JP2021157818A - Sensor cooperation equipment system - Google Patents

Abstract

To provide a sensor cooperation equipment system that can easily make connection setting between a sensor and a controller that controls the operation of an apparatus using a measurement value of the sensor.SOLUTION: A sensor cooperation equipment system includes: sensors 5-1 to 5-3 that output measurement values through a communication network; a controller 2 including a wireless communication unit that acquires the measurement values output by the sensors 5-1 to 5-3; and a setting terminal 1 that controls connection between the sensors 5-1 to 5-3 and the controller 2. The setting terminal 1 connects to the controller 2 and the sensors 5-1 to 5-3 by wireless communication, displays sensors that can be connected to the controller 2, and transmits procedure setting data indicating a procedure for connecting to a sensor selected by a user by wireless communication to the controller 2.SELECTED DRAWING: Figure 1

Description

The present invention relates to a sensor-linked equipment system that controls a device using the measured values of the sensor.

A technology is known in which an adapter connected to a home electric appliance expands the function of the home electric appliance by processing an additional function that the home electric appliance does not originally have based on the state information acquired from the sensor (). Patent Document 1).

Japanese Unexamined Patent Publication No. 2005-175769

However, in the information processing system described in Patent Document 1, when a new sensor is used for replacement, retrofitting, etc., it is necessary to modify the adapter in order to connect the new sensor. Therefore, when a new sensor is used in a short cycle, it is necessary to repair the adapter each time, which is troublesome.

The present invention has been made in view of the above, and obtains a sensor cooperation equipment system capable of easily setting a connection between a sensor and a controller that controls the operation of a device by using the measured value of the sensor. The purpose is.

In order to solve the above-mentioned problems and achieve the object, the sensor cooperation equipment system according to the present invention has one or more sensors that output measured values through a communication network and wireless communication that acquires the measured values output by the sensors. It includes a controller having a unit and a setting terminal for controlling the connection between the sensor and the controller. The setting terminal connects to the controller and the sensor by wireless communication, displays the sensor that can be connected to the controller, and provides the controller with procedure setting data indicating the procedure for connecting to the sensor selected by the user by wireless communication. Send.

The sensor cooperation equipment system according to the present invention has an effect that the connection setting between the sensor and the controller that controls the operation of the device by using the measured value of the sensor can be easily performed.

The figure which shows the configuration example of the sensor cooperation equipment system Block diagram showing a configuration example of a setting terminal Block diagram showing a controller configuration example Block diagram showing a configuration example of the sensor In the sensor cooperation equipment system, when the setting terminal connects the controller and the sensor and the controller controls the operation of the air conditioner using the measured value measured by the sensor, the setting terminal connects the sensor to the controller. A flowchart showing the operation to be displayed Flowchart showing the operation of the setting terminal Flowchart showing the operation of the sensor transmitting the advertisement signal Flowchart showing the behavior of the response when the sensor receives the request Flowchart showing how the controller sends an advertisement signal Flowchart showing the response behavior when the controller receives a profile request Flowchart showing operation when the controller is central A sequence diagram showing the flow of operations from the setting terminal accepting an operation from the user to connecting the controller and the sensor in the sensor cooperation equipment system. A sequence diagram showing the flow of operation from the controller connecting to the sensor to controlling the air conditioner using the measured values of the sensor in the sensor linkage equipment system. The figure which shows the example of the display screen when the control method setting data is being accepted in the setting terminal.

Hereinafter, the sensor cooperation equipment system according to the embodiment of the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

Embodiment.
FIG. 1 is a diagram showing a configuration example of a sensor cooperation equipment system 10 according to an embodiment of the present invention. The sensor cooperation equipment system 10 includes a setting terminal 1, equipment 4, and sensors 5-1, 5-2, 5-3. The equipment 4 includes a controller 2 and an air conditioner 3. When sensors 5-1 to 5-3 are not distinguished, they may be referred to as sensor 5.

The controller 2 is a remote controller that controls the operation of the air conditioner 3. Further, the controller 2 wirelessly communicates with the sensor 5, receives information such as a measured value from the sensor 5, and controls the operation of the air conditioner 3 using the measured value received from the sensor 5. In the present embodiment, the device controlled by the controller 2 is the air conditioner 3, but this is an example, and the device to be controlled by the controller 2 may be another device such as a lighting device. Further, the configuration of the equipment 4 may be such that the controller 2 is included in the equipment, that is, the air conditioner 3. The controller 2 may be a dedicated adapter for communication for communicating with the sensor 5. The controller 2 can perform wireless communication with the sensor 5 by, for example, BLE (Bluetooth (registered trademark) Low Energy), Wi-Fi (registered trademark), etc., but the wireless communication method is not limited thereto. The controller 2 communicates with the air conditioner 3 by a dedicated communication method. The communication between the controller 2 and the air conditioner 3 may be wireless communication or wired communication.

The setting terminal 1 controls the connection between the sensor 5 and the controller 2, and causes the controller 2 to control the operation of the air conditioner 3 by using the measured value of the sensor 5. The setting terminal 1 performs wireless communication with the controller 2, and is set to control the operation of the air conditioner 3 and the procedure setting data indicating the procedure for connecting the controller 2 to the sensor 5 by wireless communication. The control method setting data that has been set is transmitted. The setting terminal 1 can receive various settings such as control method setting data from the user. Further, the setting terminal 1 can perform wireless communication with the sensor 5. The setting terminal 1 can perform wireless communication with the controller 2 and the sensor 5 by, for example, BLE, Wi-Fi, etc., but the wireless communication method is not limited thereto. The setting terminal 1 may be a dedicated terminal, or may be a smartphone, a tablet terminal, or the like in which an application for realizing the function of the setting terminal 1 is installed.

The sensor 5 is, for example, a temperature sensor, a humidity sensor, an illuminance sensor, a motion sensor, _{a sensor for measuring CO 2} concentration, and the like. The sensors 5-1 to 5-3 may be different types of sensors, or may be sensors of the same type installed at different positions. In the present embodiment, the case where the sensors 5-1 to 5-3 are installed at different positions will be described as an example. In the sensor cooperation equipment system 10, the number of sensors 5 is not limited to three, and may be two or less or four or more. In the sensor cooperation equipment system 10, one or more sensors 5 may be used.

The configuration of the setting terminal 1 will be described. FIG. 2 is a block diagram showing a configuration example of the setting terminal 1 according to the present embodiment. The setting terminal 1 includes a display unit 101, a wireless communication unit 102, a control unit 103, an operation unit 104, and a storage unit 105.

The display unit 101 presents various information to the user, such as a setting screen for setting control method setting data. The display unit 101 is realized by, for example, an LCD (Liquid Crystal Display) or the like. The display unit 101 may be realized by a touch panel together with the operation unit 104 described later.

The wireless communication unit 102 performs wireless communication with the controller 2 and the sensor 5 by a wireless communication method such as BLE or Wi-Fi. The wireless communication unit 102 transmits / receives data to / from the controller 2 and the sensor 5 in both directions. The wireless communication unit 102 is realized by, for example, a BLE or Wi-Fi communication module, a driver, or the like. The wireless communication unit 102 operates as the central of the BLE when performing wireless communication with the BLE.

The storage unit 105 holds data such as the program 105A, the equipment information 105B, the procedure setting data 105D, and the control method setting data 105E. The program 105A is, for example, a program executed by the control unit 103 when the user makes various settings. The equipment equipment information 105B is information about the equipment equipment 4 connected to the setting terminal 1. The equipment information 105B includes the profile information of the controller 2 acquired from the controller 2, the profile information of the sensor 5, and the like. The profile information of the controller 2 includes information for identifying the controller 2, information on the type of sensor 5 to which the controller 2 can be connected, and the like. The profile information of the sensor 5 includes information for identifying the sensor 5. The profile information of the sensor 5 may be obtained directly from the sensor 5. The procedure setting data 105D is data indicating a procedure for the controller 2 to connect to the sensor 5 by wireless communication, and differs depending on the type of the sensor 5. The control method setting data 105E is data set by the user for the controller 2 to control the operation of the air conditioner 3. The control method setting data 105E includes a threshold value for the measured value of the sensor 5, when the measured value exceeds the threshold value, when the measured value falls below the threshold value, when the measured value falls within the range indicated by the threshold value, and. The control content for the air conditioner 3 corresponding to at least one case when the measured value is out of the range indicated by the threshold value is included. The storage unit 105 is realized by, for example, a memory such as a RAM (Random Access Memory) or a ROM (Read Only Memory).

The control unit 103 executes the program 105A stored in the storage unit 105, receives an operation from the user, and makes various settings. The control unit 103 writes and updates the equipment information 105B, the procedure setting data 105D, the control method setting data 105E, and the like stored in the storage unit 105. The control unit 103 transmits the procedure setting data 105D and the control method setting data 105E to the controller 2 and causes the controller 2 to control the operation of the air conditioner 3. In the following description, the operation mainly performed by the setting terminal 1 is actually executed mainly by the control unit 103. The control unit 103 is realized by, for example, a microcontroller, a CPU (Central Processing Unit), or the like.

The operation unit 104 receives an input from the user. The operation unit 104 is realized by an input interface such as a keyboard. The operation unit 104 may be realized by a touch panel together with the display unit 101 described above.

The configuration of the controller 2 will be described. FIG. 3 is a block diagram showing a configuration example of the controller 2 according to the present embodiment. The controller 2 includes a display unit 201, a communication unit 202, a control unit 203, an operation unit 204, and a storage unit 205. The communication unit 202 includes a device communication unit 202A and a wireless communication unit 202B.

The display unit 201 displays the operating state of the air conditioner 3, the control method setting data 205E, the information acquired from the sensor 5, and the like. The display unit 201 is realized by, for example, an LCD or the like. The display unit 201 may be realized by a touch panel together with the operation unit 204 described later.

The device communication unit 202A communicates with the air conditioner 3 by a dedicated communication method. The device communication unit 202A transmits a control instruction or the like to the air conditioner 3, and receives information such as an operating state of the air conditioner 3 from the air conditioner 3. The device communication unit 202A is realized by a communication circuit, a driver, or the like of a dedicated communication method.

The wireless communication unit 202B communicates with the setting terminal 1 and the sensor 5 by a wireless communication method such as BLE or Wi-Fi. The wireless communication unit 202B transmits / receives data to / from the setting terminal 1 and the sensor 5 in both directions. The wireless communication unit 202B is realized by, for example, a BLE or Wi-Fi communication module, a driver, or the like. When the wireless communication unit 202B uses the BLE wireless communication method, the controller 2 operates as a peripheral when communicating with the setting terminal 1, and operates as a central when communicating with the sensor 5.

The storage unit 205 includes a program 205A executed by the control unit 203, air conditioner information 205B regarding the connected air conditioner 3, sensor information 205C regarding the connected sensor 5, and procedure setting data 205D acquired from the setting terminal 1. It holds data such as control method setting data 205E acquired from the setting terminal 1. The program 205A is, for example, a program executed by the control unit 203 when controlling the operation of the air conditioner 3. The air conditioner information 205B is information acquired from the air conditioner 3. The air conditioner information 205B includes profile information of the air conditioner 3, information on the operating state of the air conditioner 3, and the like. The sensor information 205C is information acquired from the sensor 5. The sensor information 205C includes profile information of the sensor 5, measured values measured by the sensor 5, and the like. The storage unit 205 may hold the profile information of the controller 2. The storage unit 205 is realized by, for example, a memory such as a RAM or a ROM.

The control unit 203 executes the program 205A held in the storage unit 205 and performs various controls. Specifically, the control unit 203 controls the connection with the sensor 5 designated by the control method setting data 205E by using the procedure setting data 205D. Further, the control unit 203 controls the operation of the air conditioner 3 based on the control method setting data 205E by using the measured value of the sensor 5 included in the sensor information 205C held in the storage unit 205. The control unit 203 writes and updates the air conditioner information 205B, the sensor information 205C, the procedure setting data 205D, the control method setting data 205E, etc., which are stored in the storage unit 205. In the following description, the operation mainly performed by the controller 2 is actually executed mainly by the control unit 203. The control unit 203 is realized by, for example, a microprocessor, a CPU, or the like.

The operation unit 204 receives an operation such as a temperature setting for the air conditioner 3 from the user. The operation unit 204 is realized by, for example, an input interface such as a switch or a button. The operation unit 204 may be realized by a touch panel together with the display unit 201 described above. When the wireless communication unit 202B uses the BLE wireless communication method, the operation unit 204 may be able to accept a switching operation of whether the controller 2 operates as a peripheral or a central.

The configuration of the sensor 5 will be described. FIG. 4 is a block diagram showing a configuration example of the sensor 5 according to the present embodiment. The sensor 5 includes a display unit 501, a wireless communication unit 502, a control unit 503, an operation unit 504, a storage unit 505, and a measurement unit 506.

The measuring unit 506 measures the state of the environment according to the function of the sensor 5. For example, when the sensor 5 is a temperature sensor, the measuring unit 506 measures the temperature around the sensor 5. When the sensor 5 is a temperature sensor, the measurement unit 506 is realized by a temperature sensor, a driver, or the like.

The display unit 501 displays, for example, the measured value measured by the measuring unit 506, the operating state of the sensor 5, and the like. The display unit 501 is realized by, for example, an LCD, an LED (Light Emitting Diode), or the like. The sensor 5 may be configured not to include the display unit 501.

The wireless communication unit 502 performs wireless communication with the setting terminal 1 and the controller 2 by a wireless communication method such as BLE or Wi-Fi. The wireless communication unit 502 transmits / receives data to / from the setting terminal 1 and the controller 2 in both directions. The wireless communication unit 502 is realized by, for example, a BLE or Wi-Fi communication module, a driver, or the like. When the wireless communication unit 502 uses the BLE wireless communication method, the sensor 5 operates as a peripheral.

The storage unit 505 holds data such as a program 505A executed by the control unit 503 when measuring the state of the environment using the measurement unit 506, and a measured value 505B measured by the measurement unit 506. The storage unit 505 is realized by, for example, a memory such as a RAM or a ROM.

The control unit 503 executes the program 505A stored in the storage unit 505, controls the measurement in the measurement unit 506, and controls the transmission of the measured value to the controller 2. The control unit 503 updates the measured value 505B held in the storage unit 505 with the measured value obtained by the measurement of the measuring unit 506. The control unit 503 transmits the measured value 505B held in the storage unit 505 to the controller 2 via the wireless communication unit 502. In the following description, the operation mainly performed by the sensor 5 is actually executed mainly by the control unit 503. The control unit 503 is realized by, for example, a microcontroller, a CPU, or the like.

The operation unit 504 accepts operations such as power-on or power-off of the sensor 5. The operation unit 504 is realized by a tact switch or the like. The sensor 5 may be configured not to include the operation unit 504.

Subsequently, in the sensor cooperation equipment system 10, when the setting terminal 1 connects the controller 2 and the sensor 5, and the controller 2 controls the operation of the air conditioner 3 using the measured values measured by the sensor 5. The operation of displaying the sensor 5 that can be connected to the controller 2 by the setting terminal 1 will be described. FIG. 5 shows, in the sensor cooperation equipment system 10 according to the present embodiment, the setting terminal 1 connects the controller 2 and the sensor 5, and the controller 2 uses the measured values measured by the sensor 5 to obtain the air conditioner 3. It is a flowchart which shows the operation which the setting terminal 1 displays the sensor 5 which can be connected to a controller 2 when the operation is controlled.

In the sensor cooperation equipment system 10, the setting terminal 1 sets the connection with the controller 2 and the sensor 5 (step S101). Here, the setting terminal 1 performs connection processing with the controller 2 and the sensor 5 by the BLE communication method. The setting terminal 1 performs connection processing with the controller 2 and the sensor 5 according to a general BLE connection processing procedure.

The setting terminal 1 displays to the user the sensor 5 that can be connected to the controller 2 among the connected sensors 5 on the display unit 101 (step S102). Specifically, the setting terminal 1 acquires each profile information from the connected controller 2 and the sensor 5 in the process of step S101. The setting terminal 1 is set for each type of the controller 2 from the information of the type of the controller 2 included in the profile information acquired from the controller 2 and the information of the type of the sensor 5 included in the profile information acquired from the sensor 5. Based on the information on the type of the connectable sensor 5, the sensor 5 that can be connected to the controller 2 is determined and displayed on the display unit 101. For example, since the controller 2 controls the operation of the air conditioner 3, a temperature sensor, a humidity sensor, or the like can be connected to the controller 2.

The setting terminal 1 acquires the information on the type of the connectable sensor 5 from the controller 2, and includes the information on the type of the connectable sensor 5 acquired from the controller 2 and the profile information acquired from the connected sensor 5. Based on the information of the type of the sensor 5, the sensor 5 that can be connected to the controller 2 among the connected sensors 5 may be determined and displayed on the display unit 101.

The user selects the sensor 5 to be connected to the controller 2 from the sensor 5 displayed on the setting terminal 1. The setting terminal 1 receives from the user the selection of the sensor 5 to be connected to the controller 2. The user sets the control method setting data for the setting terminal 1 so as to control the air conditioner 3 using the measured value of the selected sensor 5. The setting terminal 1 receives control method setting data from the user (step S103). Here, when the setting terminal 1 holds the control method setting data corresponding to the sensor 5 that can be connected to the controller 2 based on the information of the type of the sensor that can be connected, the control method can be selected by the user. The setting data may be displayed on the display unit 101. Further, the setting terminal 1 displays the procedure setting data corresponding to the sensor 5 that can be connected to the controller 2 on the display unit 101 so that the user can select it based on the information of the type of the sensor that can be connected. The setting terminal 1 transmits the procedure setting data and the control method setting data to the controller 2.

The controller 2 uses the procedure setting data to set the connection with the sensor 5 specified in the control method setting data. After the connection setting with the sensor 5 is completed, the controller 2 collects the measured value from the connected sensor 5 and controls the operation of the air conditioner 3 according to the measured value according to the control method setting data (step S104).

Next, the operation of each device constituting the sensor cooperation equipment system 10 will be described. FIG. 6 is a flowchart showing the operation of the setting terminal 1 according to the present embodiment. The setting terminal 1 scans the periphery of the setting terminal 1 (step S201). Specifically, the setting terminal 1 collects information on the controller 2 in the vicinity of the setting terminal 1 in connection standby via the wireless communication unit 102. When the setting terminal 1 receives the advertisement signal (step S202: Yes), the setting terminal 1 transmits a request for profile information to the source of the advertisement signal (step S203).

When the setting terminal 1 receives the profile information from the source of the advertisement signal (step S204: Yes), the setting terminal 1 determines whether the source of the profile information is the controller 2 or the sensor 5 based on the identification information included in the profile information. (Step S205). When the setting terminal 1 receives the profile information from the sources of the plurality of advertisement signals, the setting terminal 1 determines whether the controller 2 or the sensor 5 is used for each source of the profile information. The setting terminal 1 sets the connection with the determined controller 2 and the sensor 5. The content of the connection setting is the same as the content of step S101 described above.

The setting terminal 1 displays to the user the sensor 5 that can be connected to the controller 2 among the connected sensors 5 on the display unit 101 (step S206). The content of the connection setting is the same as the content of step S102 described above. When the setting operation of the control method setting data is performed by the user (step S207: Yes), the setting terminal 1 transmits the procedure setting data and the control method setting data to the controller 2 (step S208).

The setting terminal 1 has timed out without receiving the advertisement signal (step S202: No), has not received profile information (step S204: No), or has not received a setting operation from the user (step S204: No). S207: No), the process is terminated.

Next, the operation of the sensor 5 will be described. FIG. 7 is a flowchart showing an operation in which the sensor 5 according to the present embodiment transmits an advertisement signal. The sensor 5 periodically transmits an advertisement signal. The sensor 5 waits until the transmission timing is reached (step S301: No), and when the transmission timing is reached (step S301: Yes), the advertisement signal is transmitted by broadcasting (step S302).

FIG. 8 is a flowchart showing the operation of the response when the sensor 5 according to the present embodiment receives the request. When the sensor 5 receives the request, the sensor 5 confirms the type of the request (step S401). When the sensor 5 receives the measurement value request (step S401: measurement value request), the sensor 5 assumes that the request source is the controller 2 and transmits the measurement value obtained by the measurement unit 506 to the request source controller 2 (step S402). ). When the sensor 5 receives the profile request (step S401: profile request), the sensor 5 transmits the profile information to the requesting setting terminal 1 or controller 2 assuming that the requesting source is the setting terminal 1 or the controller 2 (step S403). ..

Next, the operation of the controller 2 will be described. FIG. 9 is a flowchart showing an operation in which the controller 2 according to the present embodiment transmits an advertisement signal. The controller 2 periodically transmits an advertisement signal while operating as a peripheral. The controller 2 waits until the transmission timing is reached (step S501: No), and when the transmission timing is reached (step S501: Yes), the advertisement signal is transmitted by broadcasting (step S502).

FIG. 10 is a flowchart showing the operation of the response when the controller 2 according to the present embodiment receives the profile request. While operating as a peripheral, the controller 2 waits until it receives the profile request (step S601: No), and when it receives the profile request (step S601: Yes), transmits the profile information to the requesting setting terminal 1 (step S601: Yes). Step S602).

FIG. 11 is a flowchart showing the operation when the controller 2 according to the present embodiment is central. When the controller 2 is already connected to the sensor 5 under the control of the setting terminal 1 (step S701: Yes), the controller 2 requests the sensor 5 for the measured value (step S702). When the controller 2 acquires the measured value from the sensor 5 (step S703: Yes), the controller 2 holds the acquired measured value in the storage unit 205 (step S704).

When the controller 2 has acquired the control method setting data from the setting terminal 1 (step S705: Yes), whether or not the controller 2 executes the control according to the acquired measured value to the air conditioner 3 according to the control method setting data. Is determined (step S706). When the controller 2 executes control (step S707: Yes), the controller 2 outputs a control instruction to the air conditioner 3 and controls the operation of the air conditioner 3 (step S708).

The controller 2 receives control method setting data from the setting terminal 1 when it is not connected to the sensor 5 (step S701: No), or when the measured value is not acquired from the sensor 5 (step S703: No). If it has not been acquired (step S705: No), or if the control is not executed (step S707: No), the process ends.

FIG. 12 is a sequence diagram showing an operation flow until the setting terminal 1 receives an operation from the user and connects the controller 2 and the sensor 5 in the sensor cooperation equipment system 10 according to the present embodiment. FIG. 13 is a sequence diagram showing an operation flow from the connection of the controller 2 to the sensor 5 to the control of the air conditioner 3 using the measured values of the sensor 5 in the sensor cooperation equipment system 10 according to the present embodiment. Is.

In the sequence diagram shown in FIG. 12, the setting terminal 1 receives an operation from the user and starts scanning the BLE (step S801). The setting terminal 1 displays on the display unit 101 indicating that BLE is being scanned (response R801). The controller 2 transmits an advertisement signal to the setting terminal 1 (step S802). The sensor 5 transmits an advertisement signal to the setting terminal 1 (step S803). The setting terminal 1 requests the profile information from the controller 2 (step S804), and acquires the profile information from the controller 2 (response R804). The setting terminal 1 requests the profile information from the sensor 5 (step S805), and acquires the profile information from the sensor 5 (response R805).

The setting terminal 1 displays to the user the sensor 5 that can be connected to the controller 2 among the connected sensors 5 (step S806). The setting terminal 1 receives the control method setting data from the user (step S807). The setting terminal 1 displays the contents of the control method setting data (response R807). The setting terminal 1 transmits the procedure setting data and the control method setting data to the controller 2 (step S808). The controller 2 notifies the setting terminal 1 that the procedure setting data and the control method setting data have been received (response R808). The controller 2 receives an operation from the user and switches the operation mode from the peripheral to the central (step S809).

In the sequence diagram shown in FIG. 13, the sensor 5 transmits an advertisement signal to the controller 2 (step S901). The controller 2 requests profile information from the sensor 5 specified in the control method setting data among the sensors 5 that have received the advertisement signal (step S902), and acquires the profile information from the sensor 5 (response R902). The controller 2 uses the procedure setting data to perform connection processing with the sensor 5 specified in the control method setting data. After the connection with the sensor 5 is completed, the controller 2 requests the measured value from the sensor 5 according to the procedure setting data (step S903), and acquires the measured value from the sensor 5 (response R903). The controller 2 controls the air conditioner 3 using the measured values of the sensor 5 according to the control method setting data (step S904). The air conditioner 3 operates under the control of the controller 2 and transmits information on the operating state to the controller 2 (response R904). The controller 2 periodically performs the processes of steps S903 and S904.

Next, the setting screen displayed on the display unit 101 in a state where the setting terminal 1 receives an operation from the user and sets the control method, that is, generates the control method setting data will be described. FIG. 14 is a diagram showing an example of the display screen 110 when the control method setting data is being accepted in the setting terminal 1 according to the present embodiment. The display screen 110 shown in FIG. 14 is a screen displayed on the display unit 101 of the setting terminal 1. The setting terminal 1 displays the display screen 110 on the display unit 101, obtains the procedure setting data from an external server (not shown) and transmits it to the controller 2, and also edits the control method setting data by the user's operation to edit the controller 2 Can be sent to. The setting terminal 1 displays the components showing the sensor 5 and the air conditioner 3 on the display screen 110 as shown in FIG. 14, receives an operation from the user, and edits the control method setting data. Further, the setting terminal 1 displays the setting value for each component set by the user on the display screen 110. In the setting terminal 1, it is assumed that the display unit 101 and the operation unit 104 are composed of a touch panel.

On the display screen 110, the procedure setting data acquisition button 111 receives a request from the user to acquire the procedure setting data. When the user touches the procedure setting data acquisition button 111, the setting terminal 1 acquires the procedure setting data from an external server (not shown) and stores the procedure setting data in the storage unit 105. The setting terminal 1 may assist the user in selecting the procedure setting data of the sensor 5 within the reach of the advertisement signal of BLE by highlighting or the like.

On the display screen 110, the procedure setting data transmission button 112 receives a request from the user to transmit the procedure setting data. For example, when there are a plurality of obtained procedure setting data, the setting terminal 1 displays the procedure setting data on the display screen 110 of the display unit 101, and accepts the user to select the desired procedure setting data. When the user touches the procedure setting data transmission button 112, the setting terminal 1 transmits the selected procedure setting data to the controller 2.

On the display screen 110, the control method setting data transmission button 113 receives a request from the user to transmit the control method setting data. The setting terminal 1 receives an operation from the user on the display screen 110 shown in FIG. 14 and edits the control method setting data. When the user touches the control method setting data transmission button 113, the setting terminal 1 transmits the edited control method setting data to the controller 2.

On the display screen 110, the component addition button 114 receives an additional request from the user when adding components such as the sensor 5 and the air conditioner 3 to the control method setting data editing screen shown in FIG. When the user touches the component addition button 114, the setting terminal 1 adds the sensor 5 or the air conditioner 3 to the display screen 110. When the user touches the component addition button 114, the setting terminal 1 may display the sensor 5 or the air conditioner 3 which are candidates for addition.

On the display screen 110, the component delete button 115 receives a deletion request from the user when deleting components such as the sensor 5 and the air conditioner 3 from the control method setting data editing screen shown in FIG. When the user touches the delete button 115 of the component, the setting terminal 1 deletes the sensor 5 or the air conditioner 3 from the display screen 110.

On the display screen 110, the components 116a and 116b are threshold values for the type of the sensor 5 used for controlling the air conditioner 3 and the measured value of the sensor 5 for controlling the operation of the air conditioner 3 set by the user. .. FIG. 14 shows an example in which the user selects two temperature sensors as the sensor 5 used for controlling the air conditioner 3 and sets the threshold value in each temperature sensor to 28 degrees.

On the display screen 110, the component 117 is a device to be controlled by the controller 2 and an operation content set by the user. In FIG. 14, the user selects the air conditioner 3 as the device to be controlled by the controller 2, and when the conditions of the components 116a and 116b are satisfied, the air conditioner 3 is set to start the cooling operation at the set temperature of 24 degrees. An example of the contents of is shown.

As described above, the setting terminal 1 can accept various settings from the user by displaying the display screen 110 as shown in FIG. 14 on the display unit 101.

It is said that each control unit of the setting terminal 1, the controller 2, and the sensor 5 included in the sensor cooperation equipment system 10 is realized by a microcontroller, a CPU, or the like, but the present invention is not limited to this. The control unit of each device may be realized by dedicated hardware. Dedicated hardware is, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), or a combination thereof. be.

As described above, according to the present embodiment, the setting terminal 1 controls the connection between the sensor 5 and the controller 2, and causes the controller 2 to control the air conditioner 3 by using the measured value of the sensor 5. , When the controller 2 and the sensor 5 are connected and the controller 2 and the sensor 5 are connected, the sensor 5 that can be connected to the controller 2 is displayed to the user. As a result, the user who has confirmed the display of the setting terminal 1 can easily set the connection of the sensor 5 when the new sensor 5 is used for retrofitting after constructing the sensor cooperation equipment system 10.

The configuration shown in the above-described embodiment shows an example of the content of the present invention, can be combined with another known technique, and is one of the configurations without departing from the gist of the present invention. It is also possible to omit or change the part.

1 Setting terminal, 2 controller, 3 air conditioner, 4 equipment, 5,5-1 to 5-3 sensor, 10 sensor cooperation equipment system, 101,201,501 display unit, 102,202B, 502 wireless communication unit, 103 , 203,503 Control unit, 104,204,504 Operation unit, 105,205,505 Storage unit, 105A, 205A, 505A Program, 105B Equipment information, 105D, 205D Procedure setting data, 105E, 205E Control method setting data, 112 Procedure setting data transmission button, 113 Control method setting data transmission button, 116a, 116b, 117 components, 202 communication unit, 202A equipment communication unit, 205B air conditioner information, 205C sensor information, 505B measurement value, 506 measurement unit.

Claims (7)

One or more sensors that output measured values through a communication network,
A controller having a wireless communication unit that acquires the measured value output by the sensor, and
A setting terminal that controls the connection between the sensor and the controller,
With
The setting terminal connects to the controller and the sensor by wireless communication, displays a sensor that can be connected to the controller, and connects the controller to the sensor selected by the user by wireless communication. Send the procedure setting data shown,
Sensor cooperation equipment system. The setting terminal acquires information on the type of sensor that can be connected from the controller, and further connects to the sensor by wireless communication, and obtains information on the type of sensor that can be connected and information on the type of connected sensor. Based on this, among the connected sensors, the sensor that can be connected to the controller is displayed.
The sensor cooperation equipment system according to claim 1. The setting terminal displays procedure setting data corresponding to the sensor connectable to the controller based on the information of the type of the connectable sensor.
The sensor cooperation equipment system according to claim 2. The controller further includes a control unit that controls the operation of the device and a device communication unit that transmits a control instruction to the device.
The wireless communication unit of the controller further receives control method setting data indicating the control content of the device with respect to the measured value of the sensor from the setting terminal.
The control unit controls the operation of the device by using the measured value of the sensor based on the control method setting data.
The sensor cooperation equipment system according to any one of claims 1 to 3. The setting terminal displays control method setting data corresponding to the sensor connectable to the controller based on the information of the type of the connectable sensor.
The sensor cooperation equipment system according to claim 4. The control method setting data includes a threshold value for the measured value, and when the measured value exceeds the threshold value or falls below the threshold value, the measured value falls within the range indicated by the threshold value. , And the control content for the device corresponding to at least one of the cases where the measured value is out of the range indicated by the threshold value.
The sensor linkage equipment system according to claim 4 or 5. The device is an air conditioner
The sensor is a temperature sensor capable of measuring temperature.
The sensor cooperation equipment system according to any one of claims 4 to 6.

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