JP2020202435A - Control device, setting device and program - Google Patents

Abstract

To provide a technique capable of easily confirming the condition of a device from a position away from the device.SOLUTION: A first input section 340 accepts a first detection result in a first sensor and also accepts a second detection result in a second sensor. A second input section 342 can accept a signal including first identification information from a first operation device 280a, and also can accept a signal including second identification information from a second operation device 280b. When the first identification information is included in an accepted signal, a control section 344 allows an output section to output the first detection result, and, when the second identification information is included in an accepted signal, the control section allows the output section to output the second detection result.SELECTED DRAWING: Figure 1

Description

The present disclosure relates to control technology, and more particularly to control devices, setting devices, and programs that output detection results.

The wireless transmitter transmits the wireless signal, and the wireless receiver receives the wireless signal. Wireless transmitters and receivers are applicable to lighting control systems. In the lighting control system, by operating the wireless transmitter, the lighting can be turned on and off without directly operating the switch installed on the wall or the lighting fixture (see, for example, Patent Document 1). ..

Japanese Unexamined Patent Publication No. 9-65457

There are times when you want to easily check the lighting and extinguishing conditions of a lighting fixture, etc., from a position away from the lighting fixture, etc. installed in a facility such as a house.

The present disclosure has been made in view of such a situation, and an object of the present invention is to provide a technique for easily confirming the state of the device from a position away from the device.

In order to solve the above problems, the control device of a certain aspect of the present disclosure receives the first detection result of the first sensor, the first input unit that receives the second detection result of the second sensor, and the first operation device. A signal including the first identification information for identifying the second operating device can be received from the first operating device, and a signal including the second identification information for identifying the second operating device can be received from the second operating device. When the first identification information is included in the signals received by the second input unit and the second input unit that can be accepted, the first detection result received by the first input unit is output and the second input unit is output. When the signal received in is included in the second identification information, a control unit for outputting the second detection result received by the first input unit is provided.

Another aspect of the present disclosure is also a control device. This device can receive a signal including the first input unit that receives the detection result of the sensor and the first identification information for identifying the first operating device from the first operating device, and the second operating device. When the signal including the second identification information for identifying is included in the second input unit which can receive the signal from the second operation device and the signal received in the second input unit contains the first identification information. , The detection result received by the first input unit is output to the first output destination, and when the signal received by the second input unit contains the second identification information, the detection result received by the first input unit is output. , A control unit for outputting to a second output destination different from the first output destination.

It should be noted that any combination of the above components and the conversion of the expression of the present disclosure between a method, a device, a system, a computer program, a recording medium on which a computer program is recorded, or the like is also effective as an aspect of the present disclosure. is there.

According to the present disclosure, the state of the device can be easily confirmed from a position away from the device.

It is a figure which shows the structure of the control system which concerns on Example 1. FIG. It is a figure which shows the data structure of the state table stored in the storage part of FIG. 3A and 3B are diagrams showing the data structure of the control table stored in the storage unit of FIG. 4 (a)-(c) are views showing a screen displayed on the display unit of the mobile terminal device of FIG. 1. It is a figure which shows the structure of the setting apparatus which concerns on Example 1. FIG. It is a flowchart which shows the output procedure by the control system of FIG. It is a flowchart which shows the setting procedure by the control system of FIG. It is a figure which shows the data structure of the control table stored in the storage part which concerns on Example 2. FIG. It is a flowchart which shows the output procedure by the control system which concerns on Example 2.

(Example 1)
An outline of the present embodiment will be described before the embodiment of the present disclosure is specifically described. An embodiment relates to a control system that notifies the state of each of a plurality of devices installed in a facility such as a house at a position away from the devices. An example of the device is a door provided at an opening of a facility, an opening / closing sensor installed on an opening / closing member such as a window, a window key sensor, and a sensor such as an electric lock. It can be said that these are sensors that can detect the closed state of the door. Further, another example of the device is a device such as a lighting device and an air conditioner. In this embodiment, since attention is paid to detecting the state even in devices such as lighting devices and air conditioners, it can be said that such devices are also sensors. These sensors are connected to a control device installed in the facility and transmit the detection result to the control device. In addition, the control device is connected to a server outside the facility via a network, and the server can be accessed from an information terminal device such as a smartphone.

A plurality of operation devices having a simple structure such as a push button can be connected to the control device. Identification information for identifying the operation device is given to each operation device. For example, the first operation device is given the first identification information, and the second operation device is given the second identification information. Will be done. When the user pushes down the push button of the first operating device, the first operating device sends a wireless signal including the first identification information to the control device, and when the user pushes down the push button of the second operating device, the first 2 The operating device transmits a radio signal including the second identification information to the control device. The control device holds in advance the correspondence between each identification information and the sensor. For example, the first identification information is associated with the window key sensor, and the second identification information is associated with the lighting device. When the received radio signal contains the first identification information, the control device transmits the detection result of the window key sensor to the information terminal device via the server, and the received radio signal includes the second identification information. If so, the detection result of the lighting device is transmitted to the information terminal device via the server.

With such a configuration, when the user pushes down the push button of the first operating device in a room different from the room in which the lighting device is installed, the state of the window key sensor, for example, the locked state or the unlocked state is displayed on the information terminal device. It can be confirmed at. Further, when the user pushes down the push button of the second operating device at the entrance, the state of the lighting device, for example, turning on or off, can be confirmed on the information terminal device.

FIG. 1 shows the configuration of the control system 1000. The control system 1000 includes a window key sensor 220, a lighting device 240, an air conditioning device 260, a first operating device 280a, a second operating device 280b, which are collectively referred to as an operating device 280, a control device 300, a router 400, a speaker 410, and a network 420. Includes server 440 and mobile terminal device 500. Here, the number of the window key sensor 220, the lighting device 240, and the air conditioner 260 is set to "1", and the number of the operating devices 280 is set to "2", but the number is not limited thereto. The sensor capable of detecting the door lock state is not limited to the window key sensor 220. For example, an open / close sensor and an electric lock may be included. Further, the equipment is not limited to the lighting device 240 and the air conditioner 260.

The window key sensor 220 includes a detection unit 222, a control unit 224, and a communication unit 226, the lighting device 240 includes a control unit 242, an operation unit 244, and a communication unit 246, and the air conditioner 260 includes a control unit 262 and an operation unit. The operation device 280 includes a push button 282, a control unit 284, and a communication unit 286, including 264 and a communication unit 266. The control device 300 includes a first communication unit 310, a second communication unit 312, a storage unit 314, an operation unit 316, a notification unit 318, and a processing unit 330, and the processing unit 330 includes a first input unit 340 and a second input unit. 342, a control unit 344, and an output unit 346 are included.

The window key sensor 220, the lighting device 240, the air conditioning device 260, the operating device 280, the control device 300, the router 400, and the speaker 410 are installed in the facility 100, and the network 420 and the server 440 are installed outside the facility 100. The facility 100 is a building to be controlled by the control system 1000, for example, a detached house. The facility 100 is not limited to a detached house, and may be a dwelling unit of an apartment house, an office building, a commercial facility, or the like. An opening / closing member such as a door or a window is provided at the opening of the facility 100. A window key sensor 220 is installed on the opening / closing member as a sensor capable of detecting the door closed state of the opening / closing member. A lighting device 240 and an air conditioner 260 are installed in the room of the facility 100. The window key sensor 220, the lighting device 240, and the air conditioner 260 execute wireless communication with the control device 300. As the wireless communication, for example, a specific low power radio is used, but the present invention is not limited to this, and wired communication may be further executed.

The window key sensor 220 is a lock / unlock sensor capable of detecting the lock / unlock state (locked state or unlocked state) of the opening / closing member provided in the opening of the facility 100. When the opening / closing member is a window, the window key sensor 220 is also called a crescent lock sensor, for example, a magnet attached to the handle of the crescent lock and a magnetometer facing the magnet when the handle of the crescent lock is in the locked position. It has a sensor. The detection unit 222 of the window key sensor 220 detects whether the opening / closing member is in the locked state or the unlocked state based on the magnitude of the magnetism detected by the magnetic sensor. When the locking / unlocking state (locking state or unlocking state) of the opening / closing member detected by the detection unit 222 changes, the control unit 224 transmits a detection result indicating the locking / unlocking state of the opening / closing member from the communication unit 226 to the control device 300. Let me.

Further, the detection unit 222 detects the remaining amount of the battery for driving the window key sensor 220. Since a known technique may be used for detecting the remaining battery level, the description thereof will be omitted here. The battery level is indicated as, for example, 80%, 50%. When the remaining battery level detected by the detection unit 222 changes, the control unit 224 causes the communication unit 226 to transmit the remaining battery level to the control device 300. Here, the transmission of the remaining battery level may be performed not every time the remaining battery level changes, but when a predetermined amount such as 5% changes.

The lighting device 240 illuminates the room of the facility 100 by lighting. The operation unit 244 is, for example, a button that can be pushed down, and receives an operation input of turning on or off when pushed down by the user. When the operation unit 244 receives the operation input by the user, the operation unit 244 outputs an operation signal corresponding to the operation input to the control unit 242. The control unit 242 is composed of, for example, a microcomputer having a processor and a memory. When the processor executes the program, various functions of the control unit 242 are realized by the computer system. The control unit 242 turns on and off based on the operation signal received from the operation unit 244. Although the control unit 242 sets lighting or extinguishing, it can be said to be a lighting sensor because it can detect the set lighting state (lighting or extinguishing). When the detected lighting state (turning on or off) changes, the control unit 242 causes the communication unit 246 to transmit a detection result indicating the lighting state to the control device 300.

The air conditioner 260 regulates the temperature or humidity of the facility 100 by performing cooling, heating, ventilation, and the like. The operation unit 264 is, for example, a button that can be pushed down, and receives an operation input for operation or stop by being pushed down by the user. The operation unit 264 may receive the operation input of the set temperature. When the operation unit 264 receives the operation input by the user, the operation unit 264 outputs an operation signal corresponding to the operation input to the control unit 262. The control unit 262 is composed of, for example, a microcomputer having a processor and a memory. When the processor executes the program, the computer system realizes various functions of the control unit 262. The control unit 262 executes cooling, heating, ventilation, and the like based on the operation signal received from the operation unit 264. The control unit 262 sets the operation, stop, and set temperature of cooling, heating, ventilation, etc., but can detect the set air conditioning state (operation, stop, set temperature), so that it can be said to be an air conditioning sensor. When the detected air-conditioning state (operation, stop, set temperature) changes, the control unit 262 causes the communication unit 266 to transmit a detection result indicating the air-conditioning state to the control device 300.

The window key sensor 220, the lighting device 240, and the air conditioner 260 are sensors whose detection contents are different from each other. Hereinafter, the window key sensor 220, the lighting device 240, and the air conditioner 260 may be collectively referred to as “sensors”.

As described above, the first communication unit 310 of the control device 300 corresponds to, for example, the specific low power radio, and receives the detection result from each of the window key sensor 220, the lighting device 240, and the air conditioner 260. The detection result includes identification information (hereinafter, referred to as “sensor identification information”) for identifying the sensor that is the transmission source. The first communication unit 310 outputs the detection result to the processing unit 330. The first communication unit 310 receives the remaining battery level from the window key sensor 220. The remaining battery level also includes sensor identification information. The first communication unit 310 outputs the remaining battery level to the processing unit 330.

The processing unit 330 stores the received detection result or the remaining battery level in the storage unit 314. The storage unit 314 stores the detection result and the remaining battery level for each sensor identification information. This corresponds to storing the detection result and the remaining battery level for each sensor. FIG. 2 shows the data structure of the state table stored in the storage unit 314. For the window key sensor 220, the "locked state" or "unlocked state" is indicated as the detection result, and the value of the remaining battery level is indicated. As a detection result, "lighting" or "turning off" is indicated for the lighting device 240. For the air conditioner 260, "operating" or "stopped" is indicated as the detection result, and "set temperature" is also indicated when it is "operating". Here, it can be said that the "unlocked state" is an incompletely locked state. Return to FIG.

The processing unit 330 causes each of the window key sensor 220, the lighting device 240, and the air conditioner 260 to periodically transmit a confirmation signal for confirming the connection from the first communication unit 310. Upon receiving the confirmation signal, each of the window key sensor 220, the lighting device 240, and the air conditioner 260 transmits a response signal for indicating a response to the confirmation signal to the control device 300. The response signal also contains sensor identification information. When the first communication unit 310 of the control device 300 receives the response signal, the first communication unit 310 outputs the response signal to the processing unit 330. By such processing, the processing unit 330 determines that communication with the sensor that has received the response signal to the confirmation signal is possible. On the other hand, the processing unit 330 determines that communication with a sensor that does not receive the response signal to the confirmation signal for a certain period of time is impossible. The processing unit 330 stores the communication state indicating whether communication is possible or not possible for each sensor identification information. In the state table shown in FIG. 2, "communication possible" or "communication impossible" is shown as the communication state for each sensor.

The second communication unit 312 executes, for example, wireless communication or wired communication, and is connected to the router 400. As the wireless communication, for example, a wireless LAN (Local Area Network) is used, but the wireless communication is not limited to this. A speaker 410 is connected to the router 400, and the second communication unit 312 communicates with the speaker 410 via the router 400. For example, the second communication unit 312 transmits an audio signal to the speaker 410 via the router 400. The speaker 410 outputs voice based on the received voice signal. The speaker 410 may receive voice from the outside by providing a microphone and transmit a voice signal based on the voice to the second communication unit 312 via the router 400.

Further, the router 400 is connected to the server 440 via the network 420. The server 440 connects the mobile terminal device 500 via the network 420. In such a configuration, the control device 300 and the mobile terminal device 500 are connected via the server 440. That is, the server 440 has a function for connecting the control device 300 and the mobile terminal device 500.

The mobile terminal device 500 is, for example, a smartphone, a tablet terminal device, or a mobile phone device, and is used by a user who resides in the facility 100. The mobile terminal device 500 is connected to the server 440 via the network 420 as described above by executing wireless communication. As the wireless communication, for example, a mobile phone system such as LTE (Long Term Evolution) or a wireless LAN is used, but the wireless communication is not limited to this. The portable terminal device 500 includes a microcomputer having a processor and a memory, and various functions are realized by the computer system when the processor executes a program. In this embodiment, an application program (hereinafter, referred to as "control system application") capable of executing processing in the control system 1000 is executed.

The operating device 280 is, for example, a remote controller. As described above, the identification information for identifying each operation device 280 is defined, the first operation device 280a is given the first identification information, and the second operation device 280b is given the second identification information. To. The push button 282 is, for example, a button that can be pushed down. When the push button 282 detects the push-down by the user, the push button 282 notifies the control unit 284 of the push-down. When the control unit 284 is notified of the push-down, the control unit 284 outputs a wireless signal to the communication unit 286. The radio signal contains identification information. Therefore, the radio signal output from the control unit 284 of the first operation device 280a includes the first identification information, and the radio signal output from the control unit 284 of the second operation device 280b includes the second identification information. Is done. The radio signal may include information other than the identification information. The communication unit 286 receives the radio signal from the control unit 284. The communication unit 286 corresponds to the specific low power radio and transmits a radio signal to the control device 300.

The first communication unit 310 of the control device 300 receives the radio signal from the operation device 280. The first communication unit 310 outputs a radio signal to the processing unit 330. The first input unit 340 of the processing unit 330 receives the detection results of each of the window key sensor 220, the lighting device 240, and the air conditioner 260 from the storage unit 314. Further, the first input unit 340 receives the remaining battery level in the window key sensor 220 from the storage unit 314. Further, the first input unit 340 receives the communication state in each of the window key sensor 220, the lighting device 240, and the air conditioner 260. The reception of information in the first input unit 340 is sequentially performed at the timing when the information stored in the storage unit 314 is updated. The first input unit 340 outputs the received information to the control unit 344.

The second input unit 342 can receive the radio signal received by the first communication unit 310. That is, the second input unit 342 can receive the radio signal including the first identification information from the first operation device 280a, and also receives the radio signal including the second identification information from the second operation device 280b. It is possible. The second input unit 342 outputs the received radio signal to the control unit 344.

The storage unit 314 stores a control table in which the identification information is associated with an information source such as a detection result. 3 (a)-(b) show the data structure of the control table stored in the storage unit 314. In FIG. 3A, "1" shown in "identification information" corresponds to the above-mentioned first identification information, and "2" corresponds to the above-mentioned second identification information. Further, "1" of "identification information" is associated with the window key sensor 220 of the "information source" and is associated with the mobile terminal device 500 of the "output destination". Further, "2" of "identification information" is associated with the lighting device 240 of the "information source" and is associated with the mobile terminal device 500 of the "output destination". FIG. 3B will be described later and returns to FIG.

The control unit 344 extracts the identification information from the radio signal received by the second input unit 342. The control unit 344 refers to the control table stored in the storage unit 314 and identifies the information source and output destination corresponding to the identification information. When the identification information is the first identification information, the control unit 344 identifies the window key sensor 220 of the "information source" and the mobile terminal device 500 of the "output destination". The control unit 344 generates a signal that stores the sensor identification information of the window key sensor 220, the detection result of the window key sensor 220, the remaining battery level, and the communication status, and the output destination is set to the portable terminal device 500. Then, the signal is output to the output unit 346. The output unit 346 causes the second communication unit 312 to transmit the signal received from the control unit 344.

On the other hand, when the identification information is the second identification information, the control unit 344 identifies the lighting device 240 of the "information source" and the mobile terminal device 500 of the "output destination". The control unit 344 generates a signal that stores the sensor identification information of the lighting device 240, the detection result of the lighting device 240, and the communication state, and sets the output destination to the mobile terminal device 500, and outputs the signal. Output to unit 346. The output unit 346 causes the second communication unit 312 to transmit the signal received from the control unit 344.

The second communication unit 312 transmits the signal received from the output unit 346 to the server 440 via the router 400 and the network 420, and causes the server 440 to transmit the signal to the mobile terminal device 500. The server 440 transmits a signal to the mobile terminal device 500 via the network 420 according to the instruction from the second communication unit 312.

The mobile terminal device 500 receives the signal from the server 440. The control system application executed in the mobile terminal device 500 extracts the information contained in the received signal. When the operation in the first operating device 280a is the starting point, the extracted information includes the sensor identification information of the window key sensor 220, the detection result in the window key sensor 220, the remaining battery level, and the communication state. When the operation in the second operating device 280b is the starting point, the extracted information includes the sensor identification information of the lighting device 240, the detection result in the lighting device 240, and the communication state. The mobile terminal device 500 generates a screen showing such information, and displays the screen on a display unit (not shown).

4 (a)-(c) show a screen displayed on the display unit of the mobile terminal device 500. FIG. 4A is a screen when the sensor identification information of the window key sensor 220, the detection result of the window key sensor 220, the remaining battery level, and the communication state are received. The control system application executed in the mobile terminal device 500 identifies the window key sensor 220 based on the sensor identification information. Further, in the control system application, the mounting position "living room window" of the window key sensor 220 is set. Further, it is assumed that the received detection result is in the locked state. From these, a screen showing the message "The key to the living room window is locked" is displayed. If the received detection result is unlocked, the message "Unlocked" is displayed. Although the remaining battery level and the communication state are not shown in FIG. 4A, these may be shown.

FIG. 4B is a screen when the sensor identification information of the lighting device 240, the detection result of the lighting device 240, and the communication state are received. The control system application executed in the mobile terminal device 500 identifies the lighting device 240 based on the sensor identification information. Further, in the control system application, the mounting position "living room" of the lighting device 240 is set. Further, it is assumed that the received detection result is lit. From these, a screen showing the message "The living room lights are on" is displayed. If the received detection result is off, the message "off" is displayed. Although the communication state is not shown in FIG. 4B, it may be shown. FIG. 4 (c) will be described later, and the process returns to FIG.

Up to this point, the control table stored in the storage unit 314 has been assumed to be FIG. 3A, but the control table may be shown as shown in FIG. 3B. A "condition" is added to the control table of FIG. 3 (b) as compared with the control table of FIG. 3 (a). If the "condition" is "8:00 to 20:00", the "2" of the "identification information" is associated with the air conditioner 260 of the "information source" and the mobile terminal device 500 of the "output destination". Can be associated with. On the other hand, if the "condition" is "20:00 to 8:00", the "2" of the "identification information" is associated with the lighting device 240 of the "information source" and the mobile terminal of the "output destination". It is associated with the device 500. Return to FIG.

When the identification information is the second identification information, the control unit 344 acquires the time from the timekeeping function of the control unit 344. If the acquired time is included in "8:00 to 20:00" of the "condition", the control unit 344 connects the air conditioner 260 of the "information source" and the mobile terminal device 500 of the "output destination". Identify. The control unit 344 generates a signal that stores the sensor identification information of the air conditioner 260, the detection result of the air conditioner 260, and the communication state, and the output destination is set to the mobile terminal device 500, and outputs the signal. Output to unit 346. On the other hand, if the acquired time is included in "20:00 to 8:00" of the "condition", the control unit 344 has the lighting device 240 of the "information source" and the mobile terminal device 500 of the "output destination". And identify. The control unit 344 generates a signal that stores the sensor identification information of the lighting device 240, the detection result of the lighting device 240, and the communication state, and sets the output destination to the mobile terminal device 500, and outputs the signal. Output to unit 346. The output unit 346 causes the second communication unit 312 to transmit the signal received from the control unit 344.

The mobile terminal device 500 executes the same processing as before, generates a screen showing the information extracted from the received signal, and displays the screen on the display unit (not shown). FIG. 4C is a screen when the sensor identification information of the air conditioner 260, the detection result of the air conditioner 260, and the communication state are received. The control system application executed in the mobile terminal device 500 identifies the air conditioner 260 based on the sensor identification information. Further, in the control system application, the mounting position "bedroom" of the air conditioner 260 is set. Further, it is assumed that the received detection result is during operation and the set temperature is 25 ° C. From these, a screen showing the message "The air conditioner in the bedroom operates at the set temperature of 25 ° C." is displayed. If the received detection result is stopped, the message "Stopped" is displayed. Although the communication status is not shown in FIG. 4 (c), it may be shown. FIG. 4 (c) corresponds to the case where the "condition" is "8:00 to 20:00", and FIG. 4 (b) shows the case where the "condition" is "20:00 to 8:00". Corresponds to. Return to FIG.

As described above, when the signal includes the second identification information, the control unit 344 of the control device 300 outputs the information regarding the air conditioner 260 in the first situation, which is different from the first situation. In the second situation, the information about the lighting device 240 is output. The first situation corresponds to "8: 00 to 20:00" of "condition", and the second situation corresponds to "20:00 to 8:00" of "condition". That is, the control unit 344 changes the information source and the output destination according to the conditions even if the identification information is the same. Here, the condition is set for the time, but is not limited to the time. For example, it may be set for the weather. At that time, the control unit 344 connects to the weather forecast server via the Internet, acquires the weather information from the weather forecast server, and changes the correspondence according to the weather information.

Until now, the output destination has been the mobile terminal device 500, and the detection result is displayed from the screen of the mobile terminal device 500. However, the detection result may be output as voice from the speaker of the mobile terminal device 500. Further, the output destination may be the notification unit 318 in the control device 300. The notification unit 318 is, for example, a display, and displays the same screen as in FIGS. 4 (a)-(c). The notification unit 318 is, for example, a speaker, and may output the voice of the detection result. Further, the output destination may be a speaker 410 connected to the second communication unit 312 via the router 400. The speaker 410 outputs, for example, the sound of the detection result.

Further, the control device 300 may execute the following processing. The operation unit 316 of the control device 300 receives an instruction to select one of the alert mode and the home mode. The processing unit 330 can execute the alert mode and the home mode, sets the alert mode when receiving the instruction to select the alert mode, and sets the at-home mode when receiving the instruction to select the home mode. .. When the home mode is set, the processing unit 330 is abnormal even if the detection result received by the first communication unit 310 and the detection result of the window key sensor 220 changes from the locked state to the unlocked state. Is not detected when

On the other hand, when the alert mode is set, the processing unit 330 is the detection result received by the first communication unit 310, and when the detection result of the window key sensor 220 changes from the locked state to the unlocked state. , Detects that an abnormality has occurred. When the processing unit 330 detects that an abnormality has occurred, the processing unit 330 causes the output unit 346 to output a warning. In response to this, the mobile terminal device 500 displays a screen for notifying the warning, or outputs a voice for notifying the warning. The output of the warning is not limited to these, and the notification unit 318 may display a screen for notifying the warning, and the speaker 410 may output a voice for notifying the warning. Under such circumstances, when the radio signal received by the second input unit 342 includes the first identification information and the detection result of the window key sensor 220 received by the first input unit 340 indicates a locked state. The processing unit 330 may switch the home mode to the alert mode and set it.

The subject of the device, system, or method in the present disclosure comprises a computer. By executing the program by this computer, the function of the subject of the device, system, or method in the present disclosure is realized. A computer has a processor that operates according to a program as a main hardware configuration. The type of processor does not matter as long as the function can be realized by executing the program. The processor is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or an LSI (Large Scale Integration). The plurality of electronic circuits may be integrated on one chip or may be provided on a plurality of chips. The plurality of chips may be integrated in one device, or may be provided in a plurality of devices. The program is recorded on a non-temporary recording medium such as a computer-readable ROM, optical disc, or hard disk drive. The program may be stored in the recording medium in advance, or may be supplied to the recording medium via a wide area communication network including the Internet or the like.

As described above, the control device 300 switches the detection result to be output based on the identification information set in the operation device 280. Therefore, in order to use the operating device 280, it is necessary to set the identification information in the operating device 280 in advance. This setting is preferably simple, but it is desirable to limit the number of people who can change it in order to suppress the deterioration of security. In order to satisfy such a requirement, the setting device 600 according to the present embodiment has the following configuration.

FIG. 5 shows the configuration of the setting device 600. The setting device 600 includes an input unit 610, a storage unit 612, an authentication unit 614, a control unit 616, and an output unit 618. A terminal device (not shown), which is a communication device such as a smartphone, can execute a pre-installed application program, and the setter executes the application program and logs in to the application program using the registration information. .. The terminal device may be the same as the mobile terminal device 500 of FIG. The registration information is information for identifying a setter who can set the operation device 280. The setter inputs the first identification information or the second identification information to be set. The terminal device transmits a signal (hereinafter, referred to as “registration request”) including the first identification information, the second identification information, and the registration information to the setting device 600.

The setting device 600 sets the operating device 280, for example, the first operating device 280a or the second operating device 280b. The input unit 610 of the setting device 600 can execute communication with the terminal device, and receives a registration request from the terminal device. The first identification information or the second identification information is the target of setting. Therefore, it can be said that the input unit 610 receives the registration information, the first identification information when the first operation device 280a is set, and the second identification information when the second operation device 280b is set. The input unit 610 outputs the information included in the registration request to the authentication unit 614.

The storage unit 612 stores the registration information that has already been registered. The authentication unit 614 executes the authentication process for the registration information received by the input unit 610 by referring to the registration information stored in the storage unit 612. For example, the authentication unit 614 determines that the authentication process is successful if the registration information received by the input unit 610 is registered. On the other hand, the authentication unit 614 determines that the authentication process has failed if the registration information received by the input unit 610 is not registered. The authentication process is not limited to such a process. When the authentication process fails, the authentication unit 614 ends the process. On the other hand, the authentication unit 614 outputs the information received from the input unit 610 to the control unit 616 when the authentication process is successful.

When the authentication process in the authentication unit 614 is successful, the control unit 616 generates a signal (hereinafter, referred to as “setting signal”) including the first identification information or the second identification information received from the input unit 610. The control unit 616 outputs the setting signal to the output unit 618. The output unit 618 can execute communication with the operating device 280, and transmits a setting signal to the operating device 280. Specifically, if the authentication process is successful, the output unit 346 outputs a setting signal including the first identification information to the first operating device 280a when setting the first operating device 280a. On the other hand, if the authentication process is successful, the output unit 346 outputs a setting signal including the second identification information to the second operating device 280b when setting the second operating device 280b.

The communication unit 286 of the operating device 280 receives the setting signal from the setting device 600. The communication unit 286 of the first operation device 280a acquires the first identification information from the setting signal and outputs the first identification information to the control unit 284. The communication unit 286 of the second operation device 280b acquires the second identification information from the setting signal and outputs the second identification information to the control unit 284. The control unit 284 sets the received first identification information or the second identification information.

The operation of the control system 1000 with the above configuration will be described. FIG. 6 is a flowchart showing an output procedure by the control system 1000. The first input unit 340 receives the detection result of the window key sensor 220 (S10) and receives the detection result of the lighting device 240 (S12). The second input unit 342 receives the radio signal (S14). When the identification information is "1" (Y in S16), the control unit 344 causes the output unit 346 to output the detection result of the window key sensor 220 (S18). When the identification information is not "1" (N in S16), for example, when the identification information is "2", the control unit 344 causes the output unit 346 to output the detection result in the lighting device 240 (S20).

FIG. 7 is a flowchart showing a setting procedure by the control system 1000. The output unit 346 outputs the detection result of the window key sensor 220 (S50). When the detection result is in the locked state (Y in S52), the control unit 344 sets the alert mode (S54). When the detection result is not in the locked state (N in S52), the control unit 344 sets the home mode (S56).

According to this embodiment, the first detection result is output when the first identification information is received from the first operating device 280a, and the second detection result is output when the second identification information is received from the second operating device 280b. Since the output is performed, the state of the device can be easily confirmed from a position away from the device. Further, since the first detection result or the second detection result is output to at least one of the notification unit 318, the speaker 410, and the mobile terminal device 500, the degree of freedom of the means for notifying the state of the device can be improved. Further, since the second detection result is output in the first situation and the third detection result is output in the second situation, the degree of freedom of the output detection result can be improved. Further, since the alert mode is set when the first detection result indicates the door closed state, security can be improved. Further, when the authentication process for the registered information is successful, the first identification information is output to the first operation device 280a and the second identification information is output to the second operation device 280b, so that the deterioration of security is suppressed. it can.

The outline of one aspect of the present disclosure is as follows. The control device (300) of a certain aspect of the present disclosure receives the first detection result in the first sensor, the first input unit (340) that receives the second detection result in the second sensor, and the first operation device (280a). ) Can be received from the first operating device (280a), and the second identification information for identifying the second operating device (280b) is included. The first input is when the signal received by the second input unit (342) and the second input unit (342), which can receive the signal from the second operating device (280b), includes the first identification information. The first detection result received by the unit (340) is output, and when the signal received by the second input unit (342) contains the second identification information, the first input unit (340) receives the first detection result. 2 A control unit (344) for outputting a detection result is provided.

The output destination of the first detection result or the second detection result in the control unit (344) is the notification unit (318) capable of displaying the first detection result or the second detection result, and the voice of the first detection result or the second detection result. Is at least one of a speaker (410) capable of outputting the sound, and a mobile terminal device (500) connected to the control device (300) via a network (420).

The first input unit (340) receives the third detection result of the third sensor, and the control unit (344) receives the second identification information in the signal received by the second input unit (342). , In the first situation, the second detection result received by the first input unit (340) is output, and in the second situation different from the first situation, the second detection result is received by the first input unit (340). The third detection result is output.

The first sensor is a sensor installed on an opening / closing member provided in the facility and is a sensor capable of detecting a door lock state, and the control unit (344) receives a signal received by the second input unit (342). When the first identification information is included in the above and the first detection result received by the first input unit (340) indicates a door lock state, a warning is output when the door lock state changes to an incomplete door lock state. Set the mode.

A setting device (600) for setting the first operating device (280a) or the second operating device (280b), which receives registration information for identifying the setter and sets the first operating device (280a). In this case, the first identification information is received, and when the second operation device (280b) is set, the input unit (610) that receives the second identification information and the registration information received by the input unit (610) are authenticated. If the authentication process by the authentication unit (614) and the authentication unit (614) is successful, the first identification information received by the input unit (610) when the first operation device (280a) is set is transmitted to the first operation device (the first operation device (610a). It is provided with an output unit (618) that outputs to the second operating device (280b) and outputs the second identification information received by the input unit (610) when the second operating device (280b) is set by outputting to the second operating device (280b). You may.

(Example 2)
Next, Example 2 will be described. The second embodiment relates to the control system 1000 that notifies the state of the device installed in a facility such as a house at a position away from the device, similarly to the first embodiment. In the first embodiment, the detection result in another device is notified by changing the operating device 280 to be operated. On the other hand, in the second embodiment, the output destination of the detection result is changed by changing the operating device 280 to be operated. The configuration of the control system 1000 according to the second embodiment is the same type as that of FIG. Here, the difference from the first embodiment will be mainly described.

Here, as an example, it is assumed that the first operating device 280a and the second operating device 280b are installed at different heights at the entrance of the facility 100. The first operating device 280a is installed at a position higher than the second operating device 280b. For example, the first operating device 280a is installed at a height that is easy for adults to operate, and the second operating device 280b is installed by a child. It is installed at a height that is easy to operate.

FIG. 8 shows the data structure of the control table stored in the storage unit 314. The "1" of the "identification information" is associated with the window key sensor 220 of the "information source" and is associated with the mobile terminal device 500 of the "output destination". Further, "2" of "identification information" is associated with the window key sensor 220 of the "information source" and is associated with the speaker 410 of the "output destination". That is, different outputs are set for "1" and "2" of the "identification information". Return to FIG.

The control unit 344 extracts the identification information from the radio signal received by the second input unit 342. The control unit 344 refers to the control table stored in the storage unit 314 and identifies the information source and output destination corresponding to the identification information. When the identification information is the first identification information, the control unit 344 identifies the window key sensor 220 of the "information source" and the mobile terminal device 500 of the "output destination". The control unit 344 generates a signal that stores the sensor identification information of the window key sensor 220, the detection result of the window key sensor 220, the remaining battery level, and the communication status, and the output destination is set to the portable terminal device 500. Then, the signal is output to the output unit 346. The output unit 346 causes the second communication unit 312 to transmit the signal received from the control unit 344. The second communication unit 312 transmits the signal received from the output unit 346 to the server 440 via the router 400 and the network 420, and causes the server 440 to transmit the signal to the mobile terminal device 500. The server 440 transmits a signal to the mobile terminal device 500 via the network 420 according to the instruction from the second communication unit 312. Following this, the mobile terminal device 500 displays the same screen as in FIG. 4A.

On the other hand, when the identification information is the second identification information, the control unit 344 identifies the window key sensor 220 of the "information source" and the speaker 410 of the "output destination". The control unit 344 generates a signal that stores the sensor identification information of the window key sensor 220, the detection result of the window key sensor 220, the remaining battery level, and the communication status, and the output destination is set to the speaker 410. The signal is output to the output unit 346. The output unit 346 causes the second communication unit 312 to transmit the signal received from the control unit 344. The second communication unit 312 transmits the signal received from the output unit 346 to the speaker 410 via the router 400. The speaker 410 outputs, for example, the sound of the detection result.

The operation of the control system 1000 with the above configuration will be described. FIG. 9 is a flowchart showing an output procedure by the control system 1000. The first operating device 280a pushes down the push button 282 (S100) and transmits a wireless signal (S102). The control device 300 transmits the detection result to the mobile terminal device 500 (S104). The mobile terminal device 500 displays the detection result (S106). The second operating device 280b pushes down the push button 282 (S108) and transmits a radio signal (S110). The control device 300 transmits the detection result screen to the speaker 410 (S112). The speaker 410 outputs the sound of the detection result (S114).

According to this embodiment, the detection result is output to the first output destination when the first identification information is received from the first operating device 280a, and the detection result is obtained when the second identification information is received from the second operating device 280b. Is output to the second output destination, so that the state of the device can be easily confirmed from a position away from the device. Further, since at least one of the notification unit 318, the speaker 410, and the mobile terminal device 500 is set as the first output destination or the second output destination, the degree of freedom of the means for notifying the state of the device can be improved. In addition, security can be improved because the alert mode is set when the detection result indicates a closed door state.

The outline of one aspect of the present disclosure is as follows. Another aspect of the present disclosure is also a control device (300). This device receives a signal from the first operating device (280a) including the first input unit (340) that receives the detection result of the sensor and the first identification information for identifying the first operating device (280a). A second input unit (342) and a second input unit (342), which are capable and can receive a signal including the second identification information for identifying the second operating device (280b) from the second operating device (280b). When the signal received by the input unit (342) includes the first identification information, the detection result received by the first input unit (340) is output to the first output destination, and the second input unit (342) When the signal received in is included in the second identification information, the control unit (344) that outputs the detection result received by the first input unit (340) to a second output destination different from the first output destination. And.

The first output destination or the second output destination in the control unit (344) is a network to a notification unit (318) capable of displaying the detection result, a speaker (410) capable of outputting the sound of the detection result, and the control device (300). It is at least one of a first mobile terminal device (500) or a second mobile terminal device (500) connected via (420).

The sensor is a sensor installed in an opening / closing member provided in the facility and is a sensor capable of detecting a door lock state, and a control unit (344) receives a signal at the second input unit (342) and When the detection result received by the first input unit (340) indicates a door lock state, a warning mode for outputting a warning when the door lock state changes to an incomplete door lock state is set.

The present disclosure has been described above based on the examples. This embodiment is an example, and it will be understood by those skilled in the art that various modifications are possible for each of these components or combinations of each processing process, and that such modifications are also within the scope of the present disclosure. ..

The combination of Example 1 and Example 2 is also effective. According to this modification, the effect of the combination of Example 1 and Example 2 can be obtained.

100 facilities, 220 window key sensor, 222 detector, 224 control unit, 226 communication unit, 240 lighting device, 242 control unit, 244 operation unit, 246 communication unit, 260 air conditioner, 262 control unit, 264 operation unit, 266 communication Unit, 280 operation device, 282 push button, 284 control unit, 286 communication unit, 300 control device, 310 first communication unit, 312 second communication unit, 314 storage unit, 316 operation unit, 318 notification unit, 330 processing unit, 340 1st input unit, 342 2nd input unit, 344 control unit, 346 output unit, 400 router, 410 speaker, 420 network, 440 server, 500 mobile terminal device, 600 setting device, 610 input unit, 612 storage unit, 614 Authentication unit, 616 control unit, 618 output unit, 1000 control system.

Claims (10)

The first input unit that receives the first detection result of the first sensor and the second detection result of the second sensor,
A signal including the first identification information for identifying the first operating device can be received from the first operating device, and a signal including the second identification information for identifying the second operating device can be received. A second input unit that can be received from the second operating device,
When the first identification information is included in the signal received by the second input unit, the first detection result received by the first input unit is output, and the signal received by the second input unit is used. When the second identification information is included, a control unit that outputs the second detection result received by the first input unit and a control unit.
A control device comprising. The output destination of the first detection result or the second detection result in the control unit is a display unit capable of displaying the first detection result or the second detection result, the first detection result or the second detection result. A speaker capable of outputting audio, at least one of mobile terminal devices connected to this control device via a network.
The control device according to claim 1. The first input unit receives the third detection result in the third sensor and receives the third detection result.
When the signal received by the second input unit includes the second identification information, the control unit outputs the second detection result received by the first input unit in the first situation. If the second situation is different from the first situation, the third detection result received by the first input unit is output.
The control device according to claim 1 or 2. The first sensor is a sensor installed on an opening / closing member provided in a facility and can detect a door lock state.
When the signal received by the second input unit includes the first identification information and the first detection result received by the first input unit indicates a door closed state, the control unit changes the door closed state. Set a warning mode to output a warning when the door is closed incompletely.
The control device according to claim 1. The first input unit that receives the detection result of the sensor and
A signal including the first identification information for identifying the first operating device can be received from the first operating device, and a signal including the second identification information for identifying the second operating device can be received. A second input unit that can be received from the second operating device,
When the first identification information is included in the signal received by the second input unit, the detection result received by the first input unit is output to the first output destination and received by the second input unit. When the signal includes the second identification information, a control unit that outputs the detection result received by the first input unit to a second output destination different from the first output destination.
A control device comprising. The first output destination or the second output destination in the control unit is connected to a display unit capable of displaying the detection result, a speaker capable of outputting the sound of the detection result, and the control device via a network. At least one of one mobile terminal device or a second mobile terminal device,
The control device according to claim 5. The sensor is a sensor installed on an opening / closing member provided in a facility, and is a sensor capable of detecting a door lock state.
The control unit receives a signal at the second input unit, and when the detection result received at the first input unit indicates a door lock state, the control unit warns when the door lock state changes to an incomplete door lock state. Set the alert mode to output,
The control device according to claim 5. A setting device for setting the first operating device or the second operating device according to any one of claims 1 to 7.
An input unit that receives registration information for identifying a setter, receives the first identification information when setting the first operating device, and receives the second identification information when setting the second operating device. When,
An authentication unit that executes an authentication process for the registered information received by the input unit,
If the authentication process in the authentication unit is successful, the first identification information received by the input unit when setting the first operation device is output to the first operation device, and the second operation device is set. An output unit that outputs the second identification information received by the input unit to the second operation device in the case, and an output unit.
A setting device equipped with. The step of receiving the first detection result of the first sensor and the second detection result of the second sensor,
A signal including the first identification information for identifying the first operating device can be received from the first operating device, and a signal including the second identification information for identifying the second operating device can be received. Steps that can be accepted from the second operating device and
When the received signal contains the first identification information, the received first detection result is output, and when the received signal includes the second identification information, the received second identification information is output. Steps to output the detection result and
A program that lets your computer run. Steps to receive the detection result in the sensor and
A signal including the first identification information for identifying the first operating device can be received from the first operating device, and a signal including the second identification information for identifying the second operating device can be received. Steps that can be accepted from the second operating device and
When the received signal contains the first identification information, the received detection result is output to the first output destination, and when the received signal contains the second identification information, the received signal is received. A step of outputting the detection result to a second output destination different from the first output destination, and
A program that lets your computer run.

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