JP6105246B2 - Air conditioner and air conditioning system - Google Patents

Description

  The present invention relates to an air conditioner and an air conditioning system that perform air conditioning operation in conjunction with air conditioning equipment such as a humidifier.

  When the air conditioner performs a heating operation, the relative humidity in the room decreases and the room becomes dry. Patent Document 1 describes that an air conditioner and a humidifier are operated in conjunction with each other. When the air conditioner performs a heating operation and the indoor humidity falls below a predetermined value, the humidifier is turned on by an instruction from the air conditioner, and when the indoor humidity becomes higher than the predetermined value, the humidifier is turned off.

  By the way, the humidifier installed indoors and the indoor unit of an air conditioner are in different positions. Therefore, a difference occurs in the detected values of the indoor environment indicators such as temperature and humidity. That is, the indoor environment is not uniform. In Patent Document 2, in order to make the indoor environment uniform, when there is a difference of a predetermined value or more between the humidity detected by the air conditioner and the humidity detected by the humidifier, the blower flap of the air conditioner operates for a predetermined time.

JP 2002-250555 A Japanese Patent No. 4416299

  The blower flap of the air conditioner swings up and down for a predetermined time, and the indoor environment is made uniform. In this case, ventilation is performed regardless of the position of the humidifier. Even in the vicinity of the humidifier or in a place far away from the humidifier, the same air is blown, and it takes time to make the indoor environment uniform, and there is a possibility that the indoor environment cannot be made uniform within a predetermined time.

  In view of the above, an object of the present invention is to provide an air conditioner and an air conditioning system that can quickly make an indoor environment uniform by intensively blowing air to a non-uniform place in the indoor environment.

  The air conditioner of the present invention includes a detection unit that detects an indicator of the indoor environment, and a control unit that controls the air conditioning operation and controls the operation of the air conditioning device, and is capable of communicating with the air conditioning device installed indoors. The operation of the air conditioner is controlled in conjunction with the air conditioning operation. The control unit recognizes the position of the air conditioner in the room based on the position information of the air conditioner, acquires the index from the air conditioner, and blows air conditioning operation based on the acquired index and the index detected by the detection unit. Controls the direction of the wind so that it goes to the air conditioner.

  That is, an air conditioning system is composed of the air conditioner and the air conditioning equipment installed indoors. The air conditioner and the air conditioner have a detection unit that detects an index of the indoor environment. The air conditioner recognizes the position of the air conditioner in the room based on the position information of the air conditioner and acquires the index from the air conditioner. And based on the acquired parameter | index and the parameter | index detected by the detection part, a wind direction is controlled so that the ventilation of an air-conditioning driving | operation goes to an air conditioner.

  Since the air conditioner and the air conditioner are at different positions, the index detected by each device may be different. The control unit of the air conditioner determines whether or not the indicators in each device are different. When the index in each device is different so as to exceed a predetermined value, the wind direction is changed and the air is blown toward the air conditioning device. The air around the air conditioner is diffused into the room, the difference in the indices detected by each device is reduced, and the indoor environment can be made uniform.

  An operation terminal capable of communicating with the air conditioner is provided, position information is input to the operation terminal, and the control unit of the air conditioner acquires position information from the operation terminal. The control unit controls the wind direction toward the air conditioner when the difference between the index from the detection unit and the index from the air conditioner is large, and controls the wind direction as normal when the difference is small.

  When the difference between the indicators in each device is large, the indoor environment is uneven. By concentrating the air flow on the air conditioner, the non-uniformity of the indoor environment is improved. When the indoor environment becomes uniform, the difference in index between devices becomes small. Therefore, the air direction is changed to a normal wind direction, and air blowing according to the air conditioning operation is performed.

  At the same time that the air conditioner starts the heating operation, the control unit of the air conditioner instructs the air conditioner to perform the humidifying operation, and the difference between the humidity detected by the air conditioner and the humidity detected by the detection unit becomes a predetermined value. When exceeded, the wind direction is changed from the normal wind direction to the position of the air conditioner.

  That is, when the difference between the index from the detection unit and the index from the air conditioner exceeds the first predetermined value, the control unit of the air conditioner performs control so that the direction of the wind toward the air conditioner is the first difference. When the value falls below a second predetermined value that is smaller than the predetermined value, control is performed so that the wind direction is normal. By concentrating the air blow to the air conditioning equipment, the difference in the indicators such as indoor humidity and temperature becomes smaller.

  The control unit of the air conditioner controls the air blowing based on the index of the air conditioner and the index of the air conditioner. That is, not only the wind direction but also the air flow rate is controlled. The larger the difference between the indicators in each device, the greater the amount of air blown.

  The air conditioner includes a wind direction changing device that changes the air flow in the horizontal direction and the vertical direction, and the control unit operates the wind direction changing device according to the position of the air conditioner to change the wind direction in the horizontal direction and the vertical direction. , Direct the air to the air conditioning equipment. The air conditioner is installed in the upper part of the room, and the air conditioner is installed in the lower part of the room. By changing the wind direction in the up-down direction and changing the wind direction in the left-right direction, air can be blown toward the air conditioner.

  When the communication with the air conditioner becomes impossible, the control unit of the air conditioner notifies that the interlocked operation is impossible. When the air conditioner instructs the air conditioner to operate through communication with the air conditioner, the air conditioner operates in conjunction with the air conditioner. When this communication becomes impossible, the air conditioner cannot give instructions to the air conditioner. By notifying that the user cannot drive in conjunction with the user, the user's attention can be urged.

  The air conditioner transmits a control signal to the air conditioner and determines that communication is impossible when there is no response from the air conditioner. When there is a response from the air conditioner, the air conditioner and the air conditioner can communicate normally. When there is no response, the air conditioner transmits a control signal again. The air conditioner repeats transmission for a certain period of time. When there is no response from the air conditioner for a certain time, the control unit of the air conditioner determines that communication is impossible. At this time, the air conditioner notifies that communication is impossible.

  The air conditioner stops operation when communication with the air conditioner becomes impossible. Since the air conditioner cannot receive instructions from the air conditioner, it cannot perform linked operation for making the indoor environment uniform. By stopping the operation of the air conditioner, the indoor environment can be prevented from deteriorating.

  When there is no communication with the air conditioner for a certain period of time, the air conditioner determines that communication is not possible and stops the operation. The air conditioner transmits a control signal during a certain period of time, but if communication is impossible, the air conditioner cannot receive the control signal.

  According to the present invention, when the air conditioner and the air conditioner are operating in an air conditioning operation, there is a difference between the indoor environment index in the air conditioner and the index in the air conditioner. By doing so, the indoor environment can be made uniform and a comfortable indoor environment can be realized.

Control block diagram of the air conditioning system of the present invention Operation sequence of air conditioner and humidifier when stopped Operation sequence of air conditioner and humidifier during humidification operation Operation sequence of humidifier during air conditioner and air cleaning operation The figure which shows the installation position of the indoor humidifier Flow direction control flowchart

  As shown in FIG. 1, the air conditioner 1 according to the present embodiment can communicate with a humidifier 2 that is one of air conditioners installed indoors, and controls the operation of the humidifier 2. Such an air conditioner 1 and a humidifier 2 form an air conditioning system that operates the humidifier 2 in conjunction with the air conditioning operation of the air conditioner 1.

  The air conditioner 1 is a separate type composed of an indoor unit and an outdoor unit. The indoor unit and the humidifier 2 are installed in the same room. The indoor unit is located near the ceiling. The humidifier 2 is placed on the floor. A plurality of humidifiers 2 may be installed indoors. The air conditioner 1 performs air conditioning operations such as cooling operation and heating operation. The humidifier 2 performs air conditioning operations such as a humidification operation and an air cleaning operation. The air conditioner 1 operates in response to an operation signal from the remote controller 3. Further, the humidifier 2 is also operated by the remote controller 3. Although the remote controller 3 is shared, the air conditioner 1 and the humidifier 2 may be operated by separate remote controllers 3.

  The air conditioner 1 controls the air-conditioning operation based on a detection unit 13 such as a room temperature sensor 10 that detects room temperature, a humidity sensor 11 that detects humidity, and an outside air temperature sensor 12 that detects outside air temperature, and the output of the detection unit 13. The control part 14, the communication part 15 which communicates bidirectionally with the remote control 3 and the humidifier 2, and the alerting | reporting part 16 for alert | reporting various information, such as a driving | running state and a room condition, with a sound etc. are provided. . Moreover, the wind direction change apparatus 17 which changes ventilation to the left-right direction and an up-down direction is provided in the indoor unit. The wind direction changing device 17 has a horizontal louver that swings in the vertical direction and a vertical louver that swings in the horizontal direction, and each louver is driven by a motor.

  The humidifier 2 includes a detection unit 22 such as a room temperature sensor 20 that detects room temperature and a humidity sensor 21 that detects humidity, a control unit 23 that controls the air-conditioning operation based on the output of the detection unit 22, and an air conditioner. And a communication unit 24 for communicating with each other, and a notification unit 25 for displaying various information such as an operation state and a room condition by display and sound.

  The remote controller 3 includes a detection unit 32 such as a room temperature sensor 30 that detects room temperature and a humidity sensor 31 that detects humidity, a communication unit 33 that bidirectionally communicates with the air conditioner 1 and the humidifier 2, operating conditions, indoor conditions, and the like. The communication unit 34 communicates with other devices based on the input of the operation unit 35, the notification unit 34 for displaying various information on the display, sound, and the like, the operation unit 35 having various operation buttons such as operation buttons, and the like. And a control unit 36. Note that the detection unit 32 of the remote controller 3 is not necessarily provided.

  The air conditioner 1 and the humidifier 2 perform communication by a predetermined communication method through the respective communication units 15 and 24. As communication methods, there are wireless communication such as infrared communication, specific low power wireless, and wireless LAN. The air conditioner 1, the humidifier 2, and the remote controller 3 perform infrared communication.

  The detection units 13, 22, and 32 of each device detect indoor environment indicators such as temperature and humidity. The control unit 14 of the air conditioner 1 performs the air conditioning operation according to the operation signal received from the remote controller 3 or the timer reservation. And the control part 14 judges a room condition based on the parameter | index of a room environment, and controls an air-conditioning driving | operation according to a room condition. For example, when the room temperature reaches the set temperature, the compressor is stopped and the air blowing operation is performed.

  The control unit 14 of the air conditioner 1 controls the operation of the humidifier 2 according to the air conditioning operation. That is, the control unit 14 instructs the humidifier 2 to operate according to the air conditioning operation. When instructing, the control unit 14 outputs a control signal such as an ON signal or an OFF signal for controlling the air conditioning operation of the humidifier 2, and the communication unit 15 transmits the control signal to the humidifier 2.

  When the air conditioner 1 starts the air conditioning operation, the control unit 14 instructs the humidifier 2 to start the operation. In accordance with this instruction, the communication unit 15 transmits an operation on signal to the humidifier 2. The humidifier 2 receives the operation on signal from the air conditioner 1 and starts the air conditioning operation. That is, the humidifier 2 starts the air conditioning operation almost simultaneously with the air conditioning operation of the air conditioner 1. When the air conditioner 1 stops the air conditioning operation, the control unit 14 instructs the humidifier 2 to stop the operation. The communication unit 15 transmits an operation off signal to the humidifier 2. The humidifier 2 receives the operation off signal and stops the air conditioning operation.

  Moreover, the control part 14 of the air conditioner 1 controls the air-conditioning driving | operation of the humidifier 2 according to a room condition during air-conditioning driving | operation. That is, the control unit 14 collects the indoor environment index from the detection unit 13 and determines the indoor state. When the control unit 14 determines that the indoor state is within the target range of the indoor environment, the control unit 14 continues the current air conditioning operation. When the control unit 14 determines that the indoor state is out of the range of the target indoor environment, the control unit 14 changes the current air conditioning operation of the humidifier 2 to another air conditioning operation according to this change. The control unit 14 outputs a control signal such as a change signal for changing the air conditioning operation, and the communication unit 15 transmits the control signal to the humidifier 2.

  For example, when the air conditioner 1 performs a heating operation and the humidifier 2 performs a humidification operation, if the indoor humidity increases, the indoor state changes from a normal state to a humid state with high humidity. At this time, the control unit 14 determines that the humidity is no longer within the target humidity range, and outputs an operation change signal for changing the air conditioning operation of the humidifier 2 to another air conditioning operation. A change signal is transmitted to the humidifier 2.

  Examples of the mode of change to the other air conditioning operation in the humidifier 2 include a change in the type of air conditioning operation, a change in the operation mode of the air conditioning operation, and a stop of the air conditioning operation. That is, change from humidification operation to air clean operation, change humidification operation from strong operation mode to weak operation mode, eco operation mode, etc., change humidification operation from eco operation mode to medium operation mode, strong operation mode, For example, the humidification operation is stopped. An appropriate change is selected from these changes according to the room conditions. The operation change signal includes operation information such as the type of air conditioning operation and the operation mode.

  The air conditioner 1 monitors whether or not it is in a dew condensation state, particularly as an indoor situation. The control unit 14 determines the dew point temperature from the room temperature and humidity based on the room temperature, the outside air temperature, and the indoor humidity detected by the detection unit 13, compares the outside air temperature and the dew point temperature, and determines whether or not the dew point is in a dew condensation state. Determine whether. When in the dew condensation state, the control unit 14 stops the humidifying operation of the humidifier 2. When not in the dew condensation state, the control unit 14 continues the humidifying operation of the humidifier 2.

  In addition, the humidifier 2 transmits a response signal to the air conditioner 1 when the operation is performed according to the instruction of the air conditioner 1 or when the operation is changed. In the air conditioner 1, it is possible to confirm that the humidifier 2 has operated in conjunction with this response signal.

  The operation when the air conditioner 1 and the humidifier 2 perform the air conditioning operation in conjunction with each other will be described with reference to FIG. An interlocking mode is set in order for the air conditioner 1 and the humidifier 2 to interlock. The control unit 14 of the air conditioner 1 and the control unit 23 of the humidifier 2 turn on the interlock mode by a user operation. The air conditioning operation of the air conditioner 1 and the humidifier 2 is off (A1, B1). When the air conditioner 1 starts the heating operation, the air conditioner 1 transmits an operation on signal to the humidifier 2 (A2).

  When receiving the operation ON signal, the humidifier 2 starts the humidification operation (B2). The operation mode of the humidification operation is set in advance, and for example, the eco operation mode is executed. In addition, the notification unit 25 of the humidifier 2 notifies the fact that the humidifying operation is being performed by turning on a lamp indicating that it is interlocked or by displaying that it is interlocking on the display.

  In this way, the humidifying operation of the humidifier 2 is started in conjunction with the start of the heating operation of the air conditioner 1. Since the room is humidified before it is dried by the heating operation, the room can be prevented from drying.

  During the heating operation, the control unit 14 of the air conditioner 1 monitors the indoor state based on the detected value of the indoor environment index detected by the detection unit 13. When the indoor humidity becomes a reference value of the dry state, for example, 40% or less, the control unit 14 determines that the indoor state is in a dry state (A3), and increases the humidification amount of the operation mode of the humidifier 2. An operation change signal for changing to the operation mode is output. The communication unit 15 transmits an operation change signal to the humidifier 2. The alerting | reporting part 16 of the air conditioner 1 alert | reports that it is a dry state by lighting of a lamp | ramp or the display on a display.

  When the humidifier 2 receives the operation change signal, the control unit 23 changes the operation mode from the eco operation mode to the medium operation mode or the strong operation mode (B3). By changing the air conditioning operation of the humidifier 2, the humidification amount of the humidifier 2 is increased, and the humidity in the room is increased.

  When the indoor humidity exceeds a reference value, for example, 41% or more, the control unit 14 of the air conditioner 1 determines that the indoor condition is in a normal state (A4), and the operation mode of the humidifier 2 is the original operation. The operation change signal to change to the mode is output. The communication unit 15 transmits an operation change signal to the humidifier 2. The alerting | reporting part 16 alert | reports that it is a normal state.

  When the humidifier 2 receives the operation change signal, the control unit 23 changes the operation mode to the eco operation mode (B4). The humidification amount of the humidifier 2 is automatically adjusted according to the indoor humidity. The current room conditions are maintained so that the room is not too dry.

  During the heating operation, if the indoor humidity becomes high or the difference between the room temperature and the outside air temperature becomes large, condensation tends to occur. When the control unit 14 of the air conditioner 1 monitors the indoor condition and determines that the dew condensation state is reached (A5), the control unit 14 outputs an operation-off signal to stop the humidification operation of the humidifier 2. The communication unit 15 transmits an operation off signal to the humidifier 2.

  When the humidifier 2 receives the operation off signal, the control unit 23 stops the humidification operation (B5). The alerting | reporting part 25 alert | reports that the interlocking | linkage with the air conditioner 1 turned off. When the humidifier 2 is stopped, the room is no longer humidified, so that the humidity in the room decreases and the occurrence of condensation can be prevented.

  Thereafter, the air conditioner 1 performs a heating operation, and the humidity in the room decreases. When the indoor state changes from the dew condensation state to the normal state, the control unit 14 instructs the humidifier 2 to change the operation so as to perform the air cleaning operation. The humidifier 2 starts an air cleaning operation. Further, when the humidity decreases and the normal state is changed to the dry state, the control unit 14 instructs the humidifier 2 to change the operation so as to perform the humidifying operation. The humidifier 2 performs a humidifying operation.

  Then, when the air conditioner 1 stops the heating operation (A6), the control unit 14 outputs a linked off signal, and the communication unit 15 transmits the linked off signal to the humidifier 2. When the humidifier 2 receives the interlocking off signal, the control unit 23 stops the humidifying operation and releases the interlocking with the air conditioner 1 (B6).

  Next, FIG. 3 shows a case where the air conditioner 1 starts the heating operation when the humidifier 2 is performing the humidifying operation. The air conditioning operation of the air conditioner 1 is off (A1). The humidifier 2 is in a humidifying operation (C1).

  When the air conditioner 1 starts the heating operation (A2), the air conditioner 1 transmits an operation on signal to the humidifier 2. When receiving the operation ON signal, the humidifier 2 during the humidifying operation changes the operation mode of the humidifying operation (C2). The operation mode is changed to the eco operation mode. The alerting | reporting part 25 alert | reports that the humidification driving | operation by interlocking is in progress.

  In this way, when the interlock mode is set, even if the humidifier 2 has performed the air conditioning operation in advance, this instruction is given priority when there is an operation start instruction from the air conditioner 1.

  About the change (C3, C4, C5) of the air-conditioning driving | operation in the humidifier 2 in cooperation, it is the same as B3, B4, B5 of FIG. When the air conditioner 1 stops the heating operation (A6), the control unit 14 outputs an interlocking off signal, and the communication unit 15 transmits the interlocking off signal to the humidifier 2. When the humidifier 2 receives the interlocking off signal, the control unit 23 stops the humidifying operation by interlocking and performs the original humidifying operation performed before interlocking (C6).

  FIG. 4 shows a case where the air conditioner 1 starts the heating operation when the humidifier 2 is performing the air cleaning operation. The air conditioning operation of the air conditioner 1 is off (A1). The humidifier 2 is in the air cleaning operation (D1).

  When the air conditioner 1 starts the heating operation (A2), the air conditioner 1 transmits an operation on signal to the humidifier 2. When receiving the operation ON signal, the humidifier 2 during the air cleaning operation changes from the air cleaning operation to the humidifying operation (D2). The alerting | reporting part 25 alert | reports that the humidification driving | operation by interlocking is in progress.

  When the indoor state becomes a dew condensation state, the control unit 14 of the air conditioner 1 determines that the dew condensation state is obtained from various detected indices (A5), and outputs an operation-off signal. When the humidifier 2 receives the operation off signal, the control unit 23 stops the humidification operation (D5). The alerting | reporting part 25 alert | reports that the interlocking | linkage with an air conditioner turned off. In addition, about the change (D3, D4, D5) of the air-conditioning driving | operation in the humidifier 2 in cooperation, it is the same as B3, B4, B5 of FIG.

  When the air conditioner 1 stops the heating operation (A6), the control unit 14 outputs an interlocking off signal, and the communication unit 15 transmits the interlocking off signal to the humidifier 2. When the humidifier 2 receives the interlocking off signal, the control unit 23 stops the humidifying operation by interlocking and performs the original air cleaning operation that was performed before interlocking (D6).

  As described above, when the humidifier 2 is performing an air conditioning operation in conjunction with each other, there may be no instruction from the air conditioner 1 such as an operation change. When the indoor environment is stable and there is no change in the indoor situation, the air conditioner 1 does not transmit a control signal to the humidifier 2. When such a state where there is no instruction from the air conditioner 1 continues for a predetermined time, the control unit 23 of the humidifier 2 cancels the interlock mode and stops the interlocked air conditioning operation. The humidifier 2 performs an air conditioning operation before interlocking. Note that when the operation is stopped before the interlocking, the humidifier 2 stops the air conditioning operation.

  Further, when the user operates the operation button provided in the humidifier 2 while the humidifier 2 is operating in an air conditioning manner, the humidifier 2 gives priority to the directly operated operation. Thereby, a user's intention is respected and the humidifier 2 operate | moves according to a user's operation. For example, when the operation button of the air cleaning operation is operated, the humidification operation is stopped and the air cleaning operation is started. Thereafter, the control unit 23 of the humidifier 2 does not accept the operation change signal from the air conditioner 1. However, when the air conditioner 1 transmits an operation-on signal or a linked-off signal, the humidifier 2 receives these signals. The humidifier 2 starts the humidification operation by interlocking or releases the interlock with the air conditioner 1.

  Here, when the air conditioner 1 and the humidifier 2 perform the air-conditioning operation in conjunction with each other, the detectors 13, 22, and 32 of each device detect the indoor environment indicators such as temperature and humidity. The detected index value is displayed in the notification units 16, 25, and 34, and the user can check the index such as room temperature and humidity.

  However, the indoor unit, the humidifier 2 and the remote controller 3 of the air conditioner 1 are located in different places, although they are in the same room. Therefore, there is a difference in the index values detected by each device. Due to the difference in the index values, the user cannot obtain accurate information, and the user cannot appropriately deal with it.

  Since the indoor environment is not uniform, the index differs depending on the position to be detected. Based on the detected index, the control unit 14 of the air conditioner 1 determines that a comfortable indoor environment has been reached, and controls the air conditioning operation of the air conditioner 1 and the air conditioning operation of the humidifier 2. However, there is a possibility that the comfortable indoor environment is not provided at the position where the user is present. By controlling the air conditioning operation, a comfortable indoor environment for the user cannot be obtained.

  Therefore, the control unit 14 of the air conditioner 1 detects the non-uniformity of the indoor environment, that is, when the index of the air conditioner 1 and the index of the humidifier 2 are different so as to exceed a predetermined value, the humidifier 2 The air direction changing device 17 is controlled so as to concentrate the air toward the air. First, the control unit 14 recognizes the position of the humidifier 2 in the room based on the position information of the humidifier 2. And the control part 14 acquires an parameter | index from the humidifier 2, and controls a wind direction so that the ventilation of heating operation goes to the humidifier 2 based on the acquired parameter | index and the parameter | index detected by the detection part 13. FIG.

  The position information of the humidifier 2 is acquired from the remote controller 3. When the humidifier 2 is installed indoors, the user operates the operation unit 35 of the remote controller 3 to input the installation position of the humidifier 2. As shown in FIG. 5, the room is divided into a plurality of areas, and addresses of each area, for example, Nos. 1 to 9, are given. The user inputs the address of the area where the humidifier 2 is installed to the remote controller 3. The control unit 36 of the remote controller 3 creates position information based on the input address and stores it in the memory. The control unit 36 transmits position information to the air conditioner 1 through the communication unit 33.

  When receiving the position information from the remote controller 3, the control unit 14 of the air conditioner 1 stores the position information in the memory. The control unit 14 can recognize the position of the humidifier 2 in the room based on the position information. When the humidifier 2 is moved, the remote controller 3 transmits new position information to the air conditioner 1 when the user inputs the installation position after the movement. The air conditioner 1 updates the position information of the humidifier 2.

  The air conditioner 1 performs the heating operation, and the humidifier 2 performs the humidification operation in conjunction with the heating operation. During the heating operation, the wind direction changing device 17 sets the wind direction so that the warm air spreads downward and in the left-right direction. The wind direction at this time is the normal wind direction.

  During linked operation, the control unit 14 of the air conditioner 1 monitors the indoor environment based on a plurality of position indicators. As shown in FIG. 6, the control unit 14 of the air conditioner 1 acquires humidity information from the detection unit 13 and the humidifier 2 as an index of the indoor environment (S1). The control unit 14 outputs a request signal for requesting humidity information to the humidifier 2. The humidifier 2 transmits the humidity information detected by the detection unit 22 to the air conditioner 1.

  The control unit 14 of the air conditioner 1 calculates the humidity difference between the two devices based on the humidity information acquired from the humidifier 2 and the humidity information detected by the detection unit 13, and the humidity difference becomes the first predetermined value. It is checked whether or not it exceeds (S2). The humidity in the air conditioner 1 is lower than the humidity in the humidifier 2, and a humidity difference occurs.

  When the humidity difference is equal to or less than the first predetermined value, the control unit 14 continues the linked operation as it is and continues to monitor the indoor environment. When the humidity difference is larger than the first predetermined value, the control unit 14 controls the wind direction so that the air flows toward the humidifier 2 (S3). That is, the control unit 14 specifies the position of the humidifier 2 based on the position information of the humidifier 2. And the control part 14 operates the vertical louver and horizontal louver of the wind direction change apparatus 17 according to the position, and changes a wind direction.

  For example, when the humidifier 2 is in an area close to the indoor unit (No. 1, No. 2, No. 8), the vertical louver changes its direction so as to blow downward. Depending on the position of the humidifier 2 in the left-right direction, the horizontal louver is facing left, facing front, or facing right. When the humidifier 2 is in a region (No. 4, No. 5, No. 6) far from the indoor unit, the vertical louver changes its direction so that it blows upward. Depending on the position of the humidifier 2 in the left-right direction, the horizontal louver is facing left, facing front, or facing right. When the humidifier 2 is in the middle area (No. 3, No. 7, No. 9), the vertical louver changes its direction to blow out horizontally or slightly downward. Depending on the position of the humidifier 2 in the left-right direction, the horizontal louver is facing left, facing front, or facing right.

  The ventilation of the air conditioner 1 goes to the humidifier 2. The air is concentrated on the humidifier 2 and the air containing moisture blown out from the humidifier 2 is quickly diffused to the surroundings. Thereby, the uniformity of indoor humidity is promoted.

  The control unit 14 of the air conditioner 1 periodically acquires humidity information during linked operation. By directing the air flow to the humidifier 2, the difference in humidity detected by each device is reduced. The control unit 14 checks whether the difference between the humidity in the air conditioner 1 and the humidity in the humidifier 2 is less than a second predetermined value (S4). The second predetermined value is smaller than the first predetermined value. When the humidity difference is equal to or greater than the second predetermined value, the control unit 14 determines that the non-uniformity of the indoor environment has not been eliminated, and continues blowing air toward the humidifier 2. When the humidity difference is smaller than the second predetermined value, the control unit 14 determines that the indoor environment has become uniform, and performs normal wind direction control. The wind direction changing device 17 returns the direction of the vertical louver and the horizontal louver to the normal direction (S5).

  By directing the air flow to the humidifier 2, the non-uniform humidity in the room can be quickly eliminated. By controlling the air conditioning operation and the humidifying operation based on the humidity, the indoor humidity becomes uniform, so that the surroundings of the user can be prevented from being overhumid, and a comfortable indoor environment for the user can be realized.

  In the air conditioning system described above, the air conditioner 1 and the humidifier 2 perform air conditioning operation in conjunction with each other while communicating with each other. When the humidifier 2 is moved outdoors, or when an obstacle is placed between the air conditioner 1 and the humidifier 2, communication between the air conditioner 1 and the humidifier 2 may be disabled. is there. When communication becomes impossible, the air conditioner 1 cannot control the operation of the humidifier 2. Therefore, when the communication with the humidifier 2 becomes impossible, the air conditioner 1 notifies that the operation by interlocking is impossible.

  The control unit 14 of the air conditioner 1 outputs a control signal for confirming communication to the humidifier 2 at regular time intervals during the linked operation. When the control signal is transmitted from the air conditioner 1 and the humidifier 2 receives the control signal, the control unit 23 outputs a response signal, and the communication unit 24 transmits the response signal to the air conditioner 1. When the air conditioner 1 receives the response signal, the control unit 14 determines that communication with the humidifier 2 is possible. At this time, the control unit 14 continues the operation by interlocking.

  When there is no response signal from the humidifier 2, the control unit 14 determines that communication is not possible, operates the notification unit, and notifies the inability to link by sound or lighting of the LED. On the other hand, in the humidifier 2, when the control signal from the air conditioner has not passed for a certain time, the control unit 23 determines that communication is impossible. The control unit 23 notifies that the interlocking is impossible through the notification unit 25.

  By notifying that the interlock is impossible, the user can determine whether or not the operation by the interlock is being performed. The user can recognize that driving by interlocking is not performed, and the user can take necessary measures.

  Moreover, if the control part 23 of the humidifier 2 confirms that there is no communication with the air conditioner 1 for a fixed time or more, it stops the air conditioning operation by interlocking. Although the indoor environment is improved and humidification is no longer necessary, it is impossible to receive an instruction to stop the operation. If the humidifier 2 continues to operate without an instruction from the air conditioner 1, the indoor environment such as an overhumid state is deteriorated. Therefore, it is possible to prevent the unnecessary air conditioning operation from continuing by the humidifier 2 voluntarily stopping the air conditioning operation. As a result, useless driving can be eliminated and a comfortable indoor environment can be maintained.

  In addition, this invention is not limited to the said embodiment, Of course, many corrections and changes can be added to the said embodiment within the scope of the present invention. An air cleaner, a dehumidifier, an ion generator, a heating device, or the like may be installed indoors as the air conditioning device to be interlocked. Thereby, a plurality of air conditioners are installed indoors, and an air conditioning system is formed by the air conditioner and the plurality of air conditioners. The air conditioner controls the operation of other air conditioners together with the humidifier in conjunction with an air conditioning operation such as a heating operation.

  You may control ventilation based on temperature as a parameter | index of an indoor environment. When the air conditioner is a dehumidifier or a heater, the temperature difference becomes large. The wind direction is controlled so that the air flows toward the air conditioner. Warm air spreads around and the room temperature is made uniform.

  When a plurality of air conditioners are installed indoors, the wind direction is controlled so as to blow air toward each air conditioner. The air conditioner changes the wind direction so as to blow air toward one air conditioner and then blow toward another air conditioner. In this way, the wind direction is sequentially changed with respect to the plurality of air conditioners.

  The air conditioner may control air blowing. That is, not only the wind direction but also the air flow rate is controlled. The blast volume can be changed according to the humidity difference and temperature difference. For example, the greater the difference, the greater the amount of blown air.

  Communication between the air conditioner and the air conditioner is not limited to wireless communication, and may be communication via a LAN cable. Further, power line communication (PLC) using a power line as a communication line may be used.

  The air conditioner acquires position information from a remote control that is an operation terminal, but may acquire position information from a portable information terminal that can be operated and input. The portable information terminal as the operation terminal is a mobile phone, a smartphone, or a tablet terminal that can communicate with the air conditioner.

  The air conditioner may detect the position of the air conditioner in the room. For example, a camera is mounted on the air conditioner, and the position of the air conditioner is detected from an indoor image. The wireless terminal of the air conditioner is installed, and the position of the air conditioner is detected from the radio wave intensity emitted from the wireless terminal. Further, a camera may be installed in the room, and the position information of the air conditioner may be acquired from the camera.

DESCRIPTION OF SYMBOLS 1 Air conditioner 2 Humidifier 3 Remote control 13 Detection part 14 Control part 15 Communication part 16 Notification part 16 Winding direction change device 22 Detection part 23 Control part 24 Communication part 25 Notification part 32 Detection part 33 Communication part 34 Notification part 35 Operation part 36 Control unit

Claims (5)

An air conditioner that controls the operation of an air conditioner at the same time as the start of operation while communicating with the air conditioner installed in the room, and a detection unit that detects an index of the indoor environment, And a control unit that controls the operation of the air conditioner, the room is divided into a plurality of areas, and the control unit recognizes the position of the air conditioner in the room based on position information regarding the area in which the air conditioner is installed Then, based on the acquired index and the index detected by the detection unit from the air conditioner, the area close to the indoor air conditioner, so that the air flow of the air conditioning operation is directed to the area where the air conditioner is located , An air conditioner that controls a vertical wind direction according to a remote area and an intermediate area and a horizontal wind direction according to a horizontal area . When the difference between the index from the detection unit and the index from the air conditioner is larger than the first predetermined value , the control unit controls the wind direction toward the air conditioner, and the second predetermined value is smaller than the first predetermined value. The air conditioner according to claim 1, wherein when it becomes smaller , normal wind direction control is performed . The air conditioner according to claim 1 or 2 , wherein when the communication with the air conditioner becomes impossible, the control unit notifies that the interlocked operation is impossible. An air conditioning system in which an air conditioner and an air conditioner installed indoors communicate with the air conditioner of the air conditioner, and the air conditioner operates simultaneously with the start of the operation. The indoor unit is divided into a plurality of areas, and the air conditioner recognizes the position of the air conditioner in the room based on the position information regarding the area where the air conditioner is installed. An area is obtained from an air conditioner, and an area close to or far from an indoor air conditioner so that the air flow of the air conditioning operation is directed to an area where the air conditioner is located based on the obtained index and the index detected by the detection unit. An air conditioning system characterized by controlling a vertical wind direction according to an intermediate area and a horizontal wind direction according to a horizontal area . The air conditioner notifies that the operation by interlocking is impossible when communication with the air conditioning device becomes impossible, and the air conditioning device stops the air conditioning operation by interlocking. Air conditioning system.

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