JP5404837B2 - Air conditioning system, control method and program - Google Patents

Description

  The present invention relates to an air conditioning system that air-conditions a large living room using a plurality of air conditioners, a control method for the air conditioning system, and a program executed by a computer.

  The air conditioning system management system that air-conditions a relatively large living room such as a building office is roughly divided into a centralized system and an individual distributed system.

  In the centralized air conditioning system, the air conditioning state of the living room space is centrally managed. In this system, a plurality of outlets are provided in the living room space, and a remote controller for adjustment is installed for each outlet. According to this system, the air conditioning state can be individually adjusted in an area corresponding to each outlet by a remote controller.

  On the other hand, in the individual dispersion type air conditioning system, a plurality of indoor units are grouped into several groups, and one remote controller for remotely operating the indoor units of each group is installed. In this system, an indoor unit can be individually operated in an area corresponding to each group (see, for example, Patent Document 1).

Japanese Patent Publication No.7-18584

  Thus, in a large living room space, the space is generally divided into a plurality of areas, and the air conditioning state can be individually adjusted for each area. However, if the air conditioning state can be operated individually for each area, for example, the air conditioner is operating in one area, but the window is left open in the other area, or the air conditioning is in one area. However, there is a possibility of heating in the other area. In such a case, the operating efficiency of the air conditioner is significantly reduced.

  The present invention has been made in view of the above circumstances, and an air-conditioning system and control capable of preventing a reduction in operating efficiency of an air conditioner even when a plurality of air-conditioning states can be individually adjusted An object is to provide a method and a program.

  In order to achieve the above object, in the air conditioning system according to the present invention, a plurality of air conditioners are respectively installed in a plurality of regions of the living room space. The controller group includes a plurality of remote controllers installed for each area in order to remotely control air conditioners belonging to each area. The network connects each of the plurality of air conditioners and each controller included in the controller group. The outside air temperature sensor measures the outside air temperature. Each controller, when any one of the air conditioners starts operating, sends and receives information to and from other controllers included in the controller group via the network, thereby preventing a decrease in the operating efficiency of the air conditioner. To perform a cooperative operation. Among each controller, at least one controller includes a storage unit that accumulates the transition of the room temperature measured by the air conditioner after the operation of the air conditioner is started for each outside air temperature measured by the outside air temperature sensor, Of the current room temperature measured by the air conditioner since the start of the air conditioner operation and the room temperature accumulated in the storage unit, the room temperature transition corresponding to the current outside air temperature measured by the outside air temperature sensor The comparison unit that compares the past room temperature since the start of the operation of the air conditioner based on the and the comparison by the comparison unit warn if the difference between the current room temperature and the past room temperature exceeds the threshold A determination unit that transmits information related to the other controller, and a warning output unit that externally outputs a warning related to the received information when the information related to the warning is received from the other controller.

  According to the present invention, when an air conditioner and a controller for remotely operating the air conditioner are arranged in each of the plurality of areas of the living room space, when the operation of any of the air conditioners is started, the plurality of controllers Perform a cooperative operation to prevent a decrease in operating efficiency of the air conditioner by transmitting and receiving information to and from each other. As a result, it is possible to prevent the operating efficiency of the air conditioner in a certain region from being lowered due to the air conditioning state of another region.

FIG. 1A is a schematic diagram showing a living room space to which the present invention is applied. FIG. 1B is a block diagram showing the configuration of the air conditioning system according to Embodiment 1 that performs air conditioning of the living room space of FIG. It is a block diagram which shows the detailed structure of the remote controller of FIG.1 (B). FIGS. 3A and 3B are flowcharts showing processing of the control unit of the remote controller of FIG. 1B. 4A and 4B are examples of displayed warnings. It is a block diagram which shows the structure of the air conditioning system which concerns on this Embodiment 2. FIG. It is a figure which shows the example sentence of the email notified to an administrator. It is a block diagram which shows the structure of the air conditioning system which concerns on this Embodiment 3. It is a block diagram which shows the structure of the centralized management part of a centralized management controller. It is a graph which shows an example of transition of the past room temperature in the same outside temperature, and transition of the present room temperature. It is a block diagram which shows the structure of the air conditioning system which concerns on this Embodiment 4. It is a block diagram which shows the detailed structure of the centralized management part of FIG. It is a graph which shows an example of transition of the past power consumption, and transition of the current power consumption. It is a flowchart (the 1) which shows the process of the control part of the remote control in the air conditioning system which concerns on this Embodiment 5. It is a flowchart (the 2) which shows the process of the control part of the remote control in the air conditioning system which concerns on this Embodiment 5. FIGS. 15A to 15F are timing charts showing an example of the start timing of the operation of the air conditioner. It is a flowchart (the 1) which shows the process of the control part of the remote control in the air conditioning system which concerns on this Embodiment 6. It is a flowchart (the 2) which shows the process of the control part of the remote control in the air conditioning system which concerns on this Embodiment 6.

  Embodiments of the present invention will be described in detail with reference to the drawings.

Embodiment 1 FIG.
First, the first embodiment will be described.

  FIG. 1A shows a layout of a room 200 in which the air conditioning system 100 according to the embodiment of the present invention is constructed. As shown in FIG. 1A, a rectangular floor 1 is provided in a room 200. Walls 2 are provided on all sides of the floor 1. A space partitioned by the floor 1, the wall 2, and the ceiling (not shown) is a living room space of the room 200. The wall 2 is provided with two doors 3a and 3b and three windows 4a, 4b and 4c.

  The room space of the room 200 is divided into three areas 5a, 5b, and 5c. The door 3a and the window 4a are provided in the area 5a. The window 4b is provided in the area 5b. The door 3b and the window 4c are provided in the area 5c.

  FIG. 1B shows a configuration of an air conditioning system 100 according to an embodiment that performs air conditioning on a room 200. As shown in FIG. 1B, an air conditioning system 100 according to this embodiment includes six air conditioners 6a, 6b, 6c, 6d, 6e, 6f, and three remote controllers (hereinafter abbreviated as remote controllers). 7a, 7b, 7c and network 8. Six air conditioners 6 a, 6 b, 6 c, 6 d, 6 e, 6 f and three remote controllers 7 a, 7 b, 7 c are connected to each other via a network 8.

  The air conditioners 6a and 6b are installed in the area 5a and are operated so that the area 5a can be air-conditioned. The air conditioners 6a and 6b operate according to an operation input to the remote controller 7a.

  The air conditioners 6c and 6d are installed in the area 5b and are operated so that the area 5b can be air-conditioned. The air conditioners 6c and 6d operate according to an operation input to the remote controller 7b.

  The air conditioners 6e and 6f are installed in the area 5c and are operated so that the area 5c can be air-conditioned. The air conditioners 6e and 6f operate according to an operation input to the remote controller 7c.

  That is, the air conditioners 6a to 6f are divided into a group belonging to the area 5a, a group belonging to the area 5b, and a group belonging to the area 5c. The remote controllers 7a to 7c are provided corresponding to the respective groups in order to remotely control the air conditioners 6a to 6f for each group. In this embodiment, remote controllers 7a to 7c are included in the controller group.

  FIG. 2 shows a detailed configuration of the remote controller 7a. As shown in FIG. 2, the remote controller 7 a includes an operation unit 20, a communication unit 21, a display unit 22, and a control unit 23.

  The operation unit 20 is an input interface that receives a user operation input. The communication unit 21 is connected to the network 8 and transmits information to the air conditioners 6a and 6b in the area 5a to control the air conditioners 6a and 6b, and transmits and receives information to and from the other remote controllers 7b and 7c. . The display unit 22 has a display screen and displays information for the resident.

  The control unit 23 controls the operation unit 20, the communication unit 21, and the display unit 22. The control unit 23 includes, for example, a CPU and a memory (both not shown). When the CPU executes the program stored in the memory, the function of the control unit 23 is exhibited.

  When the operation of any of the air conditioners 6a to 6f is started, the control unit 23 transmits and receives information to and from the remote controllers 7b and 7c via the network 8, thereby preventing a decrease in the operation efficiency of the air conditioner. To perform cooperative operation.

  More specifically, when an operation input for starting the operation of the air conditioners 6 a and 6 b of the corresponding group is made to the operation unit 20, the control unit 23 receives another operation via the communication unit 21 and the network 8. Information related to the warning is transmitted to the remote controllers 7b and 7c. In addition, when receiving information related to a warning from the other remote controllers 7b and 7c via the network 8, the control unit 23 causes the display unit 22 to display a warning related to the received information.

  The configurations of the remote controllers 7b and 7c are the same as the configuration of the remote controller 7a shown in FIG.

  Next, the operation of the air conditioning system 100 according to this embodiment will be described.

  FIGS. 3A and 3B show flowcharts of two processes executed by the control unit 23 of the remote controller 7a.

  As shown in FIG. 3A, the control unit 23 of the remote controller 7a waits until the operation start operation of the air conditioners 6a and 6b is input in the operation unit 20 (step S1; No).

  When the operation information is input (step S1; Yes), the control unit 23 of the remote controller 7a sends operation start information including starting operation of the air conditioners 6a and 6b via the communication unit 21 and the network 8. It transmits to other remote controls 7b and 7c (step S2).

  Subsequently, the control unit 23 of the remote controller 7a causes the air conditioners 6a and 6b to start operation via the communication unit 21 and the network 8 (step S3), and returns to step S1.

  On the other hand, as shown in FIG. 3B, the control unit 23 of the remote controller 7a waits until the communication unit 21 receives the operation start information sent from the other remote controllers 7b and 7c (step S11; No).

  When the operation start information is received (step S11; Yes), the control unit 23 of the remote controller 7a displays a warning on the display unit 22 (step S12). Thereafter, the control unit 23 of the remote controller 7a returns to Step S11.

  FIG. 4A and FIG. 4B show an example of the displayed warning. In FIG. 4A, a warning “Please check the opening / closing status of windows and doors” is displayed on the display screen of the display unit 22 of the remote controller 7a. In this way, the displayed warning can be specifically urged to confirm the opening / closing status of the window or the like. However, the displayed warning may simply be content indicating that the operation of the air conditioner has started in another area.

  Further, in FIG. 4B, a warning “Cooling operation started in area 5b. Check the operation mode.” Is displayed on the display screen of the display unit 22 of the remote controller 7a. This warning display is effective when the air conditioners 6a and 6b in the area 5a are already in operation. In this way, the control unit 23 prompts confirmation that there is no fault in the operation mode different from the air conditioners 6c to 6f in the other areas 5b and 5c, that is, cooling on the one hand and heating on the other hand. Can be displayed on the display unit 22.

  The resident of the area 5a who has seen the warning content displayed on the display unit 22 recognizes that the operation of the air conditioner has started in the other area 5b, and this is the case when the door 3a and the window 4a are open. Can take action. When the operation mode of the air conditioners 6c to 6f is different from that of the air conditioners 6a and 6b, the resident in the area 5a can adjust the operation mode of the air conditioners 6a and 6b to the air conditioners 6c to 6f. . As a result, for example, it is possible to prevent the occurrence of a decrease in cooling efficiency as much as possible while the cooling operation is performed in one area and the window is opened in the other area.

  Instead of this display, the remote controller 7a may sound an alarm sound. Further, an alarm sound may be sounded together with this display. In short, it is only necessary to be able to output a warning externally.

  In these processes, the control unit 23 of the remote controllers 7b and 7c performs the same operation as the control unit 23 of the remote controller 7a. For example, when the operation start of the air conditioners 6c and 6d is operated in the remote controller 7b, the remote controller 7b transmits the operation start information to the remote controllers 7a and 7c, and receives the operation start information from the remote controllers 7a and 7c. This warning is displayed. When the remote controller 7c is operated to start the operation of the air conditioners 6e and 6f, the remote controller 7c transmits the operation start information to the remote controllers 7a and 7b and receives the operation start information from the remote controllers 7a and 7b. This warning is displayed. In this way, regardless of which area of the air conditioner is operated, a warning for residents in other areas is displayed on the remote controllers in other areas by the cooperative operation of the remote controllers 7a to 7c.

  As described in detail above, according to this embodiment, the air conditioners 6a to 6f and the controllers 7a to 7c for remotely operating the air conditioners 6a to 6f are assigned to the areas 5a to 5c of the room 200. . When the operation of the air conditioners 6a to 6f in any region is started, the plurality of controllers 7a to 7c perform a cooperative operation for preventing a decrease in operation efficiency by transmitting and receiving information to and from each other. More specifically, each controller transmits operation start information indicating that the operation of the air conditioner is started to the other controller, and when the other controller receives the operation start information, a warning is displayed. As a result, it is possible to prevent the operating efficiency of the air conditioner in a certain region from being lowered due to the air conditioning state of the other region.

Embodiment 2. FIG.
Next, a second embodiment of the present invention will be described.

  FIG. 5 shows the configuration of an air conditioning system 100 according to this embodiment. As shown in FIG. 5, the air conditioning system 100 further includes a centralized management controller 10 in addition to the configuration of the air conditioning system 100 according to the first embodiment. The central management controller 10 is connected to the network 8 and need not be provided in the room 200. In this embodiment, the centralized management controller 10 is included in the controller group together with the remote controllers 7a to 7c.

  The central management controller 10 includes an operation unit 30, a communication unit 31, a display unit 32, and a central management unit 33.

  The operation unit 30 is an input interface that receives a user operation input. The communication unit 31 is connected to the network 8 and performs data communication with the air conditioners 6a to 6f and the remote controllers 7a to 7c. The display unit 32 has a display screen, and displays information for a manager (a manager of the air conditioning system 100, for example, a manager of a building containing the room 200) on the display screen. The central management unit 33 performs centralized management of the entire air conditioning system 100 in accordance with an operation input by the administrator in the operation unit 20.

  Further, in this embodiment, the operation start information is transmitted and received between the remote controllers 7a to 7c and the centralized management controller 10. As a procedure for transmitting and receiving such operation start information, for example, any of the following procedures can be employed.

(1) When a driving start operation is performed with any of the remote controllers 7a to 7c, driving start information is transmitted from the remote controller to another remote controller. The remote controllers 7b and 7c display a warning. This is the same as the flow of the operation start information in the first embodiment.

(2) When a driving start operation is performed with any of the remote controllers 7a to 7c, driving start information is transmitted from the remote controller to the centralized management controller 10. The centralized management controller 10 displays a warning display based on the operation start information on the display screen of the display unit 32. This warning display is, for example, a display such as “air-conditioning operation of the air conditioners 6a and 6b in the area 5a has started”. The administrator urges the residents in the respective areas 5a to 5c to close the windows or adjust the operation mode separately (for example, by means of telephone or e-mail).

(3) When an operation for starting operation is performed by any of the remote controllers 7a to 7c, the operation start information is transmitted from the remote controller to the other remote controller and the centralized management controller 10. The centralized management controller 10 displays a warning related to the operation start information on the display unit 32 in the same manner as the other remote controllers 7a to 7c. In this way, since the warning is also displayed on the centralized management controller 10, the manager can also recognize that the operation of the air conditioner has started.

(4) When the central management controller 10 is operated to start the operation of the air conditioner with the remote control in any area, the operation start information is transmitted from the remote control to the central management controller 10. The centralized management controller 10 transmits operation start information to remote controllers in other areas. The remote control in the other area displays a warning.

  Further, in order to inform the administrator that the operation of the air conditioner has started, the centralized management unit 33 of the centralized management controller 10 sends the contents as shown in FIG. (For example, “The operation of the air conditioner has been started in the room 200. Please check the opening / closing status of windows and doors, etc.”) may be sent.

  By doing in this way, the administrator can recognize that the operation of the air conditioner has been started even if the administrator is not near the centralized controller 10. In this embodiment, the central management controller 10 notifies the administrator of an e-mail, but such an e-mail can be transmitted from any of the remote controllers 7a to 7c. Further, the destination of the e-mail may be the resident's personal computer or the like instead of the administrator's personal computer or the like, or the electronic mail may be transmitted to both the administrator and the resident. What is necessary is just to select suitably the transmission destination etc. of an email according to the management operation form in each field.

  As described in detail above, according to this embodiment, the administrator who manages the air conditioning system 100 using the centralized management controller 10 also confirms that the operation of the air conditioner has started in any area. Can be recognized. As a result, the manager notifies the occupants of the room 200 that the operation of the air conditioner has started, so that the occupants do not reduce the operating efficiency of the air conditioner. Since it can be urged to take action, it is possible to prevent the operating efficiency of the air conditioner from decreasing.

  Further, according to this embodiment, even when the simultaneous operation of the air conditioners 6a to 6f is started by an operation from the central management controller 10, the operation start information is transmitted from the central management controller 10 to the remote controllers 7a to 7c. Warning can be displayed. As a result, residents in each area can be informed that the operation of the air conditioner in a certain area has been started, and the residents can be encouraged to take actions that do not reduce the operating efficiency of the air conditioner. Therefore, it can prevent that the operating efficiency of an air conditioner falls.

Embodiment 3 FIG.
Next, a third embodiment of the present invention will be described.

  FIG. 7 shows the configuration of the air conditioning system 100 according to this embodiment. As shown in FIG. 7, the air conditioning system 100 further includes an outside air temperature sensor 12 that measures the outside air temperature. The outside air temperature sensor 12 may be provided in the air conditioners 6a to 6f. The outside air temperature data measured by the outside air temperature sensor 12 is transmitted to the centralized management controller 10 via the network 8.

  The air conditioners 6a to 6f measure the room temperatures of the areas 5a to 5c for air conditioning control. This room temperature data is transmitted to the central control controller 10 via the network 8 together with other operation data of the air conditioners 6a to 6f.

  As illustrated in FIG. 8, the central management unit 33 of the central management controller 10 includes an accumulation unit 40, a comparison unit 41, and a determination unit 42. These may be provided in the remote controllers 7a to 7c.

  The accumulation unit 40 associates the outside air temperature data measured by the outside air temperature sensor 12 with the operation data of the air conditioners 6a to 6f (including the room temperature data of the areas 5a to 5c) and accumulates it as operation history information. More specifically, in the storage unit 40, for each outside air temperature measured by the outside air temperature sensor 12, the transition of the room temperature data measured by the air conditioners 6a to 6f after the operation of the air conditioners 6a to 6f is started. Accumulated.

  Further, the storage unit 40 inputs the outside air temperature data measured by the outside air temperature sensor 12 after the operation of the air conditioners 6a to 6f is started, and any of the air conditioners 6a to 6f corresponding to the outside air temperature data is input. The room temperature data from the start of the operation is output.

  The comparison unit 41 inputs the current room temperature data measured by the air conditioners 6a to 6f after the operation of the air conditioners 6a to 6f is started, and out of the transition of the room temperature accumulated in the accumulation unit 40 The past room temperature data from the start of the operation of the air conditioners 6a to 6f based on the transition of the room temperature corresponding to the current outside temperature measured by the temperature sensor 12 is input. The comparison unit 41 compares the past room temperature data with the current room temperature data, and outputs information regarding the difference.

  The determination unit 42 sends warning information indicating that a warning is displayed via the communication unit 31 when the difference between the past room temperature data output from the comparison unit 41 and the current room temperature data exceeds a threshold value, via the communication unit 31. To ~ 7c.

  As shown in FIG. 9, generally, after the cooling operation is started, the room temperature is generally lowered with respect to the outside air temperature, and is generally settled down. However, when the window is open, the room temperature cannot be easily lowered. In such a case, the difference between the past room temperature data output from the comparison unit 41 and the current room temperature data becomes large, and the difference d1 exceeds the threshold value. When the difference d1 between the past room temperature data and the current room temperature data exceeds the threshold value, the determination unit 42 determines that the window is open or that there is a problem in the operation mode, and the warning information is transmitted to the remote controllers 7a and 7b. , 7c. The remote controllers 7a, 7b, and 7c that have received the warning information display a warning corresponding to this information and prompt the resident to take appropriate measures.

  Note that the determination unit 42 does not transmit the warning information to the remote controllers 7a to 7c unless the difference between the past operation data and the current operation data exceeds the threshold value.

  As described above in detail, in this embodiment, the transition of room temperature data since the operation of the air conditioners 6a to 6f is started is accumulated as operation history information for each outside temperature. Then, the difference d1 between the current room temperature data after the start of the operation of the air conditioners 6a to 6f and the past room temperature at the same outside temperature after the start of the operation of the air conditioners 6a to 6f is obtained. If d1 is greater than or equal to the threshold value, it is determined that the operating efficiency of the air conditioners 6a to 6f has decreased, and a warning is displayed on the remote controllers 7a to 7c. As a result, residents in other areas are informed that the operating efficiency of the air conditioners 6a to 6f in a certain area is decreasing, and actions are taken not to decrease the operating efficiency of the air conditioners 6a to 6f. Therefore, it is possible to prevent the operating efficiency of the air conditioners 6a to 6f from decreasing.

  In addition, when the operating efficiency of the air conditioners 6a to 6f is not lowered, no warning is displayed on the remote controllers 7a to 7c, so that the windows are closed and the normal operation is performed. The troublesomeness of displaying a warning for the resident can be eliminated.

Embodiment 4 FIG.
Next, a fourth embodiment of the present invention will be described.

  FIG. 10 shows a configuration of an air conditioning system 100 according to this embodiment. As shown in FIG. 10, the air conditioning system 100 further includes an electric energy sensor 13.

  The electric energy sensor 13 is connected to, for example, a distribution board 50 that supplies electric power to the air conditioners 6a to 6f. The electric energy sensor 13 measures the electric power consumption of the air conditioners 6a to 6f. The power consumption measured by the power amount sensor 13 is transmitted to the central management controller 10 via the network 8.

  As illustrated in FIG. 11, the centralized management controller 10 includes a storage unit 40, a comparison unit 41, and a determination unit 42. Similar to the third embodiment, these may be provided in the remote controllers 7a to 7c.

  The accumulation unit 40 accumulates, as operation history information, the transition of power consumption data measured by the electric energy sensor 13 after the operation of the air conditioners 6a to 6f is started.

  The comparison unit 41 inputs past power consumption data accumulated in the accumulation unit 40 after the operation of the air conditioners 6a to 6f is started, and the operation of the air conditioners 6a to 6f is performed via the network 8. After the start, current power consumption data of the air conditioners 6a to 6f is input. The comparison unit 41 compares the past power consumption data after the start of the operation of the air conditioners 6a to 6f and the current power consumption data, and outputs information regarding the difference.

  When the difference between the past power consumption data output from the comparison unit 41 and the current power consumption data exceeds the threshold value, the determination unit 42 sends warning information to the remote controllers 7a to 7c via the communication unit 31. Send to.

  As shown in FIG. 12, normally, after the cooling operation is started, the room temperature reaches the target value, so that the capabilities of the air conditioners 6a to 6f are controlled, the power consumption is reduced, and it is generally settled. . However, when the window is open, the power consumption is not easily reduced. In such a case, the difference d2 between the past power consumption data output from the comparison unit 41 and the current power consumption data becomes large and exceeds the threshold value. When the difference d2 between the past power consumption data and the current power consumption data exceeds the threshold, the determination unit 42 determines that the air conditioning efficiency of the air conditioners 6a to 6f has decreased, and warns. Information is transmitted to the remote controllers 7a to 7c. The remote controllers 7a-7c receive this warning information, display a warning related to the warning information, and prompt the resident to take appropriate measures.

  The determination unit 42 does not transmit warning information to the remote controllers 7a to 7c when the difference between the past power consumption data and the current power consumption data does not exceed the threshold value.

  As described above in detail, in this embodiment, the transition of the power consumption after the operation of the air conditioners 6a to 6f is accumulated as operation history information, and the operation of the air conditioners 6a to 6f is started. The difference d2 between the past power consumption and the current power consumption after being obtained is obtained, and when this difference d2 is equal to or larger than the threshold, warnings are displayed on the remote controllers 7a to 7c. As a result, residents in other areas can be informed that the operating efficiency of the air conditioner in a certain area has been reduced, and actions that do not reduce the operating efficiency of the air conditioner can be encouraged. It can prevent that the operating efficiency of 6a-6f falls.

  In addition, when the operating efficiency of the air conditioners 6a to 6f is not lowered, no warning is displayed on the remote controllers 7a to 7c, so that the windows are closed and the normal operation is performed. The troublesomeness of displaying a warning can be eliminated.

Embodiment 5 FIG.
Next, a fifth embodiment of the present invention will be described.

  The configuration of the air conditioning system 100 according to this embodiment is the same as the configuration of the air conditioning system 100 according to the first embodiment.

  FIG. 13 shows a flowchart of processing executed by the control unit 23 of the remote controller 7a according to this embodiment. This flowchart is a process corresponding to the process (see FIG. 3A) of the control unit 23 of the remote controller 7a according to the first embodiment.

  As shown in FIG. 13, the control unit 23 of the remote controller 7a waits until the operation start operation of the air conditioners 6a and 6b is input in the operation unit 20 (Step S21; No).

  When the operation start operation is input (step S21; Yes), the control unit 23 of the remote controller 7a transmits operation start information including start of operation to the air conditioners 6a and 6b via the network 8 (step S22). ).

  Subsequently, the control unit 23 of the remote controller 7a enters a standby state (step S23) and waits until it receives a response indicating that an operation for starting operation has been performed in all the air conditioners 6a to 6f (step S24; No). When the communication unit 21 receives a response that the operation start operation has been performed in all the air conditioners 6a to 6f (step S24; Yes), the control unit 23 of the remote controller 7a causes the air conditioners 6a and 6b to start operation ( Step S25). Thereafter, the control unit 23 of the remote controller 7a returns to Step S21.

  On the other hand, FIG. 14 shows a flowchart of another process executed by the control unit 23 of the remote controller 7a according to this embodiment. This flowchart is a process corresponding to the process (see FIG. 3B) of the control unit 23 of the remote controller 7a according to the first embodiment.

  As illustrated in FIG. 14, the control unit 23 of the remote controller 7 a waits until it receives driving start information from the other remote controllers 7 b and 7 c via the communication unit 21 (step S <b> 31; No).

  When the operation start information is received (step S31; Yes), the control unit 23 of the remote controller 7a displays a warning (step S32). Thereafter, the control unit 23 of the remote controller 7a waits until the operation start operation of the air conditioners 6a and 6b is input in the operation unit 20 (step S33; No). Here, the resident of the area 5a can confirm that the door 3a and the window 4a are closed, and can input the operation start operation of the air conditioners 6a and 6b to the operation unit 20 of the remote controller 7a.

  When the operation input for starting the operation of the air conditioner is made to the operation unit 20 of the remote controller 7a (step S33; Yes), the control unit 23 of the remote controller 7a starts the operation of the air conditioners 6a and 6b via the network 8. A response of the operation start information including is returned (step S34). Subsequently, the control unit 23 of the remote controller 7a causes the air conditioners 6a and 6b to start operation (step S35). Thereafter, the control unit 23 returns to step S31.

  At this time, it is necessary that all the air conditioners 6a to 6f have no contradiction in the operation mode.

  As described above, in the air conditioning system 100 according to this embodiment, the air conditioners are actually only operated after the windows 4a and the like are confirmed in the respective areas 5a to 5c and the start of operation of all the air conditioners 6a to 6f is operated. Start driving. Thereby, for example, since all the areas 5a to 5c can be air-conditioned, efficient air-conditioning of the room 200 can be realized.

  In this embodiment, all the air conditioners 6a to 6f start operation almost at the same time. In this case, as shown in FIG. 15, the operation start timing of the air conditioners 6a to 6f may be shifted. In order to shift the operation start timing of the air conditioners 6a to 6f, any one of the remote controllers 7a to 7c may be a master, and the remaining remote controllers may be slaves to operate the remote controllers 7a to 7c in cooperation. In this way, by shifting the operation start timing of the air conditioners 6a to 6f, the power consumption is prevented from temporarily increasing at the start of the operation of the air conditioners 6a to 6f, and the peak of the overall power consumption is reached. This makes it possible to reduce the burden on the power facility and reduce the overall power consumption.

  As described above in detail, according to this embodiment, when an operation start operation of any one of the air conditioners is input, all the air conditioners 6a to 6f start to operate. It can prevent that the operating efficiency of 6a-6f falls.

Embodiment 6 FIG.
Next, a sixth embodiment of the present invention will be described.

  The configuration and operation of the air conditioning system 100 according to Embodiment 6 are substantially the same as the configuration and operation of the air conditioning system 100 according to Embodiment 5.

  FIG. 16 shows a flowchart of processing executed by the control unit 23 of the remote controller 7a according to this embodiment. This flowchart is a process corresponding to the process (see FIG. 13) of the control unit 23 of the remote controller 7a according to the fifth embodiment.

  As shown in FIG. 16, the control unit 23 of the remote controller 7a waits until the operation start operation of the air conditioners 6a and 6b is input in the operation unit 20 (step S41; No).

  When the operation start operation is input (step S41; Yes), the control unit 23 of the remote controller 7a transmits an operation mode transmission request to the remote controllers 7b and 7c via the communication unit 21 and the network 8 (step S42).

  Subsequently, the control unit 23 of the remote controller 7a enters a standby state (step S43), and waits until operation mode information of the air conditioners 6c to 6f is received from the remote controllers 7b and 7c (step S44; No). When the communication unit 21 receives the operation mode information (step S44; Yes), the control unit 23 of the remote controller 7a determines whether or not the operation modes of the air conditioners 6a to 6f are contradictory (for example, one is cooling and the other is heating). Is determined (step S45). If the operation mode is contradictory (step S45; Yes), the control unit 23 of the remote controller 7a returns to step S41 without starting the operation of the air conditioners 6a and 6b. On the other hand, if the operation modes are not contradictory (step S45; No), the control unit 23 of the remote controller 7a starts operation of the air conditioners 6a and 6b (step S46). Thereafter, the control unit 23 of the remote controller 7a returns to Step S41.

  On the other hand, FIG. 17 shows a flowchart of another process executed by the control unit 23 of the remote controller 7a according to this embodiment.

  As shown in FIG. 17, the control unit 23 of the remote controller 7a waits until the communication unit 21 receives an operation mode transmission request from the other remote controllers 7b and 7c (step S51; No).

  When the operation mode transmission request is received (step S51; Yes), the control unit 23 of the remote controller 7a transmits the operation mode information of the corresponding air conditioner (step S52). Thereafter, the control unit 32 of the remote controller 7a returns to Step S51.

  As described above in detail, in this embodiment, when the operation start operation of the air conditioner is performed, the operation of the air conditioner is started only when the operation mode is consistent with all the operating air conditioners. It becomes possible.

  That is, according to this embodiment, for example, when the operation mode of the air conditioner is in a condition such that one is cooling and one is heating, the operation of the air conditioner is not started. Thereby, it can prevent that the operating efficiency of an air conditioner falls.

  Note that when an inefficient operation such as cooling is performed on one side and heating is performed on the other side, a warning to that effect may be displayed on the remote controllers 7a to 7c or the centralized management controller 10.

  In each of the above embodiments, when the window or door is open, only a warning prompting the resident to close it is displayed. However, the actuator can automatically open and close the window or door. Alternatively, the window may be automatically closed by driving the actuator.

  In each of the above embodiments, the program to be executed is computer-readable such as a flexible disk, a CD-ROM (Compact Disk Read-Only Memory), a DVD (Digital Versatile Disk), and an MO (Magneto-Optical Disk). A system that executes the above-described processing may be configured by storing and distributing the program in a recording medium and installing the program.

  Further, the program may be stored in a disk device or the like of a predetermined server device on a communication network such as the Internet, and may be downloaded, for example, superimposed on a carrier wave.

  In addition, when the above functions are realized by sharing an OS (Operating System), or when the functions are realized by cooperation between the OS and an application, only the part other than the OS may be stored in a medium and distributed. You may also download it.

  The present invention is suitable for air conditioning in a relatively large living space where a plurality of air conditioners are required.

DESCRIPTION OF SYMBOLS 1 Floor 2 Wall 3a, 3b Door 4a, 4b, 4c Window 5a, 5b, 5c Area 6a, 6b, 6c, 6d, 6e, 6f Air conditioner 7a, 7b, 7c Remote control 8 Network 10 Central control controller 12 Outside temperature sensor 13 Energy sensor 20 Operation unit 21 Communication unit 22 Display unit 23 Control unit 30 Operation unit 31 Communication unit 32 Display unit 33 Centralized management unit 40 Storage unit 41 Comparison unit 42 Determination unit 50 Power distribution panel 100 Air conditioning system 200 Room

Claims (11)

A plurality of air conditioners respectively installed in a plurality of areas of the living room space;
A controller group including a plurality of remote controllers installed for each area in order to remotely control the air conditioners belonging to each of the areas;
A network connecting each of the plurality of air conditioners and each controller included in the controller group;
An outside air temperature sensor that measures the outside air temperature,
With
Each controller is
When operation of any of the plurality of air conditioners is started, information is transmitted to and received from other controllers included in the controller group via the network, thereby preventing a decrease in operating efficiency of the air conditioners. For the cooperation,
Of the controllers, at least one controller is:
A storage unit that accumulates the transition of the room temperature measured by the air conditioner after the operation of the air conditioner is started, for each outside air temperature measured by the outside air temperature sensor,
Of the current room temperature measured by the air conditioner since the start of the operation of the air conditioner and the transition of the room temperature accumulated in the accumulator, the current outside temperature measured by the outside air temperature sensor. A comparison unit that compares a room temperature in the past from the start of the operation of the air conditioner based on the corresponding transition of the room temperature;
A determination unit that transmits information about a warning to the other controller when it is determined by the comparison by the comparison unit that the difference between the current room temperature and the past room temperature exceeds a threshold;
When receiving information related to the warning from the other controller, a warning output unit for externally outputting a warning related to the received information;
Comprising
An air conditioning system characterized by that. Each controller is
When an operation for starting the operation of the air conditioner is input, information on the warning is transmitted to the other controller,
When receiving information related to the warning from the other controller, the warning related to the received information is externally output.
The air conditioning system according to claim 1. The controller group includes:
A central control controller that centrally manages the plurality of air conditioners;
The centralized controller is
When an operation for starting the operation of the air conditioner is input, information about a warning is transmitted to each of the plurality of remote controllers,
The centralized controller is
When receiving information related to the warning from the other controller, the warning related to the received information is externally output.
The air conditioning system according to claim 2. Each controller is
When receiving information on the warning from the other controller, externally outputs a warning prompting confirmation of the air conditioning state in the area corresponding to each controller,
The air conditioning system according to claim 2 or 3, characterized in that. Each controller is
When the information related to the warning is received from the other controller, the operation mode of the air conditioner to which the operation for starting the operation is input is inconsistent with the operation mode of the air conditioner belonging to the area corresponding to each controller. Output a warning to confirm whether or not
The air conditioning system according to claim 2 or 3, characterized in that. Each controller is
When receiving information related to the warning from the other controller, an e-mail in which the warning is described is transmitted to a terminal used by a resident of the room space or a terminal used by an administrator who manages the air conditioning of the room space.
The air conditioning system according to any one of claims 2 to 5, wherein Each remote controller is
When the start of operation of the corresponding air conditioner is operated, information to that effect is transmitted to the other controller, and the start of operation of all the other air conditioners is operated until the start of operation of all the other air conditioners is operated. Wait without starting
When receiving information indicating that the operation of all the other air conditioners has been started from the other controller, the operation of the air conditioner is started.
The air conditioning system according to any one of claims 1 to 6, wherein Each remote controller is
Starting the operation of the air conditioner so that the timing of starting the operation of the plurality of air conditioners deviate from each other;
The air conditioning system according to claim 7. Each remote controller is
When receiving information indicating that the operation of the other air conditioner has been started from the other controller,
Collect the operation mode of the air conditioner in operation from the other remote controller, and start the operation of the air conditioner only when the operation modes of all the air conditioners in operation are consistent.
The air conditioning system according to any one of claims 1 to 6, wherein A plurality of air conditioners respectively installed in a plurality of areas of the living room space;
A controller group including a plurality of remote controllers installed for each area in order to remotely control the air conditioners belonging to each of the areas;
A network connecting each of the plurality of air conditioners and each controller included in the controller group;
An outside air temperature sensor that measures the outside air temperature,
In the control method of the air conditioning system comprising:
Among the controllers, at least one controller is
When operation of any of the plurality of air conditioners is started, information is transmitted to and received from other controllers included in the controller group via the network, thereby preventing a decrease in operating efficiency of the air conditioners. Including a step of performing a cooperative operation for
The step includes
The accumulation step of accumulating the transition of the room temperature measured by the air conditioner after the operation of the air conditioner is started for each outside air temperature measured by the outside air temperature sensor,
Of the current room temperature measured by the air conditioner after the start of the operation of the air conditioner and the transition of the room temperature accumulated in the accumulation step, the current outside air temperature measured by the outside air temperature sensor A comparison step of comparing with the past room temperature since the start of the operation of the air conditioner based on the corresponding transition of the room temperature;
A determination step of transmitting information about a warning to the other controller when it is determined by the comparison in the comparison step that the difference between the current room temperature and the past room temperature exceeds a threshold;
When receiving information related to the warning from the other controller, a warning output step for externally outputting a warning related to the received information;
including,
A control method characterized by that. A computer that controls one controller of a controller group that includes a plurality of remote controllers that are installed in each area in order to remotely control at least one air conditioner that is installed in each of a plurality of areas of a living space,
When any of the operation of the plurality of air conditioner is started, by sending and receiving other controllers and information included in the controller group through the network, to prevent a reduction in the operation efficiency of the air conditioner Function as a cooperative operation means to perform cooperative operation for
A computer functioning as the cooperative operation means,
A storage unit that accumulates the transition of the room temperature measured by the air conditioner after the start of the operation of the air conditioner for each outside air temperature measured by the outside air temperature sensor,
Of the current room temperature measured by the air conditioner since the start of the operation of the air conditioner and the transition of the room temperature accumulated in the accumulator, the current outside temperature measured by the outside air temperature sensor. A comparison unit that compares a past room temperature from the start of the operation of the air conditioner based on the corresponding transition of the room temperature;
A determination unit that transmits information about a warning to the other controller when it is determined by the comparison by the comparison unit that the difference between the current room temperature and the past room temperature exceeds a threshold value,
When receiving information related to the warning from the other controller, a warning output unit for outputting a warning related to the received information to the outside,
Program to function as.

Images