JP2017220182A - Control device, control method, and update method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a control device capable of changing control algorithm.SOLUTION: A control device 10 includes: a storage unit 13; a communication unit 11 for receiving, from a terminal 90, control algorithm information which the mobile terminal 90 has downloaded from a particular server device 80; a storage control unit 12b for storing control algorithm included in the control algorithm information received by the communication unit 11 in the storage unit 13; and an apparatus control unit 12a for controlling an apparatus installed in facilities 101 on the basis of the control algorithm stored in the storage unit 13.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a control device and a control method for controlling a device, and a method for updating a control algorithm of such a control device.

  2. Description of the Related Art Conventionally, a device control system is known that enables a user to control an electrical device connected to a gateway through an information terminal by connecting the information terminal such as a smartphone to the gateway. As an example of such a device control system, Patent Document 1 discloses a home control system that can promote the health of a user.

Japanese Patent Laying-Open No. 2015-228591

  By the way, it is better that the control algorithm of the control device used in the device control system as described above can be changed (including addition) later.

  The present invention provides a control device, a control method, and an update method that can change a control algorithm.

  A control device according to an aspect of the present invention is a control device installed in a facility, and a storage unit, and a communication unit that receives, from the mobile terminal, control algorithm information downloaded from a specific server device by the mobile terminal. A storage control unit that stores the control algorithm included in the control algorithm information received by the communication unit in the storage unit, and a device installed in the facility based on the control algorithm stored in the storage unit A device control unit for controlling the device.

  A control method according to an aspect of the present invention is a method for controlling a device installed in a facility, which is executed by a control device installed in the facility, wherein control algorithm information downloaded from a specific server device by a mobile terminal The control algorithm received from the portable terminal and included in the received control algorithm information is stored in a storage unit included in the control device, and the device is controlled based on the stored control algorithm.

  The program which concerns on 1 aspect of this invention is a program for making a computer perform the said control method.

  An update method according to an aspect of the present invention is a method for updating a control algorithm of a control device executed by a mobile terminal, and performs communication with a specific server device to store the first stored in the specific server device. It is determined whether one control algorithm is a newer version than the second control algorithm stored in the storage unit included in the control device. When it is determined that the first control algorithm is a new version, the first control algorithm is Download from the specific server device and transmit the downloaded first control algorithm to the control device.

  The program which concerns on 1 aspect of this invention is a program for making a computer perform the said update method.

  According to the present invention, the control algorithm of the control device can be changed.

FIG. 1 is a diagram illustrating an overview of a device control system according to an embodiment. FIG. 2 is a perspective view of the control device according to the embodiment. FIG. 3 is a front view of the control device according to the embodiment. FIG. 4 is a diagram illustrating an example of an image for controlling the air conditioner. FIG. 5 is a block diagram illustrating a configuration of the device control system according to the embodiment. FIG. 6 is a flowchart of an operation example 1 of the control device according to the embodiment. FIG. 7 is a flowchart of the operation example 2 of the control device according to the embodiment. FIG. 8 is a diagram illustrating an example of an image for inquiring the user whether or not to store the control algorithm. FIG. 9 is a flowchart of the operation of the mobile terminal in the update operation example 1. FIG. 10 is a flowchart of the operation of the control device in the update operation example 1. FIG. 11 is a flowchart of the operation of the control device in the update operation example 2. FIG. 12 is a flowchart of the operation of the mobile terminal in the update operation example 2.

  Hereinafter, embodiments will be described with reference to the drawings. It should be noted that each of the embodiments described below shows a comprehensive or specific example. The numerical values, shapes, materials, constituent elements, arrangement positions and connecting forms of the constituent elements, steps, order of steps, and the like shown in the following embodiments are merely examples, and are not intended to limit the present invention. In addition, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims indicating the highest concept are described as optional constituent elements.

  Each figure is a schematic diagram and is not necessarily shown strictly. Moreover, in each figure, the same code | symbol is attached | subjected to substantially the same structure, and the overlapping description may be abbreviate | omitted or simplified.

(Embodiment)
[Configuration of device control system]
First, the configuration of the device control system according to the embodiment will be described. FIG. 1 is a diagram illustrating an overview of a device control system according to an embodiment.

  As illustrated in FIG. 1, the device control system 100 is a system for controlling a device provided in a facility 101 and installed in the facility 101. The facility 101 is, for example, a detached house. The facility 101 includes a plurality of rooms partitioned by walls and doors. Specifically, the plurality of rooms are a room 102, a room 102a, and a room 102b.

  The control device 10 included in the device control system 100 is a controller for the user to control the lighting device 20, the air conditioner 30, and the ventilation device 40 installed in the room 102. The control device 10 also functions as a so-called wall switch (wall switch device). FIG. 2 is a perspective view of the control device 10. FIG. 3 is a front view of the control device 10.

  As shown in FIG. 2, the control device 10 is installed on the wall surface 103 of the room 102. The control device 10 is installed on the wall surface 103 in a state where at least a part of the housing 18 is accommodated in the switch box 104 embedded in the wall surface 103. The mounting method of the control device 10 is almost the same as that of a general-purpose wall switch, and the switch box 104 can be used for a wall switch.

  As illustrated in FIG. 3, the control device 10 functions as a so-called GUI (Graphical User Interface), and an image including an icon (button) is displayed on the display unit 16 of the control device 10, for example. The user can turn on and off the power supply to each device of the lighting device 20, the air conditioner 30, and the ventilation device 40 by tapping the icon portion of the display unit 16 (touch panel).

  The display unit 16 of the control device 10 also displays an image for performing detailed control of each device. FIG. 4 is a diagram illustrating an example of an image for controlling the air conditioner 30. According to the image shown in FIG. 4, the user can switch the operation mode of the air conditioner 30 and change the set temperature. Transition from the image shown in FIG. 3 to the image shown in FIG. 4 is made, for example, by a swipe operation on the display unit 16 (touch panel 15). Although not shown, the display unit 16 may display an image for performing dimming control and toning control of the lighting device 20 and air volume control of the ventilation device 40.

  Here, the control device 10 (device control system 100) can control the lighting device 20, the air conditioning device 30, and the ventilation device 40 based on a control algorithm stored in a storage unit included in the control device 10. . Here, the case where the control apparatus 10 cannot communicate directly with the server apparatus 80 which manages a control algorithm can be considered. In such a case, it is difficult to add and change the control algorithm of the control device 10. In the device control system 100, even when the control device 10 cannot communicate directly with the server device 80, the control algorithm of the control device 10 can be easily added and updated. Hereinafter, a detailed configuration of the device control system 100 will be described. FIG. 5 is a block diagram illustrating a configuration of the device control system according to the embodiment.

  As shown in FIG. 5, the device control system 100 specifically includes a control device 10, a lighting device 20, an air conditioner 30, a ventilation device 40, an outdoor unit 50, a distribution board 60, A server device 80 and a mobile terminal 90 are provided. In FIG. 5, a power system 70 is also illustrated as an external power source. As illustrated in FIG. 1, the device control system 100 may include a control device 10 for controlling a device installed in the room for each room. That is, the device control system 100 may include a plurality of control devices 10 and devices to be controlled by the control devices 10. Hereafter, each component which comprises the apparatus control system 100 is demonstrated, mainly referring FIG.1 and FIG.5.

[Control device]
As described above, the control device 10 is, for example, a controller that is installed in the room 102 and that allows the user to control the devices installed in the room 102. Although the control apparatus 10 should just be able to control at least 1 apparatus, you may control a some apparatus. Further, the control device 10 may control a plurality of types of devices having different functions. Specifically, the control device 10 controls the lighting device 20, the air conditioner 30, and the ventilation device 40. In other words, the lighting device 20, the air conditioner 30, and the ventilation device 40 are devices to be controlled by the control device 10.

  Specifically, the control device 10 includes a communication unit 11, a signal processing unit 12, a storage unit 13, a power supply unit 14, a touch panel 15, a display unit 16, and a switch unit 17. Further, as illustrated in FIG. 2, the control device 10 includes a housing 18.

  The communication unit 11 performs wireless communication with a device installed in the facility 101. Specifically, the communication unit 11 wirelessly transmits a control signal to the lighting device 20, the air conditioner 30, and the ventilation device 40 based on the control of the signal processing unit 12 (device control unit 12 a). Specifically, the communication unit 11 is a communication module (communication circuit) for wireless communication.

  The control device 10 performs wireless communication using a small first communication network in the facility 101. For this reason, the control device 10 is basically incapable of connecting to a large-scale second communication network (for example, the Internet) for connecting to the server device 80, but is connected to the second via a router or the like. It may be connectable to other communication networks.

  In addition, the communication unit 11 receives control algorithm information downloaded from the server device 80 by the mobile terminal 90 from the mobile terminal 90. Here, the control algorithm information is information including at least the control algorithm. The control algorithm information may be all or a part of information downloaded from the server device 80 by the mobile terminal 90.

  The communication unit 11 acquires (receives) life information related to the life of the user of the facility 101 by wireless communication. The life information is, for example, energy consumption information indicating energy consumed when the user lives in the facility 101, and more specifically, power consumption measured by the power measurement device 63 provided in the distribution board 60. Information. Further, the life information may be environment information indicating a user's living environment in the facility 101. The environmental information includes outside air temperature information measured by the temperature measuring device 51 provided in the outdoor unit 50, temperature information and humidity information measured by the temperature / humidity measuring device 31 provided in the air conditioner 30, and suspended particles provided in the air conditioner 30. This is particle amount information measured by the measuring device 32. As described above, the communication unit 11 acquires life information from the distribution board 60, the air conditioner 30, the outdoor unit 50, and the like.

  The communication unit 11 may acquire power consumption information measured by the power measurement device 63 from the power measurement device 63 that is separate from the distribution board 60. Similarly, the communication unit 11 may acquire the outside air temperature information from the temperature measuring device 51 separate from the outdoor unit 50, and the temperature information and humidity from the temperature / humidity measuring device 31 separate from the air conditioner 30. Information may be acquired. The communication unit 11 may acquire the particle amount information from a suspended particle measuring device separate from the air conditioner 30.

  The signal processing unit 12 performs signal processing related to device control. The signal processing unit 12 includes a device control unit 12a and a storage control unit 12b. Specifically, the signal processing unit 12 is realized by a processor, a microcomputer, or a dedicated circuit. Specific operations of the signal processing unit 12 will be described later.

  The device control unit 12a controls the lighting device 20, the air conditioning device 30, and the ventilation device 40 by causing the communication unit 11 to wirelessly transmit a control signal. In addition, the device control unit 12 a controls the switch unit 17 based on an input (operation) to the touch panel 15. That is, the appliance control unit 12a controls on / off of power supply to the lighting device 20, the air conditioning device 30, and the ventilation device 40. Further, the device control unit 12a causes the display unit 16 to display an image as shown in FIG. 3 or FIG.

  The storage control unit 12 b manages a control algorithm stored in the storage unit 13. For example, the storage control unit 12 b acquires a control algorithm included in the control algorithm information received by the communication unit 11 and stores the acquired control algorithm in the storage unit 13.

  The storage unit 13 is a storage device that stores a control algorithm. The control algorithm stored in the storage unit 13 is executed, for example, when the user performs a predetermined operation on the touch panel 15.

  The storage unit 13 also stores a control program executed by the signal processing unit 12. Specifically, the storage unit 13 is realized by a semiconductor memory or the like.

  The power supply unit 14 converts AC power supplied from the power system 70 into DC power suitable for the operation of the control device 10 and supplies the DC power to each component included in the control device 10. Specifically, the power supply unit 14 is a power supply circuit including an AC / DC converter or a DC / DC converter.

  The touch panel 15 is an example of an input receiving unit, and receives user input. The touch panel 15 may be a capacitive touch panel, or may be another type touch panel such as a resistive film type.

  The display part 16 displays the image for a user to control the illuminating device 20, the air conditioning apparatus 30, and the ventilation apparatus 40 based on control of the apparatus control part 12a. Images displayed on the display unit 16 are exemplified in FIGS. 3 and 4. Specifically, the display unit 16 is realized by a liquid crystal panel, an organic EL panel, or the like.

  The switch unit 17 turns on and off the power supply from the power system 70 to each of the lighting device 20, the air conditioner 30, and the ventilation device 40 based on an operation on the touch panel 15. That is, the switch unit 17 turns off the main power supply of the lighting device 20, the air conditioner 30, and the ventilation device 40. Specifically, the switch unit 17 is controlled by the device control unit 12 a based on an operation on the touch panel 15. The switch unit 17 includes three switch elements that are directly controlled by the device control unit 12a without performing wireless communication, corresponding to the lighting device 20, the air conditioning device 30, and the ventilation device 40.

  The switch element is located on the branch circuit 72 (on the power line) from the power system 70 to each device, and turns on and off the electrical connection between the power system 70 and each device. The switch element may be an element that structurally opens and closes electrical contacts such as a relay element, or may be a semiconductor switching element such as a power transistor. In addition, the switch part 17 should just be provided with at least 1 switch element. That is, the switch unit 17 only needs to be able to directly turn on and off the power supply to at least one device.

  The housing 18 (shown in FIG. 2) houses the communication unit 11, the signal processing unit 12 (the device control unit 12a and the storage control unit 12b), the touch panel 15, the display unit 16, and the switch unit 17. The housing 18 is made of, for example, resin, but a part or all of it may be made of metal. As described above, at least a part of the housing 18 is embedded in the wall surface 103 of the facility 101.

  The timer 19 measures time and notifies the signal processor 12. Specifically, the timer unit 19 is a general-purpose timer IC (timer circuit), a real-time clock IC, or the like. Note that the timer unit 19 may be incorporated in the signal processing unit 12. In this case, the timer unit 19 is, for example, an on-chip oscillator. When the timer 19 is an on-chip oscillator, the time measurement accuracy can be improved by further attaching a crystal resonator.

  The configuration of the control device 10 has been described above. The configuration of the control device 10 described is an example. For example, the controller 10 may be a controller that does not include a component (such as the switch unit 17) for functioning as a wall switch.

[Lighting device]
The lighting device 20 is an example of a device installed in the facility 101, and specifically, installed in the room 102. The lighting device 20 is a so-called ceiling light that illuminates a room. The specific aspect of the illuminating device 20 is not specifically limited, A downlight, a pendant light, a spotlight, a bracket light, etc. may be sufficient.

  Specifically, the illumination device 20 includes an LED (Light Emitting Diode) as a light source. The illumination device 20 may include a semiconductor light emitting element such as a fluorescent tube or a semiconductor laser, or a solid light emitting element such as an organic EL (Electro Luminescence) or an inorganic EL as a light source.

  Although not illustrated, the lighting device 20 includes a communication module (communication circuit) for performing wireless communication with the control device 10 and receives a control signal transmitted by the communication unit 11 included in the control device 10. That is, the illumination device 20 can emit light or extinguish based on the control signal received from the control device 10. For example, when the light control rate (light control ratio) is specified in the control signal, the lighting device 20 emits light at the specified light control rate. When the color temperature is specified in the control signal, the lighting device 20 emits light at the specified color temperature. In addition, on / off (lighting and extinguishing) of power supply from the power system 70 to the lighting device 20 is controlled by the switch unit 17.

[Air conditioner]
The air conditioner 30 is an example of a device installed in the facility 101, and specifically, installed in the room 102. The air conditioner 30 is a general household air conditioner. The air conditioner 30 is an air conditioner capable of adjusting the temperature of the wind sent from the air conditioner 30 by having a heat exchanger (not shown) and the like. That is, the air conditioner 30 has an air blowing function and an air conditioning function. The air conditioner 30 is not limited to a general home air conditioner, and may be an industrial air conditioner.

  The air conditioner 30 includes a temperature / humidity measuring device 31. The temperature / humidity measuring device 31 measures the temperature and humidity of the room 102 and outputs temperature information indicating the measured temperature (room temperature) and humidity information indicating the measured humidity. The temperature / humidity measuring device 31 includes a thermistor or a thermocouple as an element for measuring temperature, and a polymer resistance type humidity sensor or a polymer capacitance type humidity sensor as an element for measuring humidity. Etc. Note that a temperature / humidity measuring device 31 separate from the air conditioner 30 may be used for measuring the temperature and humidity in the facility 101.

  The air conditioner 30 includes a suspended particle measuring device 32. The suspended particle measuring device 32 measures the amount of suspended particles in the room 102 and outputs particle amount information indicating the measured amount of suspended particles. The suspended particle measuring device 32 is specifically a PM2.5 sensor or the like. Note that a suspended particle measuring device 32 separate from the air conditioner 30 may be used for measuring the amount of suspended particles in the facility 101. The suspended particle measuring device 32 may be a part of a device other than the air conditioner 30 such as an air purifier.

  Although not illustrated, the air conditioner 30 includes a communication module (communication circuit) for performing wireless communication with the control device 10 and receives a control signal transmitted by the communication unit 11 included in the control device 10. That is, the air conditioner 30 can switch the operation mode and change the set temperature based on the control signal received from the control device 10.

  In addition, the air conditioner 30 transmits the temperature information and the humidity information output by the temperature / humidity measuring device 31 to the communication unit 11 included in the control device 10. Similarly, the air conditioner 30 transmits the particle amount information output by the suspended particle measuring device 32 to the communication unit 11 provided in the control device 10.

  On / off of power supply from the power system 70 to the air conditioner 30 is controlled by the switch unit 17.

[Ventilator]
The ventilation device 40 is an example of a device installed in the facility 101, is installed in the room 102, and ventilates between the room 102 (indoor) and outside the facility 101 (outdoor). The ventilation device 40 is a so-called ventilation fan, and exhausts the air in the room 102 to the outside of the facility 101 by the rotation of the fan. Basically, the ventilator 40 cannot take in (inhale) air outside the facility 101 into the room 102. The ventilator 40 can change the exhaust amount (air volume).

  Unlike the air conditioner 30, the ventilator 40 does not have a function of adjusting the temperature of the air exhausted outside the facility 101. That is, the ventilation device 40 has a ventilation function, but does not have a cooling function and a heating function.

  Although not illustrated, the ventilation device 40 includes a communication module (communication circuit) for performing wireless communication with the control device 10 and receives a control signal transmitted by the communication unit 11 included in the control device 10. That is, the ventilation device 40 can change the air volume based on the control signal received from the control device 10.

  On / off of power supply from the power system 70 to the ventilation device 40 is controlled by the switch unit 17.

[Outdoor unit]
The outdoor unit 50 is an outdoor unit of the air conditioner 30. The outdoor unit 50 includes a temperature measuring device 51. The temperature measuring device 51 has a temperature measuring element such as a thermistor or a thermocouple, and measures the outside air temperature around the facility 101. Although not illustrated, the outdoor unit 50 includes a communication module (communication circuit) for performing wireless communication with the control device 10, and the outside air temperature information indicating the outside air temperature measured by the temperature measuring device 51 is transmitted to the control device. It transmits to the communication part 11 with which 10 is provided. Note that a temperature measuring device 51 that is separate from the outdoor unit 50 may be used for measuring the outside air temperature.

[Distribution panel]
The distribution board 60 is a distribution board having a power measurement function and a wireless communication function. The distribution board 60 has a main breaker 61 for turning on or off the power supply from the power system 70 through the main line 71. The main breaker 61 is a breaker that stops the supply of power from the power system 70 when a current exceeding a predetermined current (current based on power determined by a contract with the power company) flows from the power system 70.

  In addition, the distribution board 60 has a plurality of branch breakers 62 corresponding to the plurality of branch circuits 72 branched from the main line 71. That is, the distribution board 60 includes a branch breaker 62 for each branch circuit 72. The branch breaker 62 is a breaker that stops supplying power to the branch circuit 72 when an overcurrent flows through the branch circuit 72 connected to the branch breaker 62.

  In addition, the distribution board 60 includes a power measuring device 63. The power measuring device 63 includes a CT (Current Transformer) provided for each branch circuit 72 and measures the power consumption (current amount) for each branch circuit 72 branched from the main line 71 by CT. For example, when one device is connected to the branch circuit 72, the power measuring device 63 can measure the power consumption of this one device. In the example of FIG. 5, the lighting device 20, the air conditioner 30, and the ventilation device 40 are connected to a dedicated branch circuit, so the power measurement device 63 is the lighting device 20, the air conditioning device 30, and the ventilation device. Each of the 40 power consumptions can be measured. More specifically, the device is connected to the branch circuit 72 via an outlet (not shown).

  Specifically, the power measuring device 63 is realized by the CT and a processor, a microcomputer, a dedicated circuit, or the like. The power measuring device 63 is not limited to a configuration having a CT, and may include a Rogowski circuit or a GMR (Giant Magnetic Resistance) element, for example.

  Although not shown, the distribution board 60 includes a communication module (communication circuit) for performing wireless communication with the control device 10 and can perform wireless communication with the control device 10. Specifically, the distribution board 60 transmits power consumption information indicating the power consumption of each branch circuit 72 to the control device 10 by wireless communication.

  Note that a power measuring device 63 separate from the distribution board 60 may be used for measuring the power consumption in the facility 101. For example, a smart meter (a watt hour meter having a communication function) may be used as the power measuring device 63.

[Server device]
The server device 80 is an information terminal that manages control algorithms. When a new control algorithm is generated by the developer of the control algorithm, the generated control algorithm is stored in the server device 80. The stored control algorithm is provided to the portable terminal 90 as control algorithm information including at least the control algorithm.

  The server device 80 is installed outside the facility 101. Specifically, the server device 80 includes a server communication unit 81, a server control unit 82, and a server storage unit 83.

  The server communication unit 81 communicates with the mobile terminal 90 through the second communication network. The second communication network includes, for example, the Internet and / or a mobile phone communication network. Specifically, the server communication unit 81 is a communication module (communication circuit).

  For example, the server control unit 82 causes the server communication unit 81 to transmit control algorithm information including the requested control algorithm in response to a control algorithm request received by the server communication unit 81. That is, the server control unit 82 provides a control algorithm. Specifically, the server control unit 82 is realized by a processor, a microcomputer, or a dedicated circuit.

  The server storage unit 83 is a storage device that stores a control algorithm. Specifically, the server storage unit 83 is realized by an HDD (Hard Disk Drive) or a semiconductor memory.

[Mobile devices]
Specifically, the mobile terminal 90 is, for example, a smartphone or a tablet terminal possessed by the user. The user uses the mobile terminal 90 to download control algorithm information (control algorithm) from the server device 80. The portable terminal 90 includes a first communication unit 91, a second communication unit 92, an information processing unit 93, a display unit 94, a touch panel 95, and a storage unit 96.

  The 1st communication part 91 is a communication module (communication circuit) for the portable terminal 90 to perform radio | wireless communication with the control apparatus 10 (communication part 11) through a 1st communication network.

  The 2nd communication part 92 is a communication module (communication circuit) for the portable terminal 90 to communicate with the server apparatus 80 (server communication part 81) through a 2nd communication network.

  The information processing unit 93 provides a control algorithm to the control device 10 by executing a dedicated program (dedicated application) stored in the storage unit 96 based on an input (operation) to the touch panel 95 by the user. Perform information processing. The dedicated program may be downloaded from the server device 80 or may be downloaded from another server device. Specifically, the information processing unit 93 is realized by a processor, a microcomputer, or a dedicated circuit.

  The display unit 94 displays an image based on the control of the information processing unit 93. For example, the display unit 94 displays an image for the user to input on the touch panel 95. Specifically, the display unit 94 is realized by a liquid crystal panel, an organic EL panel, or the like.

  The touch panel 95 is a detection device operated by the user. The touch panel 95 may be a capacitive touch panel, or may be another type touch panel such as a resistive film type.

  The storage unit 96 is a storage device that stores a dedicated program (dedicated application) for providing a control algorithm to the control device 10. The storage unit 96 also stores downloaded control algorithm information. Specifically, the storage unit 96 is realized by a semiconductor memory or the like.

[Operation example 1 of control device]
Next, an operation example 1 of the control device 10 will be described. FIG. 6 is a flowchart of the operation example 1 of the control device 10.

  Before the operation of the flowchart shown in FIG. 6 is performed, the user downloads control algorithm information including the control algorithm from the server device 80 by operating the portable terminal 90. The downloaded control algorithm information is stored in the storage unit 96.

  The method for downloading the control algorithm information from the server device 80 to the portable terminal 90 may be any existing method. For example, the server apparatus 80 may be a server apparatus that provides a site such as AppStore (registered trademark) or GooglePlay (registered trademark). In this case, the user is charged when downloading the control algorithm information from the server device 80 to the portable terminal 90.

  In the operation example 1, when the control algorithm information is downloaded from the regular server device 80, it is assumed that the control algorithm information includes guarantee information. That is, the guarantee information is information indicating that the control algorithm information including the guarantee information has been downloaded from the specific server device 80.

  As illustrated in FIG. 6, the communication unit 11 of the control device 10 receives control algorithm information downloaded from the server device 80 by the mobile terminal 90 from the mobile terminal 90 (S11). At this time, the information processing unit 93 of the portable terminal 90 reads the control algorithm information from the storage unit 96 and causes the first communication unit 91 to transmit the read control algorithm information.

  Next, the storage control unit 12b determines whether the control algorithm information received by the communication unit 11 includes guarantee information indicating that the control algorithm information has been downloaded from the specific server device 80 (S12). ).

  Next, when it is determined that the guarantee information is included in the control algorithm information (Yes in S12), the storage control unit 12b stores the control algorithm included in the control algorithm information received by the communication unit 11 in the storage unit 13. (S13). The device control unit 12a controls the devices installed in the facility 101 based on the control algorithm stored in the storage unit 13 (S14).

  On the other hand, if the storage control unit 12b determines that the guarantee algorithm is not included in the control algorithm information (No in S12), the storage control unit 12b prohibits the storage unit 13 from storing the control algorithm included in the control algorithm information. That is, the operation is terminated without the control algorithm being stored in the storage unit 13.

  Thus, even when the control device 10 itself cannot communicate with the server device 80, the user can change the control algorithm of the control device 10 using the portable terminal 90. Moreover, the control apparatus 10 can memorize | store only a reliable control algorithm by determining whether guarantee information is contained in control algorithm information.

  Further, if the user is charged when the control algorithm information is downloaded from the server device 80 to the portable terminal 90, the developer of the control algorithm can easily obtain a price.

[Control Device Operation Example 2]
Next, an operation example 2 of the control device 10 will be described. FIG. 7 is a flowchart of the operation example 2 of the control device 10. In the following operation example 2, the description already described in the operation example 1 may be omitted or simplified.

  It is assumed that the control algorithm information downloaded from the server device 80 is stored in the storage unit 96 of the portable terminal 90 before the operation of the flowchart shown in FIG.

  First, the storage control unit 12b performs a predetermined authentication process with the mobile terminal 90 using the communication unit 11 (S21), and determines whether the authentication process is successful (S22).

  For example, it is assumed that authentication information (for example, a password) is stored in advance in the storage unit 13 of the control device 10. In this case, when the user operates the touch panel 15 of the portable terminal 90 to input authentication information, the information processing unit 93 causes the first communication unit 91 to transmit the input authentication information to the control device 10. Thereby, the storage control unit 12b collates the authentication information input to the portable terminal 90 with the authentication information stored in the storage unit 13, and determines that the authentication process is successful when the authentication information matches. Can do.

  As the predetermined authentication process, any existing authentication process may be used. Further, the predetermined authentication process may be included in a wireless communication pairing process of the control device 10 and the mobile terminal 90, for example.

  When it is determined that the authentication process is successful (Yes in S22), the communication unit 11 of the control device 10 receives the control algorithm information downloaded from the server device 80 by the mobile terminal 90 from the mobile terminal 90 (S23). ).

  Next, the storage control unit 12b stores the control algorithm included in the control algorithm information received by the communication unit 11 in the storage unit 13 (S24). That is, the storage control unit 12b stores in the storage unit 13 the control algorithm included in the control algorithm information received by the communication unit 11 after the authentication process is completed. The equipment control unit 12a controls equipment installed in the facility 101 based on the control algorithm stored in the storage unit 13 (S25).

  On the other hand, when it is determined in step S22 that the authentication is not successful (No in S22), the storage control unit 12b prohibits the storage unit 13 from storing the control algorithm received by the communication unit 11. That is, the operation is terminated without the control algorithm being stored in the storage unit 13.

  As described above, when the authentication with the mobile terminal 90 is successful, the control apparatus 10 may regard the control algorithm transmitted from the mobile terminal 90 as having high reliability and store the control algorithm. Thereby, the control apparatus 10 can memorize | store only a reliable control algorithm.

[Modified example of operation of control device]
For example, the storage control unit 12b may inquire the user whether or not to store the control algorithm between step S12 and step S13 and between step S23 and step S24.

  For example, the storage control unit 12b may cause the display unit 16 to display an image as shown in FIG. FIG. 8 is a diagram illustrating an example of an image for inquiring the user whether or not to store the control algorithm.

  Specifically, the storage control unit 12 b outputs inquiry information (image information) for inquiring the user whether to store the control algorithm to the display unit 16. The display unit 16 displays an image as shown in FIG. 8 based on the output inquiry information.

  In the image shown in FIG. 8, a message asking the user whether to store (register) the control algorithm, a first icon 16 a for allowing the user to store the control algorithm, and the control algorithm are stored. And a second icon 16b for the user to refuse this.

  When the user taps the first icon 16a, the touch panel 15 receives the tap operation as an input. If the storage control unit 12 b determines that the input received by the touch panel 15 is an input that permits storage of the control algorithm, the storage control unit 12 b stores the control algorithm included in the control algorithm information received by the communication unit 11 in the storage unit 13. To do.

  On the other hand, when the user taps the second icon 16b, the touch panel 15 receives the tap operation as an input. If the storage control unit 12 b determines that the input received by the touch panel 15 is an input that rejects storage of the control algorithm, the storage control unit 12 b stores the control algorithm included in the control algorithm information received by the communication unit 11 in the storage unit 13. do not do.

  As described above, the storage control unit 12b may inquire the user whether or not to store the control algorithm. Thereby, it is suppressed that a control algorithm will be memorized contrary to a user's intention.

[Control algorithm update operation example 1]
The control algorithm information (control algorithm) stored in the server device 80 is updated to a new version of control algorithm information. At this time, it is preferable that the control algorithm stored in the storage unit 13 of the control device 10 is also updated to a new version of the control algorithm. Then, the information processing unit 93 of the mobile terminal 90 needs to manage the version information of the control algorithm stored in the storage unit of the control device 10.

  Therefore, in the following, a control algorithm update operation example 1 in the device control system 100 will be described. FIG. 9 is a flowchart of the operation of the mobile terminal 90 in the update operation example 1. FIG. 10 is a flowchart of the operation of the control device 10 in the update operation example 1. The operation shown in FIG. 9 is specifically performed by the information processing unit 93 executing a dedicated program stored in the storage unit 96.

  As shown in FIG. 9, first, the information processing section 93 causes the first communication section 91 to send a request for version information (S31). For example, the information processing unit 93 causes the first communication unit 91 to transmit a request for version information based on a user operation on the touch panel 15.

  As shown in FIG. 10, the transmitted version information is received by the communication unit 11 of the control device 10 (S41). In other words, the communication unit 11 receives a request for version information from the portable terminal 90. In response to the request received by the communication unit 11, the storage control unit 12b causes the communication unit 11 to transmit version information to the mobile terminal 90 (S42).

  As illustrated in FIG. 9, the first communication unit 91 of the mobile terminal 90 receives the version information transmitted by the communication unit 11 (S32), and the information processing unit 93 uses the first communication unit 91 to perform server processing. The server 80 communicates with the server communication unit 81 of the device 80 (S33). Through this communication, the first communication unit 91 receives the version information of the latest control algorithm (control algorithm information) stored in the server storage unit 83 of the server device 80.

  Next, based on the received version information, the information processing unit 93 stores the control algorithm (also referred to as a first control algorithm) stored in the server device 80 currently stored in the storage unit 13 included in the control device 10. It is determined whether or not it is a newer version than the control algorithm (also described as the second control algorithm) (S34).

  When determining that the first control algorithm is a newer version than the second control algorithm (Yes in S34), the information processing section 93 downloads control algorithm information including the first control algorithm from the server device 80 (S35). . The downloaded control algorithm information is stored in the storage unit 96.

  Then, the information processing unit 93 causes the first communication unit 91 to transmit the downloaded control algorithm information (first control algorithm). The first communication unit 91 transmits the received control algorithm information (first control algorithm) to the communication unit 11 of the control device 10 (S36). The subsequent operation of the control device 10 is the same as that in FIG. 6 or FIG.

  On the other hand, when the information processing unit 93 determines that the first control algorithm is not a newer version than the second control algorithm (No in S34), the control algorithm information including the first control algorithm is not downloaded, and the operation is terminated. The At this time, the information processing section 93 may cause the display section 94 to display an image indicating that the control algorithm currently stored in the storage section 13 is the latest.

  As described above, if the version information is transmitted from the control device 10 to the mobile terminal 90, the mobile terminal 90 appropriately provides the control algorithm information (control algorithm) to the control device 10 based on the received version information. be able to.

[Control algorithm update operation example 2]
A control algorithm update operation example 2 in the device control system 100 will be described. FIG. 11 is a flowchart of the operation of the control device 10 in the update operation example 2. FIG. 12 is a flowchart of the operation of the mobile terminal 90 in the update operation example 2. Note that the operation illustrated in FIG. 12 is specifically performed by the information processing unit 93 executing a dedicated program stored in the storage unit 96.

  In the update operation example 2, confirmation of the presence or absence of a new control algorithm is started from the control device 10. Specifically, the control device 10 transmits confirmation information for confirming the presence or absence of a control algorithm of a newer version than the control algorithm stored in the storage unit 13 to the portable terminal 90.

  Here, as shown in FIG. 11, the storage control unit 12b determines whether or not a predetermined period has elapsed since the last transmission of the confirmation information based on the time measured by the time measuring unit 19 (S51). ). If it is determined that the predetermined time has not elapsed (No in S51), the operation is terminated. When it is determined that the predetermined time has elapsed (Yes in S51), the storage control unit 12b detects whether or not the communication unit 11 can communicate with the mobile terminal 90 (S52).

  When the portable terminal 90 that can communicate with the communication unit 11 is not detected (No in S52), the operation is terminated. When the portable terminal 90 that can communicate with the communication unit 11 is detected (Yes in S52), the storage control unit 12b causes the communication unit 11 to transmit confirmation information to the portable terminal 90 (S53). As described above, the storage control unit 12 b periodically transmits confirmation information to the communication unit 11 based on the time measured by the time measuring unit 19. Note that the determination in step S51 and the detection in step S52 may be performed in the reverse order.

  Here, similarly to the update operation example 1, the storage control unit 12b may cause the communication unit 11 to transmit version information in addition to the confirmation information. However, in the update operation example 2, the control device 10 receives the version information. Do not send. In the update operation example 2, the version information of the control algorithm stored in the storage unit 13 is managed by the version management information stored in the storage unit 96 of the mobile terminal 90. In other words, the version management information is information indicating the version of the control algorithm stored in the storage unit 13 of the control device 10.

  As shown in FIG. 12, when the confirmation information is received by the first communication unit 91 of the portable terminal 90 (S61), the information processing unit 93 refers to the version management information stored in the storage unit 96 (S62). ). As will be described later, the information processing section 93 updates the version management information every time the first communication section 91 transmits control algorithm information (that is, every time the control algorithm of the control device 10 is updated). Thereby, it is possible to omit the communication unit 11 of the control device 10 from transmitting version information, and to reduce the amount of communication.

  Next, the information processing unit 93 communicates with the server communication unit 81 of the server device 80 using the first communication unit 91 (S63). Through this communication, the version information of the latest control algorithm (control algorithm information) stored in the server storage unit 83 of the server device 80 is received.

  Next, the information processing unit 93 includes a control algorithm (also referred to as a first control algorithm) stored in the server device 80 based on the referenced version management information and the received version information. It is determined whether the version is newer than the control algorithm currently stored in 13 (also referred to as a second control algorithm) (S64).

  When it is determined that the first control algorithm is a newer version than the second control algorithm (Yes in S64), the information processing unit 93 uses the communication unit 11 to transmit control algorithm information including the first control algorithm to the server. Download from the device 80 (S65). The downloaded control algorithm information is stored in the storage unit 96.

  Then, the information processing unit 93 causes the first communication unit 91 to transmit the downloaded control algorithm information (first control algorithm). That is, the first communication unit 91 transmits the received control algorithm information (first control algorithm) to the communication unit 11 of the control device 10 (S66). The subsequent operation of the control device is the same as that in FIG. 6 or FIG.

  Further, the information processing section 93 updates the version management information stored in the storage section 96 (S67). Specifically, the information processing unit 93 rewrites the version of the control algorithm stored in the storage unit 13 of the control device 10 with the version of the control algorithm transmitted in step S66.

  On the other hand, when it is determined that the first control algorithm is not a newer version than the second control algorithm (No in S64), the control algorithm information including the first control algorithm is not downloaded, and the operation is terminated. At this time, the information processing section 93 may cause the display section 94 to display an image indicating that the control algorithm currently stored in the storage section 13 is the latest. Further, the information processing unit 93 may cause the first communication unit 91 to notify the control device 10 that the control algorithm currently stored in the storage unit 13 is the latest. Based on the above notification, the storage control unit 12b may cause the display unit 16 to display an image indicating that the control algorithm currently stored in the storage unit 13 is the latest.

  As in the update operation example 2 described above, the confirmation of the presence or absence of a new control algorithm may be started not with the mobile terminal 90 but with the control device 10 as a starting point.

  Further, as in the update operation example 2, the information processing unit 93 updates the version management information every time the first communication unit 91 transmits the control algorithm information (that is, every time the control algorithm of the control device 10 is updated). It may be updated. As a result, the information processing unit 93 can manage the version of the control algorithm stored in the storage unit 13 of the control device 10 without requesting the control device 10 for version information.

  Note that the version management information may be information indicating the versions of the control algorithms of the plurality of control devices 10. As shown in FIG. 1, the control device 10 may be provided in each of the room 102, the room 102a, and the room 102b. In such a case, the version management information indicates the version of the control algorithm of the plurality of control devices 10, whereby the version of the control algorithm of the plurality of control devices 10 can be managed by one mobile terminal 90.

[Specific example 1 of control algorithm]
Next, a specific example of the control algorithm will be described. First, in specific example 1, a control algorithm for controlling lighting device 20 in accordance with a user's lifestyle will be described.

  The time when the power consumption of the lighting device 20 becomes equal to or lower than the first power consumption at night can be estimated as the user's bedtime. This is because it is considered that the user turns off or dims the lighting device 20 at bedtime.

  In addition, after the user's bedtime, the time when the power consumption of the lighting device 20 is equal to or higher than the second power consumption greater than the first power consumption is estimated to be the user's wake-up time. This is because it is considered that the user turns on or brightens the lighting device 20 when getting up.

  Thus, the power consumption information of the lighting device 20 can be used as information indicating the user's sleep pattern. Then, the control algorithm which changes the brightness of the illuminating device 20 based on the power consumption information (information which shows a sleep pattern) of the illuminating device 20 acquired by the communication part 11 can be considered. In order for the power consumption information to indicate only the power consumption amount of the lighting device 20, it is preferable that only the lighting device 20 is connected to one branch circuit 72. Further, time information such as a time stamp may be given to the power consumption information.

  Based on such a control algorithm, for example, the device control unit 12a automatically turns off or dims the lighting device 20 at the bedtime estimated as described above, and automatically turns on the lighting device at the estimated wake-up time. Lights up or brightens. This eliminates the need for the user to operate the lighting device 20.

[Specific example 2 of control algorithm]
Specific Example 2 describes a control algorithm that guides the user to sleep. If the bedtime and the wake-up time are estimated as in the first specific example, the device control unit 12a will calculate the average value of the user's bedtime (also referred to as the average bedtime) and the average value of the user's sleep time ( (Also described as average sleep time). Then, the device control unit 12a can detect that the bedtime in the user's most recent predetermined period is shorter than the average bedtime in the predetermined period prior to the user. Moreover, the apparatus control part 12a can detect that the sleep time in the predetermined period nearest to a user is shorter than the average sleep time in the predetermined period before it.

  Therefore, a control algorithm that guides the user to sleep when the device control unit 12a detects that the user's sleep state in the most recent predetermined period has deteriorated is conceivable.

  Specifically, the control algorithm that guides the user to sleep is a control algorithm that gradually dims (fades) the lighting device 20 from the time before the average bedtime in the most recent predetermined period. In addition, the control algorithm that guides the user to sleep automatically operates the air conditioner 30 at a time before the average bedtime in the most recent predetermined period, and makes the indoor environment (temperature and humidity) suitable for sleep. A control algorithm may be used.

[Specific example 3 of control algorithm]
Specific example 3 describes a control algorithm for the purpose of energy saving based on temperature information and outside air temperature information.

  As described above, the communication unit 11 can acquire temperature information from the air conditioner 30 as life information. Moreover, the communication part 11 can acquire external temperature information from the outdoor unit 50 as life information.

  Therefore, for example, when the air conditioner 30 is in a heating operation and the outside air temperature indicated by the outside air temperature information is higher than the room temperature indicated by the temperature information, the air conditioner 30 is stopped and the ventilation device 40 is set. A control algorithm to be operated can be considered. According to such a control algorithm, since the room temperature can be raised by operating the ventilator 40 whose power consumption is lower than that of the air conditioner 30, it is possible to save energy.

  Similarly, when the air conditioner 30 is in the cooling operation and the outside air temperature indicated by the outside air temperature information is lower than the room temperature indicated by the temperature information, the air conditioner 30 is stopped and the ventilation device 40 is operated. A control algorithm can be considered. According to such a control algorithm, since the room temperature can be lowered by operating the ventilator 40 whose power consumption is lower than that of the air conditioner 30, it is possible to save energy.

[Specific example 4 of control algorithm]
Specific Example 4 describes a control algorithm for the purpose of automatic air cleaning in the facility 101 (in the room 102).

  As described above, the communication unit 11 can acquire particle amount information from the air conditioner 30 as life information. Therefore, a control algorithm that operates at least one of the air conditioner 30 and the ventilator 40 when the amount of suspended particles indicated by the particle amount information is a predetermined amount or more is conceivable.

  According to such a control algorithm, since ventilation can be performed when the amount of suspended particles in the facility 101 (in the room 102) is large, automatic air cleaning in the facility 101 (in the room 102) is realized. . In addition, when an air cleaner is contained in the control object apparatus of the control apparatus 10, the apparatus control part 12a may operate an air cleaner further.

[Effects]
As described above, the control device 10 is a control device installed in the facility 101. The control device 10 includes the storage unit 13, the control algorithm information downloaded from the specific server device 80 by the mobile terminal 90, the communication unit 11 that receives from the mobile terminal 90, and the control algorithm information received by the communication unit 11. A storage control unit 12b that stores the control algorithm to be stored in the storage unit 13 and a device control unit 12a that controls a device installed in the facility 101 based on the control algorithm stored in the storage unit 13.

  Thereby, even when the control device 10 itself cannot communicate with the server device 80, the control algorithm of the control device 10 can be changed using the portable terminal 90. That is, the control device 10 capable of changing the control algorithm is realized. Further, if the user is charged when the control algorithm information is downloaded from the server device 80 to the portable terminal 90, the developer of the control algorithm can easily obtain a price.

  Further, the storage control unit 12b further determines whether or not the control algorithm information received by the communication unit 11 includes guarantee information indicating that the control algorithm information has been downloaded from the specific server device 80. Also good. The storage control unit 12b may store the control algorithm included in the control algorithm information in the storage unit 13 when it is determined that the guarantee information is included in the control algorithm information.

  Thereby, the control apparatus 10 can memorize | store the control algorithm by which the reliability was ensured by the guarantee information.

  In addition, the storage control unit 12b further performs a predetermined authentication process with the mobile terminal 90 using the communication unit 11, and stores the control algorithm included in the control algorithm information received by the communication unit 11 after the authentication process is completed. You may memorize | store in the part 13. FIG.

  Thereby, the control apparatus 10 can memorize | store the control algorithm by which the reliability was ensured by completion of an authentication process.

  The storage control unit 12b may further cause the communication unit 11 to transmit the version information of the control algorithm stored in the storage unit 13 to the portable terminal 90.

  Thereby, the mobile terminal 90 can recognize the version of the control algorithm stored in the storage unit 13.

  Further, the communication unit 11 further receives a request for version information from the portable terminal 90, and the storage control unit 12b sends the version information to the communication unit 11 in response to the request received by the communication unit 11. May be sent to.

  Thereby, the mobile terminal 90 can recognize the version of the control algorithm stored in the storage unit 13.

  The storage control unit 12b may further detect whether the communication unit 11 can communicate with the portable terminal 90. When the portable terminal 90 capable of communicating with the communication unit 11 is detected, the storage control unit 12b transmits confirmation information for confirming the presence or absence of a control algorithm of a newer version than the control algorithm stored in the storage unit 13. 11 may be transmitted to the portable terminal 90.

  Thereby, the control apparatus 10 can confirm the presence or absence of the control algorithm of a new version.

  Further, the control device 10 further includes a timer unit 19 that measures time, and the storage controller 12b may cause the communication unit 11 to periodically transmit confirmation information based on the time measured by the timer unit 19. Good.

  Thereby, the control apparatus 10 can confirm regularly whether the new version of the control algorithm exists.

  The control device 10 may further include a touch panel 15 that accepts user input. The storage control unit 12b may output inquiry information for inquiring the user whether to store the control algorithm. The storage control unit 12 b may store the control algorithm included in the control algorithm information received by the communication unit 11 in the storage unit 13 when the touch panel 15 receives an input permitting storage of the control algorithm from the user. . The touch panel 15 is an example of an input reception unit.

  Thereby, it is suppressed that a control algorithm will be memorized contrary to a user's intention.

  In addition, the control device 10 may be installed on the wall surface 103 of the facility 101. The control device 10 further supplies power to the device based on the touch panel 15 that receives user input, the display unit 16 that is disposed to face the touch panel 15 and displays an image, and the user input received by the touch panel 15. You may provide with the switch part 17 which turns on and off.

  Thereby, the control apparatus 10 can operate | move as what is called a wall switch.

  Further, the communication unit 11 may communicate with the mobile terminal 90 through the first communication network, and the mobile terminal 90 may communicate with the server device 80 through a second communication network different from the first communication network. .

  As described above, even when the control device 10 itself cannot communicate through the second communication network, the control algorithm of the control device 10 can be changed using the mobile terminal 90.

  In addition, the present invention provides a method for controlling a device installed in the facility 101, which is executed by the control device 10 installed in the facility 101. The mobile terminal 90 downloads the control algorithm information downloaded from the specific server device 80 to the mobile terminal. The control algorithm received from 90 and included in the received control algorithm information is stored in the storage unit 13 included in the control device 10, and the device is controlled based on the stored control algorithm.

  Thereby, even when the control device 10 itself cannot communicate with the server device 80, the control algorithm of the control device 10 can be changed using the portable terminal 90. That is, the control device 10 capable of changing the control algorithm is realized. Further, if the user is charged when the control algorithm information is downloaded from the server device 80 to the portable terminal 90, the developer of the control algorithm can easily obtain a price.

  Further, the update method of the control algorithm of the control device 10 executed by the mobile terminal 90 communicates with the specific server device 80, so that the first control algorithm stored in the specific server device 80 is changed to the control device 10. It is determined whether or not it is a newer version than the second control algorithm stored in the storage unit 13 included in, and when it is determined that the version is a new version, the first control algorithm is downloaded from the specific server device 80. Then, the downloaded first control algorithm is transmitted to the control device 10.

  Thereby, the portable terminal 90 can provide the control device 10 with a new version of the control algorithm.

(Other embodiments)
Although the embodiment has been described above, the present invention is not limited to the above embodiment.

  The communication method between apparatuses described in the above embodiment is an example. The communication method between apparatuses is not particularly limited. Between devices, for example, wireless communication using a communication standard such as specific low-power radio, ZigBee (registered trademark), Bluetooth (registered trademark), or Wi-Fi (registered trademark) is performed. Note that the wireless communication is specifically radio wave communication or infrared communication.

  In addition, instead of wireless communication, wired communication such as power line communication (PLC: Power Line Communication) or communication using a wired LAN may be performed between apparatuses.

  Further, for example, in the above-described embodiment, another processing unit may execute a process performed by a specific processing unit. Further, the order of the plurality of processes may be changed, and the plurality of processes may be executed in parallel.

  In the above-described embodiment, each component may be configured by dedicated hardware or may be realized by executing a software program suitable for each component. Each component may be realized by a program execution unit such as a CPU or a processor reading and executing a software program recorded on a recording medium such as a hard disk or a semiconductor memory.

  Each component may be a circuit (or an integrated circuit). These circuits may constitute one circuit as a whole, or may be separate circuits. Each of these circuits may be a general-purpose circuit or a dedicated circuit.

  The general or specific aspect of the present invention may be realized by a recording medium such as a system, an apparatus, a method, an integrated circuit, a computer program, or a computer-readable CD-ROM. Further, the present invention may be realized by any combination of a system, an apparatus, a method, an integrated circuit, a computer program, and a recording medium. For example, the present invention may be implemented as a device control method executed by a control device or a control algorithm update method executed by a mobile terminal, or as a program for causing a computer to execute the control method or the update method. It may be realized.

  Further, the order of the plurality of processes in the operation of the control device or the mobile terminal described in the above embodiment is an example. The order of the plurality of processes may be changed, and the plurality of processes may be executed in parallel.

  In addition, it is realized by variously conceiving various modifications conceived by those skilled in the art for each embodiment, or by arbitrarily combining the components and functions in each embodiment without departing from the spirit of the present invention. This form is also included in the present invention.

DESCRIPTION OF SYMBOLS 10 Control apparatus 11 Communication part 12a Equipment control part 12b Storage control part 13 Storage part 15 Touch panel (input reception part)
DESCRIPTION OF SYMBOLS 16 Display part 17 Switch part 18 Case 19 Time measuring part 80 Server apparatus 90 Portable terminal 100 Equipment control system 101 Facility 103 Wall surface

Claims (14)

A control device installed in a facility,
A storage unit;
A communication unit that receives from the mobile terminal control algorithm information downloaded from a specific server device by the mobile terminal;
A storage control unit for storing in the storage unit a control algorithm included in the control algorithm information received by the communication unit;
And a device control unit that controls a device installed in the facility based on the control algorithm stored in the storage unit. The storage control unit
Further, it is determined whether the control algorithm information received by the communication unit includes guarantee information indicating that the control algorithm information has been downloaded from the specific server device,
The control apparatus according to claim 1, wherein when it is determined that the guarantee information is included in the control algorithm information, the control algorithm included in the control algorithm information is stored in the storage unit. The storage control unit
Furthermore, a predetermined authentication process is performed with the mobile terminal using the communication unit,
The control device according to claim 1, wherein the control algorithm included in the control algorithm information received by the communication unit after the authentication process is completed is stored in the storage unit. The storage control unit
Furthermore, the control apparatus of any one of Claims 1-3 which makes the said communication part transmit the version information of the control algorithm memorize | stored in the said memory | storage part to the said portable terminal. The communication unit further receives the request for the version information from the mobile terminal,
The control device according to claim 4, wherein the storage control unit causes the communication unit to transmit the version information to the mobile terminal in response to the request received by the communication unit. The storage control unit
Further, detecting whether the communication unit can communicate with the mobile terminal,
When the portable terminal capable of communicating with the communication unit is detected, confirmation information for confirming the presence or absence of a control algorithm of a newer version than the control algorithm stored in the storage unit is assigned to the portable terminal. The control device according to any one of claims 1 to 5. In addition, it has a timekeeping unit that measures time,
The control device according to claim 6, wherein the storage control unit causes the communication unit to periodically transmit the confirmation information based on a time measured by the timing unit. Furthermore, an input receiving unit for receiving user input is provided.
The storage control unit
Output inquiry information for inquiring the user whether to store the control algorithm,
The control algorithm included in the control algorithm information received by the communication unit is stored in the storage unit when the input receiving unit receives an input permitting storage of the control algorithm from the user. The control device according to any one of the above. The control device is installed on the wall surface of the facility,
further,
A touch panel that accepts user input;
A display unit disposed opposite to the touch panel and displaying an image;
The control device according to claim 1, further comprising: a switch unit that turns on and off power supply to the device based on the user input received by the touch panel. The communication unit communicates with the mobile terminal through a first communication network,
The control device according to claim 1, wherein the portable terminal communicates with the server device through a second communication network different from the first communication network. A control method for a device installed in the facility, executed by a control device installed in the facility,
Control algorithm information downloaded from a specific server device by the mobile terminal is received from the mobile terminal,
Storing the control algorithm included in the received control algorithm information in a storage unit included in the control device;
A control method for controlling the device based on the stored control algorithm.   A program for causing a computer to execute the control method according to claim 11. A method for updating a control algorithm of a control device executed by a mobile terminal,
Whether or not the first control algorithm stored in the specific server device is a newer version than the second control algorithm stored in the storage unit included in the control device by communicating with the specific server device Determine
When it is determined that the version is a new version, the first control algorithm is downloaded from the specific server device,
An update method for transmitting the downloaded first control algorithm to the control device.   A program for causing a computer to execute the update method according to claim 13.

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