JP4474340B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner that is operation-controlled by two systems of an operation control command from a local side and a remote control command from an external device via a communication function.

  Conventionally, in an air conditioner, start / stop of operation, setting of operation mode such as cooling / heating, and detailed setting of set temperature and timer operation, etc. are possible as standard. This is usually done by operating the remote control that comes with the air conditioner. On the other hand, some models are equipped with communication means such as an HA terminal and a wireless module to accept remote operation from the outside. In such models, the communication means is connected to a communication network such as a telephone line or the Internet. By doing so, it is possible to operate the air conditioner at home via a communication network.

Which operation control command is valid or invalid depending on the presence or absence of a person's presence in the two systems of operation control from the local side and remote control from an external device via a communication function An air conditioner for controlling the above and a control method therefor have been proposed. According to this proposal, the air conditioner can be operated by operation control by a remote control and remote control via a remote control device, and when it is detected by a human body detection sensor that a person is in the room, The control unit is configured to invalidate the operation input from the remote control device and perform operation control based on the operation input from the remote controller. With such a configuration, it is intended to prevent problems such as remote control being performed even when a person is present in the room where the air conditioner is installed.
JP 2003-120984 A (paragraphs [0035] to [0038], FIG. 2)

  In recent years, a constant connection has been established as a connection environment to the Internet, and dealing with unauthorized access from outsiders has become an essential issue. For this, countermeasures on the network system are normal, but it is also important to deal with the device to be operated finally.

  When operating the air conditioner based on the operation control command received by remote operation from the outside, even if this operation command is due to unauthorized access from outsiders, it is also due to incorrect operation of the authorized user. Even if it is, it is reflected in the operation of the air conditioner. If there is an unauthorized access from an outsider, if there is a person in the room, the air conditioning is changed to an operating condition not intended by the person in the room. Conversely, if all remote operations are disabled while a person is in the room, convenience for remote operations from the local side deteriorates.

  Therefore, when the air conditioner body is operated by two systems, that is, an external operation control command from a remote control device installed outside via a communication means and a local operation control command by a remote controller, the air conditioner is operated by the external operation control command. There is a problem to be solved in that not all operations of the machine main body are allowed, but depending on the content of the operation command, there is a restriction on the reflection to the actual operation.

  The object of the present invention is to determine whether or not to accept an external operation control command according to the content of the operation command of the air conditioner body when there is an external operation control command for the operation of the air conditioner body. It is to provide an air conditioner that can prevent air conditioning that has shifted to unintended operating conditions that have a great influence on the person in the room, while ensuring convenience for remote operation from the room.

The air conditioner according to the present invention has communication means with a remote control device installed outside, and is based on the presence or absence of an external operation control command from the remote control device and a local operation control command from a remote controller. Remote control level management means for dynamically managing a level of a control range as a range of operation contents operable on each air conditioner according to the external operation control command . And when the external operation control command is received, it is reflected in the operation of the air conditioner body only when it is determined to be effective by the remote control level management means. .

According to this air conditioner, the remote control level management means divides the level of the control range as the range of operation contents that can be operated on each air conditioner by the external operation control command into a plurality of levels and operates. The level of the control range that can be operated by the external operation control command is determined from time to time according to the situation such as the operating condition of the air conditioner . When an external operation control command is received, the external operation control command is determined to be valid / invalid or restricted according to the level, and only when the remote control level management means determines that it is valid. The command content of the control command is reflected in the operation of the air conditioner body. In other words, the air conditioner body is operated based on the external operation control command determined to be valid, and is operated based on the command, and in the case of the external operation control command determined to be invalid (invalid). The operation based on the command is not performed. The level of the control range that can be operated by the external operation control command can be determined according to the degree of influence and importance of the air conditioning environment that the occupant receives, so even if the operation by the external operation control command may be allowed The impact of air conditioning on residents is limited to a small extent.

  In this air conditioner, the remote control level management means moves the level of the control range that can be operated based on the current operation status by the local operation control command and the state duration from the time when the local operation control command is received. Can be changed. The operation status of the air conditioner main body currently operated by the local operation control command and the state duration from the time when the local operation control command is received can be recognized in the operation control of the air conditioner main body. That is, since it can be understood how long the current driving situation has continued, the level of the control range that can be operated is dynamically changed based on the information that can change from time to time. Is also reflected in the operation of the air conditioner body according to the changed controllable control range.

  In the above air conditioner, the remote control level management means holds a plurality of operation histories according to the local operation control command, and when receiving the external operation control command, the operation history in which the content of the external operation control command is retained It is possible to determine that the received external operation control command is valid only when it matches the content of. One of the grounds for effectiveness when determining that the remote control level management means is effective is cited. That is, when the remote control level management means holds a plurality of operation histories based on the local operation control command, and the content of the received external operation control command matches any of the plurality of operation histories held, Because it is an external operation control command with no, it is determined to be valid.

  In the above air conditioner, when human body detection means for detecting the presence state of the user in the room where the air conditioner main body is installed is provided, and the remote control level management means confirms the presence of the user by the human body detection means The remote control level can be changed in the direction of reducing the control range operable by the external operation control command, or in the direction of expanding the operable control range when the absence of the user is confirmed. If human body detection means for detecting the user's occupancy status in the room where the air conditioner body is installed is provided, and the user's occupancy is confirmed by the human body detection means, local operation control should be given priority. More preferably, the remote control level management means changes the remote control level in a direction to reduce the control range operable by the external operation control command. If the absence of the user is confirmed, it is determined that the influence on the user is small even if the control range that can be operated with the external operation control command is expanded. Change the remote control level in the direction of expanding.

  Further, in the above air conditioner, further comprising a time management means for managing the current time, a remote control time management table for storing a plurality of time zones set by the user and a remote control level for each time zone, The remote control level management means can dynamically change the remote control level for the current time based on the contents of the remote control time management table. There are times when it is preferable not to change the driving conditions set by the user, such as at night when the user is sleeping. Therefore, the current time is managed by the time management means, and the remote control time management table stores a plurality of time zones set by the user and the remote control level for each time zone, thereby enabling the remote control level. The management means can dynamically change the remote control level for the current time based on the contents of the remote control time management table.

  According to the air conditioner of the present invention, since the control range in which the air conditioner can be remotely operated by the external operation control command is dynamically managed according to the level, it is effective in the remote control level management means. Only the operation command content of the external operation control command determined to be present is reflected in the operation of the air conditioner body. In addition, such dynamic management of the control range level enables remote control to be restricted according to the current driving conditions and occupancy conditions. Even if there exists, it can suppress that the driving | running of an air conditioner main body shifts to the driving | running condition which a user does not intend. In addition, it is possible to preferentially limit only the transition to operating conditions that cause particularly extreme temperature changes. In addition, since the remote control range of the air conditioner is dynamically changed, operation that maximizes the convenience of remote operation while ensuring the minimum security for air-conditioning operation from time to time. Control can be realized.

[Embodiment 1]
FIG. 1 is a functional block diagram showing the overall configuration of an air conditioner according to the present invention. The air conditioner (hereinafter referred to as “air conditioner”) 1 is a remote control input that receives and processes a signal from the remote controller 5 as an input from the local side as an input system of an operation control signal to the control unit 7 that controls the overall control. Here, as an input from the outside, the communication processing between the home appliance gateway 11 that generates and transmits a control signal to the air conditioner 1 based on the result operated from the mobile phone 14 via the Internet 9 is performed here. And a wireless module 10. The wireless module 10 is connected to the control unit 7 via the communication processing unit 2. Further, data can be exchanged between the control unit 7 and the storage unit 8.

  The wireless module 10 uses IEEE802.11b, but may be another wireless medium such as a specific low power wireless or Bluetooth. The control unit 7 reads the thermistor value connected to the sensor input unit 13 on the basis of the operation condition transmitted by the operation control signal input from both the remote controller input unit 3 and the wireless module 10, and the load drive unit 12 controls the functional load parts such as a compressor, a four-way valve, a blower, and an ion emission device connected to 12 and performs a required operation. The control unit 7 also includes a human sensor 6 that uses a pyroelectric sensor or the like to detect whether or not a person is present in the room, and a display process for displaying the driving operation status of the air conditioner 1. The LED is also connected through the unit.

  FIG. 2 shows an example of a functional block diagram showing the internal structure of the control unit shown in FIG. The control unit 7 can include an input processing unit 20, a remote control level management unit 21, an operation control unit 22, and an output processing unit 23. The input processing means 20 confirms the presence / absence of an external operation control command based on signals from the wireless module 10 and the communication processing unit 2, confirms the presence / absence of a local operation command (remote control signal) based on the signal from the remote control input unit 3, Based on the sensor output from the sensation sensor 6, the presence / absence of the user's presence is confirmed, the operation state of the local operation detection timer is confirmed based on signals from various timers, and the operation state of the off timer is confirmed. Further, the remote control level management means 21 is a means for dynamically managing the level of the control range that can be operated by the external operation control command, and various data stored in the storage unit 8 and various data from the input processing means 20. Based on the confirmation information, various data stored in the storage unit 8 are read / verified, the validity of the external operation control command is confirmed, and the remote control level is set / updated (updated to the remote control level table of the storage unit 8) To be stored. Further, the operation control means 22 performs confirmation / confirmation of the current operation state of the air conditioner 1 and necessary load operation based on information from the input processing means 20 and the remote control level management means 21, and output processing. The unit 23 outputs a control output signal to the outside via the display unit, the load driving unit 12, various timers, the communication processing unit 2, based on information from the operation control unit 22. The storage unit 8 refers to a remote control level table in which a controllable range and a level that defines the control content are defined, as will be described later with reference to FIG. 3, FIG. 5 or FIG. As will be described later, a remote control operation history table for storing a history of past remote control operations and a remote that defines a set remote control level set according to the control time zone as will be described later with reference to FIG. A control time management table is provided.

FIG. 3 shows a remote control that dynamically manages a control range that can be operated by an external operation control command, that is, a level of a control range that is an operation content range that can be operated for each air conditioner by an external operation control command. It is explanatory drawing of the remote control level by a level management means. The remote control level is defined from 1 to 4, and the conditions for “operating mode setting”, “setting temperature change”, and “operation start / stop setting”, which are particularly important as operating conditions, are different for each remote control level. It is prescribed. In the example shown in FIG. 3, level 1 is the least restrictive and all controllable ranges are set to be valid. The limit is set more severely as the level number becomes larger. For example, at level 4, all controllable ranges are set to be invalid. Even at the same level, the change of the operation mode and the start / stop of the operation are more severely restricted than the respective items because the influence on the user at home is great.

  FIG. 4 is a flowchart showing a control routine based on the remote control level shown in FIG. According to this flowchart, after the air conditioner 1 is turned on, the initial value of the remote control level is 1 (S1), that is, the remote control is started in a state where all operations are permitted. It is determined whether or not a remote control signal is detected after activation (S2). When a remote control signal is detected in S2, 30 minutes is set as a local operation detection timer (S3), and the remote control level is changed to level 4 which is the most restrictive (S4). (S14).

  If the remote control signal is not detected in S2, it is determined whether or not the local operation detection timer set as 30 minutes has expired (S5). In S5, when the timer has not expired and is operating, it is determined whether or not a control request message has been received from the outside (S12). Even if an external control request message is received in S12, since the remote control level is set to 4 at this point and all operations are prohibited, it is determined whether or not the request is permitted (S13). Is not permitted and is not reflected in the operation of the air conditioner 1 main body. Therefore, it is determined that the person is in the room for a predetermined time from the time when the remote control operation is detected, and local operation control is given priority.

  Even when the remote control operation is performed again during the local operation detection timer operation (S2), the local operation detection timer is reset from that point (S3), and the remote control level 4, that is, the prohibition state of all operations is extended. Will be. After the count of the local operation detection timer is completed, the presence state of the user is confirmed by confirming whether or not there is an input from the human sensor 6 (S15).

  In S15, when the user is absent, the current driving situation is continuously confirmed. First, it is confirmed whether the cooling or heating operation is currently in progress (S6), and if not, the remote control level is returned to 1 (S7). If it is confirmed by the confirmation in S6 that the cooling or heating operation is in progress and the off timer is valid (S8), the remote control level is set to 3 if the off timer is valid (S10). . When the remote control level is 3, the operation mode cannot be changed or the operation cannot be stopped from the remote operation, and the change of the set temperature is limited (here, ±± with respect to the set temperature set by the remote controller 5). Only the change of the range up to 2 ° C. is permitted), and only the operation of additional functions such as air volume and ion emission becomes possible. In other words, since the off-timer is valid, a future operation stop is intended, so only other operations are valid, but other important items are invalidated or restricted.

  If the air conditioner 1 is in the cooling or heating operation in the confirmation in S6 and the off timer is not valid in the confirmation in S8, it is confirmed whether or not the set temperature has been reached since the start of the operation (S9). Similarly, when it is determined that the set temperature has not been reached in the confirmation in S9, the remote control level is set to 3. When the remote control level is 3, priority is given to the cooling or heating operation operated by the remote controller 5 until the off timer ends or until the set temperature is reached once from the operation start. Therefore, air conditioning operation that suddenly changes to cooling operation during heating operation and lowers the room temperature is not performed.

  The remote control level is set to 2 when the air conditioner 1 is in cooling or heating operation in the confirmation of S6, the off timer is not effective in the confirmation of S8, and the set temperature is reached once from the start of operation in the confirmation of S9. In step S11, the operation can be stopped from the remote operation. Here, when the input from the human sensor 6 is detected and the occupancy state is confirmed, the determination result of S15 is YES, the remote control level is raised to 3 again (S16), and the permitted range from the remote operation is further increased. Move to restricted conditions.

  As described above, the remote control level is dynamically changed according to the elapsed time from the remote controller operation detection, the current operation status, the occupancy state, etc., and in the confirmation of S12, the control request message from the outside, that is, the external operation control command When there is reception, in the confirmation in S13, a determination is made according to the remote control level at that time, and only when it is determined that the external operation control command is valid, it is reflected in the operation to the air conditioner body 1 (S14). The process will be repeated.

[Embodiment 2]
FIG. 5 is a table showing remote control levels used in Embodiment 2 in the air conditioner according to the present invention. In the remote management level shown in FIG. 5, 1 to 3 are defined as remote control levels, and level 1 and level 3 are regulations for enabling or disabling all controllable ranges, particularly important as operating conditions. Level 2 for restricting “operation mode setting” and “change of set temperature” is separately defined. FIG. 6 is a diagram showing an example of an operation history table, in which a remote control operation history is shown together with its contents. A storage unit 8 is connected to the control unit 7 (FIG. 1), and the contents of the operation history from the remote controller 5 are held in the storage unit 8 under the management of the remote control level management means 21 and managed as an operation history table. Has been.

  FIG. 7 is a flowchart of a control routine including management of the operation history table. It is confirmed whether or not there is an operation from the remote controller 5 (S21). Every time there is an operation from the remote controller 5 in S21, the operation history table is updated (S22). In the operation history table update process, first, the requested operation mode and set temperature value are extracted from the detected remote control signal, and whether or not the same management data exists in the operation history table as shown in FIG. Verification / confirmation is performed. If the same management data already exists, the count value of the remaining effective time corresponding to the management data is reset to a predetermined initial time. Here, it is 43200 minutes (30 days). If the same management data does not exist in the operation history table, if there is free space in the table area, it is written in the free area, and if there is no free area, the one with the smallest effective remaining time, that is, the oldest one is extracted. The management data is rewritten.

  With these processes, the operation conditions for the four recently operated operations are held in the operation history table. If no remote control signal is detected in the confirmation in S21, the effective remaining time of each management data written in the operation history table is divided (S23). That is, the effective remaining time of each management data is counted down as time elapses. If there is management data whose effective remaining time is zero, the management data is deleted from the operation history table.

  Next, it is confirmed whether or not a control request message has been received from the outside (S24). If there is such a reception, the operation request is changed or the set temperature is changed as the content of the control request. Is confirmed (S25). If the control request content matches one of the above changes in the confirmation in S25, it is verified and confirmed whether or not the same management data as the requested operation condition exists in the operation history table. (S26). For example, when a control request message for changing the set temperature to 22 ° C. is received from the outside during the current heating operation, the operation condition is requested to be changed to “heating operation and set temperature 22 ° C.” Yes, as a result of collation, it matches with the operation history 2 in the operation history table shown in FIG. 6, so it is confirmed that it exists in the operation history table. In this case, it is reflected in the main body control of the air conditioner 1 (S27). .

  On the contrary, when a control request message for changing the set temperature to 20 ° C. is received from the outside, the confirmations in S24 and S25 are both YES, but as a result of collation, “heating operation and set temperature 20 ° C.” Since the operation history does not exist in the table, the confirmation in S26 is NO and is not reflected in the main body control of the air conditioner 1. In this way, the remote operation is accepted only for the operating conditions (maintained and managed in the operation history table) that are actually operated indoors with the remote controller 5 and have a track record as air conditioning, which is not intended by the user. There is no transition to operating conditions.

[Embodiment 3]
FIG. 8 is a diagram showing the remote control levels used in Embodiment 3 in the air conditioner according to the present invention. FIG. 8 (a) is a table showing the remote control levels, and FIG. 8 (b) is the remote control time. A management table is shown. The conditions defined as the remote control level in FIG. 8A are the same as those in the first embodiment. However, in the third embodiment, remote control time management is performed, and as shown in the table of FIG. 8 (b), here, 24 hours a day are divided into 12 time zones in 2 hours each. ing. Similar to the operation history table, the remote control time management table is stored in the storage unit 8 under the control of the remote control level management means 21, and can be set, updated, read out, verified, and the like. Note that the time management means provided in the control unit 7 (FIG. 1) (specifically, in FIG. 2, included in the input processing means 20 as part of the timer process) manages the current time. ing.

  The user accesses the home appliance gateway 11 from a Web browser of the personal computer 15 (see FIG. 1) in advance and inputs settings for the remote control time management table of the air conditioner 1. The set information is transmitted from the home appliance gateway 11 via the wireless module 10 in the same manner as the control request message, and is stored in the storage unit 8. When the control unit 7 of the air conditioner 1 receives a control request message from the outside, the remote control level management means remotely controls the current time at that time managed by the time management means from the held remote control time management table. The level is read, the validity of the requested content is determined, and only when it is valid, it is reflected in the main body control to the air conditioner 1.

  Therefore, when the user sets the remote control level for each time zone in the remote control time management table, the remote operation can be restricted according to the life pattern. For example, if the remote control time management table is set to level 4 for all midnight hours and all remote operations are prohibited, the remote control level management means 21 automatically performs the remote operation when determining that the current time is sleeping. Therefore, it is possible to prevent the air conditioner 1 from operating without knowing due to unauthorized access or the like, and to restrict operation control contrary to the intention of the user of the air conditioner 1.

The functional block diagram of the air conditioner by this invention. The block diagram centering on the control part of the air conditioner by this invention. 4 is a table showing remote control levels and their controllable ranges in the first embodiment. 3 is a flowchart of a control routine in the first embodiment. The table which shows the remote control level in Embodiment 2, and its controllable range. The operation history table in Embodiment 2. FIG. 10 is a flowchart of a control routine in the second embodiment. The remote control time management table in Embodiment 3. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioner 2 Communication processing part 3 Remote control input part 4 Router modem 5 Remote control 6 Human sensor 7 Control part 8 Memory | storage part 9 Internet network 10 Wireless module 11 Home appliance gateway 12 Load drive part 13 Sensor input part 14 Cellular phone 15 Personal computer 20 Input processing Unit 21 Remote control level management means 22 Operation control unit 23 Output processing unit

Claims (5)

Air conditioning that has communication means with a remote control device installed outside, and operates the air conditioner main body based on the presence or absence of an external operation control command from the remote control device and a local operation control command from the remote control In the machine
Remote control level management means for dynamically managing the level of the control range as the range of operation contents operable for each air conditioner by the external operation control command, and receiving the external operation control command In this case, only the external operation control command determined to be effective by the remote control level management means is reflected in the operation of the air conditioner body. In claim 1 air conditioner, wherein the remote control level management means, the current driving situation by the local operation control commands, and on the basis of the state continuation time from the time of receiving a local operation control command, the control an air conditioner characterized by dynamically changing the level of the range.   3. The air conditioner according to claim 1, wherein the remote control level management unit holds a plurality of operation histories based on the local operation control command, and receives the external operation control command when the external operation control command is received. The air conditioner characterized in that the received external operation control command is determined to be valid only when the content of the command matches the content of the operation history held. The air conditioner according to any one of claims 1 to 3, wherein a human body detection unit that detects a user's occupancy state in a room in which the air conditioner body is installed is provided, and the remote control level management unit includes: , to the direction in the case of confirming the user's occupancy by human body detecting means for reducing the control range that can be operated by the external operation control command, the control range can be operated in the case of confirming the user's absence An air conditioner characterized by changing a remote control level in an expanding direction.   The air conditioner according to any one of claims 1 to 4, wherein a time management means for managing a current time, a plurality of time zones set by a user, and a remote control level for each time zone are stored. An air conditioner having a remote control time management table, wherein the remote control level management means dynamically changes the remote control level with respect to a current time based on the contents of the remote control time management table .