JP2006207846A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner starting its operation with predetermined indoor wind speed and wind direction in starting the operation by an auto changeover control mode, even when the indoor wind speed and the indoor wind direction are changed. <P>SOLUTION: An indoor temperature control portion 4 determines the indoor wind speed and the indoor wind direction corresponding to a cooling operation and a heating operation by the auto changeover control mode, discriminates the cooling operation or the heating operation on the basis of an indoor temperature detected by a room temperature sensor 6 when the auto changeover control mode is selected by a remote controller 11 as an operation mode, the indoor wind speed and the indoor wind direction are selected on the basis of a result of the discrimination, and the control of a fan motor 7 and a louver motor 9 of an indoor unit 2 is started to achieve the selected indoor wind speed and indoor wind direction. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an air conditioner having an auto changeover control mode for automatically switching to a cooling operation or a heating operation based on an indoor temperature.

In the conventional air conditioner, when the indoor wind speed and the indoor wind direction are changed during the cooling operation or the heating operation in the auto changeover control mode, or any one of them is changed, the contents of the change are stored in the memory, and the next time At the start of the operation in the auto changeover control mode, the operation was performed based on the changes in the indoor wind speed and the indoor wind direction stored in the memory (for example, see Patent Document 1).
Japanese Patent Laid-Open No. 10-122635 (second and third pages)

  In the above-described conventional air conditioner, for example, when the cooling operation is performed by selecting the auto changeover control mode, the user changes the wind direction upward according to preference and stops the operation with the change. Sometimes the state is stored in the memory. For this reason, when the auto changeover control mode is selected again by another user, cooling is performed with the upward air direction stored in the memory, and when the room is hot and humid, it takes time until the air is cooled. Control of room temperature by the harmony machine was impaired. Especially in an environment where an unspecified number of users operate an air conditioner, such as a conference room in a building, as described above, the settings of the user who was used last time are not effective for the next user. was there.

  The present invention has been made to solve the above-described problems. Even when the indoor wind speed and the indoor wind direction are changed, the vehicle is operated at the preset indoor wind speed and indoor air direction at the start of operation in the auto changeover control mode. It aims at providing the air conditioner which starts.

  The air conditioner according to the present invention includes a temperature sensor that detects a room temperature, and when the auto changeover control mode is selected as an operation mode, whether the air conditioner is a cooling operation or a heating operation based on the room temperature detected by the temperature sensor. The indoor wind speed and the indoor wind direction are respectively set in correspondence with the cooling operation and the heating operation in the auto changeover control mode, and the indoor wind speed and the indoor wind direction are selected based on the determination result of the operation distinguishing means. And control means for starting control of the indoor unit so as to achieve the selected indoor wind speed and indoor wind direction.

  In the present invention, when the auto changeover control mode is selected as the operation mode, it is determined whether the operation is cooling operation or heating operation based on the indoor temperature detected by the temperature sensor, and the indoor wind speed and the indoor operation are determined based on the determination result. The control of the indoor unit is started so that the air direction is selected and the selected indoor air speed and the indoor air direction are selected, so that the room temperature control at the start of the auto changeover control mode can be performed uniformly without impairing the control. There is.

  FIG. 1 is a schematic block diagram of an air conditioner showing an embodiment of the present invention, FIG. 2 is a schematic cross-sectional view showing an indoor unit of the air conditioner in the embodiment, and FIG. 3 is an air conditioner in the embodiment. It is a refrigeration cycle diagram.

  The air conditioner 1 according to the present embodiment includes a remote controller 11 and includes an indoor unit 2 that is provided indoors and an outdoor unit 3 that is provided outdoors. An AC power supply 5 is connected to the indoor unit 2, and an AC power supply 5 is connected to the outdoor unit 3 via a jumper wiring from the indoor unit 2. The remote controller 11 has various keys for selecting a cooling operation, a heating operation, an auto changeover control mode, and the like, and a key for setting a room temperature, a room wind speed, and the like, and according to a selection operation of each key. A function of generating a signal (such as an operation command) and transmitting the signal to the indoor control unit 4 is provided.

  The indoor unit 2 drives and controls the indoor controller 4, the indoor temperature sensor 6 that detects the indoor temperature, the fan motor 7 that rotates the indoor fan 12 (see FIG. 2), and the rotational speed of the fan motor 7. A speed control circuit 8, a louver motor 9 that varies the angle of a louver 19 that is rotatably installed at a blowout port 18 of air blown from the indoor fan 12, and a louver drive circuit 10 that drives the louver motor 9. I have. The indoor unit 2 is provided with an indoor heat exchanger 16 as shown in FIG.

  The outdoor unit 3 transmits / receives signals to / from the indoor control unit 4 and controls the unit 3, as shown in FIG. 3, a compressor 13, an outdoor heat exchanger 14, An expansion valve 15 and a four-way switching valve 17 that switches the refrigerant flow path according to the operation mode (cooling, heating, etc.) are provided. The refrigerant during the cooling operation is the compressor 13 → the four-way switching valve 17 (dotted line portion) → the outdoor heat exchanger 14 → the expansion valve 15 → the indoor heat exchanger 16 → the four-way switching valve 17 (dotted line portion) → the path of the compressor 13. The refrigerant at the time of heating operation is the compressor 13 → four-way switching valve 17 (solid line portion) → indoor heat exchanger 16 → expansion valve 15 → outdoor heat exchanger 14 → four-way switching valve 17 (solid line portion) → The path of the compressor 13 is circulated in order.

  When the selection operation of the remote controller 11 is heating, the indoor control unit 4 provided in the indoor unit 2 notifies the information to the outdoor control unit (not shown) of the outdoor unit 3 and enters the heating operation. When the cooling is selected, the operation information is notified to the outdoor control unit and the cooling operation is started. When the room temperature is set during operation, the fan motor 7 is controlled through the speed control circuit 8 so that the room becomes the set temperature. When the indoor air direction (up and down, left and right) is set, the indoor unit 2 The louver motor 9 is controlled through the louver drive circuit 10 so that the wind (warm air or cold air) from the outlet 18 becomes the set wind direction.

  When the selection operation of the remote controller 11 is in the auto changeover control mode, the information is notified to the outdoor control unit, the indoor temperature detected by the indoor temperature sensor 6 is read and compared with a preset threshold value, Determine whether the operation is heating or heating. When the indoor temperature is equal to or higher than the threshold value, it is determined that the cooling operation is performed, the indoor wind speed and the indoor wind direction set corresponding to the cooling operation in the auto changeover control mode are selected, and the selected indoor wind speed and the indoor wind direction are selected. Thus, the control of the speed control circuit 8 and the louver drive circuit 10 is started. Further, when the room temperature is equal to or lower than the threshold value, it is determined that the heating operation is performed, the indoor wind speed and the indoor wind direction set corresponding to the heating operation in the auto changeover control mode are selected, and the selected indoor wind speed and the indoor air direction are selected. Control of the speed control circuit 8 and the louver drive circuit 10 is started so that the wind direction is obtained. In addition, when it discriminate | determines any of the air_conditionaing | cooling operation by the auto changeover control mode, or heating operation, it notifies that to an outdoor control part.

  In addition, when the indoor control unit 4 is operating in the auto changeover control mode, if the indoor wind speed and the indoor wind direction are changed or any one of them is changed, the change content is retained and changed. The speed control circuit 8 and the louver drive circuit 10 are controlled based on the contents that have been set, and when the auto changeover control mode is stopped or the power is turned off, the retained changes are cleared. The indoor wind speed is changed based on the difference between the indoor temperature and the temperature detected by the indoor temperature sensor 6 when the indoor temperature is set by the remote controller 11.

Next, the operation of the air conditioner when the auto changeover control mode is selected will be described based on the schematic flowchart shown in FIG. FIG. 4 is a schematic flowchart showing the operation of the air conditioner in the embodiment in the auto changeover control mode.
After detecting that the AC power supply 5 is turned on (S1), the indoor control unit 4 receives the operation start signal and the operation mode selection signal by the selection operation of the remote controller 11 (S2), and starts the operation first. At the same time, the information is notified to an outdoor control unit (not shown) of the outdoor unit 3, and it is determined from the selection signal whether the mode is the auto changeover control mode (ACO mode) (S3). When it is determined from the selection signal that the operation mode is normal (cooling, heating, etc.), this is notified to the outdoor control unit and the determined operation mode is executed.

  When the auto changeover control mode is determined from the received selection signal, the information is notified to the outdoor control unit, and the room temperature detected by the room temperature sensor 6 is read and compared with a preset threshold value. Then, it is determined whether the operation is cooling or heating (S4). When the indoor temperature is equal to or higher than the threshold value, it is determined that the cooling operation is performed, and the information is notified to the outdoor control unit in the same manner as described above. And the control of the speed control circuit 8 and the louver drive circuit 10 is started so as to achieve the selected indoor wind speed and indoor wind direction (S5).

  When the indoor wind speed and the indoor wind direction are changed by the remote controller 11 or any one of them is changed during the cooling operation in the auto changeover control mode, the indoor control unit 4 holds and changes the change contents. The speed control circuit 8 and the louver drive circuit 10 are controlled based on the contents (S7). The change of the indoor wind speed is based on the set temperature set by the remote controller 11 and is performed based on the difference between the set temperature and the detected temperature of the indoor temperature sensor 6. When the temperature difference is large, the rotational speed of the fan motor 7 is increased through the speed control circuit 8 so that the detected temperature (indoor temperature) becomes the set temperature. When the temperature difference is small, the rotational speed of the fan motor 7 is increased. Slow down so that the room is at the set temperature.

  After the change of the indoor wind speed and the indoor wind direction, or when there is no change, in S9, it is determined whether or not an operation mode change signal is received. When the operation mode change signal is detected, the process returns to S3 and the operation mode is executed. When the operation mode change signal is not received, it is determined whether or not the operation stop signal is received ( S11) When the operation is not stopped, it is determined whether the power is turned off (S13). When the power is not turned off, the process returns to S7 to confirm the change of the indoor wind speed and the indoor wind direction. Further, when the operation stop signal is received, it is determined that the cooling operation in the auto changeover control mode is finished, and only when the change contents (indoor wind speed, indoor wind direction) are maintained, it is cleared (S11a). , Return to S2 and wait until a signal from the remote controller 11 is received. Further, when the power is turned off, it is cleared only when the changed content is held as described above (S13a), and the process returns to S1 to end the cooling operation.

  In S4, when the indoor control unit 4 determines that the heating operation is performed based on the comparison result between the detected temperature of the indoor temperature sensor 6 and the threshold (detected temperature ≦ threshold), the indoor control unit 4 corresponds to the heating operation in the auto changeover control mode. The indoor wind speed and the indoor wind direction set in the above are selected, and control of the speed control circuit 8 and the louver drive circuit 10 is started so as to be the selected indoor wind speed and indoor wind direction (S6).

  During the heating operation in the auto changeover control mode, when the indoor wind speed and the indoor wind direction are changed by the remote controller 11 or any one of them is changed as described above, the indoor control unit 2 holds the contents of the change. And the speed control circuit 8 and the louver drive circuit 10 are controlled based on the changed content (S8). After the change of the indoor wind speed, the indoor wind direction, or when there is no change, it is determined whether or not an operation mode change signal is received (S10). When the signal is not received, an operation stop signal is received. It is determined whether or not it has been received (S12). If the operation is not stopped, it is determined whether or not the power is turned off (S14).

  When an operation mode change signal is detected, the process returns to S3, and the operation mode is executed. When an operation stop signal is received, it is determined that the heating operation is completed in the auto changeover control mode, and the change contents ( Only when the indoor wind speed and the indoor wind direction are maintained, it is cleared (S12a), and the process returns to S2 and waits until a signal from the remote controller 11 is received. When the power is not turned off, the process returns to S8 to check the change of the indoor wind speed and the indoor wind direction. When the power is turned off, it is cleared only when the changed contents are held as described above. (S14a), it returns to S1 and complete | finishes the operation | movement of heating operation.

  As described above, according to the embodiment, when the cooling or heating operation is started in the auto changeover control mode, the preset indoor air speed and the indoor air direction are always set. There is an effect that the control of the room temperature at the start of the control mode can be performed uniformly without impairing. In particular, this is effective in an environment where an unspecified number of users operate the air conditioner 1 such as a conference room in a building.

It is a schematic block block diagram of the air conditioner which shows embodiment of this invention. It is a schematic sectional drawing which shows the indoor unit of the air conditioner in embodiment. It is a refrigerating cycle figure of the air conditioner in an embodiment. It is a schematic flowchart which shows the operation | movement at the time of the auto changeover control mode of the air conditioner in embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioner, 2 Indoor unit, 3 Outdoor unit, 4 Indoor control part, 5 AC power supply, 6 Indoor temperature sensor, 7 Fan motor, 8 Speed control circuit, 9 Louver motor, 10 Louver drive circuit, 11 Remote control, 12 Indoor Fan, 13 Compressor, 14 Outdoor heat exchanger, 15 Expansion valve, 16 Indoor heat exchanger, 17 Four-way switching valve, 18 Air outlet, 19 louvers.

Claims (3)

A temperature sensor for detecting the temperature in the room;
An operation discriminating means for discriminating between cooling operation and heating operation based on the indoor temperature detected by the temperature sensor when the auto changeover control mode is selected as the operation mode;
The indoor wind speed and the indoor wind direction are respectively set corresponding to the cooling operation and the heating operation in the auto changeover control mode, the indoor wind speed and the indoor wind direction are selected based on the determination result of the operation determining means, and the selected indoor wind speed is selected. And an air conditioner characterized by comprising control means for starting control of the indoor unit so as to be in the indoor air direction.   When the control unit is operating in the auto changeover control mode, the indoor wind speed and the indoor wind direction are changed, or when one of them is changed, the changed content is retained and the changed content is maintained. 2. The air conditioner according to claim 1, wherein the indoor unit is controlled based on the air conditioner, and when the auto changeover control mode is stopped or the power is turned off, the retained change is cleared. The air conditioning according to claim 2, wherein the selection of the indoor wind speed based on the determination result of the operation determination means is performed based on a difference between an arbitrarily set temperature and the indoor temperature detected by the temperature sensor. Machine.

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