JP2016070514A - Operation terminal and control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an operation terminal capable of suitably controlling air-conditioning equipment at the start of operation by respectively acquiring the air-conditioning environments which each user feels comfortable.SOLUTION: A fingerprint reader part 30 reads the fingerprint data of the user who depresses any of a start/stop button 21, a preset temperature rise button 22, and a preset temperature descent button 23 by a first fingerprint sensor 31, a second fingerprint sensor 32, and a third fingerprint sensor 33. In comfortable environment information 52b of a data storage part 50, the fingerprint data read in the fingerprint reader part 30 with the depression of the preset temperature rise button 22 or the preset temperature descent button 23 is stored by corresponding to the air-conditioning environment information. When the fingerprint data read in the first fingerprint sensor 31 with the depression of the start/stop button 21 agrees with the fingerprint data stored in the comfortable environment information 52b, a control part 40 controls the air-conditioning equipment in accordance with the agreed air-conditioning environment information mapped to the fingerprint data.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an operation terminal for operating an air conditioner installed in a building such as a house or a building, and a control method.

  In a building such as a house or a building, an air conditioner for cooling or heating is arranged. This air conditioner is often used by a plurality of users, and each user can freely operate from an operation terminal (such as a remote controller). In addition, since there are individual differences in the air-conditioning environment (temperature, humidity, wind direction, air volume, etc.) that you feel comfortable, the temperature set for the air-conditioning equipment by the user from the operation terminal is often different.

  By the way, as a technique for authenticating an individual, for example, a password input method is common, but in recent years, biometric authentication methods such as fingerprint authentication and vein authentication have been used in ATMs (automated teller machines) of banks. It's getting on. Such an authentication method can ensure extremely high security, but only performs user authentication. For this reason, it is necessary to take a two-step process of performing a main purpose operation after performing the authentication work for the first time, and many users feel complicated.

  As a technique for eliminating such complexity, for example, Patent Document 1 discloses an invention of an image processing apparatus (copy machine) in which an authentication unit is provided on one button (part of a touch panel) operated by a user. Has been. Specifically, this image processing apparatus can read the fingerprint of the user who pressed the execution button by arranging an image sensor (CCD) on the execution button (start key). When the user is authenticated from the read fingerprint (when it is determined that the user is an authorized user), the image processing apparatus starts the instructed copy process.

JP 2009-10818 A

In the invention disclosed in Patent Document 1 described above, user authentication is performed at the timing when the execution button is pressed, thereby eliminating the need for prior authentication work and eliminating the complexity of the user. However, even in the invention of Patent Document 1, the authentication means performs only user authentication, and is not used for the purpose of collecting and utilizing useful information such as user operation contents.
Therefore, even if the invention of Patent Document 1 is applied to, for example, an air conditioner (operation terminal), only an operation from an authorized user can be performed, but an air conditioning environment such as a temperature set by the user (for each user) Different air conditioning environments) cannot be collected and utilized.

In addition, in an image processing apparatus such as Patent Document 1, pressing an execution button is indispensable for instructing an operation. Therefore, the execution button is pressed after other buttons (various buttons other than the execution button) are pressed. Until the operation is performed, the operation is performed by one user. On the other hand, in an air conditioner or the like during operation, pressing of various buttons directly instructs each operation. For example, a temperature set by a certain user is changed by another user. This often happens.
Therefore, even if the invention of Patent Document 1 is applied to an air conditioner or the like, it is not possible to identify each user whose setting of temperature or the like has been changed. Cannot be used.

  The present invention has been made in order to solve the above-described problem, and provides an operation terminal and a control method capable of collecting air-conditioning environments that each user feels comfortable and appropriately controlling air-conditioning equipment at the start of operation. The purpose is to provide.

In order to achieve the above object, an operation terminal according to the present invention provides:
An operation terminal for controlling an air conditioner,
An input button including an operation button for instructing start of operation of the air conditioner, and a setting button for instructing setting of an air conditioning environment of the air conditioner;
Reading means for reading the fingerprint data of the user who pressed any one of the operation button and the setting button;
Storage means for storing fingerprint data read by the reading means in response to pressing of the setting button in association with an air-conditioning environment instructed by the setting button;
When the fingerprint data read by the reading unit when the operation button is pressed matches the fingerprint data stored in the storage unit, the air conditioning is performed according to the air conditioning environment associated with the matched fingerprint data. Control means for controlling the device;
Is provided.

  According to the present invention, air conditioning environments that each user feels comfortable can be collected, and the air conditioning equipment can be appropriately controlled at the start of operation.

1 is a block diagram showing an overall configuration of an air conditioning system including an operation terminal according to an embodiment of the present invention. It is a block diagram which shows the structure of the operating terminal which concerns on embodiment of this invention. It is a schematic diagram which shows an example of the comfortable environment information memorize | stored in a data storage part. It is a flowchart for demonstrating the comfortable environment collection process performed with the operating terminal which concerns on embodiment of this invention. It is a flowchart for demonstrating the driving | operation start instruction | indication process performed with the operating terminal which concerns on embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following, an operation terminal that operates an air conditioner installed in a building such as a house or a building will be described. However, as described later, home appliances operated from an operation terminal are not limited to air conditioners. It may be a device. Moreover, the same code | symbol is attached | subjected to the same or an equivalent part in a figure.

(overall structure)
FIG. 1 is a block diagram showing an overall configuration of an air conditioning system 1 including an operation terminal 3 according to an embodiment of the present invention.
As illustrated, the air conditioning system 1 is configured by connecting an air conditioning device 2 and an operation terminal 3 via a communication cable 4. The communication cable 4 is an example of a communication unit for performing communication between the air conditioner 2 and the operation terminal 3 by wire. Therefore, instead of using the communication cable 4, a communication means for performing communication between the air conditioner 2 and the operation terminal 3 wirelessly (including infrared communication or the like) may be employed.

The air conditioner 2 is arranged at a designated position in a building such as a house or a building. For example, the air conditioner 2 is a ceiling-embedded device, is disposed on the ceiling in a building, and is controlled by the operation terminal 3 via the communication cable 4. The air conditioner 2 may be a wall-mounted or floor-standing device.
The air conditioner 2 includes, for example, an expansion valve and a load side heat exchanger, and is connected to an outdoor unit (not shown) by piping. The air conditioner 2 performs air conditioning of the target space by evaporating or condensing the refrigerant in the load side heat exchanger.

The operation terminal 3 is composed of a remote controller or the like, and monitors and controls the operating state of the air conditioner 2 by communicating with the air conditioner 2 via the communication cable 4.
As an example of the appearance of the operation terminal 3, as shown in FIG. 1, a display unit 10, an operation / stop button 21, a set temperature increase button 22, and a set temperature decrease button 23 are arranged on the front. As will be described later, each of these buttons 21 to 23 is provided with a fingerprint sensor (first fingerprint sensor 31, second fingerprint sensor 32, and third fingerprint sensor 33) for reading the fingerprint of the pressed user. Has been.

(Configuration of operation terminal 3)
FIG. 2 is a block diagram illustrating a configuration of the operation terminal 3 according to the embodiment of the present invention.
As illustrated, the operation terminal 3 includes a display unit 10, an input unit 20, a fingerprint reading unit 30, a control unit 40, a data storage unit 50, and a communication unit 60.

  The display unit 10 includes, for example, a liquid crystal panel, and is controlled by the control unit 40 to display various information necessary for monitoring and controlling the air conditioner 2.

The input unit 20 includes, for example, a button type input device that detects pressing, and detects an operation by the user.
For example, the input unit 20 includes operation buttons including a run / stop button 21, a set temperature increase button 22, and a set temperature decrease button 23. Note that these operation buttons are merely examples, and other buttons may be included.

The operation / stop button 21 is a button for instructing operation start or operation stop of the air conditioner 2.
For example, when the operation / stop button 21 is pressed with a user's finger while the operation of the air conditioner 2 is stopped, the control unit 40 instructs the air conditioner 2 to start the operation. On the other hand, when the operation / stop button 21 is pressed during the operation of the air conditioner 2, the control unit 40 instructs the air conditioner 2 to stop the operation.
The operation / stop button 21 realizes the operation start and operation stop of the air conditioner 2 with one button, and alternately indicates the operation start and operation stop (toggle) whenever pressed by the user. However, it may be divided into separate buttons.

The set temperature increase button 22 is a button for instructing the air conditioner 2 to increase the set temperature. On the other hand, the set temperature decrease button 23 is a button for instructing the air conditioner 2 to decrease the set temperature.
For example, when the set temperature increase button 22 is pressed with a user's finger, the control unit 40 instructs the air conditioner 2 to increase the set temperature (for example, increase once). On the other hand, when the set temperature lowering button 23 is pressed with a user's finger, the control unit 40 instructs the air conditioner 2 to lower the set temperature (for example, lower once).

  The fingerprint reading unit 30 reads the fingerprint data of the user who pressed any of the operation / stop button 21, the set temperature increase button 22, and the set temperature decrease button 23. For example, the fingerprint reading unit 30 includes a capacitance type fingerprint sensor that reads a fingerprint according to a change in capacitance, and corresponds to each of the buttons 21 to 23 described above, a first fingerprint sensor 31 and a second fingerprint sensor 32. , And a third fingerprint sensor 33 is arranged. The fingerprint sensors 31 to 33 are not limited to capacitive fingerprint sensors, and may be other types of fingerprint sensors. For example, an optical fingerprint sensor that reads a fingerprint by reflecting light may be used.

For example, the first fingerprint sensor 31 is arranged on the surface of the operation / stop button 21 and reads the fingerprint data of the user who pressed the operation / stop button 21. In addition, the second fingerprint sensor 32 is arranged on the surface of the set temperature increase button 22, for example, and reads the fingerprint data of the user who pressed the set temperature increase button 22. The third fingerprint sensor 33 is disposed on the surface of the set temperature lowering button 23, for example, and reads the fingerprint data of the user who pressed the set temperature lowering button 23.
Fingerprint data read by each of the fingerprint sensors 31 to 33 is supplied to the control unit 40 (an operation button processing unit 42 described later).

  The control unit 40 includes, for example, a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like (all not shown), and controls the entire operation terminal 3. Functionally, the control unit 40 includes an air conditioning equipment management unit 41, an operation button processing unit 42, a fingerprint authentication unit 43, and a personal information management unit 44. Each functional unit of the control unit 40 is realized by the CPU appropriately executing various programs stored in the ROM or the data storage unit 50 using the RAM as a work memory.

  The air conditioner management unit 41 monitors the operation state of the air conditioner 2 via the communication unit 60, and the air conditioner 2 via the communication unit 60 according to the operation content detected by the operation button processing unit 42. Control.

The operation button processing unit 42 detects that the above buttons 21 to 23 are pressed by the user, and instructs the air conditioning equipment 2 through the air conditioning equipment management unit 41 to perform processing corresponding to the pressed buttons 21 to 23. To do.
For example, when the operation button processing unit 42 detects that the operation / stop button 21 is pressed with a user's finger while the operation of the air conditioner 2 is stopped, the air conditioner management unit 41 instructs the air conditioner 2 to start the operation. Let On the other hand, when the operation button processing unit 42 detects that the operation / stop button 21 is pressed with the user's finger during the operation of the air conditioner 2, the air conditioner management unit 41 instructs the air conditioner 2 to stop the operation. .
Similarly, when the operation button processing unit 42 detects that the set temperature increase button 22 has been pressed with a user's finger, the air conditioner management unit 41 instructs the air conditioner 2 to increase the set temperature. On the other hand, when the operation button processing unit 42 detects that the set temperature lowering button 23 has been pressed with a user's finger, the air conditioning device management unit 41 instructs the air conditioning device 2 to lower the set temperature.

The fingerprint authentication unit 43 checks whether the fingerprint data read by each of the fingerprint sensors 31 to 33 described above is stored (registered) in the data storage unit 50 (a fingerprint information list 52a, which will be described later). The user who pressed 21 to 23 is authenticated. The fingerprint authentication unit 43 stores the read fingerprint data in the data storage unit 50 (fingerprint information list 52a) when the fingerprint data read by each of the fingerprint sensors 31 to 33 is unregistered.
Also, the fingerprint authentication unit 43 associates the fingerprint data (fingerprint ID) read by each fingerprint sensor 31 to 33 with the setting content (air conditioning environment information) by pressing the set temperature increase button 22 or the set temperature decrease button 23. And stored in the data storage unit 50 (comfortable environment information 52b described later).

  The personal information management unit 44 holds specific user information, and acquires and manages changed user information.

The data storage unit 50 is configured by, for example, a readable / writable nonvolatile semiconductor memory such as a flash memory.
As an example, the data storage unit 50 stores air conditioner data 51 for monitoring and controlling the air conditioner 2 and personal data 52 for managing an individual air conditioning environment. In addition, the data storage unit 50 stores a program executed by the control unit 40 and the like.

The air conditioner data 51 includes an operation state 51 a of the air conditioner 2 that can be operated from the operation terminal 3.
The operation state 51a is data indicating the current operation state of the air conditioner 2 (as an example, operation / stop state, operation mode such as cooling or heating, set temperature, set humidity, room temperature, wind direction, air volume, etc.). Such an operating state 51a is updated and managed to the latest state by transmitting and receiving necessary data to and from the air conditioner 2 by the control unit 40 (air conditioner management unit 41).

The personal data 52 includes a fingerprint information list 52a and comfortable environment information 52b.
The fingerprint information list 52a is data in which the fingerprint data read from each of the fingerprint sensors 31 to 33 is listed as a fingerprint ID when the user presses any of the buttons 21 to 23 described above. The fingerprint information list 52a includes not only the fingerprint data (fingerprint ID) read from the fingerprint sensors 31 to 33 when the buttons 21 to 23 are pressed, but also the fingerprint data read in advance by another device. May be registered.

The comfortable environment information 52b stores the fingerprint data (fingerprint ID) of each user in association with the air conditioning environment information that each user feels comfortable. An example of specific comfortable environment information 52b is shown in FIG.
As shown in FIG. 3, the comfort environment information 52b is associated with a fingerprint ID and air conditioning environment information. The air conditioning environment information in the figure includes the set temperature, set humidity, wind direction, and air volume, and the user set by the user pressing the set temperature rise button 22, the set temperature drop button 23, etc. It shows a comfortable air-conditioning environment. In FIG. 1 and the like, as an example, the case where the second fingerprint sensor 32 and the third fingerprint sensor 33 are arranged on the set temperature increase button 22 and the set temperature decrease button 23 is shown. A sensor may be arranged so that the air conditioning environment that the user feels comfortable can be acquired in more detail. In addition, “maintain current status” in the air conditioning environment information of FIG. 3 indicates items of air conditioning environment information that are not operated by the user.

Returning to FIG. 2, the communication unit 60 is an interface for performing communication with the air conditioner 2 via the communication cable 4, and is a LAN (Local Area Network) that is a dedicated communication standard or a general-purpose communication standard. ) And RS-485. As described above, instead of using the communication cable 4, when communicating with the air conditioner 2 wirelessly, the communication unit 60 may be an interface such as an infrared ray or a wireless LAN.
The communication unit 60 transmits and receives data to and from the air conditioner 2 based on the control of the control unit 40 (air conditioner management unit 41).

(Operation of operation terminal 3)
The operation of the operation terminal 3 according to the embodiment of the present invention will be described below with reference to the flowcharts of FIGS. 4 and 5. FIG. 4 is a flowchart for explaining comfortable environment collection processing for collecting an air-conditioning environment that the user feels comfortable. FIG. 5 is a flowchart for explaining an operation start instruction process for instructing the air conditioner 2 to start operation.

  First, the comfortable environment collection process shown in FIG. 4 will be described. This comfortable environment collection process is started when the user presses the set temperature increase button 22 or the set temperature decrease button 23.

  First, the operation terminal 3 reads fingerprint data (step S101). That is, the fingerprint reading unit 30 acquires the user's fingerprint data read by the second fingerprint sensor 32 or the third fingerprint sensor 33 when the user presses the set temperature increase button 22 or the set temperature decrease button 23.

  The operation terminal 3 compares the read fingerprint data with the fingerprint data in the fingerprint information list 52a (step S102). That is, the control unit 40 (fingerprint authentication unit 43) determines whether or not there is a fingerprint data stored in the fingerprint information list 52a of the data storage unit 50 that matches the read fingerprint data.

The operation terminal 3 determines whether there is matching fingerprint data (step S103). That is, the control unit 40 determines whether or not the fingerprint data of the user who pressed the set temperature increase button 22 or the set temperature decrease button 23 has been registered in the fingerprint information list 52a.
If it is determined that there is matching fingerprint data (step S103; Yes), the operation terminal 3 advances the process to step S105 described later.

  On the other hand, when it is determined that there is no matching fingerprint data (step S103; No), the operation terminal 3 registers the read fingerprint data in the fingerprint information list 52a (step S104). That is, the control unit 40 (fingerprint authentication unit 43) stores the read fingerprint data in the fingerprint information list 52a because it has not been registered.

  The operation terminal 3 associates the set air conditioning environment information with the fingerprint ID and registers it in the comfort environment information 52b (step S105). That is, the control unit 40 (fingerprint authentication unit 43) stores the air conditioning environment information that the user feels comfortable by pressing the set temperature increase button 22 or the set temperature decrease button 23 in the comfort environment information 52b in association with the fingerprint ID. To do. If the air conditioning environment information associated with the fingerprint ID of the same user is already stored in the comfort environment information 52b, the item whose setting has been changed this time is updated and stored in the comfort environment information 52b.

  The operation terminal 3 transmits the temperature setting change to the air conditioner 2 (step S106). That is, the control unit 40 (air conditioner management unit 41) transmits a temperature setting change according to the pressed set temperature increase button 22 or the set temperature decrease button 23 to the air conditioner 2 via the communication unit 60. The setting change may be transmitted to the air conditioner 2 before fingerprint authentication such as step S102 described above.

  By such a comfortable environment collection process, fingerprint data of a user who operates the operation terminal 3 (presses each of the buttons 21 to 23) is collected, and air conditioning environment information that the user feels comfortable is collected.

  Next, the operation start instruction process shown in FIG. 5 will be described. The operation start instruction process is started when the user presses the operation / stop button 21 while the air conditioner 2 is stopped.

  First, the operation terminal 3 reads fingerprint data (step S201). That is, the fingerprint reading unit 30 acquires the user's fingerprint data read by the first fingerprint sensor 31 when the user presses the operation / stop button 21.

  The operation terminal 3 compares the read fingerprint data with the fingerprint data in the fingerprint information list 52a (step S202). That is, the control unit 40 (fingerprint authentication unit 43) determines whether or not there is a fingerprint data stored in the fingerprint information list 52a of the data storage unit 50 that matches the read fingerprint data.

The operation terminal 3 determines whether there is matching fingerprint data (step S203). That is, the control unit 40 determines whether the fingerprint data of the user who pressed the run / stop button 21 has been registered in the fingerprint information list 52a.
If it is determined that there is no matching fingerprint data (step S203; No), the operation terminal 3 advances the process to step S205 described later.

  On the other hand, when it is determined that there is matching fingerprint data (step S203; Yes), the operation terminal 3 transmits the air conditioning environment information associated with the read fingerprint data (fingerprint ID) to the air conditioning equipment 2 (step S204). That is, the control unit 40 (air conditioner management unit 41) corresponds to the read fingerprint data (fingerprint ID) from the comfortable environment information 52b as shown in FIG. 3 collected in the comfortable environment collection process of FIG. Read the attached air conditioning environment information. Then, the control unit 40 transmits the read air conditioning environment information to the air conditioning equipment 2 via the communication unit 60.

  The operation terminal 3 transmits an operation start instruction to the air conditioner 2 (step S205). In other words, the control unit 40 transmits an operation start instruction corresponding to the pressed operation / stop button 21 to the air conditioner 2 via the communication unit 60. The operation start instruction may be transmitted to the air conditioner 2 before the air conditioning environment information is transmitted in step S204 described above.

If the fingerprint data of the user who has pressed the operation / stop button 21 has been registered in the comfort environment information 52b by such operation start instruction processing, the air conditioning equipment 2 according to the air conditioning environment information associated with the fingerprint data. To control. Therefore, simply by pressing the run / stop button 21, the air conditioning device 2 is instructed by the air conditioning environment that the user feels comfortable with.
As a result, the air conditioning environment that each user feels comfortable can be collected, and the air conditioning equipment can be appropriately controlled at the start of operation.

(Other embodiments)
In the above embodiment, the second fingerprint sensor 32 and the third fingerprint sensor 33 are arranged on the set temperature increase button 22 and the set temperature decrease button 23. However, these buttons are used to instruct the change of the set temperature. Not limited to this, another button for setting the air-conditioning environment and another fingerprint sensor corresponding thereto may be arranged.

  In the above embodiment, the fingerprint data of the user who is not registered in the fingerprint information list 52a is newly registered when the buttons 21 to 23 are pressed. However, it is not always necessary to register the fingerprint data when the buttons 21 to 23 are pressed. The fingerprint data read by another device in advance may be registered in the fingerprint information list 52a.

  In the above embodiment, when starting the operation of the air conditioner 2, the configuration is such that the set temperature is mainly controlled in the air conditioning environment information that the user feels comfortable. You may make it control a wind direction, an air volume, etc. also.

  In the above embodiment, the method for comparing the read fingerprint data with the fingerprint data in the fingerprint information list 52a is not particularly specified. For example, the priority order based on the number of times of authentication is further stored in the fingerprint information list 52a. Thus, the comparison with the read fingerprint data may be performed in the order of priority of the fingerprint information list 52a. In this case, since the fingerprint data of the user with high operation frequency is prioritized and becomes a comparison target, the time required for identification (authentication) of the user can be shortened.

  In the above embodiment, the case where the user's fingerprint cannot be recognized when the buttons 21 to 23 are pressed (when the fingerprint data cannot be read correctly) is not described. Only a stop instruction may be transmitted to the air conditioner 2. On the other hand, when the fingerprint cannot be recognized, control of the air conditioner 2 is not performed. For example, when the operation terminal 3 is dropped or each button 21 to 23 is pressed due to the book being placed, You may make it prevent malfunction.

  In the above embodiment, the case where the comfortable environment information 52b accompanying the user's operation is managed in the personal data 52 has been described. However, the operation permission item data for each user is managed in the personal data 52 (can be set). ) Only a specific user (such as an administrator) may change the set temperature or the like.

  In the above embodiment, the case where the fingerprint information list 52a in the personal data 52 can be newly registered has been described. However, the fingerprint information list 52a is pre-registered, and a user of fingerprint data that is not registered cannot be operated. Also good. In this case, for example, the child user's fingerprint data is not registered in the fingerprint information list 52a, and usage such as child lock becomes possible.

  In the above embodiment, the air conditioning system 1 including one operation terminal 3 and one air conditioning device 2 has been described. However, the configuration of the air conditioning system 1 is not limited to these and can be changed as appropriate. For example, the air conditioning system 1 may have a configuration in which two sets of the operation terminal 3 (one unit) and the air conditioning device 2 (one unit) are prepared and connected via a network. In this case, for example, the personal data 52 and the like are shared, and the comfort environment information 52b storing the air conditioning environment information of the user who operated one of the operation terminals 3 is used to start the operation of the other air conditioning device 2. In addition, the control may be performed according to the air conditioning environment information of the user.

  As described above, according to the operation terminal 3 according to the embodiment of the present invention, the setting buttons such as the set temperature increase button 22 and the set temperature decrease button 23 can be used as the second fingerprint sensor 32 and the third fingerprint sensor 33. By arranging the fingerprint sensor, it is possible to specify who operated the air-conditioning environment such as the set temperature of the air-conditioning equipment 2, and it is possible to collect the air-conditioning environment that each user feels comfortable. Then, at the timing when the user presses the operation / stop button 21 when the air conditioner 2 is in the operation stop state, the user is specified (authenticated), and the air conditioner 2 is configured so that the user feels comfortable. It is possible to automatically control the operating state. Thereby, at the time of starting the operation of the air conditioner 2, the user operates at a set temperature that the user feels comfortable, and the user can save time and effort to change the set temperature after starting the operation.

  Further, according to the operation terminal 3 according to the embodiment of the present invention, by arranging a plurality of fingerprint sensors (each fingerprint sensor 31-33, etc.) at the same position as a plurality of operation buttons (each button 21-23, etc.). Unlike the conventional authentication that is performed only once at the time of login or the like, even when a user other than the user who instructed the start of the operation of the air conditioner 2 operates the change of the set temperature or the like, who has performed the operation? Can be specified.

  In addition, according to the operation terminal 3 according to the embodiment of the present invention, by disposing a plurality of fingerprint sensors at the same position as a plurality of operation buttons, a user is identified (authenticated) by a fingerprint when any one of the operation buttons is pressed. This eliminates the trouble of separately performing only fingerprint authentication in advance as in the prior art.

  Further, according to the operation terminal 3 according to the embodiment of the present invention, if the fingerprint data read when any one of the operation buttons is pressed is not registered, it is registered in advance in the fingerprint information list 52a. No need to register fingerprint data.

Moreover, although said embodiment demonstrated the case where the air conditioner 2 was controlled from the operation terminal 3, the apparatus used as a control object is not restricted to the air conditioner 2, and may be another household appliance.
The present invention is not limited to the above-described embodiments and drawings. It goes without saying that the embodiments and the drawings can be modified without changing the gist of the present invention.

1 air conditioning system, 2 air conditioning equipment, 3 operation terminal, 4 communication cable, 10 display unit, 20 input unit, 30 fingerprint reading unit, 40 control unit, 50 data storage unit, 60 communication unit, 21 run / stop button, 22 setting Temperature increase button, 23 Set temperature decrease button, 31 First fingerprint sensor, 32 Second fingerprint sensor, 33 Third fingerprint sensor, 41 Air-conditioning equipment management unit, 42 Operation button processing unit, 43 Fingerprint authentication unit, 44 Personal information management unit , 51 Air conditioning equipment data, 51a Operating status, 52 Personal data, 52a Fingerprint information list, 52b Comfort environment information

Claims (7)

An operation terminal for controlling an air conditioner,
An input button including an operation button for instructing start of operation of the air conditioner, and a setting button for instructing setting of an air conditioning environment of the air conditioner;
Reading means for reading the fingerprint data of the user who pressed any one of the operation button and the setting button;
Storage means for storing fingerprint data read by the reading means in response to pressing of the setting button in association with an air-conditioning environment instructed by the setting button;
When the fingerprint data read by the reading unit when the operation button is pressed matches the fingerprint data stored in the storage unit, the air conditioning is performed according to the air conditioning environment associated with the matched fingerprint data. Control means for controlling the device;
An operation terminal comprising:   The operation terminal according to claim 1, wherein the air conditioning environment includes any information of a set temperature, a set humidity, a wind direction, and an air volume that a user who uses the air conditioner feels comfortable. Further comprising a communication means for transmitting and receiving data to and from the air conditioner;
In order to control the air conditioner, the control unit transmits information on any of the set temperature, set humidity, wind direction, and air volume included in the air conditioning environment to the air conditioner via the communication unit. The operation terminal according to claim 2.   The reading unit includes a fingerprint sensor disposed at the same position as the driving button and the setting button, respectively, and reads the fingerprint data of the user when the driving button or the setting button is pressed by the user. The operation terminal according to any one of 3. A fingerprint data storage unit for storing fingerprint data read by the reading unit;
Fingerprint authentication means for authenticating fingerprint data read by the reading means using fingerprint data stored in the fingerprint data storage unit;
The fingerprint authentication unit additionally stores the read fingerprint data in the fingerprint data storage unit when fingerprint data read by the reading unit is not stored in the fingerprint data storage unit. The operation terminal according to any one of 1 to 4. A permission item storage means for storing the fingerprint data of the user in association with permission data defining items for permitting operations on the air conditioner;
The operation terminal according to any one of claims 1 to 5, wherein the control unit restricts an operation that is not defined in the permission data associated with the fingerprint data read by the reading unit. An operation button for instructing start of operation of an air conditioner, and a control method of an operation terminal in which a setting button for instructing setting of an air conditioning environment of the air conditioner is arranged,
A reading step of reading fingerprint data of a user who pressed any one of the operation button and the setting button;
An air-conditioning environment storing step of storing the fingerprint data read by the reading step with the pressing of the setting button in a storage unit in association with the air-conditioning environment instructed by the setting button;
When the fingerprint data read in the reading step when the operation button is pressed matches the fingerprint data stored in the storage unit, according to the air-conditioning environment associated with the matched fingerprint data, Control steps for controlling the air conditioning equipment;
A control method comprising:

Images