TWI641248B - Control device and control method - Google Patents

Abstract

The present invention provides a control device (10) including a control section (12) for causing a communication section (11) to transmit a control signal irrespective of a control instruction to perform a first mode operation of controlling a device. When the control unit (12) detects that the upper control device (50) can communicate with the communication unit (11), it switches the operation in the first mode to the operation in the second mode. In the operation in the second mode, based on The control instruction received by the communication unit (11) causes the communication unit (11) to send a control signal to control the machine.

Description

Control device and control method

The invention relates to a control device and a control method used in a machine control system.

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 device control system, Patent Document 1 discloses a network appliance control system that can easily change the settings of a network gateway. [Prior Art Document] [Patent Document] [Patent Document 1] Japanese Patent Laid-Open No. 2010-098374

[Problems to be Solved by the Invention] However, in the machine control system, a new control device may be added after the machine control system is introduced. In this case, it is preferable that the control device after the introduction is expandable so that it can be easily combined with the new control device. The invention provides an expandable control device and a control method. [Technical means for solving the problem] A control device according to one aspect of the present invention is a control device including a first communication unit that communicates with a device installed in a facility, and a second communication unit that communicates with The control device that the control device sends a control instruction to communicate with; and a control unit that causes the first communication unit to send a control signal regardless of the control instruction to perform the operation of controlling the first mode of the device, the control The unit is configured to switch the operation of the first mode to the operation of the second mode when the control instruction device capable of communicating with the second communication unit is detected, and the operation of the second mode is based on the second The control instruction received by the communication unit causes the first communication unit to send the control signal, thereby controlling the device. A control method of one aspect of the present invention is a control method for a facility-installed machine performed by a control device. The control device can communicate with a control instruction device that can send a control instruction to the control device. The control instruction sends a control signal regardless of the control mode and performs the operation of the first mode of the device. When the control instruction device capable of communicating with the control device is detected, the operation of the first mode is switched to the second mode In the operation of the second mode, the control signal is transmitted based on the received control instruction to control the device. One aspect of the present invention is a program for causing a computer to execute the above control method. [Effects of the Invention] According to the present invention, an expandable control device and control method are realized.

the following, For the implementation form, The description will be made with reference to the drawings. another, Any of the embodiments described below is a general or specific example. The numerical values shown in the following embodiments, shape, material, Constituent elements, Arrangement position and connection form of constituent elements, step, The sequence of steps is an example, It is not intended to limit the gist of the present invention. also, Among the constituent elements of the following embodiments, For the components not listed in the independent claim showing the highest-level concept, It will be described as an arbitrary constituent element.  another, Each picture is a pattern diagram, It may not be strictly illustrated. also, In each figure, The same symbols are attached to substantially the same components, Omitting or simplifying repeated descriptions.  (Embodiment) [Configuration of Machine Control System] First, The configuration of the machine control system according to the embodiment will be described. FIG. 1 is a diagram showing an outline of a machine control system according to an embodiment. As shown in Figure 1, The machine control system 100 is installed in the facility 101, A system for controlling 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 room 102, Room 102a and room 102b.  In the machine control system 100, Set up controls in each room. A control device 10 is provided in the room 102, A control device 10a in the room 102a, A control device 10b is provided in the room 102b. the following, The control device 10 is mainly described, However, the control device 10a and the control device 10b have the same configuration.  The control device 10 is used by a user to control the lighting device 20 provided in the room 102, Controllers for the air conditioning device 30 and the ventilation device 40. also, 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 picture 2, The control device 10 is provided on a wall surface 103 of the room 102. The control device 10 is in a state where at least a part of the frame body 18 is housed in the switch box 104 embedded in the wall surface 103, Set on the wall surface 103. The installation method of the control device 10 is substantially the same as that of a universal wall switch. The switch box 104 can also be used by a wall switcher.  As shown in Figure 3, The control device 10 functions as a so-called GUI (Graphical User Interface: Graphical user interface). An image including, for example, an icon (key) is displayed on the display unit 16 of the control device 10. When the user touches the icon part of the operation display section 16 (touch panel), And can be turned on and off to the lighting device 20, Power supply of each device of the air-conditioning apparatus 30 and the ventilation apparatus 40.  another, 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. According to the image shown in Figure 4, The user can switch the operation mode of the air conditioner 30 and change the set temperature. For example, by sliding the display portion 16 (touch panel 15), The image shown in FIG. 3 is converted into the image shown in FIG. 4. another, Although not shown, However, it is also possible to display on the display section 16 the dimming control and toning control for the lighting device 20, And the image of the air volume control of the ventilation device 40 and the like.  Here, Imagine that the control device 10 has been installed, Machine control system 100 of control device 10a and control device 10b, A case where the higher-level control device 50 is newly introduced. In this case, It is preferable that the construction control and the like can be easily introduced into the high-level control device 50 while minimizing construction and the like. In the machine control system 100, It is characterized by considering the subsequent addition of a higher-level control device 50. the following, The details of the machine control system 100 will be described. Fig. 5 is a block diagram showing the machine control system of the embodiment.  As shown in Figure 5, in particular, The device control system 100 includes a control device 10, Control device 10a, Control device 10b, Lighting device 20, Lighting device 20a, Lighting device 20b, Air-conditioning unit 30, Air-conditioning apparatus 30a and 30b. also, The device control system 100 includes a ventilation device 40, Ventilation device 40a, Ventilation device 40b, Host control device 50, Information terminal 60 and outdoor unit 80. also, In Figure 5, The power system 70 is also shown as an external power source. the following, For each constituent element constituting the machine control system 100, The main description will be made with reference to FIGS. 1 and 5.  [Control device] As described above, The control device is installed in one room, for example, Controller for users to control the machines installed in the room. As long as the control device can control at least one machine, However, multiple types of machines with different functions can be controlled. also, The machine control system 100 only needs to include at least one control device.  In the embodiment, The control device 10 installed in the room 102 controls the lighting device 20, Air-conditioning device 30 and ventilation device 40. In other words, Lighting device 20, The air-conditioning apparatus 30 and the ventilation apparatus 40 are control targets of the control apparatus 10. Similarly, The control device 10a installed in the room 102a controls the lighting device 20a, Air-conditioning device 30a and ventilation device 40a. Lighting device 20a, The air-conditioning apparatus 30a and the ventilation apparatus 40a are control targets of the control apparatus 10a. The control device 10b installed in the room 102b controls the lighting device 20b, Air-conditioning device 30b and ventilation device 40b. In other words, Lighting device 20b, The air-conditioning apparatus 30b and the ventilation apparatus 40b are control targets of the control apparatus 10b.  the following, A detailed configuration of the control device 10 will be described. another, Since the control device 10a and the control device 10b have the same configuration as the control device 10, Therefore, detailed description is omitted.  in particular, The control device 10 includes a communication unit 11, Control section 12, Memory section 13, Power supply section 14, Touch panel 15, Display section 16 and switch section 17. also, as shown in picture 2, The control device 10 includes a housing 18.  The communication unit 11 is an example of the first communication unit, Wireless communication with equipment installed in the facility 101. in particular, The communication unit 11 is controlled by the control unit 12, For lighting device 20, The air-conditioning apparatus 30 and the ventilation apparatus 40 wirelessly transmit control signals. in particular, The communication unit 11 is a communication module (communication circuit) for wireless communication.  another, Basically, The control device 10 may not perform wireless communication with other control devices (the control device 10a and the control device 10b), Wireless communication with other control devices is also possible. also, The control device 10 performs wireless communication using a small-scale network in the facility 101. therefore, Basically, The control device 10 cannot be connected to the network, However, it can be connected to the network via a router or the like.  also, The communication unit 11 is an example of the second communication unit, It can perform wireless communication with the high-level control device 50. In order for the control device 10 to control the lighting device 20, Air-conditioning device 30 and ventilation device 40, A control instruction is transmitted to the control device 10.  also, The communication unit 11 is an example of the third communication unit, The environmental information associated with the facility 101 is received from the environmental measurement device through wireless communication. The environmental measurement device is, for example, the temperature and humidity measurement device 31 included in the air conditioner 30, The environmental information is temperature information and humidity information measured by the temperature and humidity measuring device 31. which is, The communication unit 11 receives temperature information and humidity information from the temperature and humidity measuring device 31.  another, The environmental measurement device is, for example, an outdoor unit 80 (shown in FIG. 1), The environmental information may also be temperature information other than the temperature outside the facility 101 measured by the outdoor unit 80. which is, The communication unit 11 may also receive outside temperature information from the outdoor unit 80. In this case, The outdoor unit 80 includes a communication module (communication circuit) for wireless communication with the communication unit 11.  also, The environmental measurement device can also be a temperature and humidity measurement device that is separate from any of the air conditioning device 30 and the outdoor unit 80. Receive temperature information, Humidity information and outside temperature information. In this case, The separate temperature and humidity measuring device includes a communication module (communication circuit) for wireless communication with the communication unit 11.  The control unit 12 causes the communication unit 11 to wirelessly transmit a control signal, And the lighting device 20, Control of the air conditioning device 30 and the ventilation device 40. also, The control unit 12 is based on the operation on the touch panel 15. And the switch unit 17 is controlled. which is, The control unit 12 controls the lighting device 20, The power supply of the air conditioner 30 and the ventilation device 40 is turned on and off. also, The control unit 12 displays an image on the display unit 16. in particular, The control unit 12 is a processor, Microcomputer or special circuit. The specific operation of the control unit 12 will be described later.  The memory unit 13 is a memory device such as a control program executed by the memory control unit 12. in particular, The memory section 13 is realized by a semiconductor memory or the like.  The power source section 14 converts AC power supplied from the power system 70 into DC power suitable for controlling the operation of the device 10, Each component is supplied to the control device 10. in particular, 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 a detection device operated by a user. The touch panel 15 may be a capacitive touch panel, It may also be a touch panel of other methods such as a resistive film method.  The display section 16 is controlled by the control section 12, Display for the user to control the lighting device 20, Image of the air conditioning device 30 and the ventilation device 40. Examples of images displayed on the display unit 16 are shown in FIGS. 3 and 4. in particular, The display unit 16 is a liquid crystal panel or an organic EL (Electro Luminescence: (Electroluminescence) panels and the like.  The switch section 17 is based on the operation of the touch panel 15. And turning on and off from the power system 70 to the lighting device 20, Power supply for each of the air-conditioning apparatus 30 and the ventilation apparatus 40. which is, The switch unit 17 turns off the lighting device 20, Main power sources of the air-conditioning apparatus 30 and the ventilation apparatus 40. in particular, Based on the operation of the touch panel 15, The switch section 17 is controlled by the control section 12. Switch unit 17 and lighting device 20, The air-conditioning apparatus 30 and the ventilation apparatus 40 have three corresponding switching elements that are directly controlled without wireless communication by the control unit 12.  The switching element is located on the power line from the power system 70 to each machine. The electrical connection between the power system 70 and each device is turned on and off. The switching element may be an element that opens and closes an electrical contact such as a relay element. It may also be a semiconductor switching element such as a power transistor. another, The switching unit 17 only needs to include at least one switching element. which is, The switch unit 17 only needs to be able to directly turn on and off the power supply to at least one device.  another, Communications Department 11, Control section 12, Touch panel 15, The display portion 16 and the switch portion 17 are housed in a frame body 18 (shown in FIG. 2). The frame 18 is made of, for example, a resin, However, it may be formed partially or entirely from metal. As above, At least a part of the frame body 18 is embedded in the wall surface 103 of the facility 101.  [Lighting device] Lighting device 20, The lighting device 20 a and the lighting device 20 b are each installed in a plurality of rooms in the facility 101. The lighting device 20 is installed in the room 102, The lighting device 20a is installed in the room 102a, The lighting device 20b is installed in the room 102b. the following, A detailed configuration of the lighting device 20 will be described. another, Since the lighting device 20a and the lighting device 20b have the same configuration as the lighting device 20, Therefore, detailed description is omitted.  The lighting device 20 is an example of a device installed in the facility 101, It is the so-called ceiling lamp in the lighting room. The specific aspect of the lighting device 20 is not particularly limited, Can also be downlight, chandelier, Spotlights or wall lights.  in particular, The lighting device 20 includes an LED (Light Emitting Diode: Light emitting diode) as a light source. The lighting device 20 may include a fluorescent tube, Semiconductor light emitting elements such as semiconductor lasers, Or organic EL (Electro Luminescence: As a light source, a solid light-emitting element such as electroluminescence) or inorganic EL is used.  also, Although not shown, However, the lighting device 20 includes a communication module (communication circuit) for wireless communication with the control device 10, Receives a control signal transmitted from the communication unit 11 included in the control device 10. which is, The lighting device 20 may emit light or go out based on a control signal received from the control device 10. E.g, When the dimming rate (dimming ratio) is specified in the control signal, The lighting device 20 emits light at a predetermined dimming rate. also, When there is a specified color temperature in the control signal, The lighting device 20 emits light at a predetermined color temperature. also, 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 device] Air-conditioning device 30, The air-conditioning apparatus 30a and the air-conditioning apparatus 30b are installed in each of a plurality of rooms in the facility 101. The air conditioner 30 is installed in the room 102, The air conditioner 30a is installed in the room 102a, The air conditioner 30b is installed in the room 102b. the following, A detailed configuration of the air-conditioning apparatus 30 will be described. another, The air-conditioning apparatus 30a and the air-conditioning apparatus 30b have the same configuration as the air-conditioning apparatus 30, Therefore, detailed description is omitted.  The air conditioner 30 is an example of a device installed in the facility 101, It is an air conditioner for general household use. The air conditioner 30 is provided with a heat exchanger (not shown) and the like. The air conditioner can adjust the temperature of the wind sent from the air conditioner 30. which is, The air conditioner 30 has a ventilation function and a heating and cooling function. The air conditioner 30 is not limited to a general home air conditioner, It can also be an industrial air conditioner.  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, Output 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, a thermocouple, or the like as a device for measuring temperature, Moreover, it has a polymer resistance type humidity sensor or a polymer capacitance type humidity sensor as a component for measuring humidity. another, The temperature and humidity measurement in the facility 101 may be performed using a temperature and humidity measurement device 31 separate from the air conditioner 30.  also, Although not shown, However, the air conditioner 30 has a communication module (communication circuit) for wirelessly communicating with the control device 10, Receives a control signal transmitted from the communication unit 11 included in the control device 10. which is, The air-conditioning apparatus 30 may be based on a control signal received from the control apparatus 10, Switch the operation mode and change the set temperature.  also, The air conditioner 30 sends temperature information and humidity information output from the temperature and humidity measuring device 31 to a communication unit 11 provided 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] Ventilation device 40, The ventilation device 40 a and the ventilation device 40 b are installed in each of a plurality of rooms in the facility 101. The ventilation device 40 is provided in the room 102, The ventilation device 40a is provided in the room 102a, The ventilation device 40b is installed in the room 102b. the following, A detailed configuration of the ventilation device 40 will be described. another, The ventilation device 40a and the ventilation device 40b have the same configuration as the ventilation device 40, Therefore, detailed description is omitted.  Ventilation device 40 is an example of equipment installed in facility 101, Set in room 102, Ventilate between room 102 (indoor) and facility 101 (outside). The ventilation device 40 is a so-called ventilation fan, The air in the room 102 is exhausted outside 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. also, The ventilation device 40 can change the exhaust volume (air volume).  another, Unlike the air conditioner 30, The ventilation device 40 does not have a temperature adjustment function for exhausting air outside the facility 101. which is, The ventilation device 40 has a ventilation function, However, it does not have air-conditioning and heating functions.  also, Although not shown, However, the ventilation device 40 has a communication module (communication circuit) for wireless communication with the control device 10, Receives a control signal transmitted from the communication unit 11 included in the control device 10. which is, The ventilation device 40 can change the air volume based on a 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.  [High-level control device] The high-level control device 50 is an example of a control instruction device, It is used to control the equipment installed in the facility 101 and control a plurality of control devices (control device 10, The integrated controller that the control device 10a and the control device 10b) sends a control instruction. The higher-level control device 50 is provided for one facility 101, for example. Control instructions are sent to a plurality of control devices in the facility 101. The upper control device 50 is installed in the room 102, However, the higher-level control device 50 may be installed in another room. The higher-level control device 50 may be installed outside the facility 101.  in particular, The upper control device 50 is separated from the plurality of control devices, Home gateway installed in facility 101, But it can also be HEMS (Home Energy Management System: Home energy management system) controller. The higher-level control device 50 may also be a server device (cloud server) provided outside the facility 101.  The host control device 50 may also be implemented by two devices, a home gateway and a server device. which is, The functions of the host control device 50 can also be shared by the home gateway and the server device. also, One of the plurality of control devices in the facility 101 may also be used as the higher-level control device 50.  The higher-level control device 50 may send a control instruction together with a plurality of control devices, for example. With this, It is possible to control the target equipment of the control device 10 at the same time, The control target device of the control device 10a and the control target device of the control device 10b. another, The higher-level control device 50 may also send control instructions individually to the plurality of control devices.  in particular, The higher-level control device 50 includes a communication unit 51, Control unit 52, Memory section 53 and power supply section 54. another, Since the high-level control device 50 does not have a user interface, Therefore, for example, the information terminal 60 is used as a user interface. As the user interface of the host control device 50, Control device 10 can also be used, Control device 10a or control device 10b. The host control device 50 may not have a user interface. In this case, The information terminal 60 may be omitted.  Communication unit 51 and control device 10, Control device 10a, The control device 10b and the information terminal 60 perform wireless communication. in particular, The communication unit 51 is a communication module (communication circuit) for wireless communication.  The communication unit 51 sends control instructions individually or collectively to a plurality of control devices, for example. also, The communication unit 51 receives a user instruction from the communication unit 61 provided in the information terminal 60. The user instruction is input by the user to the touch panel 63 of the information terminal 60.  The control section 52 generates a control instruction based on a user instruction received by the communication section 51, The communication unit 51 is caused to send the generated control instruction. in particular, The control unit 52 is Microcomputer or dedicated circuit.  The memory unit 53 is a memory device such as a control program executed by the memory control unit 52. in particular, The memory unit 53 is realized by a semiconductor memory or the like.  The power supply unit 54 converts AC power supplied from the power system 70 into DC power suitable for the operation of the host control device 50, These components are supplied to each component included in the higher-level control device 50. in particular, The power supply unit 54 is a power supply circuit including an AC / DC converter or a DC / DC converter. another, The power supply unit 54 can also be implemented as an AC adapter.  [Information Terminal] The information terminal 60 is used as a user interface of the host control device 50. in particular, The information terminal 60 is, for example, a smart phone or a tablet terminal. However, it can also be a personal computer. The information terminal 60 includes a communication unit 61, Control section 62, The touch panel 63 and the display portion 64.  The display section 64 is controlled by the control section 62, An image used by a user for inputting on the touch panel 63 is displayed. in particular, The display portion 64 is realized by a liquid crystal panel, an organic EL panel, or the like.  The touch panel 63 receives input from a user. The touch panel 63 may be a touch panel of an electrostatic capacitance type. It may also be a touch panel of other methods such as a resistive film method. another, When the information terminal 60 is a personal computer, The information terminal 60 includes a keyboard, a mouse, and the like instead of the touch panel.  The control unit 62 performs control to cause the display unit 64 to display an image. also, The control unit 62 generates a user instruction based on the input received by the touch panel 63, The communication unit 61 is caused to transmit the generated user instruction. in particular, The control unit 62 is a processor, Microcomputer or special circuit.  The communication unit 61 sends a user instruction to the communication unit 51 included in the higher-level control device 50. in particular, The communication unit 61 is a communication module (communication circuit) for wireless communication.  [Operation Example 1] Next, An operation example 1 of the control device 10 will be described. FIG. 6 is a flowchart of an operation example 1 of the control device 10. In Operation Example 1, The control device 10 is set to the control target device (lighting device 20, Air-conditioning unit 30 and ventilation unit 40), It can communicate wirelessly with the control target device. another, In Operation Example 1, Explained the operation of the control device 10, However, the control device 10a and the control device 10b may perform the same operation as the control device 10.  In Operation Example 1, The host controller 50 is not added to the machine control system 100 at first. at this time, The control device 10 performs an operation in the first mode (S11).  In the first mode, The control unit 12 of the control device 10 controls the device by causing the communication unit 11 to transmit a control signal regardless of the control instruction sent from the upper control device 50. in particular, The control unit 12 is based on the operation on the touch panel 15. The communication unit 11 is caused to transmit a control signal. The user can, for example, display the image shown in FIG. 4 on the display section 16, Controls the air conditioner 30.  also, In the first mode, The control unit 12 controls the switch unit 17 based on the operation of the touch panel 15. And turn on and off the power supply to the machine. The user can, for example, display the image shown in FIG. 3 on the display section 16, Switch on and off the main power of the machine.  then, The control unit 12 performs detection of the upper control device 50 capable of communicating with the communication unit 11 (S12). In other words, The control unit 12 detects whether or not the higher-level control device 50 is incorporated into a machine control system (wireless communication network) (whether the communication portion 11 can communicate with the higher-level control device 50).  The control unit 12 causes, for example, the communication unit 11 to send a request for a pairing process, When there is a response to a sent request, Perform pairing with the responding device. Here, When the response device is the host control device 50, The control unit 12 ends the pairing process, It is determined that the higher-level control device 50 is detected.  another, Whether the responding device is a higher-level control device 50, For example, it is judged by whether the ID sent from the responding device during the pairing process is a specific ID. however, During pairing or other processing, The device that responds to the notification from the control device 10 itself is the higher-level control device 50, The method of determining whether the responding device is the host control device 50 is not particularly limited.  another, Requests for pairing processing can be sent regularly, It may also be sent based on a user's operation on the touch panel 15. also, The request for the pairing process may also be sent by the higher-level control device 50 instead of the control device 10.  Before the control unit 12 detects the high-level control device 50 (No in S12), The operation in the first mode is continued (S11). on the other hand, When the control unit 12 detects the situation of the higher-level control device 50 during the operation in the first mode, The operation in the first mode is switched to the operation in the second mode (S13).  In the second mode, The control section 12 is based on a control instruction received by the communication section 11, Causing the communication unit 11 to send a control signal, This controls the machine. In other words, The control section 12 causes the communication section 11 to transmit a control signal having the same control content as the control content instructed by the control instruction. In the second mode, Give the control authority of the machine to the upper control device 50, The control device 10 functions as a repeater of a control instruction.  According to the operation of the second mode, The user operates the information terminal 60, And can control the lighting device 20, Air-conditioning device 30 and ventilation device 40. also, According to the operation of the second mode, The user operates the information terminal 60, It is also possible to control the target equipment of the control device 10 together, Control target device of control device 10a, And the control target device of the control device 10b. in particular, The user operates the information terminal 60, It is also possible to turn off the power of the control target equipment in the facility 101 without entering each room. also, According to the operation of the second mode, The user can easily coordinate (interlock) the upper control device 50 and the plurality of control devices.  In the second mode, Also available in control device 10, Each display unit 16 of the control device 10a and the control device 10b, Displays icons (buttons) used to control all machines in the facility 101. In this case, For example, if the control device 10 is operated to control a control target device of the control device 10a, The control device 10 notifies the higher-level control device 50, The higher-level control device 50 sends a control instruction to the control device 10a based on the notification. The control device 10a transmits a control signal to the control target device based on the control instruction. With this, The user can operate by controlling the device 10, The control target device is controlled by the control device 10a.  another, The icons used to control all the machines in the facility 101 can also be displayed only on the control device 10, The display unit 16 of a specific control device among the control device 10a and the control device 10b. E.g, The icons used by the user to disconnect all the machines in the facility 101 when going out need not be displayed on the display portion 16 of all control devices in the facility 101. The icons for disconnecting all the machines in the facility 101 are preferably displayed on the display unit 16 of the control device arranged at the entrance or the closest place to the entrance, for example.  in this way, In the second mode, Same operation as in the first mode, The user can also control the machine by wireless communication by operating the touch panel 15 of the control device 10. however, In the second mode, The operation on the touch panel 15 may be disabled. which is, In the second mode, The control unit 12 may also prohibit the communication unit 11 from transmitting a control signal regardless of the control instruction, It only acts as a repeater for control instructions. In other words, The control unit 12 may not send a control signal autonomously during the operation in the second mode.  With this, Unify devices with control rights. If there are multiple devices with control rights, In some cases, the priority of control needs to be set. also, By a user operating a control device, It may also happen that other users who operate other control devices perform inadvertent control. If a device with control authority is unified, Can suppress the occurrence of such a situation.  also, In the second mode, Same operation as in the first mode, Based on the operation of the touch panel 15 by the user, The control section 12 controls the switch section 17. however, In the second mode, The control section 12 may also be based on the operation on the touch panel 15, It is prohibited to control the switch unit 17. in particular, In the second mode, The switch unit 17 can also be controlled by the control unit 12, It is fixed to maintain the state in which power is supplied to the machine (the state in which the power supply is turned on).  With this, By turning off the main power of the machine to be controlled, On the other hand, it becomes possible to suppress the situation where the control target device cannot be controlled by the higher-level control device 50.  the above, An operation example 1 of the control device 10 has been described. As shown in Operation Example 1, The control device 10 is expandable, If the higher-level control device 50 is added to the machine control system 100, It can operate based on the control instruction sent from the host control device 50.  another, In the second mode, If the control device 10 detects that the higher-level control device 50 is disconnected from the machine control system 100 (wireless communication network), The operation in the second mode is switched to the operation in the first mode.  [Operation Example 2] The control device 10 may control the equipment based on the environmental information associated with the facility 101. the following, An operation example 2 of the control device 10 will be described. FIG. 7 is a flowchart of an operation example 2 of the control device 10. another, In Operation Example 2, Describes the operation of the control device 10, However, the control device 10a and the control device 10b may perform the same operation as the control device 10.  First of all, The communication unit 11 receives temperature information in the room 102 as environmental information (S21). in particular, The communication unit 11 receives temperature information from a temperature and humidity measuring device 31 included in the air conditioner 30.  then, The control unit 12 causes the communication unit 11 to send a control signal based on the temperature information received by the communication unit 11. Thereby, the air-conditioning apparatus 30 is controlled (S22). in particular, The control unit 12 causes the communication unit 11 to transmit a control signal for bringing the temperature indicated by the received temperature information closer to the set temperature.  in this way, The control device 10 can control a device (for example, the air-conditioning device 30) installed in the facility 101 based on environmental information.  another, The communication unit 11 may also receive a plurality of types of environmental information. E.g, The communication unit 11 may also receive temperature information, 2 or more of humidity information and outside temperature information. In this case, The control unit 12 is based on the plurality of types of environmental information received, The communication unit 11 is caused to transmit a control signal.  also, The machine to be controlled in step S22 is not limited to the air conditioner 30. In step S22, The lighting device 20 or the ventilation device 40 may also be controlled. In step S22, It can also control multiple machines.  also, In the second mode, The higher-level control device 50 may also control the equipment based on the environmental information associated with the facility 101. In this case, The communication unit 11 of the control device 10 receives the environmental information, And send the received environmental information to the higher-level control device. The higher-level control device 50 sends a control instruction based on the received environmental information.  [Effects, etc.] As explained above, The control device 10 includes: Communication Department 11, It communicates with the equipment installed in the facility 101, And used to communicate with the upper control device 50 that can send a control instruction to the control device 10; And control section 12, By causing the communication unit 11 to transmit a control signal regardless of the control instruction, Then, the first mode of controlling the machine is performed. When the control unit 12 detects that the higher-level control device can communicate with the communication unit 11, Switch the action of the first mode to the action of the second mode, In the second mode, Causing the communication unit 11 to send a control signal based on the control instruction received by the communication unit 11, This controls the machine. The communication unit 11 is an example of the first communication unit and the second communication unit. The host controller 50 is an example of a control instruction device.  With this, If the higher-level control device 50 is added to the machine control system 100, Then, the control device 10 can operate based on the control instruction sent by the higher-level control device 50. which is, The expansion control device 10 is realized.  also, The communication unit 11 may further receive environmental information related to the facility 101 from the environmental measurement device. The control unit 12 can further use the environmental information received by the communication unit 11 based on Causing the communication unit 11 to send a control signal, And control the machine. The communication unit 11 is an example of the third communication unit.  With this, The control device 10 can control the equipment installed in the facility 101 based on environmental information.  also, The control device 10 may be provided on a wall surface of the facility 101. The control device 10 may further include: A touch panel 15 operated by a user; Display 16, It is arranged opposite to the touch panel 15, And display the image; And switch unit 17, It is based on the operation to the touch panel 15, Turn on and off the power supply to the machine.  With this, The control device 10 may also operate as a so-called wall switch.  also, When the control unit 12 is operating in the second mode, It is also possible to prohibit the communication unit 11 from transmitting a control signal regardless of the control instruction.  With this, Unify devices with control rights, Suppresses the occurrence of events caused by having multiple devices with control authority.  also, The higher-level control device 50 may also send a control instruction to a plurality of control devices including the control device 10.  With this, The higher-level control device 50 can perform a control instruction together with a plurality of control devices.  also, The communication unit 11 may also perform wireless communication with the device, It also performs wireless communication with the host control device 50.  With this, The control device 10 can send a control signal to the device through wireless communication. also, The control device 10 may receive a control instruction from the upper-level control device 50 through wireless communication.  also, The control method of the machine installed in the facility 101 executed by the control device 10 sends a control signal regardless of a control instruction, Then, the first mode of controlling the machine is performed. When the above control method detects that the upper control device 50 can communicate with the control device 10, Switch the action of the first mode to the action of the second mode, In the second mode, The machine is controlled by sending a control signal based on the received control instruction. The host controller 50 is an example of a control instruction device.  With this, If the higher-level control device 50 is added to the machine control system 100, Then, the control device 10 can operate based on the control instruction sent by the higher-level control device 50. which is, The expansion control device 10 is realized.  (Other embodiments) The above, The embodiment has been described. However, the present invention is not limited to the above embodiments.  E.g, The configuration of the control device described in the above embodiment is an example. E.g, The control device may be a controller that does not include a component (a switch unit, etc.) for functioning as a wall switch. also, The control device can also be installed outside the facility.  also, The machine control system described in the above embodiment may further include a server device or the like that uses a higher-level control device as a control target. In this case, The server device is a higher-level device than a higher-level control device. In this machine control system, The detection from the lower device to the upper device as the control object is performed sequentially. Each device can also switch the operation mode according to the detection result.  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, Such as using specific small power wireless, ZigBee (registered trademark), Wireless communication using communication standards such as Bluetooth (registered trademark) or Wi-Fi (registered trademark). another, in particular, The wireless communication is radio wave communication or infrared communication.  also, Between devices, Can also replace wireless communication, Communication using power line (PLC: Power Line Communication) or wired LAN (local area network: LAN communication) and other wired communications.  also, For example, in the above embodiment, The processing performed by the specific processing section may be performed by other processing sections. also, The order of multiple processing can be changed, Multiple processes can also be performed in parallel.  also, The allocation of the constituent elements of the above embodiment to the device is an example. E.g, also, The higher-level control device and information terminal can also be used as one device. which is, The higher-level control device may have each constituent element of the information terminal.  also, In the above embodiment, Each component is made of dedicated hardware. It can also be realized by executing a software program suitable for each constituent element. Each constituent element can also be controlled by a CPU (Central Processing Unit: A program execution unit such as a central processing unit) or a processor reads and executes a software program recorded on a recording medium such as a hard disk or a semiconductor memory.  also, Each constituent element may be a circuit (or an integrated circuit). These circuits can constitute a single circuit as a whole, It can also be a separate circuit. also, These circuits can be general purpose circuits, It can also be a dedicated circuit.  also, The whole or specific aspects of the invention can also be systematically, Device, method, Integrated circuit, Computer programs or computer-readable CD-ROM and other recording media. also, You can also system, Device, method, Integrated circuit, Realize any combination of computer programs and recording media. E.g, The present invention can be implemented as a control method of a machine executed by a control device, It can also be implemented as a program for executing the above control method on a computer. also, The present invention can also be implemented as a higher-level control device that performs the same operation mode switching as the control device of the embodiment described above.  also, The plurality of processing procedures of the operation of the control device described in the above embodiment is an example. Multiple processing orders can be changed, Multiple processes can also be performed in parallel.  In addition, Those skilled in the art can implement various modifications that can be considered for each embodiment, Or forms that are realized by arbitrarily combining the constituent elements and functions of each embodiment without departing from the spirit of the present invention are also included in the present invention.

10‧‧‧Control device

10a‧‧‧control device

10b‧‧‧control device

11‧‧‧Communication department (1st communication department, 2nd communication department, 3rd communication department)

12‧‧‧Control Department

13‧‧‧Memory Department

14‧‧‧Power Department

15‧‧‧Touch Panel

16‧‧‧Display

17‧‧‧Switch Department

18‧‧‧Frame

20‧‧‧Lighting device

20a‧‧‧Lighting device

20b‧‧‧Lighting device

30‧‧‧ Air Conditioning Unit

30a‧‧‧Air conditioner

30b‧‧‧Air conditioner

31‧‧‧Temperature and humidity measuring device

40‧‧‧Ventilation device

40a‧‧‧Ventilation device

40b‧‧‧Ventilation device

50‧‧‧ host control device (control instruction device)

51‧‧‧ Ministry of Communications

52‧‧‧Control Department

53‧‧‧Memory Department

54‧‧‧Power Supply Department

60‧‧‧ Information Terminal

61‧‧‧Ministry of Communications

62‧‧‧Control Department

63‧‧‧Touch Panel

64‧‧‧Display

70‧‧‧ Power System

80‧‧‧ outdoor unit

100‧‧‧machine control system

101‧‧‧ facilities

Room 102‧‧‧

Room 102a‧‧‧

Room 102b‧‧‧

103‧‧‧Wall surface

104‧‧‧Switch box

S11‧‧‧step

S12‧‧‧step

S13‧‧‧step

S21‧‧‧step

S22‧‧‧step

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 flowchart of operation example 1 of the control device of the embodiment. Fig. 7 is a flowchart of operation example 2 of the control device of the embodiment.

Claims (7)

A control device comprising: a first communication section that communicates with a facility installed in a facility; a second communication section that communicates with a control instruction device capable of transmitting a control instruction to the control device; and a control section, The first communication unit sends a control signal regardless of the control instruction to perform the operation of the first mode of the device, and the control unit detects the control capable of communicating with the second communication unit. When instructing the situation of the device, the operation in the first mode is switched to the operation in the second mode. In the operation in the second mode, based on the control instruction received by the second communication unit, the first communication unit is caused to send the The control signal is used to control the device. The control unit is prohibited from causing the first communication unit to transmit the control signal regardless of the control instruction during the operation in the second mode. For example, the control device according to claim 1, wherein the control device further includes a third communication unit that receives environmental information related to the facility from an environmental measurement device, and the control unit further makes the environment information based on the environmental information received by the third communication unit, The first communication unit controls the device by transmitting the control signal. For example, the control device of claim 1 or 2, wherein the control device is disposed on the wall surface of the facility, and the control device further includes: a touch panel for user operation; and a display section, which is arranged opposite to the touch panel, And displaying an image; and a switch unit that turns on (ON) and turns off (OFF) power supply to the device based on the operation of the touch panel. For example, if the control device of item 1 is requested, the control instruction device may send the control instruction to a plurality of control devices including the control device. In the control device according to claim 1, the first communication unit performs wireless communication with the device, and the second communication unit performs wireless communication with the control instruction device. A control method, which is a control method of a facility-installed machine performed by a control device, and the control device can communicate with a control instruction device that can send a control instruction to the control device. The control method is independent of the control instruction. Sending a control signal to control the first mode of the machine, and when the control instruction device capable of communicating with the control device is detected, switching the operation of the first mode to the operation of the second mode, In the operation in the second mode, the control signal is transmitted based on the received control instruction to control the machine; in the operation in the second mode, the control signal is prohibited from being transmitted regardless of the control instruction. A program that causes a computer to execute the control method as claimed in item 6.