TW201802715A - Control system and control method - Google Patents

Abstract

An apparatus control system (100) that comprises: a control unit (12a) that controls an apparatus that is installed on equipment (101); and a communication unit (11) that acquires life information related to the life of a user of the equipment (101). The apparatus control system (100) also comprises: a suggestion unit (12b) that, on the basis of the life information acquired by the communication unit (11), determines target control details, which are control details that are for control of the apparatus by the control unit (12a) and are to be suggested to the user, and outputs suggestion information for suggesting the determined target control details to the user; and a touch panel (15) that receives, from the user, input that indicates whether to allow the target control details.

Description

Control system and control method

The present invention relates to a control system and a control method for controlling a machine.

Previously, a machine control system is known in which an information terminal such as a smart phone is connected to a network gateway by a user, and an electronic device connected to the network gateway can be controlled by the information terminal. . As an example of such a machine control system, Patent Document 1 discloses an indoor control system that can promote the health of a user. [Prior Art Document] [Patent Document] [Patent Document 1] Japanese Patent Laid-Open No. 2015-228591

[Problems to be Solved by the Invention] However, when the machine control system automatically changes the control content of the machine, the user may be confused. The invention provides a control system and a control method which can prevent users from being confused when the control content of a machine is changed. [Technical means for solving the problem] A control system according to one aspect of the present invention includes: a control section that controls a device installed in a facility; an acquisition section that acquires living information related to the lives of users of the facilities; a proposal section, Based on the living information obtained by the acquisition unit, it determines the control content of the object that the control unit uses to control the machine and propose to the user, that is, the object control content, and outputs the control content to the determined object control content. Proposal information of the above-mentioned user proposal; and an input receiving section that receives input from the user indicating whether the object-controlled content is allowed or not. One aspect of the present invention is a control method for a machine installed in a facility. The method is to obtain living information related to the lives of users of the above-mentioned facilities. Based on the obtained living information, a decision is made to control the above-mentioned machines. The control content of the object proposed to the user, that is, the object control content, outputs proposal information for submitting the determined object control content to the user, and receives input from the user indicating whether the object control content is allowed. One aspect of the present invention is a program for causing a computer to execute the above control method. [Effects of the Invention] The present invention can suppress user confusion when changing the control content of the device.

Hereinafter, embodiments will be described with reference to the drawings. In addition, any one of the embodiments described below is a general or specific example. The numerical values, shapes, materials, constituent elements, arrangement positions and connection forms, steps, and order of steps of the following embodiments are examples, and do not limit the gist of the present invention. In addition, among the constituent elements of the following embodiments, constituent elements not described in the independent request item showing the highest-level concept will be described as arbitrary constituent elements. In addition, each diagram is a schematic diagram, and is not necessarily a strict diagram. In addition, in each figure, the same code | symbol is attached | subjected to the structure which is substantially the same, and repeated description is abbreviate | omitted. (Embodiment) [Configuration of Machine Control System] First, a configuration of a machine control system according to an embodiment will be described. FIG. 1 is a diagram showing an outline of a machine control system according to an embodiment. As shown in FIG. 1, the machine control system 100 is a system installed in the facility 101 for controlling the machines installed in the facility 101. The facility 101 is, for example, a single-family house. The facility 101 includes a plurality of rooms separated by walls and doors. The plurality of rooms are specifically a room 102, a room 102a, and a room 102b. The control device 10 included in the machine control system 100 is a controller for a user to control the lighting device 20, the air-conditioning device 30, and the ventilation device 40 provided in the room 102. The control device 10 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 disposed on a 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 housed in the switch box 104 of the wall surface 103. The installation method of the control device 10 is substantially the same as that of a general-purpose wall switch, and the switch box 104 can also be used by a wall switch. As shown in FIG. 3, the control device 10 functions as a so-called GUI (Graphical User Interface), and displays, for example, an image including an icon (key) on the display unit 16 of the control device 10. When the user touches the icon portion of the operation display portion 16 (touch panel), the power supply to each device of the lighting device 20, the air conditioning device 30, and the ventilation device 40 can be turned on and off. In addition, an image for performing detailed control of each of the above-mentioned devices is also displayed on the display section 16 of the control device 10. FIG. 4 is a diagram showing an example of an image for controlling the air-conditioning apparatus 30. Based on the image shown in FIG. 4, the user can switch the operation mode of the air conditioner 30 and change the set temperature. For example, by sliding operation on the display portion 16 (touch panel 15), the image shown in FIG. 3 is converted into the image shown in FIG. 4. In addition, although not shown in the figure, an image for performing dimming control and toning control of the lighting device 20 and air volume control of the ventilation device 40 may be displayed on the display unit 16. Here, the control device 10 (machine control system 100) can obtain living information about the life of the user of the facility 101, and automatically determine the control content (control algorithm) for controlling the control target device of the control device 10. Logging in (memorizing) and executing the determined control content may cause confusion to the user, but the machine control system 100 can suppress such user confusion. Hereinafter, a detailed configuration of the machine control system 100 will be described. Fig. 5 is a block diagram showing the configuration of the machine control system of the embodiment. As shown in FIG. 5, specifically, the device control system 100 includes a control device 10, a lighting device 20, an air conditioning device 30, a ventilation device 40, an outdoor unit 50, and a switchboard 60. FIG. 5 also illustrates the power system 70 as an external power source. In addition, as shown in FIG. 1, the machine control system 100 may be provided with a control device for controlling a machine installed in the room in each room. That is, the device control system 100 may be provided with a plurality of control devices and a control target device of the control device. Hereinafter, each component constituting the machine control system 100 will be described mainly with reference to FIGS. 1 and 5. [Control Device] As described above, the control device 10 is, for example, a controller provided in the room 102 and used by a user to control a machine installed in the room 102. The control device 10 may control at least one device, but may control a plurality of devices. In addition, the control device 10 may control a plurality of types of equipment having different functions. Specifically, the control device 10 controls the lighting device 20, the air-conditioning device 30, and the ventilation device 40. In other words, the lighting device 20, the air-conditioning device 30, and the ventilation device 40 are controlled devices of the control device 10. Specifically, the control device 10 includes a communication section 11, a signal processing section 12, a storage section 13, a power supply section 14, a touch panel 15, a display section 16, and a switch section 17. As shown in FIG. 2, the control device 10 includes a housing 18. The communication unit 11 performs wireless communication with equipment installed in the facility 101. Specifically, the communication unit 11 wirelessly transmits control signals to the lighting device 20, the air conditioning device 30, and the ventilation device 40 based on the control of the signal processing unit 12 (the control unit 12a). Specifically, the communication unit 11 is a communication module (communication circuit) for wireless communication. The control device 10 performs wireless communication using a small-scale network in the facility 101. Therefore, the control device 10 can hardly be connected to the network, but can be connected to the network via a router or the like. The communication unit 11 is an example of an acquisition unit, and acquires (receives) life information related to the life of the user of the facility 101 through wireless communication. The life information is, for example, energy consumption information showing energy consumed by a user living in the facility 101, and more specifically, power consumption information measured by the power measurement device 63 provided in the switchboard 60. The living information may be environmental information showing the living environment of the user of the facility 101. The environmental information is temperature information outside the temperature measurement by the temperature measuring device 51 provided in the outdoor unit 50, temperature information and humidity information measured by the temperature and humidity measurement device 31 provided in the air conditioner 30, and floating particles provided by the air conditioner 30 Particle quantity information and the like measured by the measurement device 32. In this way, the communication unit 11 obtains living information from the switchboard 60, the air-conditioning apparatus 30, the outdoor unit 50, and the like. In addition, the communication unit 11 may obtain the power consumption information measured by the power measurement device 63 from the power measurement device 63 separated from the switchboard 60. Similarly, the communication unit 11 may obtain outside temperature information from a temperature measuring device 51 separate from the outdoor unit 50, and may obtain temperature information and humidity information from a temperature and humidity measuring device 31 separate from the air conditioner 30. The communication unit 11 may also obtain particle amount information from a floating particle measurement device that is separate from the air conditioner 30. The signal processing section 12 performs signal processing related to the control of the device. The signal processing unit 12 includes a control unit 12a, a proposal unit 12b, and a deletion unit 12c. Specifically, the signal processing unit 12 is implemented by a processor, a microcomputer, or a dedicated circuit. The specific operation of the signal processing unit 12 will be described later. The 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. The control unit 12 a controls the switch unit 17 based on the operation on the touch panel 15. That is, the control unit 12 a controls ON and OFF of the power supply to the lighting device 20, the air-conditioning device 30, and the ventilation device 40. The control unit 12 a displays an image as shown in FIG. 3 or 4 on the display unit 16. The proposal unit 12b determines a new control content that the control unit 12a uses to control the device, which is the target control content, based on the living information obtained by the communication unit 11. The proposal section 12b outputs proposal information for controlling contents to be determined for the user. Specifically, the proposal information is used to display information (image information) of a proposal image for controlling the content of the proposal to the user, and output the information to the display unit 16. That is, the display unit 16 displays a proposal image based on the control of the proposal unit 12b. FIG. 6 is a diagram showing an example of a proposal image. As shown in FIG. 6, the proposal image includes information asking the user whether to memorize (register) the object control content; a first icon 16a for allowing the user to memorize the object control content; and for the user to refuse The second icon 16b of the memorized object control content. When the user taps and operates the first icon 16a, the touch panel 15 receives the tap operation as an input. The proposal unit 12 b stores the target control content in the storage unit 13 when determining that the input received by the touch panel 15 is an input allowing the target control content. On the other hand, if the user touches and operates the second icon 16b, the touch panel 15 receives the touch operation as an input. The proposal unit 12 b does not store the target control content in the storage unit 13 when the input received by the touch panel 15 is an input that rejects the target control content. The details of the method for determining the content of the target control are described below. When the deletion section 12c receives an input instructing to delete the control content stored in the memory section 13 through the touch panel 15, the instructed control content is deleted by the input. The memory unit 13 is a memory device that memorizes daily life information and control contents (target control contents) obtained by the communication unit 11. In other words, the control content is the control algorithm of the machine. The control content stored in the storage unit 13 is executed, for example, by a user performing a specific operation on the touch panel 15. The memory 13 also stores a control program and the like executed by the signal processing unit 12. Specifically, the memory section 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 of the constituent elements provided in the control device 10. Specifically, the power supply unit 14 is a power supply circuit including an AC / DC converter, a DC / DC converter, or the like. The touch panel 15 is a detection device operated by a user. The touch panel 15 is an example of an input receiving unit, and receives an input from a user that displays whether or not an object is allowed to control content. In addition, the touch panel 15 receives an input from a user that instructs deletion of the control content stored in the storage unit 13. The touch panel 15 may be a touch panel of an electrostatic capacitance method, or a touch panel of other methods such as a resistive film method. The display unit 16 displays images for the user to control the lighting device 20, the air conditioning device 30, and the ventilation device 40 based on the control of the control unit 12a. Examples of images displayed on the display unit 16 are shown in FIGS. 3 and 4. In addition, the display unit 16 displays a proposal image for controlling the content of the user's proposal object based on the proposal information output by the proposal unit 12b. An example of a proposal image is shown in FIG. 6. 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-conditioning device 30, and the ventilation device 40 based on the operation of the touch panel 15. That is, the switch unit 17 turns off the main power sources of the lighting device 20, the air-conditioning device 30, and the ventilation device 40. Specifically, the switch unit 17 is controlled by the control unit 12 a based on the operation on the touch panel 15. The switch unit 17 includes three switch elements that are directly controlled without wireless communication by the control unit 12a in correspondence with the lighting device 20, the air-conditioning device 30, and the ventilation device 40. The switching element is located on the branch circuit 72 (power line) from the power system 70 to each device, and connects and disconnects the electrical connection between the power system 70 and each device. The switching element may be an element that opens or closes an electrical contact such as a relay element in structure, or may be a semiconductor switching element such as a power transistor. The switching unit 17 only needs to include at least one switching 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 a communication unit 11, a signal processing unit 12 (a control unit 12 a and a proposal unit 2 b), a touch panel 15, a display unit 16, and a switch unit 17. The frame 18 is formed of, for example, a resin, but may be formed partially or entirely of a metal. As described above, at least a part of the frame body 18 is embedded in the wall surface 103 of the facility 101. The configuration of the control device 10 has been described above. In addition, the structure of the control apparatus 10 demonstrated as an example. For example, the control device 10 may be a controller that does not include a component (a switch unit 17 and the like) for functioning as a wall switch. [Lighting Device] The lighting device 20 is an example of a device installed in the facility 101, and is specifically installed in the room 102. The lighting device 20 is a so-called ceiling lamp in a lighting room. The specific aspect of the lighting device 20 is not particularly limited, and may be a downlight, a chandelier, a spotlight, a wall lamp, or the like. Specifically, the lighting device 20 includes an LED (Light Emitting Diode) as a light source. The lighting device 20 may include a semiconductor light emitting element such as a fluorescent tube, 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 shown, the lighting device 20 includes a communication module (communication circuit) for 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 lighting device 20 may emit light or go out based on a control signal received from the control device 10. For example, when the control signal has a designated dimming rate (dimming ratio), the lighting device 20 emits light at the designated dimming rate. When there is a specified color temperature in the control signal, the lighting device 20 emits light at the specified color temperature. In addition, the switch unit 17 controls ON and OFF (lighting and extinction) of the power supply from the power system 70 to the lighting device 20. [Air-conditioning apparatus] The air-conditioning apparatus 30 is an example of equipment installed in the facility 101, and specifically, is installed in the room 102. The air conditioner 30 is a general home air conditioner. The air-conditioning apparatus 30 is an air-conditioning apparatus capable of adjusting the temperature of the wind sent from the air-conditioning apparatus 30 by having a heat exchanger (not shown) or the like. That is, the air conditioner 30 has a ventilation function and a heating and cooling function. The air-conditioning apparatus 30 is not limited to a general household air-conditioning apparatus, but may be an industrial air-conditioning apparatus. The air conditioner 30 includes a temperature and humidity measuring device 31. The temperature and 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 and humidity measuring device 31 includes a thermistor or a thermocouple as a device for measuring temperature, and a polymer resistance type humidity sensor or a polymer capacitance type humidity sensor as a device for measuring humidity. The temperature and humidity measurement device 31 in the facility 101 may be a temperature and humidity measurement device 31 separate from the air conditioner 30. The air conditioner 30 includes a floating particle measurement device 32. The floating particle measurement device 32 measures the amount of floating particles in the room 102 and outputs particle amount information indicating the measured amount of floating particles. Specifically, the floating particle measurement device 32 is PM2. 5 sensors and so on. In addition, the measurement of the amount of suspended particles in the facility 101 may use a suspended particle measurement device 32 that is separate from the air conditioner 30. The floating particle measurement device 32 may be a part of a device other than the air conditioner 30 such as an air cleaner. Although not shown, the air conditioner 30 includes a communication module (communication circuit) for wirelessly communicating 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-conditioning apparatus 30 can switch the operation mode and change the set temperature based on the control signal received from the control apparatus 10. The air conditioner 30 sends the temperature information and humidity information output from the temperature and humidity measuring device 31 to the communication unit 11 included in the control device 10. Similarly, the air conditioner 30 sends the particle amount information output from the floating particle measurement device 32 to the communication unit 11 included in the control device 10. The switch unit 17 controls ON and OFF of the power supply from the power system 70 to the air-conditioning apparatus 30. [Ventilation device] The ventilation device 40 is an example of a device installed in the facility 101, and is installed in the room 102, and ventilates between the room 102 (indoor) and the outside of the facility 101 (outdoor). The ventilation device 40 is a so-called ventilation fan, and the air in the room 102 is exhausted to the outside of the facility 101 by the rotation of the fan. Basically, the ventilation device 40 cannot collect (inhale) the air outside the facility 101 into the room 102. In addition, the ventilation device 40 can change the exhaust volume (air volume). In addition, unlike the air conditioning apparatus 30, the ventilation apparatus 40 does not have a temperature adjustment function for exhausting air 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 shown, the ventilation device 40 includes a communication module (communication circuit) for wirelessly communicating 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. The switch unit 17 controls ON and OFF of the power supply from the power system 70 to the ventilation device 40. [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 measurement device 51 includes a temperature measurement element such as a thermistor or a thermocouple, and measures the temperature outside the facility 101. Also, although not shown, the outdoor unit 50 has a communication module (communication circuit) for wirelessly communicating with the control device 10, and sends information indicating the temperature other than the temperature measured by the temperature measuring device 51 to the control device 10 Equipped with communication section 11. The outside air temperature may be measured using a temperature measuring device 51 separate from the outdoor unit 50. [Switchboard] The switchboard 60 is a switchboard with a power measurement function and a wireless communication function. The switchboard 60 has a main circuit breaker 61 for turning on and off the power supply from the power system 70 through the main line 71. The main circuit breaker 61 is a circuit breaker that stops the supply of power from the power system 70 when a current exceeding a specific current (current based on power stipulated in a contract with a power company or the like) flows from the power system 70. The switchboard 60 corresponds to each of the plurality of branch circuits 72 branched from the main line 71 and includes a plurality of branch circuit breakers 62. That is, the switchboard 60 includes a branch circuit breaker 62 in each branch circuit 72. The branch circuit breaker 62 is a circuit breaker that stops power supply to the branch circuit 72 when an overcurrent flows in the branch circuit 72 connected to the branch circuit breaker 62. The switchboard 60 includes a power measurement device 63. The power measuring device 63 includes a CT (Current Transformer) provided in each branch circuit 72, and measures the power consumption (current amount) for each branch circuit 72 branched from the main line 71 by the CT. For example, when one device is connected to the branch circuit 72, the power measurement device 63 can measure the amount of power consumed by the one device. In the example of FIG. 5, since the lighting device 20, the air-conditioning device 30, and the ventilation device 40 are connected to a dedicated branch circuit, the power measurement device 63 can measure the power consumption of each of the lighting device 20, the air-conditioning device 30, and the ventilation device 40. . More specifically, the device is connected to the branch circuit 72 via a socket (not shown). Specifically, the power measurement device 63 is realized by the above-mentioned CT and processor, a microcomputer, or a dedicated circuit. The power measurement device 63 is not limited to a structure having a CT, and may include, for example, a Rogowski circuit or a GMR (Giant Magnetic Resistance) device. Also, although not shown, the switchboard 60 has a communication module (communication circuit) for wirelessly communicating with the control device 10 and can wirelessly communicate with the control device 10. Specifically, the switchboard 60 transmits the power consumption information showing the power consumption of each branch circuit 72 to the control device 10 through wireless communication. In addition, the power consumption measurement in the facility 101 may be performed using a power measurement device 63 separate from the switchboard 60. For example, as the power measuring device 63, a smart meter (a fuel gauge having a communication function) may be used. [Operation Example 1] Next, an operation example 1 of the control device 10 will be described. FIG. 7 is a flowchart of an operation example 1 of the control device 10. First, the communication unit 11 obtains life information related to the life of the user of the facility 101 (S11). Next, the proposal unit 12b decides the target control content for the control unit 12a to control the equipment based on the living information acquired by the communication unit 11 (S12). The proposal section 12 b outputs proposal information for controlling the content of the object determined by the user proposal to the display section 16. The display unit 16 displays a proposal image based on the proposal information (S13). Specifically, the display unit 16 displays an image as shown in FIG. 6. Next, the touch panel 15 receives input of a proposal image from the user (S14). Specifically, the touch panel 15 receives an input from a user that displays whether an object is allowed to control content. The proposal unit 12b determines whether or not the input received by the touch panel 15 is an input of a control object that is allowed (S15). When the proposal unit 12b touches the area corresponding to the second icon 16b of the proposal image on the touch panel 15, it determines that the content to be controlled by the object is rejected (S15: No). In this case, the proposal unit 12b ends the operation without memorizing the target control content. On the other hand, when the proposal unit 12b touches the area corresponding to the first icon 16a of the proposal image on the touch panel 15, it is determined that the content is allowed to be controlled (S15: Yes). In this case, the proposal unit 12b stores the content of the target control in the storage unit 13 (S16). Next, the proposal section 12 b outputs to the display section 16 the execution proposal information, which is image information used for the execution of the object control content stored in the memory section 13. The display unit 16 displays an execution proposal image based on the execution proposal information (S17). FIG. 8 is a diagram showing an example of an execution proposal image. As shown in FIG. 8, the execution proposal image includes information asking the user whether to execute the object control content; a third icon 16c for allowing the user to allow the execution of the object control content; and the user for rejecting the execution of the object The fourth icon 16d of the control content. Next, the touch panel 15 receives an input from the user that displays whether or not execution control content is allowed (S18). The proposal unit 12b determines whether the input received by the touch panel 15 is an input that allows execution of the control content of the object (S19). When the proposal unit 12b touches the area corresponding to the fourth icon 16d of the execution proposal image on the touch panel 15, it is determined that the execution target control content is rejected (No in S19). In this case, the proposal unit 12b ends the operation without executing the target control content. On the other hand, when the proposal unit 12b touches the area of the third icon 16c of the execution proposal image on the touch panel 15, it is determined that the execution target control content is allowed (YES in S19). In this case, the proposal unit 12b executes the target control content (S20). The operation example 1 of the control device 10 has been described above. According to the operation example 1 of the control device 10, the content of the target control determined by the proposal unit 12b is suppressed from being memorized against the user's intention. Therefore, according to the operation example 1 of the control device 10, execution of the target control content determined by the proposal unit 12b against the user's intention is suppressed. That is, the machine control system 100 can suppress confusion for the user when changing the control content of the machine. In addition, since the control device 10 needs to be housed in at least a part of the switch box 104 for a wall switch, its size is limited. Therefore, it is difficult to provide a large-capacity memory section like a server device. An increase in the memory capacity in the control device 10 is suppressed by memorizing only the content of the object control permitted by the user. [Operation Example 2] Next, an operation example 2 of the control device 10 will be described. FIG. 9 is a flowchart of an operation example 2 of the control device 10. In addition, in the following operation example 2, the description of the operation example 1 may be omitted or simplified. First, the communication unit 11 obtains life information related to the life of the user of the facility 101 (S11). Next, the proposal unit 12b decides the target control content for the control unit 12a to control the equipment based on the living information acquired by the communication unit 11 (S12). The proposal section 12 b outputs proposal information for controlling the content of the object determined by the user proposal to the display section 16. The display unit 16 displays a proposal image based on the proposal information (S13). Specifically, the display unit 16 displays an image as shown in FIG. 10. FIG. 10 is a diagram showing an example of a proposal image displayed in Operation Example 2. FIG. As shown in FIG. 10, the proposal image displayed in the operation example 2 includes information for reminding memorization (registration) of the object control content and executing the memorized object control content. Next, the touch panel 15 receives input of a proposal image from the user (S14). The touch panel 15 receives an input from a user showing whether an object is allowed to control content. The proposal unit 12b determines whether or not the input received by the touch panel 15 is an input of a control object that is allowed (S15). When the proposal unit 12b determines that the target control content is rejected (NO in S15), the operation ends without storing the target control content. On the other hand, when the proposal unit 12b determines that the target control content is allowed (YES in S15), the target control content is stored in the storage unit 13 (S16), and the stored target control content is executed (S20). The operation example 2 of the control device 10 has been described above. According to the second operation example of the control device 10, execution of the target control content determined by the proposal unit 12b against the user's intention is suppressed. That is, the machine control system 100 can suppress user confusion caused by execution of the target control content. In addition, the user can memorize and execute the target control content in the control device 10 through one input. [Decision example 1 of target control content] Next, an example of determination of the target control content will be described. First, in the determination example 1, the content of the object control for controlling the lighting device 20 in accordance with the lifestyle of the user will be described. When only one lighting device 20 is connected to one branch circuit 72, the communication unit 11 can obtain power consumption information of the lighting device 20 from the power measuring device 63 as living information. If time information such as a time stamp is added to the power consumption information, the proposal unit 12b may, based on the power consumption information of the lighting device 20 obtained by the communication unit 11, change the power consumption of the lighting device 20 to a time below the first power consumption at night. Presumed to be the bedtime of the user. The reason is considered to be that the user turns off or weakens the lighting device 20 at bedtime. In addition, the proposal unit 12b can estimate the time when the power consumption of the lighting device 20 becomes greater than the second power consumption of the first power consumption after the user's bedtime based on the power consumption information of the lighting device 20 obtained by the communication unit 11. Time for the user to get up. The reason is considered to be that the user lights up or intensifies the lighting device 20 when getting up. In this way, the power consumption information of the lighting device 20 can be used as information for displaying the sleep mode of the user. Therefore, the proposal unit 12b may determine the control content for changing the brightness of the lighting device 20 based on the power consumption information (information indicating the sleep mode) of the lighting device 20 obtained by the communication unit 11 as the target control content. The proposal unit 12b determines, for example, the control device that automatically turns off or weakens the lighting device 20 at the estimated bedtime, and automatically turns on or enhances the lighting device at the estimated wakeup time. Thereby, the user does not need to operate the lighting device 20. The proposal unit 12b may use, for example, an average value of bedtime during a specific number of days or a median value of bedtime, and use the statistically processed bedtime to estimate the bedtime. The same applies to the time of getting up. In addition, the proposal unit 12b may determine the bedtime and the time of getting up based on the state of the switching element corresponding to the lighting device 20 in the switch unit 17 of the control unit 12a. That is, the proposal part 12b itself can also function as the acquisition part of life information as the state which acquired the switch part 17 from the control part 12a. In this case, it is not necessary to obtain the power consumption information through the communication unit 11. [Decision Example 2 of Target Control Content] In Decision Example 2, the target control content for guiding the user to sleep will be described. If bedtime and wake-up time are estimated as in decision example 1, the proposal unit 12b can 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 referred to as the Average sleep time). In this way, the proposal unit 12b can detect that the user's bedtime in a specific period recently was shorter than the average bedtime in the previous specific period. In addition, the proposal unit 12b can detect that the sleep time of the user in the latest specific period is shorter than the average sleep time of the previous specific period. In this way, when the proposal unit 12b detects that the sleep state of the user has deteriorated in a recent specific period, the control content that guides the user to sleep can be determined as the target control content. Specifically, the control content that guides the user to sleep is the control content of the lighting device 20 that is gradually weakened (weakened) from an earlier time than the average bedtime in a recent specific period. In addition, the control content for guiding the user to sleep may also be as follows: at a time earlier than the average bedtime in a recent specific period, the air-conditioning device 30 is automatically operated to make the indoor environment (temperature and humidity) suitable In a sleeping environment. In addition, such an object control content can also be proposed when the deterioration of the sleep state of the user in a recent specific period is detected. [Decision example 3 of target control content] In decision example 3, the target control content for the purpose of energy saving based on temperature information and outside temperature information is described. As described above, the communication unit 11 may obtain temperature information from the air-conditioning apparatus 30 as living information. In addition, the communication unit 11 may obtain outside temperature information from the outdoor unit 50 as living information. Therefore, for example, when the air-conditioning device 30 is in the heating operation and the temperature outside the temperature indicated by the outside air temperature is higher than the room temperature indicated by the temperature information, the air-conditioning device 30 is stopped, and the control content for operating the ventilation device 40 can also be determined Control content. According to the content of such object control, the ventilation device 40 that consumes less power than the air conditioner 30 is operated, and the room temperature can be increased. Therefore, energy saving can be achieved. In addition, such a control content may also be proposed when the air conditioner 30 is operating in heating, and it is detected that the temperature outside the temperature indicated by the outside temperature information is higher than the room temperature indicated by the temperature information. In addition, when the air-conditioning apparatus 30 is in an air-conditioning operation and the outside air temperature is lower than the room temperature indicated by the temperature information, the air-conditioning apparatus 30 is stopped, and the control content for operating the ventilation device 40 may be determined as the target control content. According to the content of such object control, the ventilation device 40 that consumes less power than the air-conditioning device 30 is operated, and the room temperature can be reduced. Therefore, energy saving can be achieved. In addition, such a control content may also be proposed when the air-conditioning apparatus 30 is operating in the air-conditioning mode and it is detected that the outside air temperature indicated by the outside air temperature is higher than the room temperature shown by the temperature information. [Decision Example 4 of Target Control Contents] In Decision Example 4, the target control contents for the purpose of automatic air cleaning in the facility 101 (in the room 102) will be described. As described above, the communication unit 11 can obtain the particle amount information from the air conditioner 30 as the living information. Therefore, when the amount of floating particles shown in the particle amount information is a specific amount or more, the control content for operating at least one of the air conditioner 30 and the ventilation device 40 may be determined as the target control content. According to such an object control content, ventilation can be performed when the amount of floating particles in the facility 101 (in the room 102) is large, so that automatic air cleaning in the facility 101 (in the room 102) is achieved. It should be noted that such object control content may be proposed only when the amount of floating particles shown in the particle amount information is greater than a specific amount. When the control target device of the control device 10 includes an air cleaner, the control unit 12a may further operate the air cleaner. [Decision Example 5 of Target Control Contents] In Decision Example 5, an example in which the scene control in the facility 101 (in the room 102) is determined as the target control content will be described. For example, the control history of the equipment in the facility 101 is acquired by the communication unit 11 as living information and stored in the memory unit 13. In this way, the proposal unit 12b can specify the tendency to turn on the lighting device 20 at a specific time zone at night (for example, the time zone when the user goes to bed), and start the air-conditioning operation at a set temperature of 27 ° C. In addition, the proposal unit 12b may identify the lighting device 20 and the air-conditioning device 30 in a specific time zone in the morning (for example, a time zone when the user is out). In this way, the proposal unit 12b may determine the scenario control in which a plurality of devices are in a specific control state as the target control content. In addition, the proposal section 12b outputs not only proposal information used to propose a new scenario control, but also proposal information used to propose a change to the control content of an existing scenario control. However, if the user allows the scenario control as described above, the proposal section 12b displays, for example, an icon (key) for executing the scenario control on the display section 16 during the time zone during which the scenario control is performed. At this time, the proposal section 12b may cause the icon for performing scene control to be displayed on the display section 16 in preference to other images or icons. For example, when the image shown in FIG. 3 or FIG. 4 is displayed on the display section 16 during the time zone for performing scenario control, the proposal section 12b may display an icon for performing scenario control instead of the displayed image. In addition, the proposal unit 12b may superimpose and display an icon for performing scene control and an image being displayed. In addition, as shown in FIG. 12 to be described later, in a case where the display unit 16 displays a plurality of icons arranged in the up-down direction, the icons used to execute the scene control may also be displayed on top, and the number of icons displayed on one screen at the same time is limited. In this case, the icon used to execute the scene control can also be displayed preferentially on the screen initially displayed. In addition, the icons displayed preferentially are not limited to the icons used to perform scene control. For example, priority may be specified for a plurality of icons including icons for performing scene control, and the higher the priority, the more priority the icon is displayed. The priority of such an icon is determined based on the control history (operation history) and the like stored in the memory section 13 through the learning of the proposal section 12b, but may also be determined (designated) based on the user's operation on the touch panel 15 . [Memory of control content] The above-mentioned target control content is determined based on the living information of the user of the facility 101. That is, it becomes the control content customized by one user of the facility 101. Therefore, when there are a plurality of users in the facility 101, there is a good memory of a plurality of control contents corresponding to each of the plurality of users. For example, if the content of the control is the automatic control of the lighting device 20 described in Decision Example 1 above, assume the following situation: When the control content of the object is determined based on the life information of a user, lighting is stored in the memory 13 Control contents of other users whose device 20 is turned on and off at different times. That is, there may be cases where the control content that is substantially the same as the control content of the object is memorized, but only similar control content that differs in control parameters. In this case, for example, the proposal unit 12 b stores the target control content and the control content stored in the storage unit 13 separately. Therefore, since a plurality of control contents having different control parameters are memorized, a plurality of control contents can be selected. Control contents with substantially the same control contents can be handled as one control mode, for example. Specifically, when the automatic control of the lighting device 20 described in the above-mentioned determination example 1 is defined as the automatic lighting control mode, a plurality of control contents are associated with the automatic lighting control mode. In addition, if the control content corresponding to the automatic lighting control mode has been stored in the memory unit 13, the proposal unit 12b may overwrite the control content with the object control content corresponding to the automatic lighting control mode. In this case, since only one control content is stored for one control mode, the memory capacity of the storage unit 13 can be reduced. [Deletion of Control Content] In the machine control system 100, the user can delete the control content (target control content) stored in the storage unit 13. FIG. 11 is a diagram showing an example of an image for deleting a control content. In FIG. 11, a plurality of control contents corresponding to control content 1 and control content 2 are associated with one automatic lighting control mode. When the image shown in FIG. 11 is displayed, if the user instructs to delete the input of the control content 1 on the touch panel 15, the deletion unit 12 c deletes the control content 1 but maintains the automatic lighting control mode and the control content 2. That is, when the deletion unit 12c deletes the control content stored in the storage unit 13, the control mode corresponding to the control content is maintained. In addition, when the user instructs the touch panel 15 to delete the input of both the control content 1 and the control content 2, the deletion section 12c can preset the control content and maintain the lighting automatic control mode, but can also delete the lighting automatic Control mode. That is, the deletion section 12c may delete the control mode corresponding to the control content when deleting the control content stored in the storage section 13. In addition, when there is only one control content for one control mode, as shown in the image of FIG. 12, as long as the control mode is displayed as the object of deletion, it is not necessary to display the control content. FIG. 12 is a diagram showing another example of an image for deleting a control content. In the example of FIG. 12, when the user inputs an instruction to delete the automatic lighting control mode on the touch panel 15, the deleting unit 12 c deletes the automatic lighting mode and the corresponding control content. That is, when the deletion section 12c deletes the control content stored in the storage section 13, it may also delete the control mode corresponding to the control content. [Modification 1] In the above embodiment, the constituent elements provided in the control device 10 may be distributed to a plurality of devices. That is, the same functions as those of the control device 10 may be realized by a plurality of devices. For example, components included in the control device 10 may be allocated to the home gateway 80 and the information terminal 90 shown in FIG. 1. In this case, the home gateway 80 includes, for example, the communication unit 11, the signal processing unit 12 (the control unit 12a, the proposal unit 12b, and the deletion unit 12c), and the memory unit 13. The information terminal 90 only needs to include the touch panel 15 and the display unit 16. Just fine. Specifically, the home gateway 80 is a HEMS (Home Energy Management System) controller or the like. Specifically, the information terminal 90 is a smart phone, a tablet terminal, or a personal computer. In addition, a part of the constituent elements provided in the control device 10 may be distributed to the home gateway 80. In this case, the home gateway 80 includes, for example, a communication unit 11, a signal processing unit 12 (a control unit 12 a, a proposal unit 12 b, and a deletion unit 12 c), and a memory unit 13, and the control device 10 includes a touch panel 15 and a display unit 16. The function of the control unit 12 a (function of controlling the device) may include both the home gateway 80 and the control device 10. In this case, the home gateway 80 functions as a higher-level control device of the control device 10. The home gateway 80 can output proposal information to a plurality of control devices 10 in the facility 101 and display a proposal image, for example. In addition, the home gateway 80 may display an icon (hereinafter also referred to as an execution icon) used by the user to execute the target control content on the plurality of control devices 10 in the facility 101. Here, the home gateway 80 does not need to display the execution icons on all the control devices 10, but only selectively displays the execution icons on the specific control device 10. For example, the home gateway 80 may selectively display an execution icon only on the control device 10 that controls a device associated with the target control content as a control target. When the control content of the object is a control content that disconnects all the devices in the facility 101, the home gateway 80 may display the execution icon only on the control device 10 that arranges the execution icon at the entrance or the closest position to the entrance. The reason is that the control content for disconnecting all the machines in the facility 101 is the control content used by the user when going out, and the execution icon may be displayed on the display portion 16 of the control device 10 arranged at the entrance or the closest place to the entrance. [Modification 2] In the above embodiment, the proposal unit 12b determines the content of the target control based on the living information obtained by the communication unit 11. Here, in addition to the living information, the proposal section 12b may determine the target control content based on the inquiry information to the user. For example, the proposal unit 12 b outputs information for executing an inquiry to the display unit 16, and displays an inquiry image on the display unit 16. FIG. 13 is a diagram showing an example of an inquiry image. The query image shown in FIG. 13 is an image for inquiring the user whether the user slept well the day before. If an input indicating that the user is sleeping well is received by the touch panel 15, the life information in the time zone presumed to be that the user has fallen asleep is stored in the memory unit 13 as the life information of the user sleeping well. That is, the living information and the inquiry information are correlated and memorized. In this way, by associating and memorizing the living information with the inquiry information, the proposal section 12b can decide the user to use at bedtime based on the living information (temperature, humidity, illumination of the room, and bedtime) when the user sleeps well. Scenario control (object control content). That is, the proposal unit 12b can propose a target control content that is more comfortable for the user. In addition, asking for information can become part of life information. In this case, the touch panel 15 functions as an acquisition unit that acquires inquiry information and life information. [Effects, etc.] As described above, the machine control system 100 includes: a control unit 12a that controls the equipment installed in the facility 101; a communication unit 11 that obtains living information related to the lives of users of the facility 101; Based on the living information obtained by the communication section 11, the control section 12a determines the control content used to control the device, that is, the control content that is the object of the proposal to the user, that is, the object control content, and outputs the content that is determined to the user's proposal. Proposal information of the object control content; and a touch panel 15 which receives an input from a user showing whether the object control content is allowed. The machine control system 100 is an example of a control system, the communication unit 11 is an example of an acquisition unit, and the touch panel 15 is an example of an input receiving unit. Thereby, by memorizing or executing the object control content when the user receives the input of the allowable object control content, it is suppressed that the object control content is automatically memorized or executed against the user's intention. That is, the machine control system 100 can suppress the user's confusion by automatically changing the control content. Further, the machine control system 100 further includes a memory unit 13. When the proposal unit 12 b receives an input of an object control content allowance via the touch panel 15, the object control content may be stored in the memory unit 13. The proposal unit 12 b may not store the object control content in the storage unit 13 when the touch panel 15 rejects the input of the object control content. Thereby, since the object control content is memorized only when the user receives the input of the allowable object control content, the automatic control of the object control content against the user's intention is suppressed. That is, the machine control system 100 can suppress confusion for the user when changing the control content of the machine. In addition, the proposal section 12b further outputs information for suggesting execution of the object control content stored in the storage section 13, and the touch panel 15 may further receive an input indicating whether execution of the object control content stored in the storage section 13 is permitted. The control unit 12a may also execute the target control content when receiving an input allowing the execution target control content through the touch panel 15. Thereby, since the target control content is executed when the user receives the input of the permitted target control content, the automatic execution of the target control content is inhibited against the user's intention. That is, the machine control system 100 can suppress user confusion caused by execution of the target control content. In addition, the control unit 12a may execute the memorized object control content when receiving the input of the allowable object control content through the touch panel 15. Thereby, since the target control content is executed when the user receives the input of the permitted target control content, the automatic execution of the target control content against the user's intention is suppressed. That is, the machine control system 100 can suppress user confusion caused by execution of the target control content. In addition, the touch panel 15 may further receive an input from the user instructing to delete the control content stored in the storage unit 13. The machine control system 100 may further include a deletion unit 12 c that, when receiving an instruction to delete the control content stored in the storage unit 13 through the touch panel 15, deletes the indicated control content by the input. Thereby, the user can delete the control content (target control content) stored in the storage unit 13. In addition, the control content stored in the storage unit 13 corresponds to the control mode, and the deletion unit 12c may further delete the control mode corresponding to the control content when deleting the control content stored in the storage unit 13. Thereby, the user can delete the control content and control mode stored in the memory section 13. In addition, the control content stored in the storage unit 13 corresponds to the control mode, and the deletion unit 12c can also maintain the control mode corresponding to the control content when the control content stored in the storage unit 13 is deleted. Thus, the user can delete the control mode in addition to the control content stored in the storage unit 13. In addition, the control unit 12a controls the lighting device 20 as a device, and the communication unit 11 may obtain information showing the sleep mode of the user as living information. The proposal unit 12b may determine the control content for changing the brightness of the lighting device 20 as the target control content based on the display of the sleep mode information acquired by the communication unit. As described above, as the target control content, the automatic control of the lighting device 20 is exemplified. According to the automatic control of the lighting device 20, the user does not need to manually operate the lighting device 20. Further, the machine control system 100 may further include a display unit 16 which is arranged to face the touch panel 15 and displays an image for presenting control content to the user based on the proposal information output by the proposal unit 12b. The machine control system 100 may further include a switch unit 17 that turns on and off the power supply to the machine based on the operation on the touch panel 15. The machine control system 100 may also include a housing 18 that houses the control unit 12 a, the communication unit 11, the proposal unit 12 b, the touch panel 15, the display unit 16, and the switch unit 17, and at least a part of the machine control system 100 is embedded in the wall surface 103 of the facility 101. Thereby, the machine control system 100 can operate as a so-called wall switch. In addition, the control method of the machine installed in the facility 101 executed by the machine control system 100 is to obtain living information related to the life of the user of the facility 101. Based on the obtained living information, the control content for controlling the machine is determined to be The control content of the user's proposal object, that is, the object control content, outputs proposal information for the object control content determined by the user's proposal, and receives an input from the user showing whether the object control content is allowed. Thereby, the object control content is memorized or executed when the user receives the input of the object control content, thereby suppressing the automatic memory or execution of the object control content in violation of the user's intention. That is, the above-mentioned control method can suppress the user's confusion by automatically changing the control content. (Other Embodiments) Although the embodiments have been described above, the present invention is not limited to the above embodiments. For example, in the above embodiment, the machine control system is constituted by a plurality of devices, but it may be implemented as a single device. When the machine control system is implemented as a plurality of devices, the constituent elements provided in the machine control system described in the above embodiment may be distributed to the plurality of devices. The communication method between the devices described in the above embodiment is an example. There is no particular limitation on the communication method between the devices. Between devices, for example, wireless communication using specific small power wireless, ZigBee (registered trademark), Bluetooth (registered trademark), or Wi-Fi (registered trademark) communication standards is performed. The wireless communication is specifically radio wave communication or infrared communication. In addition, it is also possible to perform wired communication such as communication using power line communication (PLC: Power Line Communication) or wired LAN (local area network) instead of wireless communication between the devices. In addition, for example, in the above-mentioned embodiment, other processing units may execute processing executed by a specific processing unit. The order of the plurality of processes may be changed, and the plurality of processes may be executed in parallel. In addition, in the above-mentioned embodiment, each constituent element is constituted by dedicated hardware, and it can also be realized by executing a software program suitable for each constituent element. Each constituent element can also be implemented by a program execution unit such as a CPU (Central Processing Unit) 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 a integrated circuit). These circuits may constitute a single circuit as a whole, or may be separate circuits. In addition, these circuits may be general-purpose circuits or dedicated circuits. In addition, all or specific aspects of the present invention can also be recorded media such as a system, device, method, integrated circuit, computer program, or a computer-readable CD-ROM (Compact Disc Read-Only Memory). achieve. In addition, it can be realized by any combination of system, device, method, integrated circuit, computer program, and recording medium. For example, the present invention can be implemented as a control method for a machine executed by a machine control system or a control device, or as a program for executing the above control method on a computer. The plurality of processing procedures of the operation of the machine control system described in the above embodiment is an example. The order of multiple processes can be changed, and multiple processes can also be executed in parallel. In addition, the forms achieved by those skilled in the art by considering various modifications to the embodiments, or the forms realized by arbitrarily combining the constituent elements and functions of the embodiments within the scope not departing from the gist of the present invention Within the invention.

10‧‧‧Control device
11‧‧‧Communication Department (Acquisition Department)
12‧‧‧Signal Processing Department
12a‧‧‧Control Department
12b‧‧‧ Proposal Department
12c‧‧‧Deletion
13‧‧‧Memory Department
14‧‧‧Power Department
15‧‧‧Touch panel (input receiving section)
16‧‧‧Display
16a‧‧‧The first icon
16b‧‧‧The second icon
16c‧‧‧3rd icon
16d‧‧‧The 4th icon
17‧‧‧Switch Department
18‧‧‧Frame
20‧‧‧Lighting device
30‧‧‧ Air Conditioning Unit
31‧‧‧Temperature and humidity measuring device
32‧‧‧Floating particle measurement device
40‧‧‧Ventilation device
50‧‧‧ outdoor unit
51‧‧‧Temperature measuring device
60‧‧‧ switchboard
61‧‧‧backbone circuit breaker
62‧‧‧ Branch circuit breaker
63‧‧‧ Electricity measuring device
70‧‧‧ Power System
71‧‧‧ Main Line
72‧‧‧ branch circuit
80‧‧‧Home gateway
100‧‧‧machine control system (control system)
101‧‧‧ facilities
Room 102‧‧‧
Room 102a‧‧‧
Room 102b‧‧‧
103‧‧‧Wall surface
104‧‧‧Switch box
S11 ～ S20‧‧‧‧Steps

FIG. 1 is a diagram showing an outline of a machine control system according to an embodiment. Fig. 2 is a perspective view of a control device according to an embodiment. FIG. 3 is a front view of the control device of the embodiment. FIG. 4 is a diagram showing an example of an image for controlling an air conditioner. Fig. 5 is a block diagram showing the configuration of the machine control system of the embodiment. FIG. 6 is a diagram showing an example of a proposal image. Fig. 7 is a flowchart of operation example 1 of the control device of the embodiment. 8 is a diagram showing an example of an execution proposal image displayed in Operation Example 1. FIG. Fig. 9 is a flowchart of operation example 2 of the control device of the embodiment. FIG. 10 is a diagram showing an example of a proposal image displayed in Operation Example 2. FIG. FIG. 11 is a diagram showing an example of an image for deleting a control content. FIG. 12 is a diagram showing another example of an image for deleting a control content. FIG. 13 is a diagram showing an example of an inquiry image.

10‧‧‧Control device

11‧‧‧Communication Department (Acquisition Department)

12‧‧‧Signal Processing Department

12a‧‧‧Control Department

12b‧‧‧ Proposal Department

12c‧‧‧Deletion

13‧‧‧Memory Department

14‧‧‧Power Department

15‧‧‧Touch panel (input receiving section)

16‧‧‧Display

17‧‧‧Switch Department

20‧‧‧Lighting device

30‧‧‧ Air Conditioning Unit

31‧‧‧Temperature and humidity measuring device

32‧‧‧Floating particle measurement device

40‧‧‧Ventilation device

50‧‧‧ outdoor unit

51‧‧‧Temperature measuring device

60‧‧‧ switchboard

61‧‧‧backbone circuit breaker

62‧‧‧ Branch circuit breaker

63‧‧‧ Electricity measuring device

70‧‧‧ Power System

71‧‧‧ Main Line

72‧‧‧ branch circuit

100‧‧‧machine control system (control system)

Claims (11)

A control system comprising: a control unit that controls a device installed in a facility; an acquisition unit that acquires living information related to the life of a user of the facility; a proposal unit that is based on the life information acquired by the acquisition unit, Determine the control content used by the control unit to control the machine and propose the object to the user, that is, the object control content, and output proposal information used to propose the determined object control content to the user; and input and receive And receiving an input from the user indicating whether the object control content is allowed or not. For example, the control system of claim 1 further includes a memory unit. The proposal unit stores the object control content in the memory unit when the input receiving unit receives an input allowing the object control content. When the input receiving unit receives an input that rejects the target control content, the target control content is not stored in the storage unit. For example, the control system of claim 2, wherein the proposal unit further outputs information for implementing the object control content stored in the memory unit, and the input receiving unit further receives whether the object control stored in the memory unit is allowed to be executed For the input of content, the control unit executes the object control content when it receives an input allowing the execution of the object control content through the input receiving unit. For example, the control system according to claim 2, wherein the control unit executes the memorized control content of the object when receiving the input of the control content of the object through the input receiving unit. For example, the control system of claim 2, wherein the input receiving unit further receives an instruction from the user to delete the input of the control content stored in the memory unit, and the control system further includes a deleting unit configured to receive by the input When the unit receives an input instructing to delete the control content stored in the memory unit, it deletes the control content indicated by the input. For example, if the control system of item 5 is requested, the control content stored in the memory unit corresponds to the control mode, and the deletion unit deletes the control content stored in the memory unit, and then deletes the control mode corresponding to the control content. For example, the control system according to claim 5, wherein the control content stored in the memory unit is associated with the control mode, and the deletion unit maintains the control mode corresponding to the control content when the control content stored in the memory unit is deleted. For example, the control system of claim 1, wherein the control unit controls the lighting device as the machine, the acquisition unit obtains information indicating the sleep mode of the user as the living information, and the proposal unit is based on the information indicating that the acquisition unit obtained by the acquisition unit The information of the sleep mode determines the control content for changing the brightness of the lighting device as the object control content. For example, the control system according to any one of claims 1 to 8, wherein the input receiving section is a touch panel, and the control system further includes: a display section, which is arranged opposite to the touch panel, and is based on the output from the proposal section. The above-mentioned proposal information displays an image used to propose the above-mentioned object control content to the user; the switch unit, which is based on the operation of the touch panel, turns on and off the power supply to the above-mentioned machine; and the housing, which houses At least a part of the control unit, the acquisition unit, the proposal unit, the touch panel, the display unit, and the switch unit is embedded in a wall surface of the facility. A control method is a method for controlling a machine installed in a facility, and the method is to obtain living information related to the life of a user of the facility, and based on the obtained living information, decide on the use of the machine to control the machine. The control content of the object proposed by the user is the object control content, and the proposal information for outputting the determined object control content to the user is output, and an input indicating whether the object control content is allowed is received from the user. A program for causing a computer to execute the control method as claimed in item 10.