TR2021008958T - Air conditioning control system. - Google Patents

Abstract

An air conditioning control system (1) includes a plurality of remote control terminals (5, 6) and a server (7). Each of the plurality of remote control terminals (5, 6) calculates the time required for a user of the remote control terminal (5, 6) to return to a home (81) from outside the home (81), and sends the information indicating the required time to the server (7). ) transmits. The server (7) calculates an estimated time based on the time required by a user who is the first to return home (81) among a large number of users to return home (81) and sends a command to the air conditioner (2) to change the air conditioning setting, where the estimated time is calculated. transmits the estimated time from one time to the next in stages.

Description

DESCRIPTION AIR CONDITIONING CONTROL SYSTEM The present invention describes a position of a remote control terminal. An air conditioner that controls an air conditioner using information showing relates to the conditioning control system.

State of the Art Using information indicating a position of a terminal device, a an air conditioning control system that controls the air conditioner known (see, for example, Patent Literature 1). a traditional air The conditioning control system uses a terminal device, a portable terminal, and air conditioning under the control of the terminal device. Includes an air conditioner. Terminal device remote to air conditioner a function to control and a terminal device It contains a function for detecting its position. Portable The terminal is a device for sensing the temperature around a user. contains the function.

Citation List Patent Literature Short Description Technical Problem However, the traditional air conditioning system has been used by many users. does not take into account a mode associated with a single air conditioner. When multiple users are associated with a single air conditioner and a user returning home relatively early among a large number of users and when a user returns home relatively late, a large number of users provide a technique that properly handles air conditioning for needs to be done.

The present invention has been made taking into account the above, and One object of the present invention is that many users can use a single air conditioner. the building when associated and among many users. a user entering the building relatively early from the outside and When there is a user who enters late, the weather for many users an air conditioner that handles conditioning properly provision of the control system.

Solution of the problem In order to solve the above problem and achieve the purpose, the existing An air conditioning control system according to the invention can control an air conditioner, each one of which includes a function for remote control of the air conditioner. for controlling a number of remote control terminals and air conditioner contains a server. The air conditioner controls the temperature of the outside air. includes an outdoor unit containing a temperature sensor that detects it does. One position each from multiple remote control terminals sensing unit, a motion acceleration unit, a building a device that stores information indicating a position where the air conditioner is installed. terminal storage unit, a terminal control unit and a terminal Contains the communication unit. Position detection unit, position detection an update of a remote control terminal containing the detects its position. Movement speed acquisition unit, movement speed a movement of a remote control terminal containing the gain unit. measures speed. Terminal control unit, containing the terminal control unit from the position sensing unit of the remote control terminal, the motion obtained from the accelerating unit and the terminal storage unit. remote control unit containing the terminal control unit, based on the information Entering the building from outside the building by a user of the control terminal Calculates a time needed for terminal communication unit, of a remote control terminal containing the terminal communication unit. the time needed, calculated by the terminal control unit. It transmits the displaying information to the server. Server, multiple remote controls that associates the air conditioner with the user of each terminal a server storage unit that stores the database, multiple remote required by the user of each of the control terminals. You can access time display information from multiple remote control terminals. a server communication unit that receives from someone, a server communication unit a server control unit that controls, and a server communication unit content contained in the database, based on the information received by a person entering the building from among a large number of users shown with information A program that calculates an estimated time when the user first entered the building. Contains the computation unit. Server communication unit, calculation calculating unit from a time from which the unit calculates the estimated time weather in increments to the estimated time calculated by It transmits a command to the air conditioner to change the conditioning setting.

The server control unit adjusts the air conditioning setting of the server communication unit. allows it to transmit the change command to the air conditioner so that the outside air The difference between the indoor temperature and the intended indoor temperature is the Just before the first time the user arrives in the building. Advantageous Effects of the Invention The air conditioning control system according to the present invention when the user is associated with a single air conditioner and a user who enters the building relatively early from the outside of the building. when there is a user and a user who enters the building relatively late, it is very can run air conditioning for a large number of users as needed. Short Description of Drawings FIG. 1 is a weather report according to a first embodiment. A diagram showing a configuration of the conditioning control system. is the first diagram.

FIGURE 2, air conditioning according to the first application is a second diagram showing the configuration of the control system.

FIG. 3 shows a cooling mode as the operating mode of the air conditioner. air conditioning according to the first application a part of the operation of an air conditioner contained in the control system. shows the sample.

FIGURE 4, air conditioning according to a second application form a part of the operation of a server contained within the control system. is a flowchart showing an example of the procedure.

FIGURE 5 is the air conditioner according to the first implementation of the processor. a first remote control of the conditioning control system of a terminal communication unit contained within the terminal terminal control unit, a position sensing unit, a receiving unit and the functions of a motion acceleration unit. a processor that shows a processor while performing some or all is the diagram.

FIG. 6 shows the air according to the first implementation of the processor circuit. a first remote control of the conditioning control system terminal communication unit contained within the terminal control unit, position sensing unit, receiving unit and some of the functions of the acceleration unit or A diagram showing a processor circuit as it performs all is the diagram.

Description of Application Patterns An air conditioning method according to the embodiments of the present invention. The control system is now described in detail by reference to the drawings. will be. The present invention is not limited to its application forms. It must be taken into attention.

First Application Type FIG. 1 is an air conditioning method according to a first embodiment. a first showing a configuration of the control system 1 is the diagram. The air conditioning control system (1) controls an air conditioner (2). includes. The air conditioner (2) consists of an outdoor unit (3) and an indoor unit. (4), the outdoor unit (3), which detects the temperature of the outside air includes a temperature sensor (31). Outdoor unit (3) of a house (81) It is installed outside and the indoor unit (4) is installed inside the house (81).

House 81 is an example for a building.

The air conditioning control system (1), in addition, each of the air conditioners (2) a first remote comprising a function for remote control control terminal (5) and a second remote control terminal (6) also includes. This means that the first remote control terminal (5) and both of the second remote control terminal (6) to the indoor unit (4) includes the function for remote control. first remote control terminal (5) and the second remote control terminal (6), are examples of several remote control terminals. It means, of the first remote control terminal (5) and the second remote control terminal (6), both of which can be carried by a user. are devices.

The air conditioning control system (1), as well as the control of the air conditioner (2) It also includes a server (7) for Server (7), facility outside the house (81) is done. The server (7) is connected to the Internet (82). Internet (82), outside the house (81) is positioned. The air conditioning control system (1) also has a connected to the indoor unit (4) via the wireless local area network. The router (8) also includes. The router (8) is installed in the house (81).

The air conditioning control system (1) is also connected to the diverter (8) It also includes a connected modem (9). The modem (9) is installed in the house (81).

The modem (9) is also connected to the Internet (82).

As described above, the router (8) is connected to the indoor unit (4). connected and the modem (9) is connected to the router (8) and the Internet (82).

This means that the indoor unit (4), router (8) and modem (9) It is connected to the Internet (82) via First remote control terminal (5) and the second remote control terminal (6) both connected to the server (7). As described above, the server (7) is connected to the Internet. (82) is connected. This means that the first remote control terminal (5) and the second remote control terminal (6) both server (7), Indoor via Internet (82), modem (9) and router (8) It is connected to the unit (4).

The indoor unit (4) cannot be used in a way other than the connection method described above. It can connect to the Internet (82) via the connection method. For example, inside indoor unit (4), a wireless local area network, Bluetooth, (proprietary trademark) and part of a specific low-power radio or It can connect to the Internet (82) using the full range.

The first remote control terminal (5), multiple global for the reception of radio waves from the positioning system satellite and of the first remote control terminal according to the received radio waves. (5) includes a function for detecting its current position.

The second remote control terminal (6), multiple global for the reception of radio waves from the positioning system satellite and of the second remote control terminal according to the received radio waves. (6) includes a function for detecting its current position.

FIGURE 1 is among a large number of global positioning system satellites. shows only one global positioning system satellite 83. Each of the many remote control terminals is up-to-date a method for detecting the position of a large number of global using radio waves from the positioning system satellite He is not angry with his method.

FIG. 2, air conditioning control according to the first application is a second diagram showing the configuration of the system (1).

As described above, the outdoor unit (3) is It includes a temperature sensor (31) that detects its temperature. temperature sensor (31) is, for example, a thermistor or a temperature sensor integrated circuit.

The outdoor unit (3) is also equipped with an air conditioning control unit. an indoor/outdoor communication with the control unit (32) and the indoor unit (4). the communication unit 33 also includes.

The control unit 32 includes, for example, a compressor and an external (not shown) controls the indoor unit fan and also the flow rate of a chiller.

Control unit (32) temperature sensor (31) of indoor/outdoor communication unit (31) transmit the information indicating the temperature detected by the indoor unit (4). controls its transmission in a predetermined cycle.

The indoor/outdoor communication unit (33) is detected by the temperature sensor (31). Send the information showing the sensed temperature to the indoor unit (4) above. It does not need to be transmitted in the loop.

Indoor/Outdoor communication unit (33) detected by temperature sensor (31) send the temperature indicating information to the indoor unit (4), the temperature sensor (31) It can transmit at a time when the temperature detected by it changes. Internal and external the temperature detected by the communication unit (33) by the temperature sensor (31) to the indoor unit (4) in the above cycle and In addition, a temperature sensor (31) detected by the temperature changes can transmit in time.

The indoor unit (4) is an indoor/outdoor unit communicating with the outdoor unit (3). a control unit that controls the air conditioning unit (41) unit (42) and a communication unit (43) communicating with the router (8). includes. As described above, indoor unit (4), router (8) and connected to the Internet (82) via the modem (9). Server (7) Internet (82) is connected. This means that the communication unit 43 is connected to the server (7). it communicates via router (8), modem (9) and Internet (82).

The communication unit (43) can be placed inside the indoor unit (4) or it can be attached to the outside of an enclosure of the indoor unit (4).

The control unit 42 includes, for example, an indoor unit fan, a blade, and (not shown) controls a louver. In addition, the control unit (42) temperature sensor (31) of the communication unit (43) to the server (7) information showing the temperature detected by the indoor/outdoor communication unit. (41) to transmit the information received from the outdoor unit (3). checks. The temperature detected by the temperature sensor (31) When the information indicating the data is transmitted to the server (7), the communication unit (43) transmits the information showing the indoor temperature to the server (7).

The indoor unit (4) is also an infrared from a remote control. reception of the signal and with the outdoor unit (3) according to the received signal for the realization of air conditioning in connection with includes the function, infrared signal, a user inside the house (81) an operation performed by the remote control corresponds to. The indoor unit (4), also, air conditioning based on the data transmitted from the server (7), air conditioning in connection with the indoor unit (3) It also includes a function to perform it.

First remote control terminal (5) via Internet (82) a terminal communication unit (51) communicating with the server (7), the first a device that controls the components of the remote control terminal (5). terminal control unit (52) and first remote control terminal (5) a position detection unit (53) that detects its current position includes. For example, the position sensing unit 53, a plurality of global based on radio waves from the positioning system satellite taking the current position of the first remote control terminal (5) senses. Position sensing unit (53), multiple global using radio waves from a positioning system satellite. by a method other than the first remote control terminal (5) can detect its current position.

The first remote control terminal (5), also inside the house (81), where the air conditioner (2), specifically the indoor unit (4), is installed a terminal storage unit (54) that stores information indicating its position also includes. The terminal storage unit 54 is also the first remote it also stores the identity information of a user of the control terminal (5).

Terminal storage unit 54, for example with a semiconductor memory is run. First remote control terminal (5), also indoor unit (4) that displays an air conditioning status. the imaging unit (55). Terminal communication unit (51) the air conditioning status of the indoor unit (4) from the server (7). receives the displaying information, and the display unit 55, terminal communication According to the information received by the terminal control unit (51) Air conditioning of indoor unit (4) under (52) control displays the status. The imaging unit 55 is, for example, a liquid crystal operated with the display device.

The first remote control terminal (5), also the first remote control air terminal (5) of the indoor unit (4) from the user. a receiving unit 56 that receives a command regarding its conditioning.

The receiving unit (56) is also located in the first remote control terminal (5). It also includes a function to retrieve information about its user.

Information about the user of the first remote control terminal (5) for example, the user of the first remote control terminal (5) is identity information. stored in the terminal storage unit (54). the first remote control using the receiving unit (56) first remote control by the user of the terminal (5) is the information entered into the terminal (5) and is received by the receiving unit (56). For example, part of the receiving unit 56 may be a keyboard, an operating button, or a device that reads information from a recording medium.

The imaging unit (55) and receiving unit (56) are equipped with a touch panel. is run.

The first remote control terminal (5), also the first remote control a motion velocity acquisition unit that measures the motion velocity of the terminal (5) (57) also includes. For example, the movement acceleration unit 57 is an acceleration movement of the first remote control terminal (5) using the measures speed. Motion accelerator unit (57), position detection A change in the current position detected by the unit (53) based on the movement speed of the first remote control terminal (5). can measure.

From the terminal control unit (52), the position sensing unit (53), from the terminal storage unit (54) and the accelerometer unit. (57) based on the information obtained, the first remote control returning home (81) from outside the home (81) of the user of the terminal (5) Calculates a time needed for Specifically, terminal control unit (52) detected by position sensing unit (53) the first remote control terminal (5) displays its current position, terminal the position of the house (81) stored in the storage unit (54). information showing, and the motion velocity measured by the acquisition unit (57) the first remote control terminal (5), based on the travel speed, from outside the house (81) to the home of the user of the remote control terminal (5). (81) calculates the time it takes to return.

Terminal communication unit (51) by terminal control unit (52) transmits the calculated information showing the required time to the server (7). For example, the terminal communication unit 51 displays the time needed. transmits the information to the server (7) at predetermined time intervals.

required, indicated by the information previously transmitted to the server (7). terminal control unit after transmission of time and previous information An interval between the new time needed, calculated by (52) when the difference exceeds a predetermined time, the terminal communication unit (51) can transmit a required new time to the server (7). For example, a “elapsed time” and “after previous information has been transmitted new required, calculated by the terminal control unit (52) time” “time needed, indicated by previously communicated information” When the time obtained by subtracting exceeds “10 minutes”, terminal communication unit (51) sends the information showing the new time needed to the server (7). transmits. “Last time” refers to the time the previous information was transmitted, the terminal after the previous information has been transmitted by the control unit (52) It is the time it takes to calculate the time heard.

Second remote control terminal (6) via Internet (82) a terminal communication unit (61) communicating with the server (7), the second a device that controls the components of the remote control terminal (6). terminal control unit (62) and second remote control terminal (6) it includes a position detection unit (63) that detects its current position. For example, the position sensing unit 63 has multiple global based on radio waves from the positioning system satellite taking the current position of the second remote control terminal (6) senses. Position sensing unit (63), multiple global using radio waves from a positioning system satellite. the second remote control terminal (6) by a method other than can detect its current position.

The second remote control terminal (6), also inside the house (81), where the air conditioner (2), specifically the indoor unit (4), is installed a terminal storage unit (64) that stores information indicating its position also includes. Terminal storage unit (64), also second remote control also stores the identity information of a user of the terminal (6). Terminal The storage unit 64 is powered, for example, by a semiconductor memory.

The second remote control terminal (6) is also connected to the indoor unit (4). a display that displays an air conditioning status unit (65). Terminal communication unit (61), internal from server (7) information showing the air conditioning status of the indoor unit (4). receiver, and display unit (65), terminal communication unit (61) control of the terminal control unit (62) according to the information received by air conditioning status of the indoor unit (4) under displays. The imaging unit 65, for example, a liquid crystal operated with the display device.

The second remote control terminal (6), also, the second remote control air terminal (6) of the indoor unit (4) from the user. It also includes a receiving unit 66 that receives a command regarding its conditioning.

The receiving unit (66) is also connected to the second remote control terminal (6). It also includes a function to retrieve information about its user.

One of the information about the user of the second remote control terminal (6) for example, the identity of the user of the second remote control terminal (6) is knowledge. ID stored in terminal storage unit (64) information, the second remote control using the receiving unit (66) second remote control by the user of the terminal (6) is the information entered into the terminal (6) and is received by the receiving unit (66). For example, part of the receiving unit 66 may be a keyboard, an operating button, or a device that reads information from a recording medium.

The imaging unit (65) and receiving unit (66) are equipped with a touch panel. is run.

The second remote control terminal (6), also, the second remote control a motion velocity acquisition unit that measures the motion velocity of the terminal (6) (67) also includes. For example, the movement acceleration unit 67 movement of the second remote control terminal (6) using the measures speed. Motion accelerator unit (67), position detection a change in the current position detected by the unit (63). based on the movement speed of the second remote control terminal (6). can measure.

Terminal control unit (62), position sensing unit (63), from the terminal storage unit (64) and the motion accelerating unit. (67) based on the information obtained, the second remote control returning home (81) from outside the home (81) of the user of the terminal (6) Calculates a time needed for Specifically, terminal control unit (62), position sensing unit (63) the second remote control terminal (6) displays its current position, terminal position of the house (81) stored in the storage unit (64). information showing, and the motion velocity measured by the acquisition unit 67 the second remote control terminal (6), based on the travel speed, from outside the house (81) to the home of the user of the remote control terminal (6). (81) calculates the time it takes to return.

The terminal communication unit (61) is controlled by the terminal control unit (62). transmits the calculated information showing the required time to the server (7). For example, the terminal communication unit 61 displays the time needed. transmits the information to the server (7) at predetermined time intervals.

required, indicated by the information previously transmitted to the server (7). terminal control unit after transmission of time and previous information A difference between the new time needed, calculated by (62) when the difference exceeds a predetermined time, the terminal communication unit (61) can transmit a required new time to the server (7). For example, a “elapsed time” and “after previous information has been transmitted new required, calculated by the terminal control unit (62). time” “time needed, indicated by previously communicated information” When the time obtained by subtracting exceeds “10 minutes”, terminal communication unit (61) sends the information showing the new time needed to the server (7). transmits. “Last time” refers to the time the previous information was transmitted, the terminal after the previous information has been transmitted by the control unit (62) It is the time it takes to calculate the time heard.

Server (7) with indoor unit (4) and multiple remote controls a server communication unit (71) communicating with the terminal.

Server communication unit (71), multiple remote controls showing the time required by the user of each of the terminals information from each of the many remote control terminals. Contains a function to retrieve. As described above, the first remote control terminal (5) and second remote control terminal (6), are examples of many remote control terminals.

The server 7 also includes a server storage unit 72 that stores the information, and control the storage of information within the server storage unit (72). It also includes a server control unit (73) Specifically, the server the control unit (73), the information obtained from the indoor unit (4) the server controls its storage in the storage unit 72.

Server storage unit 72, for example, with a semiconductor memory is run. Information obtained from indoor unit (4), server communication taken by the unit (71). from indoor unit (4) an example of information is information showing the temperature of the air outside, information indicating the target indoor temperature, the indoor unit (4) information showing that it is running or stopped, showing the operating mode information indicating the wind direction, indicating the air volume information, information indicating an abnormality in the case of abnormality, internal with the individual identification information of the indoor unit (4) and the outdoor unit. (3) some or all of the relevant information. of indoor unit (4) individual credential, for example, a media access of the indoor unit (4) control (MAC) address and indoor unit (4) one or both of the information indicating a serial number.

The server control unit 73 is furthermore a multi-functional unit of the server communication unit 71. server storage of information received from a number of remote control terminals There is also a device to control its storage in the unit (72). contains function. Multiple remotes of the server communication unit (71) Examples of the information it receives from the control terminal are many remote multiple remotes transmitted from each of the control terminals the identity of the user of each of the control terminal, required by the user of each of the numerous remote control terminals. information showing the time heard, and operating on air conditioning is knowledge. When every user needs, the user's home It is the time he needs to get back to home (81) from outside (81).

The server storage unit (72) contains a plurality of remote a terminal in which each of the control terminals is associated with its user. stores the database. The database contains the credential information showing the time heard, and air conditioning related a system in which operating information is associated with each other for each user. is the information set. The need of a user in the house (81) It should be taken into account that the time it hears is zero minutes. First in the form of application, the air conditioner (2), the individual identification of the indoor unit (4) based on the user's information and the user's identity information, a large number of remote associated with the user of each of the control terminals.

The server control unit (73) is the server communication unit (71), the target internal information showing the room temperature and air conditioning (2) and Numerous remote controls associated with the temperature based on the time required by the user of each terminal information that commands the indoor unit (4) to run or stop. to the indoor unit (4).

The server (7) also contains the information received by the server communication unit (71). based on the server storage unit of a user returning home (81) (72) with information contained in the database stored in back home (81) first out of the many users shown a computation unit 74 which calculates an estimated time at which it rotates. includes. Server communication unit 71, estimate of computing unit 74 by the calculating unit 74 from a time from which it calculates the time. air conditioning in increments to the estimated estimated time transmits a command to the air conditioner (2) to change its setting.

FIG. 3 shows a cooling mode as the operating mode of the air conditioner (2). air conditioning according to the first application a part of the operation of the air conditioner (2) contained in the control system (1). is a graph showing an example. More specifically, FIG. 3, air all the conditioning settings associated with the air conditioner (2). the first time the users go out of the house (81) setting the returning user back home from now on Shows an example of the command for In FIG. 3, “WORKING”, indicates that the air conditioner (2) is operating. In FIG. 3, “STOP” indicates that the air conditioner (2) Indicates that the operation has stopped.

The following description describes many remote control terminals, first remote control terminal (5) and second remote control terminal (6) assuming it is. First, check the server (7) server unit 73, within the database, the first remote control terminal (5) the time needed for or the second remote control terminal A time when the time required for (6) is zero minutes Contains information showing the target indoor temperature at the SHAPE On the left side of 3, the time required is zero minutes. time point, the user who went out later, the first remote second remote control with the user of the control terminal (5) is a point in time when the terminal (6) goes out among its users.

First remote control terminal (5) and second remote control The time required for terminal (6) is both less than zero minutes. longer than the server controller 73, the first remote of the user of the control terminal (5) and the second remote control determines that the user of the terminal (6) have both gone out, and command to change the air conditioning setting initiates it. First remote control terminal (5) of the user of the second remote control terminal (6) and Upon determining that both have gone out, the server checks unit (73), required for the first remote control terminal (5) time and required for the second remote control terminal (6) air using the shorter time required between Controls the command to change the conditioning setting.

The server control unit (73) is the server communication unit (71), the air To change the conditioning setting, send the command to the indoor unit. (4), as the time needed increases, the target indoor temperature It allows it to transmit in stages, gradually increasing. Necessary when the time heard is a first reference time or longer, server control unit (73), server communication unit (71), operating It allows it to transmit a command to the indoor unit (4) to stop it.

The example of FIG. 3 sets the first reference time to 120 minutes.

The time required is a first reference time or longer performed by the server control unit (73) when control, the first remote of the air conditioning control system (1) of the user of the control terminal (5) and the second remote control When both users of the terminal (6) go out, the air conditioner (2) Allows it to reduce the power consumed by This means that the air conditioning control system (1), energy-saving air can perform conditioning.

When the time needed is less than a second reference time, server control unit (73), server communication unit (71), operating It allows it to transmit a command to the indoor unit (4) to start it.

As in the example in FIG. 3, the first reference is time and the second The reference time may be the same. Server control unit (73), server Changing the air conditioning setting of the communication unit (71) to the indoor unit (4) as the time required decreases. in stages with the target indoor temperature gradually decreasing allows it to be transmitted.

The server control unit (73) is the server communication unit (71), the air To change the conditioning setting, send the command to the indoor unit. (4), the difference between the temperature of the outside air and the target indoor temperature. just Before the time needed for a difference reaches zero minutes stages to fall within a predetermined range allows it to be transmitted. Time required to zero minutes The user who returned home (81) just before accessing with the user of the remote control terminal (5) and the second remote without first returning between the user of the control terminal (6) is just before.

When the time required is zero minutes, the server controller (73), of the server communication unit (71), of the indoor unit (4) the temperature of a room in which it is located, the target contained in the database. target indoor temperature based on information showing indoor temperature. a command to the indoor unit to allow it to access the (4) allows it to transmit.

As described above, the server (7) is created by a large number of users. guess that the first user to return home (81) returned home (81) calculates the time and for changing the air conditioning setting command to the air conditioner (2) from the time the estimated time is calculated. transmits the calculated estimated time in increments. Therefore, the air conditioning control system (1), multiple users with a single air conditioner (2) when associated and among a large number of users a user entering the building relatively early from the outside and When there is a user who enters late, the weather for many users can carry out conditioning as needed.

In addition, the server (7) takes the time required by a large number of users. command to change the comparisons and air conditioning setting transmits it to the air conditioner (2). Therefore, a large number of users are all from home (81) out of the large number of users, the earliest one to return home with the temperature of the outside air at the time the user returns home. a difference between the temperature inside the room (81) of the house, the server (7) To change the air conditioning setting, send the command to the air conditioner (2). less than in a case where it does not transmit. As a result, the weather conditioning control system (1) air with relatively little heat input can achieve conditioning.

In addition, when a large number of users all leave the house (81), the operation of the air conditioner (2) is stopped, thus air conditioning control system (1) uses energy-saving air conditioning can print.

Second Application Type Afterwards, an air conditioning procedure according to a second embodiment. control system will be described. According to the second application form, the weather configuration of the conditioning system, first application form with the configuration of the air conditioning control system (1) according to is the same, but the function of some of the components is It is different between the application form and the second application method. Second method of application mainly describing the different part from the first form of application is doing.

The server control unit (73) contained in the server (7), in the server storage unit (72) from among a number of users. user indicated by the information contained in the stored database some of the users go out of the house (81) determines the output. The server control unit (73) is used by some of the users. When it detects that it has gone out, the server communication unit (71) a command to change the conditioning setting to the air conditioner (2), transmits specifically to the indoor unit (4), this command is the temperature sensor between the temperature detected by (31) and the target indoor temperature. reduces a difference.

Command to air conditioner (2) to change air conditioning setting When transmitted, the server (7) delivers air to the user in the house (81). Indicates that the conditioning setting change has been initiated. House (81) user air conditioning setting in air conditioning in the case where replacement is carried out When the air conditioner (2) performs an operation on the air cancels changing the conditioning setting.

FIG. 4, air conditioning control according to a second embodiment an operation of the server (7) contained in the is a flowchart showing an example of the procedure. Server (7) from the first remote control terminal (5) and the second remote control information indicating the time required from each of its terminal (6). gets (Sl). This means that in step S1, server (7) is the first remote the time required from the control terminal (5), that is, the first remote the user of the control terminal (5) from outside the house (81) back to the house (81) receives information indicating the time it needs to return, and required from the second remote control terminal (6) at the same time time, that is, the user of the second remote control terminal (6) the time he needed to get back to the house (81) from outside the house (81) receives the information displayed.

Next, the server (7) checks whether a user is at home (81). determines (SZ). When it is determined that there is a user in the house (81) (in ST Yes), the server (7) checks if there is a user outside the house (81) determines (S3). When it is determined that there is a user outside the home (Yes on S3), server (7) user is away for more than an hour When it is determined that the user has been away for more than an hour (Yes at S4), server (7) is outside to return the user's home whether the time required for determines (SS). No need for the user who is out to return home. when it is determined that the time heard is less than 30 minutes (Step 85 at Yes), server (7), user at home (81), enter heat Air conditioning control will be started to reduce notifies the user (86).

“One hour” in step S4 and “30 minutes” in step SS for determination are examples of criteria and one or both of “an hour” and “30 minutes” may change place over time. For example, from “one hour” and “30 One or both minutes can be changed by the user. For example, when executing the step Sö, the server (7) enters the job information that air conditioning control will be started to reduce transmits to the remote control terminal, and the remote control terminal allows it to display a message showing the information. My name is So When it runs, the server (7) uses air to reduce the heat shock. inform the indoor unit that the conditioning check will be started. (4) can transmit, and a built-in indoor unit (4) make the visor sound or install it inside the indoor unit (4). It can cause a light-emitting diode to blink.

After the execution of step Sö, the server (7), enter the heat Starts the air conditioning control to reduce (S7).

Specifically, the server (7) is the target indoor at the start of the check. Stores the information showing the temperature, indoor at cooling time air to the unit (4) to raise the target indoor temperature. transmits a command to change the conditioning setting, and timely to the indoor unit (4) that the target indoor temperature To change the air conditioning setting to reduce transmits a command so that the target indoor temperature and outside temperature a difference in the temperature of the air to a predetermined range Server (7) from the first remote control terminal (5) and from the second remote indicating the time needed from each of the control terminal (6) receives the information (S8). The server (7) is owned by a user located outside the house (81). determines whether or not (S9). that no user is outside is set (No in S9), the server (7) is set to reduce the heat shock. terminates the air conditioning check (S10). For example, my name At S10, the server (7) is air conditioning to reduce heat shock. at the start of the control, the set temperature is set to the target indoor transmits a command to the indoor unit (4) to be changed to temperature.

When it is determined that there is a user outside the home (Yes at Q9), The server (7) runs an air conditioning-related operation of the home user. determines whether it is realized or not (S 1 1).

The server (7) is the home user's operation related to air conditioning. (Sll, de Yes), the operation of the server (7) advances to step S10. The server (7) is the home user's air when you determine that you are not performing the conditioning-related operation (No in Sl 1), operation of server (7) proceeds to step 88.

Server (7) in step S3, make sure that no users are outside (No on S3), the user is out for less than an hour. (No at S4) or when the outside user 30 minutes or longer of the time it takes to get back home (No on S5), the operating step of the server (7) SL moves forward. Server (7) has no users at home (81) (No in ST) and step S10 operating ends the process after it is done.

According to the second embodiment, as described above, the air conditioning control system, large number of users all outside Reducing heat shock based on time needed even if not Performs air conditioning control for It means, Some of the users return home later than other users. when it returns, according to the second application form, air conditioning control air system with relatively less heat input for this part of users. can achieve conditioning.

FIG. 5 shows the air according to the first implementation of the processor 91. a first remote control of the conditioning control system (1) terminal communication unit (51) contained within the terminal (5), terminal control unit (52), position sensing unit (53), of the receiving unit (56) and the accelerating unit (57) while performing some or all of its functions, is a diagram illustrating the processor 91. This means that the terminal position of the communication unit (51), terminal control unit (52), of the sensing unit (5 3), the receiving unit (56) and the acceleration some or all of the functions of the unit (57) by the processor (91) executing a program stored in realizable. The processor 91 is a central processing unit (CPU), a processing unit, an arithmetic unit, a microprocessor, or a digital signal processor (DSP). FIG. 5 also shows the memory 92.

Terminal communication unit (51) of the processor (91) unit (52), position sensing unit (53), receiving unit (56) and some of the functions of the acceleration unit (57) some or all of the functions all processor (91) and software, hardware software, or software and can be performed by a combination of hardware software.

Software or hardware software is described as a program and (92) is stored in. The processor (91) consists of the terminal communication unit (51), terminal control unit (52), position sensing unit (53), of the receiving unit (56) and the accelerating unit (57) some or all of its functions are stored in memory (92). can be executed by reading and executing the stored program.

The processor (91) is the terminal communication unit (51) of the terminal control unit (51). unit (52), position sensing unit (5 3), receiving unit (56) and some of the functions of the acceleration unit (57) or all, the first remote control terminal (5) terminal communication unit (51), terminal control unit (52), position sensing unit (53), receiving unit (56) and accelerating unit Some or all of the steps carried out by (57) memory (92) for storing the program that resulted in its execution includes. The program stored in memory 92 may also be position of the communication unit (51), terminal control unit (52), of the sensing unit (5 3), the receiving unit (56) and the acceleration a procedure carried out by some or all of the unit (57) Or can be said to make a computer execute the method.

Memory 92, for example, a random access memory (RAM), only a readable memory (ROM), an Ilas memory, an erasable programmable read-only memory (EPROM), or an electrical erasable programmable read-only memory (EEPROM (proprietary a non-volatile or volatile semiconductor, such as a trademark) memory; a magnetic disk; an Ilopi disc; an optical disc; a compact disk; a mini-disc; a digital versatile disc (DVD); or similar.

FIG. 6 shows the processor circuit (93) air according to the first embodiment. first remote control of the conditioning control system (l) of the terminal communication unit (51) contained within the terminal (5), terminal control unit (52), position sensing unit (53), part of the receiving unit (56) and the accelerating unit (57) an image showing a processor circuit (93) while performing all or all is the diagram. This means that the terminal communication unit (51), terminal control unit (52), position sensing unit (53), part of the receiving unit (56) and the accelerating unit (57) or all may be implemented by the processor circuit 93.

The processor circuit 93 is the dedicated hardware. Processor circuit (93) for example, a single circuit, a complex circuit, a programmed processor, a parallel-programmed processor, an application-specific integrated circuit (ASIC), a field programmable array of gates (FPGA), or their is a combination.

Terminal communication unit (51), terminal control unit (52), position sensing unit (53), receiving unit (56) and accelerating unit Some of the many functions contained in (57) are software or by hardware software, although very remainder of a number of functions by the allocated hardware realizable. Terminal communication unit (51), terminal control unit (5 2), position sensing unit (53), receiving unit (56) and motion Numerous functions contained within the accelerator unit (57) hence hardware, software, firmware or a combination thereof. can be performed by the combination.

According to the first application form, the air conditioning control system (1) contained within the second remote control terminal (6) terminal communication unit (61), terminal control unit (62), of the position sensing unit (63), the receiving unit (66) and the movement speed some or all of the functions of the gain unit 67 by a processor executing a program stored in memory realizable. Memory terminal communication unit (61), terminal control unit (62), position sensing unit (63), receiving unit (66) and one of the steps carried out by the acceleration unit (67) program that results in the execution of some or all It's a memory to keep. The terminal communication unit (61) of the control unit (62), position sensing unit (63), functions of the unit (66) and the acceleration unit (67). may be implemented by some or all of the processor circuitry.

The processor circuit is the processor circuit similar to the processor circuit 93.

According to the first application form, from the air conditioning control system (1) and from the air conditioning system according to the second application system server communication contained within the server (7) of each unit (71), server control unit (73) and computing unit Some or all of the (74) functions in a memory can be executed by a processor executing a stored program.

Memory server communication unit (71), server control unit (73), and part of the steps carried out by the computing unit 74 or for storing the program that resulted in the execution of all is memory. of the server communication unit (71), the server control unit (73) and some or all of the functions of the computing unit 74 can be implemented by the processor circuit. processor circuit, processor It is the processor circuit similar to the circuit (93).

Configuration shown in each application form above it simply shows a sample of the content of the present invention, and therefore by another known technique without departing from the spirit of the present invention. may be combined or partially omitted and/or modified.

Claims (4)

REQUESTS 1. An air conditioning control system (1) comprising an air conditioner (2); a plurality of remote control terminals (5, 6), each of which includes the function of remotely controlling the air conditioner (2); and a server (7) for controlling the air conditioner (2), wherein the air conditioner (2) includes an outdoor unit (3) comprising a temperature sensor (31) that detects the temperature of the outside air, from multiple remote control terminals (5,6 ) each a position sensing unit (53, 63), a motion acceleration unit (57, 67), a terminal storage unit (54, 64) that stores information indicating a position of a building (81) where air conditioning (2) is installed, a terminal control unit 52, 62 and a terminal communication unit 51, 61; position, the accelerometer unit (57, 67) measures a motion velocity of a remote control terminal (5, 6) containing the accelerometer unit (57, 67), the terminal control unit (52, 62) controls the terminal control unit (57, 67). 52, 62) position detection of the remote control terminal (5, 6) a remote control terminal 5, 6) containing the terminal control unit 52, 62, based on information obtained from the accelerometer unit (53, 63), the acceleration unit (57, 67), and the terminal storage unit (54, 64). The terminal communication unit (51, 61), terminal control unit (52) of a remote control terminal (5, 6) containing the terminal communication unit (51, 61) calculates a time that its user needs to enter the building (81) from outside the building (81). , 62), indicating the time needed, to the server (7), the server (7) maintains a server storage unit (72) that stores a database that associates the air conditioner (2) with the user of each of the plurality of remote control terminals (5, 6) a server communication unit (71) that receives information indicating the time required by the user of each of the plurality of remote control terminals (5, 6) from each of the plurality of remote control terminals (5, 6) Based on the information received by a server control unit (73) and the server communication unit (71), it calculates an estimated time when a user entering the building 81 first enters the building 81 from among a large number of users indicated by the information contained in the database. includes the computing unit 74, and the server communication unit 71 transmits a command to the air conditioner 2 to change the air conditioning setting in stages from a time when the computing unit 74 calculates the estimated time to the estimated time calculated by the computing unit 74, and the server control unit (73) enables the server communication unit (71) to transmit the command to change the air conditioner setting to the air conditioner (2), such that the difference between the outside air temperature and the targeted indoor temperature is different from the time the user who comes to the building (81) first arrives at the building (81). Just Before It falls within a predetermined range. 2. An air conditioning control system (1) comprising an air conditioner (2); a plurality of remote control terminals (5, 6), each containing a function for remote control of the air conditioner (2); and a server (7) for controlling the air conditioner (2), wherein the air conditioner (2) includes an outdoor unit (3) comprising a temperature sensor (31) that detects the temperature of the outside air, from multiple remote control terminals (5, 6). ) each a position sensing unit (53, 63), a motion acceleration unit (57, 67), a terminal storage unit (54, 64) that stores information indicating a position of a building (81) where air conditioning (2) is installed, a terminal control unit 52, 62 and a terminal communication unit 51, 6 1). it detects its current position, the accelerometer unit 57, 67 measures a motion velocity of a remote control terminal 5, 6 containing the accelerometer unit 57, 67, the terminal control unit 52, 62 controls the terminal control unit. Detect position of remote control terminal (5, 6) containing (52, 62) Based on the information obtained from the ma unit 53, 63, the accelerating unit 57, 67, and the terminal storage unit 54, 64, a remote control terminal 5, 6) containing the terminal control unit 52, 62 calculating a time a user needs to enter the building 81 from outside the building 81, the terminal communication unit (51, 61) of a remote control terminal (5, 6) containing the terminal communication unit (51, 61), the terminal control unit ( 52, 62) to the server 7 indicating the time required, and the server 7 maintains a server storage unit () that stores a database that associates the air conditioner (2) with the user of each of the plurality of remote control terminals (5, 6) 72), use a server controller (73) and server control unit (73) to determine that when some of the users are out of the building 81, a number of users have gone out, as indicated by the information contained in the database. includes a server communication unit (71) to transmit a command to the air conditioner (2) to change the air conditioning setting, which reduces a difference between the temperature sensed by the temperature sensor (31) and the target indoor temperature, when it detects that some of the transmitters have gone out, and the outside user When the required time is less than a predetermined time, the server (7) transmits the command to change the air conditioner setting to the air conditioner (2) to raise the target indoor temperature at the cooling time, and transmits the command to change the air conditioning setting to the air conditioner (2) to lower the target indoor temperature at the heating time. , such that the difference between the outside air temperature and the targeted indoor temperature falls within a predetermined range. 3. The air conditioning control system (1) in accordance with claim 2, and the server (7) indicates that an air conditioning setting change is initiated when a command is transmitted to the air conditioner (2) to change the air conditioning setting to the user in the building (81). 4. It is an air conditioning control system (1) in accordance with claim 3, and when the user in the building (81) performs an operation related to the air conditioning setting in a situation where the air conditioning setting is changed, the air conditioner (2) cancels the air conditioning setting change. 26968