JP6914297B2 - Air conditioner and control method - Google Patents

Description

The present disclosure relates to an air conditioner, and more particularly to an air conditioner and a control method for the air conditioner.

Conventionally, an air conditioner having a function of cleaning a filter in front of an indoor heat exchanger has been known. Also, while the outdoor fan is operating, the wind always flows only in one direction, so if dust such as cotton dust or lint adheres to the fins of the outdoor heat exchanger, it will not come off easily and will easily get stuck between the fins. The technology to deal with this is also known. For example, Japanese Patent Application Laid-Open No. 2007-155270 (Patent Document 1) clogs the fins of an outdoor heat exchanger by rotating the outdoor fan in the reverse direction at each end of operation or when a specific operation button is operated. Disclose the function of discharging existing dust.

In the above-mentioned conventional technique, the indicator lamp of the indoor unit is turned on while the outdoor fan is rotating in the reverse direction. However, if the lamp lights up while the outdoor fan is rotating in the reverse direction, the user may notice that the lamp is lit even though the indoor unit is not moving, and may suspect that the air conditioner has failed. ..

JP-A-2007-155270

The present disclosure has been made in view of the above points, and the present disclosure is an air conditioner capable of removing dust and the like adhering to the outdoor heat exchanger of the outdoor unit without giving a sense of discomfort to the user. The purpose is to provide.

In the present disclosure, in order to solve the above problems, an air conditioner including an indoor unit and an outdoor unit having the following features is provided. The air conditioner is provided in the outdoor heat exchanger provided in the outdoor unit, the outdoor fan provided in the outdoor unit to send the outside air to the outdoor heat exchanger, the control unit for controlling the outdoor fan, and the indoor unit. It is equipped with an indicator that displays an operation indicating that the air conditioner is operating. The control unit is characterized by performing a reverse rotation operation in which the outdoor fan is operated in the reverse rotation from that during normal operation, and at least during the reverse rotation operation independently, the operation display is not performed by the indicator of the indoor unit. do.

In addition, the problems disclosed in the present application and the means for solving the problems will be clarified by the columns and drawings of modes for carrying out the invention.

According to the present disclosure, it is possible to remove dust and the like adhering to the outdoor heat exchanger of the outdoor unit without giving a feeling of strangeness to the user.

FIG. 1 is a front view of an indoor unit, an outdoor unit, and a remote controller (hereinafter, simply referred to as a remote controller) included in the air conditioner according to the embodiment of the present invention. FIG. 2 is a vertical sectional view of an indoor unit included in the air conditioner according to the embodiment of the present invention. FIG. 3 is an explanatory diagram showing a refrigerant circuit of an air conditioner according to an embodiment of the present invention. FIG. 4 is a functional block diagram of the air conditioner according to the embodiment of the present invention. FIG. 5 is a diagram illustrating a lamp display unit included in the indoor unit according to the embodiment of the present invention. FIG. 6 is a flowchart showing an operation control accompanied by an outdoor unit cleaning operation executed by the air conditioner according to the embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings, but the embodiments of the present invention are not limited to the specific embodiments described below. In the drawings, the same reference numerals indicate the same or corresponding parts.

FIG. 1 is a front view of the indoor unit 10, the outdoor unit 30, and the remote controller 40 included in the air conditioner 100 according to the present embodiment. The air conditioner 100 is a device that performs air conditioning by circulating a refrigerant in a refrigeration cycle (heat pump cycle). As shown in FIG. 1, the air conditioner 100 includes an indoor unit 10 installed indoors (air-conditioned space), an outdoor unit 30 installed outdoors, and a remote controller 40 operated by a user.

The indoor unit 10 includes a remote controller transmission / reception unit 11. The remote control transmission / reception unit 11 transmits / receives a predetermined signal to / from the remote control 40 by infrared communication or the like. For example, the remote controller transmission / reception unit 11 receives signals such as an operation command, a stop command, a set temperature change command, an operation state change command, and a timer setting command from the remote controller 40. Further, the remote controller transmission / reception unit 11 transmits the detected value of the room temperature and the like to the remote controller 40.

The indoor unit 10 further includes a lamp display unit 27. Although the details will be described later, the lamp display unit 27 is provided with various indicators such as an operation lamp and a clean lamp that display the operating state and the setting state of the air conditioner 100.

Although omitted in FIG. 1, the indoor unit 10 and the outdoor unit 30 are connected via a refrigerant pipe and also via a communication line.

FIG. 2 is a vertical cross-sectional view of the indoor unit 10. In addition to the remote controller transmission / reception unit 11 (see FIG. 1), the indoor unit 10 includes an indoor heat exchanger 12, a drain pan 13, an indoor fan 14, a housing base 15, and filters 16t and 16f. The front panel 17, the left and right wind direction plates 18, and the up and down wind direction plates 19 are provided.

The indoor heat exchanger 12 is a heat exchanger in which heat exchange is performed between the refrigerant passing through the heat transfer tube 12g and the indoor air. The drain pan 13 receives the water dripping from the indoor heat exchanger 12, and is arranged below the indoor heat exchanger 12. The water that has fallen into the drain pan 13 is discharged to the outside via a drain hose (not shown).

The indoor fan 14 is, for example, a cylindrical cross-flow fan, which is driven by an indoor fan motor 14a (see FIG. 4). The housing base 15 is a housing in which devices such as the indoor heat exchanger 12 and the indoor fan 14 are installed.

The filters 16t and 16f remove dust from the air taken in through the air suction port h1 and the like, and are installed on the upper side and the front side of the indoor heat exchanger 12. The front panel 17 is a panel installed so as to cover the filter 16f on the front side, and is rotatable forward with the lower end as an axis. The front panel 17 may not rotate.

The left-right wind direction plate 18 is a plate-shaped member that adjusts the flow direction of the air blown toward the room in the left-right direction. The left and right wind direction plates 18 are arranged on the downstream side of the indoor fan 14, and are rotated in the left and right directions by the left and right wind direction plate motors 21 (see FIG. 4). The vertical wind direction plate 19 is a plate-shaped member that adjusts the flow direction of the air blown out toward the room in the vertical direction. The vertical wind direction plate 19 is arranged on the downstream side of the indoor fan 14, and is rotated in the vertical direction by the vertical wind direction plate motor 22 (see FIG. 4). The vertical wind direction plate 19 is also controlled to open and close the air outlet h3.

Then, the air sucked through the air suction port h1 exchanges heat with the refrigerant flowing through the heat transfer tube 12g, and the heat exchanged air is guided to the blowout air passage h2. The air flowing through the blowout air passage h2 is guided in a predetermined direction by the left and right wind direction plates 18 and the upper and lower wind direction plates 19, and is further blown into the room through the air outlet h3.

FIG. 3 is an explanatory diagram showing a refrigerant circuit Q of the air conditioner 100. The solid line arrow in FIG. 3 indicates the flow of the refrigerant during the heating operation. Further, the broken line arrow in FIG. 3 indicates the flow of the refrigerant during the cooling operation. As shown in FIG. 3, the outdoor unit 30 includes a compressor 31, an outdoor heat exchanger 32, an outdoor fan 33, an outdoor expansion valve 34, and a four-way valve 35.

The compressor 31 is a device that compresses a low-temperature low-pressure gas refrigerant by driving a compressor motor 31a and discharges it as a high-temperature high-pressure gas refrigerant. The outdoor heat exchanger 32 is a heat exchanger in which heat is exchanged between the refrigerant passing through the heat transfer tube (not shown) and the outside air sent from the outdoor fan 33.

The outdoor fan 33 is a fan that sends outside air to the outdoor heat exchanger 32 by driving the outdoor fan motor 33a (see FIG. 4), and is installed in the vicinity of the outdoor heat exchanger 32. The outdoor fan 33 takes in outside air by rotating in the forward direction P by driving the outdoor fan motor 33a during normal operation (heating operation, cooling operation, dehumidifying operation, etc.), and takes in outside air to the outdoor heat exchanger 32. Send to. The outdoor fan 33 also rotates in the direction N opposite to the rotation direction during normal operation due to the reverse drive of the outdoor fan motor 33a during the outdoor unit cleaning operation described in detail later, and in the direction opposite to the normal operation. The outside air is passed through the outdoor heat exchanger 32 to remove dust adhering to the outdoor heat exchanger 32.

The outdoor expansion valve 34 has a function of reducing the pressure of the refrigerant condensed by the "condenser" (one of the outdoor heat exchanger 32 and the indoor heat exchanger 12). The refrigerant decompressed by the outdoor expansion valve 34 is guided to the "evaporator" (the other of the outdoor heat exchanger 32 and the indoor heat exchanger 12).

The four-way valve 35 is a valve that switches the flow path of the refrigerant according to the operating state of the air conditioner 100. That is, during the cooling operation (see the dashed arrow), the compressor 31, the outdoor heat exchanger 32 (condenser), the outdoor expansion valve 34, and the indoor heat exchanger 12 (evaporator) pass through the four-way valve 35. In the refrigerant circuit Q which is sequentially connected in an annular shape, the refrigerant circulates in the refrigeration cycle.

Further, during the heating operation (see the solid line arrow), the compressor 31, the indoor heat exchanger 12 (condenser), the outdoor expansion valve 34, and the outdoor heat exchanger 32 (evaporator) pass through the four-way valve 35. In the refrigerant circuit Q which is sequentially connected in an annular shape, the refrigerant circulates in the refrigeration cycle.

That is, in the refrigerant circuit Q in which the refrigerant circulates in the refrigeration cycle through the compressor 31, the "condenser", the outdoor expansion valve 34, and the "evaporator" in that order, the above-mentioned "condenser" and "evaporator" One is the outdoor heat exchanger 32 and the other is the indoor heat exchanger 12.

FIG. 4 is a functional block diagram of the air conditioner 100. In addition to the above configuration, the indoor unit 10 shown in FIG. 4 includes an imaging unit 23, an environment detection unit 24, an indoor control circuit 25, and a sterilizing substance generating unit 26.

The image pickup unit 23 takes an image of a room (air-conditioned space), and includes an image pickup element such as a CCD sensor (Charge Coupled Device) or a CMOS sensor (Complementary Metal Oxide Semiconductor). Based on the imaging result of the imaging unit 23, the indoor control circuit 25 detects a person (resident) in the room. By detecting people present in the air-conditioned space, each operation can be controlled or the implementation of maintenance operations can be controlled according to the time the person is in the room, the presence or absence of the person, the number of people, the position, and the amount of activity. It becomes possible to do.

The environment detection unit 24 has a function of detecting the indoor state and the state of the equipment of the indoor unit 10, and includes an indoor temperature sensor 24a, a humidity sensor 24b, and an indoor heat exchanger temperature sensor 24c. The indoor temperature sensor 24a is a sensor that detects the temperature in the room (air-conditioned space). The indoor temperature sensor 24a is not particularly limited, but is installed on the air suction side of the filters 16t and 16f (see FIG. 2). Thereby, for example, when the indoor heat exchanger 12 is frozen for cleaning, the detection error due to the influence of the heat radiation can be suppressed.

The humidity sensor 24b is a sensor that detects the humidity of the air in the room (air-conditioned space), and is installed at a predetermined position of the indoor unit 10. The humidity sensor 24b is not particularly limited, but is installed at the same location as the indoor temperature sensor 24a, and can detect the humidity of the air taken in through the air suction port h1 or the like as the indoor fan 14 rotates. It is configured as follows.

The indoor heat exchanger temperature sensor 24c is a sensor that detects the temperature of the indoor heat exchanger 12 (see FIG. 2), and is installed in the indoor heat exchanger 12. The detected values of the indoor temperature sensor 24a, the humidity sensor 24b, and the indoor heat exchanger temperature sensor 24c are output to the indoor control circuit 25. In the embodiment described, the indoor temperature sensor 24a, the humidity sensor 24b, and the indoor heat exchanger temperature sensor 24c are illustrated, but other sensors may be provided.

The disinfectant substance generation unit 26 generates predetermined ions (for example, OH ⁻ _, O ^2- ), radicals (for example, OH radical), molecules (ozone (O ₃ )), or a mixture thereof, which are disinfectant substances. It is an ionizer and is installed inside the indoor unit 10. A disinfectant substance generation unit 26 (not shown) can be installed in the vicinity of the air outlet h3 of the indoor unit 10 shown in FIG. As a result, the indoor heat exchanger 12 and the like can be sterilized while the indoor fan 14 is stopped, and the sterilizing substance can be supplied to the air-conditioned space while the indoor fan 14 is being driven.

The indoor unit 10 shown in FIG. 4 has a cleaning lamp 27a, a clean lamp 27b, a preheating / defrosting lamp 27c, a power saving indicator lamp 27d, an operation lamp 27e, a timer lamp 27f, and an auto-off lamp as the configuration of the lamp display unit 27 described above. It is equipped with 27 g and a Mihari lamp 27h. The above-mentioned lamps 27a to 27h are examples of indicators, and some lamps may not be provided or other lamps may be provided depending on the functions provided by the air conditioner 100. However, a lamp having another name having the same function may be provided, and the lamp is not particularly limited. More details of the lamps 27a to 27h will be described later.

Although not shown, the indoor control circuit 25 includes electronic circuits such as a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and various interfaces. Then, the program stored in the ROM is read out and expanded in the RAM, and the CPU executes various processes.

As shown in FIG. 4, the indoor control circuit 25 includes a storage unit 25a and an indoor control unit 25b. In addition to the predetermined program, the storage unit 25a stores the imaging result of the imaging unit 23, the detection result of the environment detection unit 24, the data received via the remote control transmission / reception unit 11, and the like. The indoor control unit 25b executes a predetermined control based on the data stored in the storage unit 25a.

In addition to the above configuration, the outdoor unit 30 includes an outdoor temperature sensor 36 and an outdoor control circuit 37. The outdoor temperature sensor 36 is a sensor that detects the outdoor temperature (outside air temperature), and is installed at a predetermined position of the outdoor unit 30. Although omitted in FIG. 4, the outdoor unit 30 also includes sensors for detecting the suction temperature, discharge temperature, discharge pressure, and the like of the compressor 31 (see FIG. 3). The detected value of each sensor including the outdoor temperature sensor 36 is output to the outdoor control circuit 37.

Although not shown, the outdoor control circuit 37 includes electronic circuits such as a CPU, ROM, RAM, and various interfaces, and is connected to the indoor control circuit 25 via a communication line. As shown in FIG. 4, the outdoor control circuit 37 includes a storage unit 37a and an outdoor control unit 37b. In addition to the predetermined program, the storage unit 37a stores the detection values of each sensor including the outdoor temperature sensor 36. The outdoor control unit 37b controls the compressor motor 31a (that is, the compressor 31), the outdoor fan motor 33a, the outdoor expansion valve 34, and the like based on the data stored in the storage unit 37a.

Hereinafter, the indoor control circuit 25 and the outdoor control circuit 37 are collectively referred to as “control unit K”. The control unit K according to the present embodiment controls the lighting, blinking, extinguishing, and dimming lighting of the above-mentioned various lamps 27a to 27h of the indoor unit 10 according to the operating state and the setting state of the air conditioner 100. Further, the control unit K is used for heating operation, cooling operation, dehumidifying operation, blowing air operation, and other normal operations of the air conditioner 100, and maintenance operations including indoor unit clean operation and outdoor unit clean operation such as internal clean operation and filter cleaning operation. In addition, the execution of the outdoor unit cleaning operation according to the present embodiment is controlled. The control unit K controls the rotation of the outdoor fan 33 by controlling the drive of the outdoor fan motor 33a during the execution of the outdoor unit cleaning operation.

Hereinafter, the basic operation of the air conditioner 100 according to the present embodiment will be described. The air conditioner 100 receives an operation command, a stop command, a set temperature change command, and an operation state change (designation of operation state such as cooling and heating) command in response to an operation by the user via a remote controller. , Perform air conditioning operation. Upon receiving the operation command, the air conditioner 100 starts the air conditioning operation in the currently set operating state.

The operating states of the air conditioner 100 include a cooling operation, a heating operation, a dehumidifying operation, and a blowing operation. In addition, there may be other operating conditions other than those illustrated here, and some of the operating conditions illustrated may not be provided. Further, there may be an automatic operation in which various operation states such as a cooling operation, a heating operation, a dehumidifying operation and a blowing operation are automatically switched according to the environment.

In the cooling operation, the control unit K switches the four-way valve 35 so that the indoor heat exchanger 12 acts as an evaporator and the outdoor heat exchanger 32 acts as a compressor, as shown by the broken line arrow in FIG. To drive the compressor 31. Then, the control unit K cools the indoor air taken in from the air suction port h1 and the like shown in FIG. 2 by the indoor heat exchanger 12 by driving the indoor fan 14, and controls the vertical wind direction plate 19 to be in the open state. By blowing out from the air outlet h3, the room (air-conditioned space) in which the indoor unit 10 is installed is cooled. In the cooling operation, the outdoor fan 33 sends outside air to the outdoor heat exchanger 32 used as a condenser, so that dust may adhere to the outdoor heat exchanger 32.

In the heating operation, as shown by the solid arrow in FIG. 3, the control unit K switches the four-way valve 35 so that the indoor heat exchanger 12 acts as a compressor and the outdoor heat exchanger 32 acts as an evaporator. To drive the compressor 31. Then, the control unit K heats the indoor air taken in from the air suction port h1 and the like shown in FIG. 2 by the indoor heat exchanger 12 by driving the indoor fan 14, and controls the vertical wind direction plate 19 to be in the open state. The room (air-conditioned space) in which the indoor unit 10 is installed is heated by blowing out from the air outlet h3. Even in the heating operation, the outdoor fan 33 sends outside air to the outdoor heat exchanger 32 used as an evaporator, so that dust may adhere to the outdoor heat exchanger 32. In the heating operation, the outdoor heat exchanger 32 further acts as an evaporator, so that the outdoor heat exchanger 32 becomes wet.

The dehumidifying operation may include a so-called reheat dehumidifying operation and a cooling dehumidifying operation, depending on the configuration of the refrigerant circuit.

FIG. 3 also shows a refrigerant circuit configuration capable of reheat dehumidification. In FIG. 3, the indoor heat exchanger 12 is divided into a first indoor heat exchanger 12a and a second indoor heat exchanger 12b. The indoor expansion valves connected to these are provided at the positions indicated by V. Further, in the example shown in FIG. 3, the second chamber heat exchanger 12b is located above the first chamber heat exchanger 12a. When the above-mentioned normal cooling operation or heating operation is performed, the indoor expansion valve V is controlled to be fully opened, and the opening degree of the outdoor expansion valve 34 is appropriately adjusted.

In the reheat dehumidification operation, the control unit K sets the four-way valve 35 so that the outdoor heat exchanger 32 and the first indoor heat exchanger 12a function as a condenser and the second indoor heat exchanger 12b functions as an evaporator. Control. Further, the control unit K opens the outdoor expansion valve 34 fully, and sets the indoor expansion valve V connected to the first indoor heat exchanger 12a and the second indoor heat exchanger 12b to a predetermined opening degree. Then, the control unit K drives the compressor 31 and the indoor fan 14. As a result, the low-temperature air exchanged by the second chamber heat exchanger 12b, which is an evaporator, is appropriately warmed by the first chamber heat exchanger 12a, which is a condenser, and the room (air-conditioned space) is dehumidified. .. Even in the reheat dehumidification operation, the outdoor fan 33 sends the outside air to the outdoor heat exchanger 32 used as the condenser, so that dust may adhere to the outdoor heat exchanger 32.

In the cooling / dehumidifying operation, the control unit K operates the compressor 31 at a lower frequency than in the cooling operation described above, keeps the rotation speed of the indoor fan 14 low, and performs the cooling operation with a low capacity, thereby operating the room temperature. Decrease the humidity while suppressing the decrease in the air conditioner. In the cooling / dehumidifying operation, although the frequency is suppressed to a low frequency, the outdoor fan 33 sends the outside air to the outdoor heat exchanger 32 used as the condenser, so that dust adheres to the outdoor heat exchanger 32 as in the cooling operation. There is a risk of doing so.

In the ventilation operation, the control unit K drives the indoor fan 14 without driving the compressor 31 to allow the indoor air taken in from the air suction port h1 or the like to pass through the indoor heat exchanger 12 and to move up and down. The plate 19 is blown out from the air outlet h3 controlled to be in the open state. Since the ventilation operation is completed only on the indoor unit 10 side, there is not a high risk of dust adhering to the outdoor heat exchanger 32.

In addition, during the above-mentioned heating operation, cooling operation, or dehumidifying operation, when the room temperature reaches the set temperature, the compressor 31 may be stopped (thermo-off) and the operation state similar to that of the ventilation operation may be entered. ..

In addition to the above-mentioned normal operation, various maintenance operations including internal clean operation, filter cleaning operation, indoor unit clean operation such as indoor unit freeze cleaning operation, and outdoor unit clean operation such as outdoor unit freeze cleaning operation are performed as necessary. , Automatically, or in response to user instructions.

Here, the internal clean operation is an operation of drying (heating or blowing) the inside of the indoor unit 10 in order to suppress the generation of mold in the indoor unit 10. The filter cleaning operation is an operation of moving the filter cleaning unit left and right to clean the filter 16. The fan cleaning operation is an operation of removing dust and the like adhering to the indoor fan 14 with a movable brush of the fan cleaning unit. The indoor unit freeze-cleaning operation is typically performed following the fan cleaning operation, in which the indoor heat exchanger 12 is rapidly cooled to form frost, which melts the frost to clean the heat exchanger and movable brushes. It is an operation of rinsing, drying and ion-filling. The outdoor unit freeze-cleaning operation is an operation in which the outdoor heat exchanger 32 is rapidly cooled to form frost, and the frost is melted to wash away the dirt on the outdoor heat exchanger 32. Each of these maintenance operations is carried out for a predetermined time when the predetermined conditions are satisfied. In addition, it also has functions such as preheating or defrosting operation. In addition to these operations, it is also possible to set an off timer that stops the operation at a predetermined time, an on timer that starts the operation at a predetermined time, and the like.

Further, in the air conditioner 100 according to the present embodiment, in addition to the above-mentioned indoor unit clean operation and outdoor unit clean operation, the outdoor fan 33 is set to the rotation direction P during normal operation when a predetermined condition is satisfied. Is rotated in the reverse direction N to perform an outdoor unit cleaning operation for removing dust adhering to the outdoor heat exchanger 32. The indoor unit clean operation and the outdoor unit clean operation described above require the operation of the indoor unit 10, whereas the outdoor unit cleaning operation can be completed only on the outdoor unit 30 side, and the mechanism of the indoor unit 10 can be completed. No action is involved.

The lamp display unit 27 turns on, blinks, turns off, and dims the various lamps 27a to 27h according to the operating state and the setting state of the air conditioner 100 described above.

FIG. 5 is a diagram illustrating a lamp display unit 27 included in the indoor unit 10 according to the embodiment of the present invention. During the fan cleaning operation and the indoor unit freeze cleaning operation, the cleaning lamp 27a of the lamp display unit 27 lights up. During the filter cleaning operation, the clean lamp 27b lights up. During the preheating or defrosting operation, the preheating / defrosting lamp 27c lights up. During the power saving operation, the power saving (ECO) lamp 27d lights up. Further, the operation lamp 27e lights up during operation in each of the heating, cooling, dehumidifying, and blowing operating states. The timer lamp 27f lights up during automatic off / on timer reservation setting or during other laundry operations. The auto-off lamp 27g lights up during the auto-off setting. The lookout lamp 27h lights up during the mold lookout setting and operation. In addition to that, the various lamps 27a to 27h display an error by blinking or the like in order to indicate a predetermined abnormality.

If no display is given to the user even though the air conditioner 100 is operating, the user may suspect a failure. Therefore, it is natural during the above-mentioned normal operation. Even while the air conditioner 100 is operating in the above-mentioned clean operation or the like, as described above, the predetermined lamp of the lamp display unit 27 is normally turned on or blinked to notify the user. .. However, when the indoor unit 10 is not operating and only the outdoor unit 30 is operating as in the outdoor unit cleaning operation described above, if the lamp of the lamp display unit 27 on the indoor unit 10 side is turned on or blinked. On the contrary, the user may doubt that the lamp is lit even though the indoor unit 10 is not operating, and may suspect a failure. In the operating state where the indoor unit 10 is not operating and only the outdoor unit 30 is operating, it is better not to display on the special lamp display unit 27 according to the operating state on the indoor unit 10 side. It is understood that it does not give a sense of discomfort to the person.

Therefore, according to the present embodiment, in the air conditioner 100 provided in the indoor unit 10 and provided with an indicator (for example, lamps 27a to 27h) that indicates that the air conditioner 100 is operating. , The outdoor unit cleaning operation is performed under predetermined conditions, and in this outdoor unit cleaning operation, a reverse rotation operation is performed in which the outdoor fan is operated in the reverse rotation from the normal operation, and at least during the reverse rotation operation alone. , The configuration characterized in that the operation display is not performed by the display (for example, lamps 27a to 27h) of the indoor unit 10 is adopted. This makes it possible to remove dust and the like adhering to the outdoor heat exchanger 32 of the outdoor unit without giving the user a sense of discomfort.

Here, "at least the operation display indicating that the air conditioner 100 is operating by the display during the reverse rotation operation alone is not performed" means that any of the lamps 27a to 27a is always used during the reverse rotation operation. It does not mean that 27h does not light up or blink at all, but a setting display indicating the setting state of the air conditioner 100 (lighting of the timer lamp 27f indicating that the timer is reserved) and an error display indicating an abnormality (abnormality in the filter cleaning unit). It does not prevent the clean lamp 27b from blinking when there is a problem. "Do not display operation" is based on the premise that the operation indication of normal operation or clean operation is indicated by the normal lighting or blinking of any of the lamps 27a to 27h, and the corresponding lamp (for example, cleaning). The lamp 27a, the clean lamp 27b, the preheating / defrosting lamp 27c, the power saving indicator lamp 27d, the power saving indicator lamp 27d, the operation lamp 27e, etc.) are normally turned on or off without blinking. In addition, "do not display operation" means that normal operation or other clean operation is indicated by the normal lighting or blinking state of the lamp, and the above lamp is turned off when there is no operation to turn on the lamp in the dimmed state. Alternatively, it may include lighting the lamp in a dimmed state.

Normally, the outdoor unit cleaning operation is configured to be performed at a timing different from that of the normal operation and other clean operations. However, as long as there is no particular interference, it is not prevented that the outdoor unit cleaning operation is performed together with other operations, and in that case, the reverse rotation operation may be performed in time with other clean operations. There is. In this case, the suppression of the operation display of the indoor unit 10 is invalidated, and the lamp corresponding to the other clean operation being executed is lit or blinks. That is, "at least the operation display indicating that the air conditioner 100 is operating is not performed by the display during the reverse rotation operation alone" means that both the other normal operation and the other clean operation It means that the display (normal lighting and blinking) indicating the operating state is not performed when the reverse rotation operation is performed independently without being performed at the same time.

Hereinafter, the operation control accompanied by the outdoor unit cleaning operation executed by the air conditioner 100 according to the present embodiment will be described in more detail with reference to FIG. FIG. 6 is a flowchart showing an operation control accompanied by an outdoor unit cleaning operation executed by the air conditioner according to the embodiment of the present invention. The control shown in FIG. 6 will be described as being executed by the control unit K, but the present invention is not limited to this, and the indoor control unit 25b may be the center, or the outdoor control unit 37b may be the center. It may be executed.

When the power is supplied, the air conditioner 100 first shifts to the stopped state, and in response to the operation command from the remote controller 40, starts the operation in the predetermined operating state (for example, the previously set operating state). Further, the air conditioner 100 shifts to the stopped state again in response to the stop command from the remote controller 40. The air conditioner 100 further switches the operating state in response to a command for changing the operating state from the remote controller 40. The control shown in FIG. 6 is started from step S100 in response to receiving an operation command in a predetermined operating state from the remote controller 40.

In step S101, the control unit K performs the air conditioning operation in the predetermined operation state (heating operation, cooling operation, dehumidifying operation, or blowing operation). In step S102, the control unit K determines whether or not the stop command from the remote controller 40 has been received. If it is determined in step S102 that the stop command has not yet been received (NO), the control unit K loops the control to step S102 and waits for the stop command.

On the other hand, if it is determined in step S102 that the stop command has been received (YES), the control proceeds to step S103. In step S103, the control unit K stops the air conditioning operation currently being performed. In step S104, the control unit K branches the control depending on whether the operation state at the stop timing is the heating operation, the cooling operation, the dehumidification operation, or the ventilation operation. Let me.

If it is determined in step S104 that the operating state is during heating operation (during heating operation), control is branched to step S105. In step S105, the control unit K rotates the outdoor fan 33 in the forward rotation for a predetermined time T1 to advance the control to step S107. Here, the reason why the outdoor fan 33 rotates in the forward direction after the heating operation is completed is that the compressor 31 and an electric component (not shown) are operating and have heat during the heating operation, and these compressors have heat. This is to dissipate heat from 31 and electrical components (not shown). Further, during the heating operation, the outdoor heat exchanger 32 acts as an evaporator, so that the outdoor heat exchanger 32 is wet. If the outdoor fan 33 is rotated in the reverse direction in this state, dew may be blown to the surroundings (for example, a wall) where the outdoor unit 30 is installed. Therefore, the forward rotation operation is also performed for the purpose of drying the dew of the outdoor heat exchanger 32.

On the other hand, when it is determined in step S104 that the operating state is during the cooling operation or the dehumidifying operation (during the cooling / dehumidifying operation), the control is branched to step S106. In step S106, the control unit K rotates the outdoor fan 33 in the forward rotation operation for a predetermined time T2 to advance the control to step S107. Here, after the cooling operation or the dehumidifying operation is completed, the outdoor fan 33 performs the forward rotation operation of the compressor 31 and an electric component (not shown) during the cooling operation and the dehumidifying operation as well as the heating operation. This is to dissipate heat from the compressor 31 and electrical components (not shown) because it is operating and has heat. The length of operating the outdoor fan 33 in the forward rotation is longer when the heating operation is completed (T1) than when either the cooling operation or the dehumidifying operation is completed (T2). This is because, when the heating operation is in progress, extra time is required for the drying of the outdoor heat exchanger 32.

After the forward rotation of the outdoor fan 33 is performed for a predetermined time T1 / T2 in step S105 or step S106, the control proceeds to step S107. In step S107, the control unit K stops the forward rotation of the outdoor fan 33, waits for a predetermined delay time, and proceeds to control in step S108. Here, the reason for waiting for a predetermined delay time is that even if the drive of the outdoor fan motor 33a is stopped, the outdoor fan 33 is rotating by inertia for a while, but the outdoor fan 33 rotating forward at a certain speed is used. The reason why the outdoor fan motor 33a is suddenly operated in the reverse rotation is that a load may be applied to the outdoor fan motor 33a.

In step S108, the control unit K operates the outdoor fan 33 in a reverse rotation operation in the reverse direction of the normal operation while the operation lamp 27e of the lamp display unit 27 is turned off (including the case where the light is dimmed). To execute. Here, since the effect of removing dust in a relatively short period of time can be sufficiently obtained by the reverse rotation operation, a shorter time than either the internal clean operation or the filter cleaning operation described above is sufficient. Yes, more specifically, it may take about 1 to 5 minutes. In particular, if the user notices that the outdoor unit 30 continues to rotate even though the stop button is pressed by the remote controller 40, it may be suspected as a failure. It is preferable to shorten.

Although it has been explained that the operation lamp 27e of the lamp display unit 27 and the like are turned off (including the case of dimming) during the reverse rotation operation, the forward rotation of step S105 or step S106 and the standby time of step S107 have been described. However, it is desirable to turn off the lights.

In step S109, the control unit K records the execution history of the reverse rotation operation of the outdoor fan 33 in the history storage unit 25c provided in the storage unit 25a, and proceeds to the control in step S110. This execution history includes information on the date and time when the reverse rotation operation was performed, and is mainly recorded for reference by a service engineer during maintenance or repair of the air conditioner 100.

If it is determined in step S104 that the operating state is the ventilation operation (blowing operation), the control is directly advanced to step S110.

In step S110, the control unit K determines whether or not another clean operation is required. If the other clean operation execution conditions are satisfied in step S110 and it is determined that it is necessary (YES), the control proceeds to step S111. In step S111, the control unit K performs another necessary clean operation, and when it is completed, shifts to the standby state in step S112.

On the other hand, when it is determined in step S110 that another clean operation is not necessary (NO), the process directly branches to step S112, and the process shifts to the standby state in step S112. After that, when an operation command is issued in a predetermined operating state at an arbitrary timing, this control is restarted from step S100.

The control shown in FIG. 6 is configured to perform another clean operation after performing the reverse rotation operation of the outdoor fan 33b. Since the reverse rotation operation is completed in a relatively short period of time, the control unit K can execute the reverse rotation operation in preference to other clean operations in this way. By sequentially performing processing such as starting another clean operation after the reverse rotation operation is completed, the need to consider interference between the reverse rotation operation and other clean operations is reduced, and the design is made. It is advantageous on the top.

However, the execution method of the reverse rotation operation of the outdoor fan 33b and the other clean operation is not limited. Other clean operations may be performed in preference to the reverse rotation operation. Further, in another embodiment, the control unit K allows the reverse rotation operation and the execution of the other clean operation to overlap in time, and when they overlap, the reverse rotation operation simultaneously and in parallel with the other clean operation. May be carried out. In this case, during both the reverse rotation operation and the other clean operation, the suppression of the operation display by the indicator of the indoor unit 10 is invalidated, and the lamp is lit according to the other clean operation. .. Since the outdoor unit cleaning operation is completed only on the outdoor unit 30 side, there is little possibility of interference with other clean operations (for example, filter cleaning operation) that are completed only on the indoor unit 10 side, and these are collectively efficient. Can be carried out.

Further, in the above-described embodiment, the control unit K has been described as performing the outdoor unit cleaning operation on the condition that any of the cooling operation, the heating operation, and the dehumidifying operation is completed. By performing the outdoor unit cleaning operation at the end of the cooling operation, the heating operation, or the dehumidifying operation, there is an advantage that the user can recognize the outdoor unit cleaning operation as an incidental operation at the end of the operation. However, the execution timing of the outdoor unit cleaning operation is not limited to this, and may be performed at any timing.

In a preferred embodiment, the outdoor unit cleaning operation may be periodically performed regardless of whether or not the air conditioning operation is performed in the standby state, not as the operation at the end of the operation described above. Especially when the outdoor unit cleaning operation is performed regularly, the outdoor unit cleaning operation is frequently performed. Therefore, if the lamp display unit 27 displays the operation during the outdoor unit cleaning operation, the user feels uncomfortable. Easy to give. The outdoor unit cleaning operation without the operation display according to the present embodiment is more useful in such a case.

Further, in a preferred embodiment, the outdoor unit cleaning operation is effective when used together with other outdoor unit clean operations such as an outdoor freeze-cleaning operation. In that case, it is preferable that the outdoor unit cleaning operation is performed more frequently than the outdoor freezing and cleaning operation. In the outdoor freeze-cleaning operation, the outdoor heat exchanger 32 acts as an evaporator and the indoor heat exchanger 12 acts as a condenser, as in the heating operation. Where there is a risk of warming up and causing discomfort to the user, it is possible to reduce the frequency of the outdoor freeze-cleaning operation by performing the outdoor unit cleaning operation with high frequency. In other words, the outdoor unit cleaning operation is performed at a high frequency cycle to remove dust, and the outdoor unit freeze cleaning is performed at a relatively low frequency cycle, which causes discomfort to the user. While reducing the amount, it is possible to prevent clogging between the fins of the outdoor heat exchanger 32.

In a more preferred embodiment, the above-mentioned outdoor unit cleaning operation is not provided with manual setting, and is performed automatically. By managing the execution timing of the outdoor unit cleaning operation on the air conditioner 100 side without leaving it to the user, the outdoor heat exchanger 32 can be more reliably maintained in a clean state.

Further, where the power supply may be cut off due to a power failure or the like during the outdoor unit cleaning operation, an automatic restart function for automatically restarting the operation after the power failure is restored is known. In a preferred embodiment, it is preferable that the outdoor unit cleaning operation is excluded from the target of the automatic restart function so that the outdoor unit cleaning operation is not performed again at the timing when the power is supplied next time. This is because if the power starts to move without permission when the power is turned on, the user may be suspicious.

Further, as described above, when the room temperature reaches the set temperature during the heating operation, the cooling operation, or the dehumidifying operation, the compressor 31 is stopped (thermo-off) and the operation state is changed to the same as the ventilation operation. In some cases. If a sufficient amount of time has passed in this thermo-off state, it is expected that the compressor 31 and electrical components (not shown) are not operating, and that the forward rotation of the outdoor fan 33 is also stopped or the rotation speed is low. NS. For this reason, in the cooling operation or dehumidifying operation in which the outdoor heat exchanger 32 does not generate dew, the above-mentioned outdoor fan is received when a stop command is received after a time equal to or more than a predetermined threshold has elapsed since the thermo-off. The forward rotation of 33 and / or waiting for a predetermined time may be omitted.

As described above, according to the above-described embodiment, the air conditioner and the air conditioner capable of removing dust and the like adhering to the outdoor heat exchanger of the outdoor unit without giving a sense of discomfort to the user. A control method can be provided.

The embodiment of the present invention is not limited to the above-described embodiment, and various modifications may be included. For example, the above-described embodiment has been described in detail for easy understanding, and is not necessarily limited to the one including all the described configurations. Further, it is possible to replace a part of the configuration of one embodiment with the configuration of another embodiment, and it is also possible to add the configuration of another embodiment to the configuration of one embodiment. Further, it is possible to add / delete / replace a part of the configuration of each embodiment with another configuration.

Further, some or all of the above configurations, functions, processing units, processing means and the like may be realized by hardware, for example, by designing with an integrated circuit. Further, some or all of the above configurations, functions, etc. are described by a legacy programming language such as an assembler, C, C ++, C #, Java (registered trademark), an object-oriented programming language, or the like. Computers that realize functions This can be realized by executable programs, and information such as programs, tables, and files that realize each function can be stored in HDD (Hard Disk Drive), SSD (Solid State Drive) ROM, EEPROM, EPROM, flash memory, etc. Storage device, flexible disc, CD-ROM, CD-RW, DVD-ROM, DVD-RAM, DVD-RW, Blu-ray disc, SD (registered trademark) card, MO, etc. It can be distributed through telecommunications lines.

Further, a part or all of the above-mentioned configurations, functions, etc. can be mounted on a programmable device (PD) such as a field programmable gate array (FPGA), and the above-mentioned functional part can be mounted on a PD. Circuit configuration data (bit stream data) to be downloaded to PD to realize the above, HDL (Hardware Description Language) to generate circuit configuration data, VHDL (Very High Speed Integrated Circuits Hardware Description Language), Verilog-HDL, etc. It can be distributed by recording medium as the data described by. In addition, control lines and information lines are shown as necessary for explanation, and not all control lines and information lines are shown in the product. In practice, it can be considered that almost all configurations are interconnected.

10 ... Indoor unit, 11 ... Remote control transmitter / receiver, 12 ... Indoor heat exchanger, 13 ... Drain pan, 14 ... Indoor fan, 15 ... Housing base, 16 ... Filter, 17 ... Front panel, 18 ... Left and right wind direction plate, 19 ... Vertical wind direction plate, 21 ... Left and right wind direction plate motor, 22 ... Vertical wind direction plate motor, 23 ... Imaging unit, 24 ... Environmental detection unit, 24a ... Indoor temperature sensor, 24b ... Humidity sensor, 24c ... Indoor heat exchanger temperature sensor , 25 ... Indoor control circuit, 25a ... Storage unit, 25b ... Indoor control unit, 26 ... Disinfectant substance generation unit, 27 ... Lamp display unit, 27a to 27h ... Various lamps, 30 ... Outdoor unit, 31 ... Compressor, 31a ... Compressor motor, 32 ... Outdoor heat exchanger, 33 ... Outdoor fan, 33a ... Outdoor fan motor, 34 ... Outdoor expansion valve, 35 ... Four-way valve, 36 ... Outdoor temperature sensor, 37 ... Outdoor control circuit, 37a ... Storage unit , 37b ... Outdoor control unit, 40 ... Remote control, 100 ... Air exchanger, h1 ... Air inlet, h2 ... Blowout air passage, h3 ... Air outlet, Q ... Refrigerant circuit

Claims (15)

An air conditioner equipped with an indoor unit and an outdoor unit.
An outdoor heat exchanger provided in the outdoor unit and
An outdoor fan provided in the outdoor unit that sends outside air to the outdoor heat exchanger,
A control unit that controls the outdoor fan and
The indoor unit is provided with at least one indicator for performing a first operation display indicating that the air conditioner is in clean operation and a second operation display indicating that the air conditioner is in normal operation. The control unit performs the reverse rotation operation, assuming that the clean operation includes a reverse rotation operation in which the outdoor fan is operated in a reverse rotation from that in the normal operation, and at least among the indoor unit and the outdoor unit. During the reverse rotation operation of the outdoor unit alone, the first operation display and the second operation display indicating that the clean operation is being performed by the at least one indicator of the indoor unit are suppressed. An air conditioner. First indicator included in the at least one indicator, performs the first operation displayed in normal lighting or blinking, the suppressing said first operation indicator according to at least one indicator, the first The air conditioner according to claim 1, wherein the display is turned off or dimmed. The air conditioner has the functions of an internal clean operation and a filter cleaning operation, and the time of the reverse rotation operation is shorter than that of either the internal clean operation or the filter cleaning operation. Item 2. The air conditioner according to item 1 or 2. The air conditioner according to any one of claims 1 to 3, wherein the control unit performs the reverse rotation operation on condition that any of the cooling operation, the heating operation, and the dehumidifying operation is completed. The air conditioning according to claim 4, wherein the control unit waits for a predetermined delay time after the operation of any of the cooling operation, the heating operation, and the dehumidifying operation is completed, and starts the reverse rotation operation. Machine. The air conditioner according to claim 4 or 5, wherein the control unit performs the reverse rotation operation once by operating the outdoor fan in the forward rotation, at least after the end of the heating operation. In the case of after the end of any of the cooling operation, the heating operation, and the dehumidifying operation, the control unit performs the reverse rotation operation after the outdoor fan is once operated in the forward rotation.
The length of operating the outdoor fan in the forward rotation is longer when the heating operation is completed than when either the cooling operation or the dehumidifying operation is completed. Item 4. The air conditioner according to Item 4. The air conditioner according to any one of claims 1 to 7, wherein the control unit executes the reverse rotation operation in preference to another clean operation. When the reverse rotation operation and the other clean operation overlap in time, the control unit executes the reverse rotation operation at the same time as the other clean operation, and performs the reverse rotation operation and the other clean operation. The air conditioner according to any one of claims 1 to 7, wherein the suppression of the first operation display by the at least one indicator of the indoor unit is invalidated while both of the above are being carried out. The air conditioner according to any one of claims 1 to 9, wherein if the power is cut off during the reverse rotation operation, the reverse rotation operation is not performed again at the timing when the power is supplied next time. .. The air conditioner according to any one of claims 1 to 10, wherein the control unit records an execution history of the reverse rotation operation. The air conditioner according to any one of claims 1 to 11, wherein the reverse rotation operation is performed automatically without manual setting. The air conditioner according to any one of claims 1 to 12, wherein the control unit periodically performs the reverse rotation operation regardless of whether or not the air conditioning operation is performed. The air conditioner has a function of outdoor freezing and washing operation.
The air conditioner according to any one of claims 1 to 13, wherein the reverse rotation operation is performed more frequently than the outdoor freezing and washing operation. Equipped with indoor and outdoor units
An outdoor heat exchanger provided in the outdoor unit and
An outdoor fan provided in the outdoor unit that sends outside air to the outdoor heat exchanger,
A control unit that controls the outdoor fan and
Air provided in the indoor unit and including at least one indicator for performing a first operation display indicating that the air conditioner is in clean operation and a second operation display indicating that the air conditioner is in normal operation. It is a control method for the air conditioner.
It is a step of carrying out the reverse rotation operation, assuming that the clean operation includes a reverse rotation operation of operating the outdoor fan in the reverse rotation of the normal operation by the control unit, and at least the indoor unit and the outdoor unit. During the reverse rotation operation of the outdoor unit of the machine alone, the first operation display and the second operation display indicating that the clean operation is being performed by the at least one indicator of the indoor unit are suppressed. Control method of the air conditioner including the step.

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