JP6497619B2 - Device control apparatus, device control method, and program - Google Patents

Description

  The present invention generally relates to a device control apparatus and a program. More specifically, the present invention relates to a device control apparatus, a device control method, and a program that can automatically control a device.

  2. Description of the Related Art Conventionally, there is a control device that automatically controls the air conditioning of a room based on the occupancy status of the room. For example, in Patent Document 1, the operation and stop of the air conditioner are automatically controlled based on the occupancy status of the room, the outside air temperature, and the room temperature.

JP-A-2-254246

  However, in the above-mentioned Patent Document 1, since air conditioning equipment is automatically controlled even when a person exists in a target space such as a room and manual operation is possible, device control that reflects the intention of the person is performed. It was hard to say that it was done.

  The present invention has been made in view of the above-described reasons, and its purpose is to execute automatic control when a person who can manually operate the device does not exist in the target space, and to enable a person who can manually operate the device to the target space. Is to provide a device control device, a device control method, and a program capable of realizing device control reflecting human intention as much as possible.

  The device control device of the present invention is a device control device that controls the operation of a device in a target space, and an automatic control unit that performs automatic control of the device, and for manually controlling the device in the target space A state determination unit that determines whether there is a person who can perform a manual operation, a control switching unit that switches automatic control by the automatic control unit to be permitted or not, and environmental information that is information about the environment of the target space The state determination unit determines that there is a person who can perform the manual operation when there is a person in the target space, and there is no person in the target space. The control switching unit determines that there is no person who can perform the manual operation, and there is a person who can perform the manual operation, and the environment information. In advance The automatic control unit permits automatic control of the device when the automatic control condition is satisfied, there is a person who can perform the manual operation, and the environmental information does not satisfy the automatic control condition In this case, automatic control of the device by the automatic control unit is not permitted.

  The device control method of the present invention is a device control method for controlling the operation of a device in a target space, wherein the automatic control unit performs automatic control of the device, and manually controls the device in the target space. An environment that is information about the environment of the target space when the state determination unit determines whether there is a person who can perform a manual operation, and the control switching unit switches the automatic control by the automatic control unit to be permitted or not permitted. When the information acquisition unit acquires information, and the state determination unit determines that there is a person who can perform the manual operation when a person exists in the target space, and the person does not exist in the target space The control switching unit determines that there is no person who can perform the manual operation, and there is a person who can perform the manual operation, and the environment information is Pre-determined self When the control condition is satisfied, automatic control of the device by the automatic control unit is permitted, and when there is a person who can perform the manual operation and the environment information does not satisfy the automatic control condition, The automatic control unit does not permit automatic control of the device.

  The program according to the present invention causes a computer to function as the above-described device control apparatus.

  As described above, the present invention performs automatic control when a person who can manually operate the device does not exist in the target space, and as much as possible when a person who can manually operate the device exists in the target space. There is an effect that it is possible to realize device control reflecting the intention of the device.

It is a block diagram which shows the structure of the apparatus control system of Embodiment 1. It is a block diagram which shows the structure of the apparatus control system of Embodiment 2.

(Embodiment 1)
FIG. 1 shows a configuration of a device control system using the device control apparatus 1A of the present embodiment. This device control system includes a device control device 1A and a monitor terminal 2 as main components. Then, the device control apparatus 1A determines whether to permit automatic control of the device 4 by determining the state of a person (household) in the house 100 (target space). The house 100 is each dwelling unit of a collective housing, a detached house, or the like. The target space is a space to be controlled by the device control apparatus 1A. This target space is not limited to the house 100 but may be a facility such as an office or a store. Alternatively, the target space may be each room of an apartment house, a detached house, an office, a store, or the like.

  The distribution board 3 is connected to an AC 100/200 V power system 9 drawn into the house 100, and commercial power is supplied through the power system 9. The distribution board 3 includes a branching unit 31 and a power measuring device 32. The branch unit 31 includes a plurality of branch breakers, and the power system 9 branches to a plurality of branch circuits 91 laid in the house 100 via the branch unit 31. The power measurement device 32 communicates between the function (main power) supplied from the power grid 9 and the power consumed by each branch circuit 91 (branch power) and the device control device 1A ( (Wired or wireless). The power measuring device 32 transmits the measured power data to the device control device 1A. Further, the power measuring device 32 may be provided outside the distribution board 3.

  One or more devices 4 are connected to each branch circuit 91, and the branch circuit 91 supplies operating power to these devices 4. In addition, the power system 9 and the branch circuit 91 may be supplied with power generated by a distributed power source such as a solar power generation device, a fuel cell, or a wind power generation device, or stored power of a storage battery. The branch circuit 91 is configured by a wiring device such as a distribution line or an outlet.

  The device control apparatus 1A is configured by, for example, a HEMS controller, and includes a first communication unit 11, a second communication unit 12, a control unit 13, a state determination unit 14, a control switching unit 15, a signal generation unit 16, and an information acquisition unit 17. Is provided.

  The first communication unit 11 is connected to a home network that is a communication network in the house 100, and functions as a communication interface that exchanges signals with the monitor terminal 2, the power measurement device 32, the air quality measurement device 5, and the like. . Therefore, the device control apparatus 1 </ b> A can communicate with the monitor terminal 2 and can transmit power data to the monitor terminal 2. The monitor terminal 2 includes a display unit 21. The display unit 21 displays power data, so that the power consumption in the house 100 can be visualized. The communication method used by the first communication unit 11 is selected from wireless communication using radio waves, wired communication using a power line or a dedicated line, and the like. The first communication unit 11 uses a radio signal or an infrared signal when performing wireless communication. As the radio wave signal, a wireless local area network (LAN), a low-power radio of 400 MHz band or 900 MHz band, Bluetooth (registered trademark), ZigBee (registered trademark), or the like is used.

  The second communication unit 12 functions as a communication interface that exchanges signals with the device 4. The communication method used by the second communication unit 12 is selected from wireless communication using radio waves, wired communication using a power line or a dedicated line, and the like. The wireless communication specification is appropriately selected from wireless LAN, low power wireless, and the like, and the wired communication specification is appropriately selected from power line carrier communication, wired LAN, and the like. When the second communication unit 12 uses a wireless LAN or wired LAN specification for communication with the device 4, the second communication unit 12 does not directly communicate with the device 4 but communicates with the device 4 through the router. Is possible. The communication protocol of the upper layer in the communication between the second communication unit 12 and the device 4 is determined so as to satisfy the ECHONET Lite (trademark) standard, for example.

  The control unit 13 can monitor the operation state of the device 4 and control the operation state of the device 4 by communicating with the device 4 through the second communication unit 12. That is, the control unit 13 can monitor and control the device 4 by communicating with the device 4.

  The control unit 13 includes an automatic control unit 131 and a manual control unit 132.

  The automatic control unit 131 performs automatic control for controlling the device 4 based on a predetermined algorithm. The algorithm executed by the automatic control unit 131 includes a timer control that causes the device 4 to perform a specific operation at a set time, and a sequence that causes the device 4 to perform a specific operation using an occurrence of an event other than a manual operation by a householder as a start trigger. There is control. The automatic control unit 131 performs automatic control of the device 4 by performing timer control, sequence control, and the like.

  Moreover, you may comprise the 1st communication part 11 and the 2nd communication part 12 by one communication part using the specification of wireless LAN or wired LAN.

  The monitor terminal 2 includes an operation unit 22 and accepts manual operation of the device 4 by a householder. The operation unit 22 transmits an operation signal corresponding to the manual operation to the device control apparatus 1A. The manual control unit 132 performs manual control for controlling the device 4 based on the operation signal received from the operation unit 22. That is, the manual control unit 132 performs manual control of the device 4 based on a manual operation by a householder. The monitor terminal 2 includes a touch panel, and the touch panel can constitute the display unit 21 and the operation unit 22. The operation unit 22 may include buttons, switches, and the like.

  The householder can also use an operation terminal such as a smartphone, a mobile phone, a remote controller, or a personal computer for manual operation of the device 4. In this case, the manual control unit 132 receives an operation signal generated by the operation of the householder from the operation terminal, and controls the device 4 based on the operation signal. Furthermore, the device 4 may directly receive an operation signal transmitted from the operation terminal and execute an operation based on the operation signal.

  The state determination unit 14 determines whether there is a householder who can perform a manual operation for manually controlling the device 4 in the house 100. The state determination unit 14 determines whether there is a person who can perform a manual operation based on the situation of the householder. The determination process by the state determination unit 14 is periodically performed, and is also performed at any time when an event related to the behavior of the family member occurs.

  Specifically, the state determination unit 14 acquires householder schedule information from the monitor terminal 2. The monitor terminal 2 includes a behavior management unit 23, and housekeeper schedule information set by the operation of the operation unit 22 by a family member is stored in the behavior management unit 23. The behavior management unit 23 transmits schedule information to the device control device 1A in response to a request from the device control device 1A, and the state determination unit 14 acquires the schedule information. This schedule information includes an action schedule set in advance for a predetermined period such as one day, one week, and one month, and an outing set by an operation of the operation unit 22 by a householder at the time of going out, returning home, and sleeping. Each information such as status and sleeping status is included. Therefore, the state determination unit 14 can determine whether or not a householder exists in the house 100, and can identify whether the householder has gone out, returned home, sleeping, or the like.

  And the state determination part 14 is, when there is no person who can perform manual operation, when the housekeeper does not exist in the house 100 (it has gone out) or when the housekeeper in the house 100 is sleeping. judge. That is, when the housekeeper is out, the operation section 22 cannot be operated by the housekeeper, and the operation section 22 cannot be operated by the housekeeper while sleeping.

  In addition, the state determination unit 14 determines that there is a person who can perform a manual operation when there is a family member in the house 100 and the family person in the house 100 is not sleeping. Hereinafter, a state in which a house member exists in the house 100 and a house person in the house 100 is not sleeping is referred to as “at home”. That is, the state determination unit 14 determines that there is a person who can perform a manual operation in the home state.

  The control switching unit 15 switches permission / denial of automatic control by the automatic control unit 131. When the state determination unit 14 determines that there is no person who can perform manual operation, the control switching unit 15 permits automatic control by the automatic control unit 131. Further, when the state determination unit 14 determines that there is a person who can perform manual operation, the control switching unit 15 disallows automatic control by the automatic control unit 131.

  The automatic control unit 131 can perform automatic control of the device 4 when automatic control is permitted by the control switching unit 15. The automatic control unit 131 cannot perform automatic control of the device 4 when automatic control is not permitted by the control switching unit 15. When automatic control is not permitted, only manual control by manual operation is possible for the device 4.

  The signal generation unit 16 generates a notification signal including content to be notified to the householder, and transmits this notification signal to the monitor terminal 2. The monitor terminal 2 further includes a notification control unit 24 that receives a notification signal, and an audio output unit 25 having a speaker. The notification control unit 24 that has received the notification signal displays notification contents based on the notification signal on the display unit 21. Then, the content of the notification is output from the audio output unit 25 as audio.

  The information acquisition unit 17 has a function of acquiring environmental information regarding the environment of the house 100, and includes an air conditioning information acquisition unit 171 and a weather information acquisition unit 172. The environmental information includes air conditioning information related to the air conditioning environment in the house 100 and weather information related to the weather in the area to which the house 100 belongs.

  The house 100 is provided with an air quality measurement device 5 that measures the temperature, humidity, and amount (content, concentration) of contaminants in the house 100. One or more pollutants to be measured are selected from pollen, PM2.5, cigarette smoke, volatile organic compounds, and the like. The air quality measurement device 5 includes individual measurement means such as temperature measurement, humidity measurement, and pollutant amount measurement, and transmits measurement data of each measurement means to the apparatus control device 1A as air conditioning information. The air conditioning information acquisition unit 171 receives the air conditioning information transmitted from the air quality measurement device 5. And the automatic control part 131 can perform the automatic control of the apparatus 4 based on the air-conditioning information transmitted from the air quality measurement apparatus 5.

  The first communication unit 11 is communicably connected to a wide area network 8 (public line network) including the Internet. A weather server 7 is communicably connected to the wide area network 8. The weather server 7 stores weather information related to the weather for each region, and can distribute the weather information via the wide area network 8. The weather information acquisition unit 172 can acquire the weather information from the weather server 7 by accessing the weather server 7. Then, the automatic control unit 131 can perform automatic control of the device 4 based on the weather information distributed from the weather server 7.

  The weather information is information (weather forecast, current weather, etc.) related to the weather for each region (for example, each municipality). The weather server 7 holds in advance information (address, region, etc.) relating to the installation location of the device control apparatus 1A that permits access in association with identification information (IP address, etc.) of the device control apparatus 1A. . Therefore, the weather server 7 can distribute the weather information corresponding to the installation location (address, area, etc.) of the access source device control apparatus 1A to the device control apparatus 1A.

  Hereinafter, the operation of the device control apparatus 1A will be described.

  In FIG. 1, a plurality of devices 4 are installed in a house 100, and the plurality of devices 4 include an air conditioner 41, a window opening / closing device 42, an air purifier 43, a lighting device 44, and a light shielding device 45. Yes. The air conditioner 41 is an air conditioner that adjusts the temperature and humidity of the living room in the house 100. The window opening / closing device 42 is a driving device that opens and closes a bedroom window, and functions as a ventilation device that performs ventilation. The air cleaner 43 has a function of removing contaminants in the living room in the house 100. The lighting device 44 irradiates the bedroom with illumination light. The light shielding device 45 is a shutter device (blind shutter) provided on the outdoor side of the window (opening) of the bedroom of the house 100. When the light shielding device 45 is opened, it can take in outside light into the bedroom, and when it is closed, the outside light enters the bedroom. Shut off. The air conditioner 41, the window opening / closing device 42, and the air purifier 43 correspond to the air conditioning equipment 40 that adjusts the air conditioning environment of the house 100. The air conditioning equipment 40 may include a ventilation fan or the like.

  Then, when the family member is out or when the family member is sleeping, the state determination unit 14 determines that there is no person who can perform manual operation. In this case, since the control switching unit 15 permits automatic control by the automatic control unit 131, the device control apparatus 1A can perform automatic control of the device 4 by the automatic control unit 131. The automatic control unit 131 performs automatic control of the device 4 based on, for example, air conditioning information and weather information.

  An example of an automatic control algorithm when going out is shown below. The automatic control unit 131 estimates the return time from the schedule information of the householder, operates the air conditioner 41 provided in the living room one hour before the return time, and controls the air conditioning environment in the house 100 in a comfortable direction. Keep it. For example, if the temperature (room temperature) in the house 100 is 30 ° C. or more as the air conditioning information, the automatic control unit 131 starts the cooling operation of the air conditioner 41 and automatically controls the intensity of the cooling operation according to the room temperature. When the room temperature falls to 28 ° C. or lower during the cooling operation, the automatic control unit 131 stops the cooling operation of the air conditioner 41. Moreover, if the room temperature is 20 degrees C or less, the automatic control part 131 will start the heating operation of the air conditioner 41, and will automatically control the intensity | strength of heating operation according to room temperature. The automatic controller 131 stops the heating operation of the air conditioner 41 when the room temperature rises to 23 ° C. or higher during the heating operation.

  Another example of automatic control algorithm when going out is shown below. The automatic control part 131 starts the operation of the air purifier 43 provided in the living room when the amount of the pollutant in the house 100 becomes equal to or greater than the threshold value. And the automatic control part 131 stops the driving | operation of the air cleaner 43, when the quantity of the contaminant in the house 100 becomes less than a threshold value. In addition, it is preferable that a hysteresis width is set between the threshold value at the time of start determination and the threshold value at the time of stop determination.

  An example of an algorithm for automatic control at bedtime is shown below. Based on the weather information, the automatic control unit 131 performs automatic control for prompting a householder sleeping in a bedroom at a predetermined wake-up time (for example, 7:00 am). For example, the automatic control unit 131 determines the weather at the wake-up time based on the weather information, and when the weather at the wake-up time is clear, the lighting device 44 is kept off (light-off control), and the light-shielding device 45 is turned on. By controlling the opening, outside light is taken into the bedroom and the housekeeper is urged to get up. Note that “the weather is clear” means the weather in which the amount of solar radiation is a predetermined amount or more. Further, when the weather at the wake-up time is not clear, the automatic control unit 131 maintains the closed state of the light shielding device 45 (closed control) and turns on the lighting device 44 to illuminate the bedroom with illumination light. Encourage family members to get up. Moreover, the automatic control part 131 may control the opening degree of the light-shielding device 45 according to the weather (amount of solar radiation) of the rising time. Further, when the weather at the wake-up time is not clear, the automatic control unit 131 may control the light shielding device 45 to be opened.

  The automatic control of the device 4 by the automatic control unit 131 is not limited to the above example.

  On the other hand, when the householder is at home, the state determination unit 14 determines that there is a person who can perform manual operation. In this case, since the control switching unit 15 does not permit automatic control by the automatic control unit 131, the device control apparatus 1A cannot perform automatic control of the device 4. That is, the automatic control unit 131 does not automatically control the device 4 even if the current time matches the set time for timer control. Further, the automatic control unit 131 does not automatically control the device 4 even when a sequence control start trigger occurs. Therefore, a person who can perform manual operation manually operates the operation unit 22, and the manual control unit 132 performs manual control of the device 4 based on the manual operation on the operation unit 22.

  Therefore, when the housekeeper is at home, device control that reflects the intention of the housekeeper is performed by manually operating the device 4 by the housekeeper. Therefore, device control according to the sensitivity and preference of the housekeeper is executed. It will be.

  However, if device control at home depends only on manual operation, there is a possibility that comfort in the house 100 may decrease due to forgotten operation, operation mistakes, and the like. Therefore, the signal generation unit 16 determines whether the air conditioning information or the weather information satisfies a predetermined notification condition. And the signal production | generation part 16 judges that the comfort in the house 100 may fall when staying at home, when air-conditioning information or weather information satisfy | fills the notification conditions decided beforehand. When the signal generation unit 16 determines that the comfort in the house 100 may decrease when the user is at home, the signal generation unit 16 generates a notification signal that prompts the householder to manually operate the device 4. Hereinafter, this notification control will be described with reference to Table 1.

  For example, the signal generation unit 16 uses “room temperature” as the air conditioning information, and uses “room temperature is 30 ° C. or more and less than 35 ° C.” as the notification condition (see Table 1). In this case, when the room temperature rises to 30 ° C. or more at home (when the air conditioning information satisfies the notification condition), the signal generation unit 16 generates a notification signal that prompts a manual operation for cooling the air conditioner 41. Then, the signal generation unit 16 transmits this notification signal to the monitor terminal 2. In the monitor terminal 2, the notification control unit 24 displays the notification content on the display unit 21, and outputs the notification content by voice from the voice output unit 25, thereby prompting the householder to perform a manual operation for cooling the air conditioner 41. Therefore, the air-conditioning environment in the house 100 can be maintained comfortably by performing a manual operation that causes the air-conditioning apparatus 41 to perform a cooling operation after notification by a person capable of manual operation. Moreover, the influence on the health of a householder by the rise in room temperature is reduced.

  Moreover, the signal generation part 16 can also generate | occur | produce the alerting signal which urges | operates manual operation of the other air conditioning equipment 40 (Window opening / closing apparatus 42, the air cleaner 43, etc.), if air conditioning information satisfy | fills alerting | reporting conditions at home.

  The signal generator 16 can also use “weather forecast with high probability of precipitation” as the notification condition (see Table 1). In this case, when the signal generator 16 detects a “weather forecast with a high probability of precipitation” based on the weather information at home (when the weather information satisfies the notification condition), the signal generator 16 controls to close the window opening / closing device 42 and the light shielding device 45. A notification signal for prompting a manual operation is generated. Then, the signal generation unit 16 transmits this notification signal to the monitor terminal 2. In the monitor terminal 2, the notification control unit 24 displays the notification content on the display unit 21, and outputs the notification content by voice from the audio output unit 25, thereby performing a manual operation for controlling the closing of the window opening / closing device 42 and the light shielding device 45. Encourage family members. Therefore, a person who can perform manual operation performs a manual operation for controlling the window opening / closing device 42 and the light shielding device 45 to be closed after notification, thereby preventing rain from entering the house 100 until the weather actually deteriorates. Can be completed.

  In addition, the signal generation unit 16 can use “strong wind warning or strong wind warning”, “tornado warning information”, and the like as notification conditions.

  In addition, manual control of the apparatus 4 by manual operation is not limited to the above-mentioned example.

  Further, the state determination unit 14 may determine whether there is a person who can perform a manual operation based on the power data received from the power measurement device 32. In this case, the state determination unit 14 determines the state of the housekeeper based on the power data, and determines whether there is a person who can perform a manual operation based on the situation of the housekeeper in the house.

  Specifically, the state determination unit 14 stores a history of power data. The state determination unit 14 identifies three states of being at home, going out, and sleeping based on the time variation of the power consumption of each device 4 and the absolute value of the power consumption of each device 4.

  For example, when at home, there is a high possibility that the air conditioner in the living room is in an operating state and the lighting device in the living room is in a lit state. Accordingly, the state determination unit 14 determines that the home air conditioner is in a home state if the power consumption of the air conditioner and the lighting device in the living room maintains a relatively high value. Further, when at home, there is a high possibility that the power consumption of the toilet lighting device increases intermittently. Then, the state determination part 14 will determine with being in a home state if the power consumption of the illuminating device of a toilet is increasing intermittently.

  Moreover, while going out, there is a high possibility that the air conditioner in the living room is in a stopped state and the lighting device in the living room is in a light-off state. Therefore, the state determination unit 14 determines that the user is out of the office if the power consumption of the air conditioner and the lighting device in the living room maintains a relatively low value (for example, standby power). In addition, while going out, there is a high possibility that the power consumption of the toilet lighting device is kept low. Therefore, the state determination unit 14 determines that the user is out when the power consumption of the toilet lighting device has been maintained at a low level for a predetermined time or more.

  In addition, during sleeping, there is a high possibility that the lighting device in the bedroom is turned on after the lighting device in the living room is turned off, and then the lighting device in the bedroom is turned off. Therefore, the state determination unit 14 determines that the sleeping device is sleeping if the lighting device in the bedroom is turned on after the lighting device in the living room is turned off and then the lighting device in the bedroom is turned off.

  Note that the above-described processing of the state determination unit 14 is an example, and a method for identifying three states of being at home, going out, and sleeping is appropriately determined according to the structure of the house 100, the type of the device 4, the family structure, and the like. it can.

  The device control apparatus 1A described above controls the operation of the device 4 in the house 100, which is the target space. The device control apparatus 1A includes an automatic control unit 131, a state determination unit 14, and a control switching unit 15. The automatic control unit 131 performs automatic control of the device 4. The state determination unit 14 determines whether there is a person who can perform a manual operation for manually controlling the device 4 in the house 100. The control switching unit 15 switches the automatic control by the automatic control unit 131 to permit or disallow. Then, the state determination unit 14 determines that there is a person who can perform manual operation when there is a person in the house 100, and there is a person who can perform manual operation when there is no person in the house 100. Judge that not. The control switching unit 15 permits automatic control by the automatic control unit 131 when there is no person who can perform manual operation, and disallows automatic control by the automatic control unit 131 when there is a person who can perform manual operation. To do.

  When it is determined that there is a person who can perform a manual operation in the house 100, the device control apparatus 1A disallows automatic control of the device 4 and enables only manual control of the device 4. Therefore, if there is a person who can perform a manual operation, the device control apparatus 1A can implement device control that reflects the intention of the person as much as possible by the manual operation.

  Further, in the device control apparatus 1A, when it is determined that there is no person capable of manual operation in the house 100, automatic control of the device 4 is permitted. Therefore, in the device control apparatus 1A, when there is no person who can perform manual operation, the device 4 can be automatically controlled, and the comfort in the house 100 can be automatically maintained.

  That is, the device control apparatus 1A performs automatic control when a person who can manually operate the device 4 does not exist in the house 100, and as many people as possible when a person who can manually operate the device 4 exists in the house 100. It is possible to realize device control that reflects the intention of the company.

  In addition, it is preferable that the state determination unit 14 determines that there is a person who can perform a manual operation when there is a person in the house 100 and the person in the house 100 is not sleeping. Furthermore, it is preferable that the state determination unit 14 determines that there is no person who can perform manual operation when there is no person in the house 100 or when a person in the house 100 is sleeping.

  That is, the state determination unit 14 determines whether there is a person who can perform a manual operation in consideration of not only the presence of a person in the house 100 but also the presence or absence of a person in the house 100. Thus, the presence or absence of a person capable of manual operation can be determined with higher accuracy.

  In addition, the device control apparatus 1A further includes an information acquisition unit 17 that acquires environmental information that is information related to the environment of the house 100, and a signal generation unit 16 that generates a notification signal that prompts a person in the house 100 to perform a manual operation. It is preferable. In this case, when there is a person who can perform a manual operation and the environmental information satisfies a predetermined notification condition, the signal generation unit 16 performs a manual operation on the device 4 according to the notification condition. A notification signal for prompting is generated.

  Therefore, by performing a manual operation after the notification, the environment of the target space such as the house 100 can be kept comfortable even when automatic control is not performed.

  Moreover, it is preferable that the information acquisition part 17 acquires the weather information of the area to which the house 100 belongs as environmental information. When there is no person who can perform manual operation, the automatic control unit 131 performs automatic control according to the weather information. When there is a person who can perform a manual operation and the weather information satisfies the notification condition, the signal generation unit 16 generates a notification signal that prompts the device 4 to perform a manual operation according to the notification condition.

  Therefore, by performing a manual operation after notification, device control according to weather information is possible even when automatic control is not performed.

  Moreover, the information acquisition part 17 which acquires the weather information of the area where the house 100 belongs as environmental information is provided, and the some apparatus 4 has the light-shielding device 45 which opens and closes the opening which connects the inside of the house 100 outdoors, and the inside of the house 100 And an illuminating device 44 that irradiates the illumination light. In this case, the automatic control unit 131 determines the weather at a predetermined wake-up time based on the acquired weather information. Then, when the person in the house 100 is sleeping at the wake-up time, the automatic control unit 131 controls to open the light shielding device 45 and turns off the illumination device 44 if the weather at the wake-up time is determined to be sunny. Control. In addition, when the person in the house 100 is sleeping at the wake-up time, the automatic control unit 131 controls the lighting device 44 to be turned on if it is determined that the weather at the wake-up time is not clear.

  Therefore, by changing the contents of the automatic control for wake-up executed at the wake-up time according to the weather at the wake-up time, the wake-up effect can be maintained regardless of the weather.

  Moreover, it is preferable that the state determination part 14 determines whether manual operation is executable based on the schedule of the person who goes in and out of the house 100. FIG.

  Therefore, since it is determined whether or not manual operation is possible based on the self-reported schedule, the determination accuracy can be improved.

  Moreover, it is also preferable that the state determination part 14 determines whether manual operation is executable based on the measurement result of the energy consumed in the house 100.

  Therefore, for example, a person's state is identified using the power measurement function of HEMS, and it is determined whether manual operation is possible or not, so that the system configuration can be simplified.

  Moreover, the above-described device control method controls the operation of the device 4 in the house 100 that is the target space. The automatic control unit 131 performs automatic control of the device 4. The state determination unit 14 determines whether or not there is a person who can perform manual operation for manually controlling the device 4 in the house 100. The control switching unit 15 switches the automatic control by the automatic control unit 131 to be permitted or not permitted. Then, the state determination unit 14 determines that there is a person who can perform manual operation when there is a person in the house 100, and there is a person who can perform manual operation when there is no person in the house 100. Judge that not. The control switching unit 15 permits automatic control by the automatic control unit 131 when there is no person who can perform manual operation, and disallows automatic control by the automatic control unit 131 when there is a person who can perform manual operation. To do.

  That is, the device control method of the present embodiment performs automatic control when a person who can manually operate the device 4 does not exist in the house 100, and when a person who can manually operate the device 4 exists in the house 100. Can realize equipment control reflecting human intention as much as possible.

(Embodiment 2)
FIG. 2 shows a configuration of a device control system using the device control apparatus 1B of the present embodiment. This device control system includes a device control device 1B and a monitor terminal 2 as main components. The device control apparatus 1B is different from the first embodiment in that a control switching unit 15B is provided instead of the control switching unit 15. Hereinafter, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  The status determination unit 14 identifies the status of the householder based on the schedule information of the householder or the power data of the house 100, and determines whether there is a person who can perform a manual operation. Then, the state determination unit 14 determines that there is no person who can perform a manual operation when the householder is out or sleeping. In addition, the state determination unit 14 determines that there is a person who can perform a manual operation when the home is in the home state (the home person exists in the house 100 and the home person wakes up).

  Similarly to the first embodiment, the control switching unit 15B permits automatic control of the device 4 by the automatic control unit 131 when there is no person who can perform manual operation (going out or sleeping).

  Furthermore, even if there is a person who can perform manual operation (at home), the control switching unit 15B automatically controls the device 4 by the automatic control unit 131 when the air conditioning information satisfies a predetermined automatic control condition. Allow. Hereinafter, automatic control and notification control at home will be described with reference to Table 2.

  The automatic control unit 131 uses “room temperature” as the air conditioning information and uses “room temperature of 35 ° C. or higher” as the automatic control condition (see Table 2). In this case, when the room temperature rises to 35 ° C. or higher when at home (when the air conditioning information satisfies the automatic control condition), the automatic controller 131 causes the air conditioner 41 to perform a cooling operation. That is, the automatic control part 131 suppresses the influence on the health of a householder by the raise of room temperature by forcing the air-conditioning apparatus 41 to carry out cooling operation.

  Further, when the air conditioning information satisfies the automatic control condition at home, the signal generation unit 16 can also automatically control other air conditioning equipment 40 (the window opening / closing device 42, the air purifier 43, etc.).

  In addition, the signal generator 16 uses “room temperature” as the air conditioning information and uses “room temperature of 30 ° C. or higher and lower than 35 ° C.” as the notification condition. Notification that urges manual operation can be performed (see Table 2). In this case, when the room temperature rises to 30 ° C. or more at home (when the air conditioning information satisfies the notification condition), the signal generation unit 16 generates a notification signal that prompts a manual operation for cooling the air conditioner 41. Then, the signal generation unit 16 transmits this notification signal to the monitor terminal 2. In the monitor terminal 2, the notification control unit 24 displays the notification content on the display unit 21, and outputs the notification content by voice from the voice output unit 25, thereby prompting the householder to perform a manual operation for cooling the air conditioner 41. Therefore, the person who can perform the manual operation performs the manual operation of cooling the air conditioner 41 after the notification, so that the air conditioning environment in the house 100 can be kept comfortable before the room temperature further increases.

  In addition, the control switching unit 15B is configured to automatically control the device 4 by the automatic control unit 131 when there is a person who can perform manual operation (at home) and the weather information satisfies a predetermined automatic control condition. Allow control. Hereinafter, automatic control and notification control at home will be described with reference to Table 3.

  The automatic control unit 131 uses “during rain” as an automatic control condition (see Table 3). In this case, when the automatic control unit 131 detects that it is raining in the area to which the house 100 belongs (when it is raining) based on the weather information at home, if the weather information satisfies the automatic control condition, the automatic control unit 131 opens and closes the window. The device 42 and the light shielding device 45 are closed. That is, when the weather actually gets worse, it is possible to suppress rain from entering the house 100.

  Whether the area to which the house 100 belongs is raining or not is determined by installing a rain detector (such as a rain gauge, a rain sensor) around the house 100 and measuring data (weather) of the rain detector. Information) may be used.

  In addition, the signal generation unit 16 can perform notification that prompts a householder to perform a manual operation before it actually rains by using “weather forecast with a precipitation probability of X% or more” as a notification condition (Table 3). reference). In this case, when the signal generating unit 16 detects “weather forecast with a precipitation probability of X% or more” based on the weather information at home (when the weather information satisfies the notification condition), the signal generating unit 16 causes the window opening and closing device 42 and the light shielding device 45 to be detected. A notification signal that prompts a manual operation for closing control is generated. Then, the signal generation unit 16 transmits this notification signal to the monitor terminal 2. In the monitor terminal 2, the notification control unit 24 displays the notification content on the display unit 21, and outputs the notification content by voice from the audio output unit 25, thereby performing a manual operation for controlling the closing of the window opening / closing device 42 and the light shielding device 45. Encourage family members. Therefore, a person who can perform manual operation performs a manual operation for controlling the window opening / closing device 42 and the light shielding device 45 to be closed after notification, thereby preventing rain from entering the house 100 until the weather actually deteriorates. Can be completed.

  In addition, the control switching unit 15B has a person who can perform a manual operation (at home), and the air conditioning information and the weather information of the device 4 by the automatic control unit 131 when the air conditioning information and the weather information do not satisfy predetermined automatic control conditions. Disallow automatic control.

  The device control apparatus 1B described above controls the operation of the device 4 in the house 100, which is the target space. The device control apparatus 1B includes an automatic control unit 131, a state determination unit 14, a control switching unit 15B, and an information acquisition unit 17. The automatic control unit 131 performs automatic control of the device 4. The state determination unit 14 determines whether there is a person who can perform a manual operation for manually controlling the device 4 in the house 100. The control switching unit 15B switches the automatic control by the automatic control unit 131 to be permitted or not permitted. The information acquisition unit 17 acquires environmental information that is information related to the environment of the house 100. Then, the state determination unit 14 determines that there is a person who can perform manual operation when there is a person in the house 100, and there is a person who can perform manual operation when there is no person in the house 100. Judge that not. Then, when there is no person who can perform manual operation and when there is a person who can perform manual operation and the environment information satisfies a predetermined automatic control condition, the control switching unit 15B The automatic control of the device 4 by 131 is permitted. Further, the control switching unit 15B disallows automatic control of the device 4 by the automatic control unit 131 when there is a person who can perform manual operation and the environmental information does not satisfy the automatic control condition.

  If the device control depends only on manual operation, the comfort in the house 100 may be reduced due to forgotten operation, operation error, or the like. Therefore, in the device control apparatus 1B, not only when there is no person who can perform manual operation, but also there is an automatic control condition in which there is a person who can perform manual operation and environment information (air conditioning information, weather information) is determined in advance. Even when it is satisfied, the device 4 can be automatically controlled. In addition, when there is a person who can perform manual operation and the environmental information does not satisfy the automatic control condition, the device control apparatus 1B disallows automatic control of the device 4 and performs only manual control of the device 4. Make it executable.

  Therefore, in the device control apparatus 1B, if there is a person who can perform manual operation, it is possible to manually perform device control that reflects the intention of the person as much as possible. Furthermore, if there is a possibility that the comfort in the house 100 is reduced, the automatic control of the device 4 can be permitted to maintain the comfort in the house 100.

  In addition, the device control apparatus 1B permits automatic control of the device 4 even when it is determined that there is no person who can perform manual operation. Therefore, in the device control apparatus 1B, when there is no person who can perform manual operation, the device 4 can be automatically controlled, and the comfort of the target space can be automatically maintained.

  That is, the device control apparatus 1B executes automatic control when a person who can manually operate the device 4 does not exist in the house 100, and as many people as possible when a person who can manually operate the device 4 exists in the house 100. It is possible to realize device control that reflects the intention of the company.

  In addition, it is preferable that the state determination unit 14 determines that there is a person who can perform a manual operation when there is a person in the house 100 and the person in the house 100 is not sleeping. Furthermore, it is preferable that the state determination unit 14 determines that there is no person who can perform manual operation when there is no person in the house 100 or when a person in the house 100 is sleeping.

  That is, the state determination unit 14 determines whether there is a person who can perform a manual operation in consideration of not only the presence of a person in the house 100 but also the presence or absence of a person in the house 100. Thus, the presence or absence of a person capable of manual operation can be determined with higher accuracy.

  Moreover, it is preferable that the apparatus control apparatus 1B further includes a signal generation unit 16 that generates a notification signal that prompts a person in the house 100 to perform a manual operation. When there is a person who can perform a manual operation and the environmental information satisfies a predetermined notification condition, the signal generation unit 16 performs a manual operation on the device 4 according to the notification condition. A notification signal for prompting is generated.

  Therefore, by performing a manual operation after the notification, the air-conditioning environment in the target space such as the house 100 can be maintained comfortably even when automatic control is not performed.

  Moreover, it is preferable that the information acquisition part 17 acquires the weather information of the area to which the house 100 belongs as environmental information. When there is no person who can perform manual operation, the automatic control unit 131 performs automatic control according to the weather information. When there is a person who can perform a manual operation and the weather information satisfies the notification condition, the signal generation unit 16 generates a notification signal that prompts the device 4 to perform a manual operation according to the notification condition.

  Therefore, by performing a manual operation after notification, device control according to weather information is possible even when automatic control is not performed.

  The information acquisition unit 17 acquires the weather information of the area to which the house 100 belongs as environmental information, and the plurality of devices 4 includes a light shielding device 45 that opens and closes an opening that allows the house 100 to communicate with the outdoors, and the house 100. It is preferable that the illumination apparatus 44 which irradiates illumination light is included. In this case, the automatic control unit 131 determines the weather at a predetermined wake-up time based on the acquired weather information. Then, when the person in the house 100 is sleeping at the wake-up time, the automatic control unit 131 controls to open the light shielding device 45 and turns off the illumination device 44 if the weather at the wake-up time is determined to be sunny. Control. In addition, when the person in the house 100 is sleeping at the wake-up time, the automatic control unit 131 controls the lighting device 44 to be turned on if it is determined that the weather at the wake-up time is not clear.

  Therefore, by changing the contents of the automatic control for wake-up executed at the wake-up time according to the weather at the wake-up time, the wake-up effect can be maintained regardless of the weather.

  Moreover, the above-described device control method controls the operation of the device 4 in the house 100 that is the target space. The automatic control unit 131 performs automatic control of the device 4. The state determination unit 14 determines whether or not there is a person who can perform manual operation for manually controlling the device 4 in the house 100. The control switching unit 15B switches the automatic control by the automatic control unit 131 to permit or disallow. The information acquisition unit 17 acquires environmental information that is information regarding the environment of the house 100. Then, the state determination unit 14 determines that there is a person who can perform manual operation when there is a person in the house 100, and there is a person who can perform manual operation when there is no person in the house 100. Judge that not. Then, when there is no person who can perform manual operation and when there is a person who can perform manual operation and the environment information satisfies a predetermined automatic control condition, the control switching unit 15B The automatic control of the device 4 by 131 is permitted. Further, the control switching unit 15B disallows automatic control of the device 4 by the automatic control unit 131 when there is a person who can perform manual operation and the environmental information does not satisfy the automatic control condition.

  That is, the device control method of the present embodiment performs automatic control when a person who can manually operate the device 4 does not exist in the house 100, and when a person who can manually operate the device 4 exists in the house 100. Can realize equipment control reflecting human intention as much as possible.

  In the above-described embodiment, the device control apparatuses 1A and 1B are equipped with a computer, and the above-described functions are realized by the computer executing a program. A computer mainly includes a device having a processor for executing a program, an interface device for transmitting / receiving data to / from other apparatuses, and a storage device for storing data. Prepare. The device including the processor may be any of a micro processing unit (MPU) that is a separate body from the semiconductor memory and a microcomputer (micro controller) that includes the semiconductor memory integrally. As a storage device, a storage device having a short access time such as a semiconductor memory and a large-capacity storage device such as a hard disk device are used in combination.

  As a program providing form, a computer-readable ROM (Read Only Memory), a form stored in advance in a recording medium such as an optical disk, a form supplied to the recording medium via a wide-area communication network including the Internet, etc. There is.

  That is, the program causes the computer to function as the device control apparatuses 1A and 1B.

  Therefore, a program that causes a computer to function as the device control apparatuses 1A and 1B can also achieve the same effects as described above. In other words, this program also performs automatic control when there is no person who can be manually operated in the target space, and when there is a person who can be manually operated, device control that reflects the intention of the person as much as possible is performed. Can be realized.

  The above-described embodiment is an example of the present invention. For this reason, the present invention is not limited to the above-described embodiment, and various modifications can be made depending on the design and the like as long as the technical idea according to the present invention is not deviated from this embodiment. Of course, it is possible to change.

1A, 1B Device control device 13 Control unit 131 Automatic control unit 132 Manual control unit 14 State determination unit 15, 15B Control switching unit 16 Signal generation unit 17 Information acquisition unit 171 Air conditioning information acquisition unit 172 Weather information acquisition unit 2 Monitor terminal 22 operation Part 3 Distribution board 4 Equipment 40 Air-conditioning equipment 41 Air-conditioning equipment 42 Window opening and closing device 43 Air purifier 44 Illumination device 45 Shading device 5 Air quality measuring device 7 Weather server 100 Housing

Claims (6)

A device control device for controlling the operation of a device in a target space,
An automatic control unit for automatically controlling the device;
A state determination unit that determines whether or not there is a person capable of manual operation for manually controlling the device in the target space;
A control switching unit for switching automatic control by the automatic control unit to permit or disallow ,
An information acquisition unit that acquires environmental information that is information related to the environment of the target space ;
The state determination unit determines that there is a person who can perform the manual operation when a person exists in the target space, and a person who can perform the manual operation when there is no person in the target space. Is determined not to exist,
The control switching unit
If the manual operation is enabled people do not exist, and when the manual operation is present who can and the environment information satisfies a predetermined automatic control condition, of the device according to the automatic control unit Allow automatic control,
The manual if the operation is present who can and the environmental information does not satisfy the automatic control condition, the device control apparatus characterized by a non allow automatic control of the equipment by the automatic control unit. A signal generation unit that generates a notification signal that prompts the person in the target space to perform the manual operation;
When there is a person who can perform the manual operation and the environment information satisfies a predetermined notification condition, the signal generation unit performs the manual operation on the device according to the notification condition. The apparatus control device according to claim 1, wherein the notification signal that prompts the user to generate the notification signal is generated . The information acquisition unit acquires, as the environment information, weather information of a region to which the target space belongs,
When there is no person who can perform the manual operation, the automatic control unit performs automatic control according to the weather information,
When there is a person who can perform the manual operation and the weather information satisfies the notification condition, the signal generation unit urges the device to perform the manual operation according to the notification condition. The apparatus control apparatus according to claim 2 , wherein a notification signal is generated . The information acquisition unit acquires, as the environment information, weather information of a region to which the target space belongs,
The plurality of devices include a light-shielding device that opens and closes an opening that communicates the inside of the target space with the outdoors, and an illumination device that irradiates illumination light into the target space,
The automatic control unit
Judging the weather at a predetermined wake-up time based on the acquired weather information,
When a person in the target space is sleeping at the wake-up time, if it is determined that the weather at the wake-up time is clear, the light-shielding device is controlled to open, and the lighting device is controlled to be turned off.
When a person in the target space is sleeping in the rising time, when it is judged that the weather of the wake-up time is no clear, any one of claims 1 to 3, characterized in that lighting control said illumination apparatus- The apparatus control apparatus according to item . A device control method for controlling the operation of a device in a target space,
  The automatic control unit performs automatic control of the device,
  The state determination unit determines whether or not there is a person capable of manual operation for manually controlling the device in the target space,
  The control switching unit switches the automatic control by the automatic control unit to permit or disallow,
  The information acquisition unit acquires environmental information that is information about the environment of the target space,
  The state determination unit determines that there is a person who can perform the manual operation when a person exists in the target space, and a person who can perform the manual operation when there is no person in the target space. Is determined not to exist,
  The control switching unit
  When there is no person who can perform the manual operation, and when there is a person who can perform the manual operation and the environment information satisfies a predetermined automatic control condition, the automatic control unit Allow automatic control,
  When there is a person who can perform the manual operation and the environmental information does not satisfy the automatic control condition, automatic control of the device by the automatic control unit is not permitted.
  A device control method. A program for causing a computer to function as the device control apparatus according to claim 1.

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