS. 14 and 23 are denoted by the same reference numerals, and redundant description is omitted. Note that step (S115) in FIG. 36 refers to step (S115) in FIG.

  The operation management system having the integrated management device 5 also serving as the power command device according to the fourth embodiment as the core is similar to the second embodiment, and the air supply unit 20 and the air conditioner 3 in the same living space. Is intended to prevent the moisturizing air supply device 20 from being adversely affected by the operation of the air conditioner 3, and the air conditioner 3 before the moisturizing air supply device 20 is operated. This is an improvement in cooperation with the TV receiver 2 so that the user can confirm the driving conditions reliably.

  Further, in the fourth embodiment, the sleep determination data acquired by the power command device 5 from the sleep determination unit 24 of the first embodiment or the sleep determination device 240 of the third embodiment is a TV image that is one of household appliances. The machine 2 has been improved so that it can be confirmed.

  The moisturizing air supply device 20 and other target home appliances EE shown in FIGS. 31 to 36 perform wireless communication with the power command device 5 and start operation upon receiving an operation permission command from the power command device 5. It can be done. That is, when the moisturizing operation permission signal arrives, the moisturizing air supply unit 20 can start using the operation command from the user. However, in order to limit the total amount of power in the home, the power command device 5 provides commands such as a power reduction request signal AS2 and a power reduction command signal AS3 to the air conditioner 3 and the home appliance KP in the kitchen. However, since the command such as the power reduction request signal AS2 is not issued to the moisturizing air supply unit 20, when viewed from the moisturizing air supply unit 20, the power command device 5 It is positioned as (information) “integrated management device” for home appliances. That is, as in the second embodiment, in the following description, in principle, “power command device” 5 will be described as “integrated management device” in a unified manner.

FIG. 31 is a schematic diagram of a display screen 2D example of the TV receiver 2 and the remote controller 2R.
The TV receiver 2 shown in FIG. 31 is in a state in which a TV portal site is displayed, and when a specific power ON button provided on the remote controller 2R is pressed once, the TV receiver 2 is activated and displayed. A TV portal site is displayed on the screen 2D. Here, the TV portal site refers to a portal site for the purpose of providing various services mainly for a TV having a function of connecting to the Internet.

  As shown in FIG. 31, on the portal site for TV, for example, icons surrounded by a substantially rectangular frame such as “news”, “weather forecast”, “traffic information”, “earthquake / tsunami information” (on The menu of the portal site by the screen type input switch 170 is displayed. In addition, as another icon, a special icon 171 displayed as “health management information”, a special icon 172 displayed as “electric energy management”, and a special icon 173 displayed as “home environmental information” Each is displayed. These three special icons may be larger than other ordinary icons and may be displayed in a conspicuous color.

  The icon referred to in the fourth embodiment is displayed on the display screen 2D and a specific function is selected, and includes the case where the specific function is expressed not only by a graphic but also by a character. . In addition, as in the example of FIG. 31, input display sections (sometimes referred to as “tabs” or “headings”) 174 to 176 that simply display the purpose / function as characters such as “health management information” are also icons. To include. These three icons (special icons) will be described later.

  When a specific button (input decision button) of the remote controller 2R is pressed in the direction of the icon 172 displayed as “Electric energy management” on the display screen 2D of the TV receiver 2 shown in FIG. Since the TV receiver 2 detects the signal and selects the “electric energy management” screen, a dedicated screen labeled “electric energy management” is displayed on the display screen 2D. The

  The infrared signal from the remote control 2R is not directed to a specific icon and an input signal is not generated, but it is detected that the remote control has emitted an infrared signal after selecting the specific icon with the remote control. The selected icon is selected. Since such icons themselves are well known, a detailed description of the operating principle is omitted.

  On the other hand, when a specific button (input decision button) of the remote controller 2R is pressed toward the icon 173 displayed as “Home environmental information” on the display screen 2D, “Home environmental information” is displayed on the display screen 2D. The displayed dedicated screen (see FIG. 32) is displayed. Therefore, when the remote controller 2R is further operated to select a specific living space (kitchen), environmental data (temperature, humidity) such as a bedroom as shown in FIG. 35 is displayed.

In FIG. 32, reference numeral 174 denotes a special icon displaying “health management information” similar to the special icon 171.
175 is a special icon displayed as “electric energy management” similar to the special icon 172, and 176 is a special icon displayed as “residential environment information” similar to the special icon 176.

In FIG. 32, EV1 is a push-type operation button of an environment confirmation command switch (not shown), which is provided on the front surface of the TV receiver 2 in the vicinity of the lower side of the display screen 2D.
EV2 is a push-type operation button of an environment confirmation command switch (not shown) provided in the remote control 2R of the TV receiver 2. When one of these two operation buttons EV1 and EV2 is pressed, the display screen 2D is activated even when the TV receiver 2 is not activated. The screen which displays various environmental information as shown can be displayed, and the environmental condition of all the living spaces HA in the house can be quickly confirmed without displaying the portal site screen (see FIG. 31) described above.

  In FIG. 32, 177A to 177D are areas for displaying environmental data and environmental information of each living space. 177A is an area for displaying living room environment information, 177B is an area for displaying kitchen environment information, 177C is an area for displaying bedroom environment information, and 177D is an area for displaying bathroom environment information.

  The display areas 177 </ b> A to 177 </ b> D are virtually formed by a system control unit (not shown) of the TV receiver 75 when a display screen of “Home environmental information” is displayed. Virtual means that the areas 177A to 177D are not physically independent of each other, but the image display area of the display screen 75D is divided by the control program of the system control unit. In each of the display areas 177A to 177D, characters such as “living room” and “kitchen” corresponding to the name of the corresponding living space are displayed.

  178 is temperature / humidity display information in which at least one of room temperature and humidity is displayed in characters, and 179 is a comfort mark that appears when the living space is within the range of room temperature and temperature predetermined by the user. , Three of the star marks are the best, two are medium comfort, and one is the lowest of the three levels of comfort. Instead of this mark, characters may be displayed. This mark 179 is a kind of information indicating comfort. The comfort level can be changed by the user at any time, and can be freely determined by the resident, for example, in winter and summer, or in accordance with the actual situation in the area where he / she lives. In the initial setting, a default value in the range of comfortable (3 steps) is set to an air temperature of 26 ° C. and a (relative) humidity of less than 50%. In the environment detection unit 9, the process for determining the comfort level is referred to as “comfort level determination”.

  Reference numeral 181 denotes cold / warm display information for displaying heat or cold in the vicinity of a caution mark 180 indicating a situation where the environment is not comfortable. In FIG. 32, “hot” is displayed in the bedroom and bathroom as the cold / warm display portion. In the environment detection unit 9, the process for determining the state of “hot” and “cold” is referred to as “temperature determination”.

  Reference numeral 182 denotes an absence mark (absence display information) displayed when the person detection unit 12 of the integrated management apparatus 5 determines that there is no person in the individual living space. In FIG. 32, it can be easily seen from this display screen 2D that there is no one in the bedroom and bathroom.

  Reference numeral 183 denotes a home electric appliance EE having a function of affecting the air in the living space and maintaining and improving comfort, specifically, the air conditioner 3, an air purifier (not shown), and a ventilator (see FIG. It is the operation display information of “environment improvement device” (first specific electric device SP1) such as “not shown”.

  In FIG. 32, 184 is an icon for returning to the initial screen of the TV portal site shown in FIG.

  184N and 184Y are exercise caution marks (exercise caution display information) for displaying whether the living space is highly comfortable and suitable for indoor exercise. This mark may be displayed in the display areas 177A to 177D of all living spaces. However, if there is at least a motion measuring device (not shown) such as a front-room running device in the living space, the residence where the device is located. The exercise attention marks 184N and 184Y are displayed in the display area of the space.

  Basically, there is no difference between the information that can be displayed on the display screen 2D of the TV receiver 2 shown in FIGS. 31 to 33 and the information that can be displayed on the liquid crystal display screen 37A of the integrated management device 5. That is, the “operation information” of the integrated management apparatus 5 and the “environment information” of the environment detection unit 9 can be displayed in the same manner. However, compared to the effective display area of the display screen 2D having a screen size of 20 to 60 inches, the display screen 37A having a screen size of 10 to 15 inches is narrower than a fraction, so the same contents are the same size. It is not necessarily displayed. Naturally, the size of the displayed character is reduced, but the temperature / (relative) humidity display information 178, the comfort mark 179, the caution mark 180, and the exercise caution marks 184Y and 184N are all displayed.

  With the configuration described above, the same information is displayed in the kitchen, the bedroom, and the living room so that there is no difference in the displayed information between the display screen 2D of the TV receiver 2 and the liquid crystal display screen 37A of the integrated management device 5. To be able to confirm. The display of these various types of information on the liquid crystal display screen 37A of the integrated management apparatus 5 is executed by the display control program of the control unit 36.

  If the contradictory inputs are made simultaneously from both the TV receiver 2 and the liquid crystal display screen 37A of the integrated management device 5, the input on the liquid crystal display screen 37A of the integrated management device 5 has priority. For example, the total power amount of the home appliance EE on the liquid crystal display screen 37A of the integrated management device 5 is a constant value (second upper limit capacity) less than the upper limit capacity (first upper limit capacity, for example, 8000 W) regulated by the breaker BK. For example, when an operation for increasing the second upper limit capacity to 7800 W is performed simultaneously on the TV receiver 2 side during an operation to set to 7000 W), the input on the liquid crystal display screen 37A of the integrated management apparatus 5 is performed. Priority is given, and in the above example, setting to 7000 W is possible. However, the integrated management device 5 cannot restrict the viewing of broadcast waves and adjust the image quality of the liquid crystal display screen 2D, which are the original functions of the TV receiver 2, from the integrated management device 5.

FIG. 33 is another example of a screen configuration in which environmental information is displayed on the liquid crystal display screen 2D.
In FIG. 33, a characteristic configuration is that icons 185A to 185D for viewing detailed information are provided in each of the four display areas 177A to 177D. Further, in addition to the operation display information 183 of the first specific home appliance SP1, the second specific home appliance SP2 that may adversely affect the heat of the air in the living space and increase the temperature thereof. For example, the operation display information 186 indicating the operation status of the electric rice cooker is displayed.

  Reference numeral 187 denotes fluctuation display information indicating that the temperature or humidity has changed (increased or lowered) by a predetermined change rate or more. For example, when the temperature rises by 1 ° C. or more in 5 minutes or 2 minutes or when it falls, “rising” or “falling” is displayed, respectively. Each living space such as a living room, a kitchen, a bedroom, and a bathroom may be color-coded according to the actual measured temperature. For example, in the example of FIG. 33, since the bedroom has the highest room temperature, it is better if the temperature can be directly imaged in color, such as warm orange, yellow in the bathroom, and blue in the living room with the lowest temperature.

  Reference numeral 188 denotes unsuitable environment display information indicating that the physical environment is not suitable for the health of the resident and can be improved by the operation of the first specific home appliance SP1, that is, the environment improving device. In the example of FIG. 33, a case where there is a predetermined number or more of dusts having a predetermined diameter or more contained in 1 liter of air is shown. For example, if the bedding is moved or struck after getting up, the dust temporarily rises and stays in the air. Symbols appear. This inappropriate environment display information 188 is also a type of information indicating the comfort of a specific living space.

  189 is pollen scattering amount display information indicating whether there is a large amount of pollen scattered in the air outside the house, and it is useful for people with pollen allergies to judge whether to go out. Information. In addition, since the basic data of the pollen scattering amount display section is provided by the Japan Meteorological Agency, other meteorological agencies, TV broadcasting stations, etc., in addition to the information of the pollen sensor described above, or instead of providing the pollen sensor, Information from those external organizations may be used. Such external information is acquired by the integrated management order device 5 or the TV receiver 2 from the external organizations 15A and 15B.

  In FIG. 33, 190 is an absence mark (absence display information) displayed when the person detection unit 12 of the integrated management apparatus 5 determines that there is no person. In FIG. 33, it can be easily seen from this liquid crystal display screen 2D that there is no one in the bedroom and bathroom.

Next, in the state of the display screen of FIG. 33, when the remote controller 2R is further operated to select, for example, the icon 185B, the screen configuration is switched as shown in FIG.
In FIG. 34, 191 is display information indicating whether or not a ventilation fan (not shown) installed in the kitchen is being operated, and 192 is a refrigeration operation mode of an electric refrigerator (not shown) also installed in the kitchen. This is driving intensity display information indicating whether it is set in any of the three levels of “strong”, “medium”, and “weak”. Since it is already well known that the operating intensity greatly affects the power consumption of the refrigerator, detailed description thereof is omitted.

  As shown in FIG. 34, the display area 177B dedicated to the kitchen is automatically expanded to the maximum extent. Such enlarged display is a result of the display form of the liquid crystal display unit 2D being changed by a control program of a system control unit (not shown) of the TV receiver 2. 193 is a margin area secured around the right side of the display area 177B. Here, an icon 194 for selecting to view the living room environment information, an icon 195 for selecting to view the bedroom environment information, Since icons 196 for selecting viewing of environmental information are displayed, if one of these icons is selected, the environmental information of the living room, bedroom, and bathroom can be displayed in detail on the liquid crystal display screen 2D. Can do.

  Reference numeral 197 denotes advice information. In this advice information, advice on whether or not to drive home appliances, in particular, the first specific home appliance SP1 and its operating conditions are displayed in characters according to the current situation of the living space. The effect that it can be managed appropriately can be expected. FIG. 34 is an example in which the operation of a ventilation fan is recommended as advice for improving the situation where the humidity of the kitchen is rising. In other words, the ventilation fan, which is one of the environmental improvement devices, recommends the purification of the air in the kitchen.

Next, FIG. 35 will be described. FIG. 35 shows an example in which the special icon 174 for health care information is selected and bedroom information is displayed.
In FIG. 35, 230 is resident identification information displaying the target person of the health management information. 231 is the sleep time display information of a specific resident last night (in this case, the father sleeping in the bedroom), 232 is the awake time display information of the specific resident, and 233 is the sleep time of the specific resident last night. It is the time zone display information that was the deepest sleep state.

234 is environmental information indicating the current temperature and humidity of the bedroom, and 235 is an icon for selecting another health management menu.
In FIG. 35, the advice information 197 is an example indicating that the current temperature is too high to obtain a comfortable sleep.

  The sleep information acquired by the power command device 5 from the sleep determination unit 24 of the first embodiment or the sleep determination device 240 of the third embodiment is information such as the sleep time of the specific resident (father) shown in FIG. This is based on the judgment data. The control unit 36 of the integrated management device 5 sequentially acquires the latest sleep determination data acquired in the storage device 36B in parallel with the sleep determination operation so that such a display can be confirmed immediately when the user awakes. The area is stored in time series, and the latest data can be read and displayed at any time in the TV receiver 2 or the integrated management apparatus 5.

  Next, FIG. 36 will be described. FIG. 36 is a flowchart showing a series of operation steps in which the integrated management apparatus 5 requests confirmation of the operating condition of the air conditioner via the TV receiver. The control unit 36 of the integrated management apparatus 5 has a “confirmation cooperation program by the TV receiver” that performs operation steps from the start (SY20) of FIG. 36 to the step (S115) of the flowchart shown in FIG. ing.

  Also in the fourth embodiment, all the steps (S100 to S120) of the flowchart shown in FIG. 29 are adopted, and the steps of FIG. 36 are added to a part thereof.

  36, step (SY21) is the same as step (S107) in the flowchart shown in FIG. That is, in this step (SY21), a confirmation request signal for the direction and speed of the conditioned air is sent from the integrated management device 5 to the air conditioner 3. Specifically, a voice guide for confirmation is provided by a voice guide device provided in the air conditioner 3, or a message is displayed in characters or figures on a light emitting display unit or a remote control outside the main body of the air conditioner 3. And notify.

  The next step (SY22) is a step in which the user sets whether or not to make a confirmation request for the direction and speed of the conditioned air, which is made to the air conditioner 3, using the TV receiver 2 again. Yes, if the user has set “no confirmation request using the TV receiver 2”, this step (SY22) is “No”, which is the same as the step (S115) of the flowchart shown in FIG. Proceed to step. That is, when proceeding to the step (S115), it is determined whether or not a predetermined confirmation signal is transmitted to the integrated management device 5 within a predetermined time (for example, within 30 seconds). If there is no transmission in (S115), the process proceeds to step (S121) in the flowchart shown in FIG.

  On the other hand, if the user has previously set the request to confirm the direction and speed of the conditioned air using the TV receiver 2, the answer is “Yes” in this step (SY22). The process proceeds to the next step (SY23).

  In step (SY23), the environment detection unit 9 acquires the latest environment data from the environment sensor 24. The target living space in this case is the place at the time when the moisturizing air supply unit 20 issues a warning signal when the moisturizing operation starts (see step S101 in FIG. 29).

  In the first embodiment, for example, the environment detection unit 9 measures the temperature and humidity at intervals of 10 minutes in the living space (bedroom) HA2 where the air conditioner 3 is located and at intervals of 5 minutes in the kitchen. As described above, the periodically acquired environmental data may be used as the latest data. However, in order to acquire more accurate data, it is desirable to acquire the latest environmental data from the environmental sensor 24 temporarily (in real time) in the step (SY23).

  Next, in step (SY24), the integrated management device 5 acquires the latest operation information (not shown) from the air conditioner 3. This operation information signal is the same as the operation information signals L1 to L10 of the moisturizing air supply device 20 shown in FIG. 19, and the control unit 36 obtains such an operation information signal, so that the control unit 36 performs air conditioning. It can be grasped at what target temperature the machine 3 is actually performing the air conditioning operation.

  In addition, the meaning that the integrated management apparatus 5 acquires the latest operation information (not shown) from the air conditioner 3 in the step (SY24) means that the main condition of the air conditioner 3 is the step (SY24). It does not mean that all control operation history data after the power switch is turned on (ON) is acquired. The air conditioner 3 transmits an air conditioning operation start notice signal (one of the operation information signals) to the integrated management device 5, and the integrated management device 5 issues an operation start permission signal to perform the air conditioning operation. If the information such as the target set room temperature, the scheduled operation time, the strength of the conditioned air, the wind direction, etc. provided from the air conditioner 3 can be acquired at least at the time of the warning signal for starting the air conditioning operation. good.

The control unit 36 temporarily stores various data acquired in the two steps (SY23, SY24) in the second storage unit 36B (second memory).
As described in the first embodiment, the control unit 36 has the dedicated second storage unit 36B of the moisturizing air supply machine 20, and the sleep time, time, etc. acquired by the sleep determination unit 23 Are stored in time series in pairs with detailed information such as date and time when the data is actually acquired.
Further, the second storage unit 36B is configured so that environmental information or environmental data (for example, temperature and humidity) in the living space where the moisturizing air supply unit 20 is used during the moisturizing operation of the moisturizing air supply unit 20 is the moisturizing operation. Paired with time, that is, moisturizing operation time, environmental information and environmental data are linked and recorded in time series.

  In the next step (SY26), as in step (SY12) of FIG. 14 described in the first embodiment, it is determined whether the TV receiver 2 has already been activated. However, the difference from step SY12 of FIG. 14 is that the TV receiver 2 in the living space where the moisture-retaining air supply 20 is located is targeted.

  For example, the user (sleeping person) leaves the bedroom and goes to another room (residential space) immediately after issuing a driving start warning signal when the moisturizing air supply machine 20 is scheduled to be used in the bedroom. Although it is difficult to imagine, the user of the moisturizing air supply unit 20 uses the TV receiver 2 in the bedroom to request confirmation of the direction and speed of the conditioned air as performed for the air conditioner 3. The TV receiver 2 is used to perform the above. Therefore, it is determined in step (SY26) whether or not the TV receiver 2 has been activated. Whether or not the TV receiver 2 has been activated has been received by the integrated management device 5 from the TV receiver 2 at any time and can be easily determined by the control unit 36.

  If the TV receiver 2 has not been activated, the determination result in step (SY26) is “No”, and the process proceeds to the next step (SY27). In this step, the control unit 36 of the integrated management apparatus 5 sends an activation command signal to the TV receiver 2 to activate the TV receiver 2 (SY27). Then, on the display screen 2D, a confirmation request for the direction and speed of the conditioned air is made by characters, animation, and the like, as is done for the air conditioner 3. The specific content of the display screen may be the same as the content of the display screen 101 of the moisturizing air supply device 20 as shown in FIGS. Then, a “confirmation icon” (not shown) similar to the icon 166 displayed on the display screen 101 of the moisturizing air supply device 20 is displayed on the display screen 2D of the TV receiver 2. Instead of touching the “confirmation icon”, the remote control 2R of the TV receiver 2 displays the “confirmation icon” so that it can be selected (SY28).

  Accordingly, when the “confirmation icon” displayed on the display screen 2D of the TV receiver 2 is selected at the stage of this step (SY28), as in the step (S115) described in FIG. There is a predetermined “confirmation” input from a resident who is estimated to be a user (scheduled user). Therefore, after that, it becomes a process when it determines with "Yes" by step (S115) of FIG. 23, and the integrated management apparatus 5 will transmit the permission signal of moisturizing operation start through a predetermined | prescribed step.

  In the step (SY12) of FIG. 14 described in the first embodiment, when the abnormality occurrence timing of the moisturizing air supply unit 20 is from midnight (23:00) to early morning (5am) If the TV receiver 2 in the living room is suddenly activated and notified by an image or sound, there is a risk of disturbing sleep or anxiety of another resident. Therefore, even if the processing of the above step (SY12) is performed, the TV A process (SY7) described later for starting up the receiver 2 is omitted from midnight to early morning. On the other hand, the step (SY28) is a scene where the moisturizing air supply machine 20 is used to go to bed, and a resident who is estimated to be a user (expected user) may be in the bedroom. Because of the large nature, these steps (SY28) are also performed at midnight or early morning. As described above, the user can select in advance in step (SY22) so as not to perform the series of confirmation request steps (SY23 to SY28).

  In FIG. 36, when the TV receiver 2 is activated, the determination result in step (SY26) is “Yes”, and the process proceeds to the next step (SY28). In this step, on the display screen 2D of the TV receiver 2, a confirmation request for the direction and speed of the conditioned air is made by characters, animation, or the like, as performed for the air conditioner 3. Then, as described above, it is requested to select the “confirmation icon” on the display screen 2D with the remote control 2R of the TV receiver 2.

The home appliance operation management system according to the fourth embodiment is
In the home appliance operation management system including the integrated management device 5 that receives the operation information signal and transmits the operation permission signal from the home appliance EE including the air conditioner 3 and the air supply device 20 for moisturizing,
When the integrated management device 5 receives an operation information signal for notifying the start of the moisturizing operation from the moisturizing air supply machine 20,
The integrated management device 5
1) When the air conditioner 3 is in operation in a living space (such as a bedroom) HA1 where the air supply device 20 for moisturizing is present, and the air conditioner 3 is in the middle of operation targeting a predetermined environmental condition In the meantime, until the environmental condition is satisfied, sending the operation permission signal to the moisturizing air supply unit 20 is suspended, and
2) When it determines with satisfy | filling the said environmental condition, it is the structure which transmits an operation permission signal with respect to the said air supply machine 20 for moisturizing.

  Because of this configuration, also in the operation management system for home appliances in the fourth embodiment, the integrated management device 5 has the bedroom with the moisturizing air supply machine 20 before permitting the operation of the moisturizing air supply machine 20. Check the environmental status of Then, priority is given to the operation of the air conditioner 3 so as to preferentially satisfy the conditions such as the bedtime target room temperature (temperature) set by the resident in advance, and the air conditioner 3 has predetermined environmental conditions. When the condition is satisfied, the process proceeds to the process of automatically starting the moisturizing operation, so that the moisturizing operation without disturbing the user's moisturizing opportunity or sleeping sleep and avoiding the deterioration of sleep quality is avoided. Can be executed.

In the fourth embodiment, on the display screen 2D of the TV receiver 2, as with the air conditioner 3 and the moisturizing air supply device 20, the confirmation request for the direction and speed of the conditioned air is performed using characters or the like. In the scene, the “confirmation icon” is displayed on the display screen 2D of the TV receiver 2, and the air conditioner 3 in the bedroom is actually conditioned at what target temperature and so on. Display to the user. That is, information such as the target set room temperature, the scheduled operation time, the intensity of the conditioned air, the wind direction, etc. provided from the air conditioner 3 to the integrated management device 5 can be visually confirmed on the TV receiver 2. At the same time, voice guidance may be provided by the speaker of the TV receiver 2 or a voice reading device.
For this reason, the integrated management apparatus 5 can contribute to the effective driving | operation and utilization of the air conditioner 3 or the air supply machine 20 for moisturizing, and can improve a resident's convenience.

  Furthermore, the integrated management apparatus 5 temporarily stores various data such as the temperature of the bedroom in the second storage unit 36B, and displays a “confirmation icon” on the display screen 2D of the TV receiver 2 using the data. However, as explained in FIG. 33, FIG. 34, etc., it is possible to arbitrarily view and check environmental data and environmental information such as the temperature and humidity of the bedroom, and provide a comfortable and safe living environment. There is also an effect.

  In the fourth embodiment, after the integrated management device 5 uses the moisturizing air supply device 20 in a specific living space (for example, a bedroom), the TV receiver 2 in the used living space (for example, the bedroom). It is possible to display sleep-related information on the display screen 2D. For example, as shown in FIG. 35, after the target person of the health management information is displayed with the resident identification information 230, the sleep time display information 231, the awakening time display information 232 regarding the specific occupant the previous night, and The time zone display information 233 that was the deepest sleep state is displayed in a list format.

Further, the display screen 2D of the TV receiver 2 displays environment information 234 indicating the current temperature and humidity of the bedroom and advice information 197 for obtaining a comfortable sleep.
For this reason, the integrated management apparatus 5 provides the resident with useful information that can contribute to effective operation and use of the air conditioner 3 and the air supply unit 20 for moisturizing, and improves the convenience of the resident. it can.

  In addition, the air conditioner 3 demonstrated in Embodiment 1-4 is the air conditioner 3 in the vertical wall upper part (position close | similar to a ceiling) which divides and forms living spaces, such as a bedroom and a living room, as a typical type. The indoor unit (generally incorporating an indoor heat exchanger that forms part of the refrigerant circuit and an electric blower that creates an air flow around the heat exchanger) is fixed. We explained with a type that has air-conditioning air outlets on the side. However, the present invention is not limited to such an air conditioner 3 alone. For example, the person who provided the blower outlet in the side and lower surface of an indoor unit, or the diagonally forward part may be sufficient. In addition, the air conditioner 3 itself is installed outside the upper space of the ceiling and the living space, and the conditioned air from the air conditioner is guided through the duct to the air conditioning opening opened on the ceiling surface and wall surface of the living space, Air conditioned air may be blown out from the air conditioning opening into the indoor space. Further, two or more living spaces may be of a type in which air conditioning is performed so that a desired air conditioning condition (for example, room temperature) is achieved for each individual living space by one air conditioner 3.

  In addition, the moisturizing air supply unit 20 does not send / receive signals to / from the integrated management device 5, and the user can independently (independently) prevent the integrated management device 5 from instructing the start or stop of operation. It may start at an arbitrary timing and can be ended. In this case, the sleep determination device 24 shown in FIG. 26 or the embodiment is used as means for supplying information such as sleep time zone data and sleep quality (sleeping depth) to the moisturizing air supply unit 20. 1 is used. That is, the information of the sleep determination result is supplied to the moisturizing air by means such as wireless communication via the input / output unit 214 of the sleep determination device 24 or short-range wireless communication via the communication unit (input / output unit) 205. To the machine 20. Alternatively, information on the sleep determination result may be transmitted to the moisturizing air supply unit 20 by wired communication means.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The substantial scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  The operation management system for home electric appliances according to the present invention can be widely used not only for home use but also in shops, small factories, apartment houses, etc. where electric appliances for business use are installed.

AS1 Notification signal AS2 Power reduction request signal AS3 Power reduction request signal BK Breaker EP Commercial power supply EE Home appliance EV1 Press type operation button of command switch for environment check EV2 Press type operation button of command switch for environment check HA Living space HA1 Living Space (bedroom)
HA2 Living space (kitchen)
HM Resident KP Appliances in kitchen
L1-L10 Operation information signal 2 TV receiver 2D Display screen 3 Air conditioner 4A Lighting fixture 4B Lighting fixture
5 Power command device 5A Body 6 Combined sensor (temperature / humidity sensor)
7 Temperature / Humidity sensor 8 Temperature sensor 9 Environment detection unit 10 Human detection sensor 11 Human detection sensor 12 Human detection unit 13 Outdoor antenna 14A Router A
14B Router B
15A External engine 15B External engine 16 Wide area communication network 20 Moisturizing air supply machine 20A Main body 21 Bedding 22 Side table (furniture)
23 sleep determination data input unit 24 sleep determination device 24S sleep sensor 25 information communication terminal device 26 relay server 27 information server 27CP central processing unit
27IF communication section
27S Improvement Software (Countermeasure Program) Provider
27U User identification database
27M Manufacturer side information database 27B Application database 28 NFC control circuit 29 Antenna 30A Input / output unit 30B Input / output unit 30C Input / output unit 31 NFC storage unit 33 Controller 33R storage unit 34 Facility 35 Base station 36 Control unit 36A First storage unit (First memory)
36B Second storage unit (second memory)
37 Display panel 37A Display screen 39 Operation input unit 40 NFC input / output unit 41A Wireless input / output unit 41B Wireless input / output unit 43 Home detection means (home detection unit)
49 Main body case 50 Duct 50A Airflow direction plate 51 Bottom plate 52 Air outlet 53 Air outlet 54 Duct 55 Cross flow fan (electric blower)
56 Cartridge tank 57 Water receiving valve 58 Support stand 59 High temperature air generator (boiler room)
60 Water 61 Mixing chamber 63 Display 64 Light-emitting diode element (LED)
65S human detection sensor 65 human detection unit 67 stand 68 wireless communication input / output unit 68A communication antenna unit 69 circuit board 70 main power switch 70A push button 71 input operation unit 73 display unit 73A display screen 74 operation input unit (operation unit) )
75 Attitude detection unit 76 Control unit 77 Central processing unit (CPU)
78 Storage unit 79 ROM, RAM unit 86 Non-volatile memory 80 Application software unit 81 Reception processing unit 82 Transmission processing unit 83 Communication establishment unit 84 Display control unit 85 Selection confirmation unit
86 Nonvolatile memory 87 Notification section 90 Electric heat (heating) source 91 Drive circuit 91A Display memory 91B Display controller 91C Interface 91D Power supply 91E Common driver 91F Segment driver 92 Power supply circuit 93 Clock circuit 95 Liquid crystal screen 101 Display screen 102 Touch key (icon) )
103 Touch key (icon)
113 Selection information
114C selection key 116 character information 117A character information 117B character information 118 selection information 121 character information 122A selection information 122B selection information 122C selection information 124 character information 125A information indicating time 125B information indicating time 126 information indicating advice content 130 Selection display section 131 Help mode key 132 Information key 133 Time zone display section 134 Environmental information display section 135 Air-conditioning operation display section 136 Environmental detailed information 137 Comfort (comfort) information 137A Comfort mark 138 Operation information 139 Touch key ( icon)
140 Touch keys (icons)
141 Touch key (icon)
142 Character information 150 Communication adapter 151 Input / output unit 152 Control unit 153 Program storage unit 154 Input / output unit (interface unit)
160 Guidance information 161 Wind direction information 162 Image diagram showing the position of the air supply for moisturizing 163 Image diagram of the air conditioner 164 Caution information 165 Position information 166 Input key (icon) for confirmation
170 icons 171 special icons 172 special icons 173 special icons 174 to 176 special icons (input display section)
177A to 177D Display area 178 Temperature / humidity display information 179 Comfortable mark 180 Caution mark 181 Cold / warm display information 182 Absence mark (absence display information)
183 Operation Display Information of “Environmental Improvement Equipment” (First Specific Electrical Equipment SP1) 184 Icon 184N Exercise Caution Mark (Exercise Caution Display Information)
184Y Exercise attention mark (Exercise attention display information)
185A to 185D Icon 186 Operation display information 187 Fluctuation display information 188 Inappropriate environment display information 189 Pollen scattering amount display information 190 Absence mark (absence display information)
191 Display information 192 Refrigerator operation intensity display information 193 Blank area 194 Icon 195 Icon 196 Icon 197 Advice information 201 Display screen 202 Display unit drive circuit 203 Central controller 203R Memory (first storage unit)
205 Short-range wireless communication input / output unit 204A Display memory 204B Interface circuit 204C Segment driver 204D Common driver 205 Communication unit (input / output unit)
206 NFC communication control IC (NFC control circuit)
207 Antenna 208 Microchip memory (NFC storage unit)
209 Light emitting diode element (LED)
210 Clock circuit 211 Main power switch 211A Operation button 212 Power circuit 213 Operation unit 214 of sleep determination device 214 Input / output unit (wireless communication unit)
215 Wired input / output unit 216 Various sensors 217 Acceleration sensor 218 Sleep determination unit 219 Data selection unit 220 Sleep determination data storage unit 221 Storage unit 222 Determination reference data storage unit 223 Measurement environment data storage unit 230 Resident identification information 231 Specific resident Sleeping time display information 232 Awakening time display information of a specific resident 233 Time zone display information in the deepest sleep state 234 Environmental information indicating the current temperature and humidity of the bedroom 235 For selecting another health care menu Icon 240 Sleep determination processing unit 240S Sleep sensor.

Claims (38)

A main body having an air outlet for blowing out moisture-retaining air;
A steam generator provided inside the main body and generating steam for the moisturizing air;
An electric blower for generating an air flow for blowing out the steam of the steam generating section from the outlet into the room;
A control unit for controlling the steam generation unit and the electric blower;
An operation unit for inputting operating conditions to the control unit from outside the main body;
A display unit for displaying an input result of the operation unit;
A communication unit for exchanging signals with the outside;
A human sensor for detecting the presence of a person on an extension line of the direction of release of the moisturizing air;
In the air supply machine for moisturizing with
A storage unit that stores a driving program for determining a moisturizing operation, and stores data of a sleeping time period received through the communication unit,
The operation unit has an input key for instructing the control unit to automatically adjust the operation time of the moisturizing operation so that the moisturizing operation starts and ends during the sleep time period stored in the storage unit. Provided,
Further, the control unit shifts to a standby mode in which power consumption is reduced when a person cannot be detected by the human sensor within a predetermined time after the user gives an operation start command. Air supply machine for moisturizing. The communication unit is a wireless communication unit for performing near field communication with an external information communication terminal device,
The control unit causes the display unit to display information indicating that the information communication terminal device can receive data on a user's sleep time zone from the information communication terminal device by causing the information communication terminal device to approach the wireless communication unit. The air supply machine for moisturizing according to claim 1. The air outlet is provided in the upper front part of the main body,
2. The moisturizing air supply device according to claim 1, wherein the human detection sensor is provided above the air outlet and at an upper front portion of the main body. A main body having an air outlet for blowing out moisture-retaining air;
A steam generator provided inside the main body and generating steam for the moisturizing air;
An electric blower for generating an air flow for blowing out the steam of the steam generating section from the outlet into the room;
A control unit for controlling the steam generation unit and the electric blower;
An operation unit for inputting operating conditions to the control unit from outside the main body;
A display unit for displaying an input result of the operation unit;
A communication unit for exchanging signals with the outside;
A human sensor for detecting the presence of a person on an extension line of the direction of release of the moisturizing air;
In the air supply machine for moisturizing with
A storage unit for storing an operation program for determining moisturizing operation;
A storage unit for storing data of a sleeping time period received via the communication unit,
The control unit causes the storage unit to store the data of the sleep time period received via the communication unit,
Further, the operation unit has an input key for instructing the control unit to automatically adjust the operation time of the moisturizing operation so that the moisturizing operation is started and ended during the sleep time period stored in the storage unit. Provided,
Further, after the controller generates steam from the steam generator and starts a moisturizing operation, the presence sensor is monitored by the human sensor, and power consumption is reduced when the user cannot detect the presence of the user. A moisturizing air supply machine that is shifted to the interrupted mode. The communication unit is a wireless communication unit for performing near field communication with an external information communication terminal device,
The control unit causes the display unit to display information indicating that the information communication terminal device can receive data on a user's sleep time zone from the information communication terminal device by causing the information communication terminal device to approach the wireless communication unit. The moisturizing air supply device according to claim 4. The air outlet is provided in the upper front part of the main body,
The moisturizing air supply device according to claim 4, wherein the human detection sensor is provided above the air outlet and at an upper front portion of the main body. A moisturizing air supply,
A sleep determination device that receives biological information from a sleep sensor to measure a sleep time of a sleeping person and determines a sleep time zone;
An integrated management device that obtains determination data indicating a sleep time zone from the sleep determination device, and provides data indicating the sleep time zone to the moisturizing air supply device via wireless communication means,
The moisturizing air supply machine has a device-side storage unit that stores data indicating a sleep time zone transmitted from the integrated management device, and a control unit that controls the moisturizing operation,
Based on the data indicating the sleep time zone acquired from the integrated management device, the control unit of the moisturizing air supply unit moisturizes so that the moisturizing operation is started and ended during the sleep time zone. Has an operation program that matches the timing of operation,
The moisturizing air supply machine is provided with a human detection sensor that detects the presence of a person on an extension line in the direction of discharge of the moisturizing air,
The integrated management device operates the moisturizing air supply unit so that the moisturizing operation starts and ends during the period from when the sleep determination device detects a person's falling asleep to when the sleep is detected. Control
If the human sensor cannot detect the presence of a person at the stage before the start of the moisturizing operation, the integrated management device temporarily stops the acquisition of data related to sleep time from the sleep determination device, and An air supply control system for moisturizing, characterized in that data relating to sleep time acquired in the storage is stored in a storage device. The integrated management device has an operation input unit and a display screen,
When the human sensor cannot detect the presence of the person before the start of the moisturizing operation, the data related to the sleep time acquired and stored by the integrated management device is displayed on the display screen by operating the operation input unit. The air supply control system for moisturizing according to claim 7, wherein the air supply control system is displayed. The sleep determination device detects an input / output unit capable of transmitting sleep time data by wireless communication with the integrated management device, an acceleration sensor that detects acceleration of a part of the user's body, and biometric data of the user. A biometric sensor, a sleep determination unit that acquires data measured by these two types of sensors and determines whether or not the patient is in a sleep state, a data selection unit that selects measured human data, and a sleep determination data storage unit The air supply control system for moisturizing according to claim 7. The sleep determination device includes an input / output unit capable of transmitting sleep time data by short-distance wireless communication with the air supply device for moisturization, an acceleration sensor that detects acceleration of a part of the user's body, and a living body of the user A biological sensor that detects data, a data that is measured by the two types of sensors, a sleep determination unit that determines whether or not the patient is in a sleep state, a data selection unit that selects measured human data, and a sleep determination A moisture storage air supply control system according to claim 7, further comprising: a data storage unit. The integrated management device has an environment detection unit that measures an environment such as a temperature of a living space where the sleeping person is present,
The integrated management device includes a storage device in which data relating to a sleep time period acquired from the sleep determination device and environmental data transmitted from the environment detection unit are stored in a time series in pairs. The air supply control system for moisturizing according to claim 7, In the integrated management device, position information indicating individual use locations of a plurality of home appliances including the moisturizing air supply unit, and whether the home appliance is an air conditioner that circulates or blows air into the room And identification information that identifies
When the signal for using the moisturizing air supply device is transmitted to the integrated management device, the integrated management device determines whether the air conditioner exists in the living space using the moisturizing air supply device. 8. The moisture retention air supply control system according to claim 7, wherein if it is determined and exists, a command for restricting the operating condition of the air conditioner is transmitted to the air conditioner. The integrated management device sends information requesting confirmation of whether or not the operating condition of the air conditioner satisfies a predetermined condition to the moisturizing air supply machine before transmitting an operation permission signal to the moisturizing air supply machine. The moisturizing air supply control system according to claim 12, wherein the operation permission signal is transmitted when transmitted and when a predetermined confirmed signal is received from the moisturizing air supply machine. If the intensity of the conditioned air of the air conditioner is equal to or less than a predetermined level before the integrated management device transmits an operation permission signal to the moisturizing air supply device, the operation condition satisfies a predetermined condition. 14. The air supply control system for moisturizing according to claim 13, wherein the determination is performed. A power command device that individually communicates with a plurality of household electrical appliances including a moisturizing air supply unit, controls the household electrical appliances individually, and controls the total amount of power in the home,
A sleep determination device that receives biological information from a sleep sensor to measure a sleep time of a sleeping person and determines a sleep time zone;
An information communication terminal device including a wireless communication unit that performs short-range wireless communication with the moisturizing air supply,
The power command device has a storage device for storing data indicating a sleep time zone acquired by wireless communication from the sleep determination device,
The moisturizing air supply unit includes a device-side communication unit that can establish a communication state with the wireless communication unit, a device-side storage unit that stores data read from the device-side communication unit, and a direction of releasing the moisturizing air A human detection sensor for detecting the presence of a person on the extension line of, and a control unit for changing the condition of the moisturizing operation according to the detection result of the human detection sensor,
The information communication terminal device reads the sleep time data stored in the storage device of the power command device via the wireless communication unit, and the wireless communication is performed on the device side storage unit of the moisturizing air supply device. Send through the department,
The control unit stores the sleep time data received from the device-side communication unit in the device-side storage unit,
Further, the control unit of the air supply device for moisturizing automatically adjusts the timing of the moisturizing operation so that the time zone of the moisturizing operation overlaps with the sleep time zone stored in the device-side storage unit. Equipment operation management system. The sleep determination device detects an input / output unit capable of transmitting sleep time data by wireless communication with the integrated management device, an acceleration sensor that detects acceleration of a part of the user's body, and biometric data of the user. A biometric sensor, a sleep determination unit that acquires data measured by these two types of sensors and determines whether or not the patient is in a sleep state, a data selection unit that selects measured human data, and a sleep determination data storage unit The operation management system of the household appliances of Claim 15 characterized by the above-mentioned. The sleep determination device includes an input / output unit capable of transmitting sleep time data by short-distance wireless communication with the air supply device for moisturization, an acceleration sensor that detects acceleration of a part of the user's body, and a living body of the user A biological sensor that detects data, a data that is measured by the two types of sensors, a sleep determination unit that determines whether or not the patient is in a sleep state, a data selection unit that selects measured human data, and a sleep determination 16. A home appliance operation management system according to claim 15, further comprising a data storage unit. The integrated management device has an environment detection unit that measures an environment such as a temperature of a living space where the sleeping person is present,
The integrated management device includes a storage device in which data relating to a sleep time period acquired from the sleep determination device and environmental data transmitted from the environment detection unit are stored in a time series in pairs. The operation management system for home appliances according to claim 15, wherein In the integrated management device, position information indicating individual use locations of a plurality of home appliances including the moisturizing air supply unit, and whether the home appliance is an air conditioner that circulates or blows air into the room Identification information that identifies
When the signal for using the moisturizing air supply device is transmitted to the integrated management device, the integrated management device determines whether the air conditioner exists in the living space using the moisturizing air supply device. The home appliance operation management system according to claim 15, wherein, when it is determined and present, a command for restricting an operation condition of the air conditioner is transmitted to the air conditioner. The integrated management device sends information requesting confirmation of whether or not the operating condition of the air conditioner satisfies a predetermined condition to the moisturizing air supply machine before transmitting an operation permission signal to the moisturizing air supply machine. 20. The operation management system for home appliances according to claim 19, wherein the operation permission signal is transmitted when transmitted and when a predetermined confirmed signal is received from the moisturizing air supply device. If the intensity of the conditioned air of the air conditioner is equal to or less than a predetermined level before the integrated management device transmits an operation permission signal to the moisturizing air supply device, the operation condition satisfies a predetermined condition. The operation management system for home electric appliances according to claim 20, wherein the operation management system is determined. An integrated control device that individually communicates with a plurality of household electrical appliances including a portable moisturizing air supply and an air conditioner, and individually controls those household electrical appliances;
A sleep determination device that receives biological information from a sleep sensor that measures the sleep time of a sleeping person and determines a sleep state; and
A first wireless communication unit that communicates with the integrated control device via a wide-area communication network; and a second wireless communication unit that communicates via a home communication network or via a short-range wireless communication unit. Comprising an information communication terminal device,
The power command device includes an input unit that receives information indicating a sleep determination result from the sleep determination device, and an environment detection unit that measures an environment such as a temperature of a living space where a user of the moisture retention air supply machine is present. And a storage device that stores the sleep time zone data acquired by the sleep determination device and the environment data transmitted from the environment detection unit in pairs in time series,
The moisturizing air supply device includes a device-side first communication unit that can establish a communication state with the integrated control device, and a device-side second device that can establish a communication state with the information communication terminal device by short-range wireless communication. A wireless communication unit, a device-side storage unit that stores data read from these two device-side communication units, an operation unit that inputs an operation start command and operating conditions, and an input result of the operation unit A display screen, a human detection sensor that detects the presence of a person on an extension line in the direction of release of the moisturizing air, and a control unit that changes the condition of the moisturizing operation according to the detection result of the human detection sensor,
The control unit of the moisturizing air supply machine stores the sleep time zone data transmitted from the central control device in the device-side storage unit,
Further, the controller of the air supply device for moisturizing automatically operates the operation of automatically adjusting the timing of the moisturizing operation so that the moisturizing operation is started and ended in the sleep time stored in the device-side storage unit. Done
The control unit of the moisturizing air supply unit measures the sleep time zone data stored in the device-side storage unit according to the input operation of the operation unit, and the environment detection unit measures the sleep time. An operation management system for home appliances, characterized in that environmental data is displayed on the display screen. The sleep determination device detects an input / output unit capable of transmitting sleep time data by wireless communication with the integrated management device, an acceleration sensor that detects acceleration of a part of the user's body, and biometric data of the user. A biometric sensor, a sleep determination unit that acquires data measured by these two types of sensors and determines whether or not the patient is in a sleep state, a data selection unit that selects measured human data, and a sleep determination data storage unit The operation management system for home appliances according to claim 22, comprising: The sleep determination device includes an input / output unit capable of transmitting sleep time data by short-distance wireless communication with the air supply device for moisturization, an acceleration sensor that detects acceleration of a part of the user's body, and a living body of the user A biological sensor that detects data, a data that is measured by the two types of sensors, a sleep determination unit that determines whether or not the patient is in a sleep state, a data selection unit that selects measured human data, and a sleep determination 23. The home appliance operation management system according to claim 22, further comprising a data storage unit. The integrated management device has an environment detection unit that measures an environment such as a temperature of a living space where the sleeping person is present,
The integrated management device includes a storage device in which data relating to a sleep time period acquired from the sleep determination device and environmental data transmitted from the environment detection unit are stored in a time series in pairs. The operation management system for home appliances according to claim 22, In the integrated management device, position information indicating individual use locations of a plurality of home appliances including the moisturizing air supply unit, and whether the home appliance is an air conditioner that circulates or blows air into the room Identification information that identifies
When the signal for using the moisturizing air supply device is transmitted to the integrated management device, the integrated management device determines whether the air conditioner exists in the living space using the moisturizing air supply device. 23. The operation management system for home appliances according to claim 22, wherein the operation control system of the home appliance according to claim 22, wherein the operation control system transmits a command for limiting the operation condition of the air conditioner to the air conditioner when it is determined and exists. The integrated management device sends information requesting confirmation of whether or not the operating condition of the air conditioner satisfies a predetermined condition to the moisturizing air supply machine before transmitting an operation permission signal to the moisturizing air supply machine. 27. The operation management system for home appliances according to claim 26, wherein the operation permission signal is transmitted when transmitted and when a predetermined confirmed signal is received from the moisturizing air supply device. If the intensity of the conditioned air of the air conditioner is equal to or less than a predetermined level before the integrated management device transmits an operation permission signal to the moisturizing air supply device, the operation condition satisfies a predetermined condition. 28. The home appliance operation management system according to claim 27, wherein the determination is performed. A moisturizing air supply,
Integrated management that has a sleep determination processing unit that receives living body information from a sleep sensor to measure a sleep time of a sleeper and determines a sleep time zone, and provides the sleep determination data to the air supply device for moisturizing An apparatus,
The moisturizing air supply machine has a device-side storage unit that stores data indicating a sleep time zone transmitted from the integrated management device, and a control unit that controls the moisturizing operation,
Based on the data indicating the sleep time zone acquired from the integrated management device, the control unit of the moisturizing air supply unit moisturizes so that the moisturizing operation is started and ended during the sleep time zone. Has an operation program that matches the timing of operation,
The moisturizing air supply machine is provided with a human detection sensor that detects the presence of a person on an extension line in the direction of discharge of the moisturizing air,
The integrated management device sets the operation time of the moisturizing air supply unit so that the start and end of the moisturizing operation is performed during the period from the time of falling asleep detected by the sleep determination processing unit to the time of awakening. Control
If the human sensor cannot detect the presence of a person at the stage before the start of the moisturizing operation, the integrated management device saves data related to sleep time acquired from the sleep determination processing unit to the storage device. An air supply control system for moisture retention. The integrated management device has an environment detection unit that measures an environment such as a temperature of a living space where the sleeping person is present,
The integrated management device includes a storage device in which data relating to a sleep time period acquired from the sleep determination device and environmental data transmitted from the environment detection unit are stored in a time series in pairs. 30. A home appliance operation management system according to claim 29, wherein: In the integrated management device, position information indicating individual use locations of a plurality of home appliances including the moisturizing air supply unit, and whether the home appliance is an air conditioner that circulates or blows air into the room Identification information that identifies
When the signal for using the moisturizing air supply device is transmitted to the integrated management device, the integrated management device determines whether the air conditioner exists in the living space using the moisturizing air supply device. 30. The operation management system for home electric appliances according to claim 29, wherein if judged and present, a command for restricting the operating condition of the air conditioner is transmitted to the air conditioner. The integrated management device sends information requesting confirmation of whether or not the operating condition of the air conditioner satisfies a predetermined condition to the moisturizing air supply machine before transmitting an operation permission signal to the moisturizing air supply machine. 32. The operation management system for home appliances according to claim 31, wherein the operation permission signal is transmitted when transmitted and when a predetermined confirmed signal is received from the moisturizing air supply device. If the intensity of the conditioned air of the air conditioner is equal to or less than a predetermined level before the integrated management device transmits an operation permission signal to the moisturizing air supply device, the operation condition satisfies a predetermined condition. The operation management system for home appliances according to claim 32, wherein the determination is performed. A moisturizing air supply,
A power command device that individually communicates with a plurality of home appliances including the air supply machine for moisturizing, controls the home appliances individually, and controls the total amount of power in the home,
An information communication terminal device including a wireless communication unit that performs short-distance wireless communication with a moisturizing air supply,
In the power command device, a sleep determination processing unit that receives biological information from a sleep sensor and measures a sleep time zone to measure a sleep time of a sleeper, and a sleep time zone acquired from the sleep determination processing unit are shown. A storage device for storing data,
The moisturizing air supply unit includes a device-side communication unit that can establish a communication state with the wireless communication unit, a device-side storage unit that stores data read from the device-side communication unit, and a direction of releasing the moisturizing air A human detection sensor for detecting the presence of a person on the extension line of, and a control unit for changing the condition of the moisturizing operation according to the detection result of the human detection sensor,
The information communication terminal device reads the sleep time data stored in the storage device of the power command device via the wireless communication unit, and the wireless communication is performed on the device side storage unit of the moisturizing air supply device. Send through the department,
The control unit stores the sleep time data received from the device-side communication unit in the device-side storage unit,
Further, the control unit of the moisturizing air supply unit automatically adjusts the moisturizing operation time so that the moisturizing operation is completed within the sleep time based on the sleep time zone data stored in the device-side storage unit. A home appliance operation management system characterized by that. The integrated management device has an environment detection unit that measures an environment such as a temperature of a living space where the sleeping person is present,
The integrated management device includes a storage device in which data relating to a sleep time period acquired from the sleep determination processing unit and environmental data transmitted from the environment detection unit are stored in a time series in pairs. The operation management system for home appliances according to claim 34. In the integrated management device, position information indicating individual use locations of a plurality of home appliances including the moisturizing air supply unit, and whether the home appliance is an air conditioner that circulates or blows air into the room Identification information that identifies
When the signal for using the moisturizing air supply device is transmitted to the integrated management device, the integrated management device determines whether the air conditioner exists in the living space using the moisturizing air supply device. 35. The operation management system for home appliances according to claim 34, wherein if judged and present, a command for restricting the operating condition of the air conditioner is transmitted to the air conditioner. The integrated management device sends information requesting confirmation of whether or not the operating condition of the air conditioner satisfies a predetermined condition to the moisturizing air supply machine before transmitting an operation permission signal to the moisturizing air supply machine. 37. The operation management system for home appliances according to claim 36, wherein the operation permission signal is transmitted when transmitted and when a predetermined confirmed signal is received from the moisturizing air supply device. If the intensity of the conditioned air of the air conditioner is equal to or less than a predetermined level before the integrated management device transmits an operation permission signal to the moisturizing air supply device, the operation condition satisfies a predetermined condition. 38. The home appliance operation management system according to claim 37, wherein the determination is performed.

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