JP5804689B2 - Air conditioner - Google Patents

Description

  The present invention relates to an air conditioner capable of driving a ventilation fan installed indoors separately from an indoor unit via an output terminal for driving a fan provided on a control board of the indoor unit controller. .

  As medium- and large-sized air conditioners used for air conditioning in small and medium-sized buildings and stores, for example, air conditioners composed of indoor units installed on indoor ceilings and outdoor units installed outdoors are known. Yes. As this air conditioner, there are a single type with one indoor unit and a multi-type with a plurality of units, all of which include an indoor heat exchanger, an indoor blower, an indoor unit controller, an intake air temperature sensor, and the like. The outdoor unit includes a compressor, an outdoor heat exchanger, an outdoor blower, an outdoor temperature sensor, and the like. The indoor unit and the outdoor unit are connected to each other through refrigerant piping, communication lines, etc., and are operated based on the operation mode, set temperature, set air volume, etc. set from the remote controller for operation connected to the indoor unit. It has become so.

  On the other hand, in the air conditioning of buildings and the like, ventilation is necessary in addition to air conditioning by an air conditioner, and a ventilation fan is installed to introduce fresh outside air. As this ventilation fan, there are one in which the ventilation fan is incorporated and integrated in the indoor unit of the air conditioner, and one in which the ventilation fan is installed independently of the air conditioner. As an example of the former, as shown in Patent Documents 1 and 2, the outside air temperature and the room temperature are detected, and the outside air cooling or the outside air heating can be performed by introducing the low temperature outside air or the high temperature outside air. Are known.

JP-A-6-185785 JP-A-7-167477

However, as shown in Patent Documents 1 and 2, when the ventilation fan is integrated in the air conditioner, the air conditioner can be multi-functional, but the indoor unit of the air conditioner is large. If the ventilation fan is not required, it is necessary to prepare an indoor unit with a different configuration that does not incorporate the ventilation fan. was there.
On the other hand, if the ventilation fan and the air conditioner are installed separately, each is operated independently. Therefore, the ventilation fan is freely controlled from the air conditioner side, and the outside air cooling or outside air is controlled. There were problems such as it was difficult to perform heating.

  The present invention has been made in view of such circumstances. The existing air conditioner and the ventilation fan remain the same, and the outside fan is turned on and off by a command from the air conditioner with a simple configuration. Alternatively, an object is to provide an air conditioner that realizes outdoor air heating, reduces heat load, and can perform energy saving operation.

In order to solve the above-described problems, the air conditioner of the present invention employs the following means.
That is, an air conditioner according to the present invention includes an indoor heat exchanger, an indoor fan, an indoor temperature sensor that detects the temperature of intake air, and an indoor unit controller, a compressor, an outdoor heat exchanger, and an outdoor fan. And an outdoor unit equipped with an outdoor air temperature sensor that detects an outside air temperature, the fan drive output terminal provided on the control board of the indoor unit controller is separate from the indoor unit. A ventilation fan installed in the room is connected, and the ventilation fan can be controlled on and off based on the detected temperatures of the suction temperature sensor and the outside air temperature sensor via the indoor unit controller, and the indoor unit controller When the air conditioner is thermo-off during cooling while taking in outside air, the suction air temperature or set temperature at that time is and a · off, the suction air temperature on the basis of the Ta · off is, when the suction air temperature <Ta · off, characterized in that it is configured to turn off the ventilation fan.

According to the present invention, the fan drive output terminal provided on the control board of the indoor unit controller is connected to the ventilation fan installed indoors separately from the indoor unit, and this ventilation fan is connected via the indoor unit controller. ON / OFF control is possible based on the detected temperature of the suction temperature sensor and the outside air temperature sensor, and when the air conditioner is thermo-off during cooling while the indoor unit controller is taking in outside air, the suction air temperature or setting at that time When the temperature is Ta · off and the intake air temperature is lower than Ta · off based on the Ta · off, the ventilation fan is turned off. To turn on the ventilation fan with the indoor unit controller at high outdoor temperatures, etc., and actively take in cold or hot outside air into the room It, it is possible to reduce the heat load to be processed by the air conditioner. Therefore, the air conditioner can be operated in an energy saving manner. In addition, this outside air cooling or outside air heating is a function independent of the air conditioner's original temperature control, and even if this control is added, it is not necessary to verify the original function of the air conditioner. can do. Furthermore, the existing sensor can be used as it is as the suction temperature sensor and the outside air temperature sensor, and only by connecting the ventilation fan to the existing fan drive output terminal provided on the control board of the indoor unit controller, New functions can be added to existing air conditioners and ventilation fans easily and at low cost without preparing new connection devices. In addition, when the air conditioner is thermo-off when the room temperature (suction air temperature) reaches the set temperature during outside air cooling, the suction air temperature becomes lower than Ta · off (suction air temperature or set temperature at thermo-off). In this case, since the intake of the outside air can be stopped by turning off the ventilation fan, it is possible to prevent the room temperature from being excessively lowered due to the intake of the outside air during the outside air cooling, and it is possible to maintain comfort.

  Furthermore, the air conditioner of the present invention is the above air conditioner, wherein the indoor unit controller is based on the detected temperatures of the intake temperature sensor and the outside air temperature sensor, and when the intake air temperature is greater than the outside air temperature during cooling. In the heating, the ventilation fan is turned on when the intake air temperature is smaller than the outside air temperature.

  According to the present invention, when the indoor unit controller is cooling, when the intake air temperature is greater than the outside air temperature, and during heating, when the intake air temperature is less than the outside air temperature, based on the detected temperatures of the suction temperature sensor and the outside air temperature sensor. Because it is configured to turn on the ventilation fan, positively by turning on the ventilation fan when cooling, when the intake air temperature> the outside air temperature, or when heating, when the intake air temperature <the outside air temperature Low-temperature outside air or high-temperature outside air can be taken into the room to perform outside air cooling or outside air heating. Therefore, the heat load of the air conditioner can be reduced and the air conditioner can be operated in an energy-saving manner.

  Furthermore, the air conditioner of the present invention is the air conditioner according to any one of the above-described air conditioners, wherein the indoor unit controller is based on detection temperatures of the suction temperature sensor and the outside air temperature sensor for each preset time. The ventilation fan is configured to make an on / off determination.

  According to the present invention, the indoor unit controller is configured to perform the on / off determination of the ventilation fan based on the detected temperatures of the suction temperature sensor and the outside air temperature sensor for each preset time. On / off determination of the ventilation fan is performed based on the intake air temperature and the outside air temperature every set time, for example, every 5 minutes, and when the predetermined condition is satisfied, the outside air is introduced and the outside air cooling or the outside air heating is performed. It can be carried out. Therefore, stable outside air cooling or outside air heating can be performed while preventing on / off hunting of the ventilation fan.

  Furthermore, the air conditioner of the present invention is the air conditioner according to any one of the above, wherein the indoor unit controller turns on the indoor blower and the outdoor blower for a certain period of time at the start of operation of the air conditioner. The ventilation fan is configured to make an on / off determination.

  According to the present invention, since the indoor unit controller is configured to perform on / off determination of the ventilation fan after turning on the indoor blower and the outdoor blower for a certain period of time at the start of the operation of the air conditioner, the suction temperature is temporarily Even if air stays around the sensor or the outside air temperature sensor and heat is generated, the air around the sensor can be replaced by turning on the indoor fan and the outdoor fan for a certain period of time. Therefore, the accurate intake air temperature and outside air temperature can always be detected via the suction temperature sensor and the outside air temperature sensor, and highly accurate and stable outside air cooling or outside air heating can be performed.

Furthermore, an air conditioner according to the present invention includes an indoor heat exchanger, an indoor fan, an indoor unit provided with a suction temperature sensor for detecting the temperature of intake air, and an indoor unit controller, a compressor, an outdoor heat exchanger, and an outdoor fan. And an outdoor unit equipped with an outdoor air temperature sensor that detects an outside air temperature, the fan drive output terminal provided on the control board of the indoor unit controller is separate from the indoor unit. A ventilation fan installed in the room is connected, and the ventilation fan can be controlled on and off based on the detected temperatures of the suction temperature sensor and the outside air temperature sensor via the indoor unit controller, and the indoor unit controller is on the basis of the intake temperature sensor and the detected temperature of the outer air temperature sensor, at the time of cooling, the suction air temperature> when the outside air temperature, And, during heating, when the suction air temperature <outside air temperature, the ventilating fan is turned on, when the air conditioner when outdoor air cooling incorporating the outside air is thermostat-off, in conjunction therewith so as to turn off the ventilation fan It is configured.

According to the present invention, the air conditioning fan is turned on by the indoor unit controller at the time of low outside air temperature or high outside air temperature during air-conditioning operation, and air conditioning is performed by actively taking in low temperature outside air or high temperature outside air into the room. The heat load processed by the machine can be reduced. Therefore, the air conditioner can be operated in an energy saving manner. In addition, this outside air cooling or outside air heating is a function independent of the air conditioner's original temperature control, and even if this control is added, it is not necessary to verify the original function of the air conditioner. can do. Furthermore, the existing sensor can be used as it is as the suction temperature sensor and the outside air temperature sensor, and only by connecting the ventilation fan to the existing fan drive output terminal provided on the control board of the indoor unit controller, New functions can be added to existing air conditioners and ventilation fans easily and at low cost without preparing new connection devices. In addition, when the room temperature (suction air temperature) reaches the set temperature during outdoor air cooling and the air conditioner is turned off, the intake of the outside air can be stopped by turning off the ventilation fan in conjunction with it. Therefore, when the outside air is cooled, it is possible to prevent the room temperature from being excessively lowered by taking in outside air, and to maintain comfort.

According to the present invention, an air conditioner is provided by turning on a ventilation fan by an indoor unit controller at a low outside temperature or a high outside temperature during air-conditioning operation and actively taking in low temperature outside air or high temperature outside air into the room. Since the heat load to be processed can be reduced, the air conditioner can be operated in an energy-saving manner. In addition, this outside air cooling or outside air heating is a function independent of the air conditioner's original temperature control, and even if this control is added, it is not necessary to verify the original function of the air conditioner. can do. Furthermore, the existing sensor can be used as it is as the suction temperature sensor and the outside air temperature sensor, and only by connecting the ventilation fan to the existing fan drive output terminal provided on the control board of the indoor unit controller, New functions can be added to existing air conditioners and ventilation fans easily and at low cost without preparing new connection devices. In addition, when the air conditioner is thermo-off when the room temperature (suction air temperature) reaches the set temperature during outside air cooling, the suction air temperature becomes lower than Ta · off (suction air temperature or set temperature at thermo-off). In this case, since the intake of the outside air can be stopped by turning off the ventilation fan, it is possible to prevent the room temperature from being excessively lowered due to the intake of the outside air during the outside air cooling, and it is possible to maintain comfort.

In addition, according to the present invention, when the room temperature (suction air temperature) reaches a set temperature during the cooling of the outside air and the air conditioner is turned off, the intake of the outside air is stopped by turning off the ventilation fan in conjunction with it. Therefore, when the outside air is cooled, it is possible to prevent the room temperature from being excessively lowered by taking in the outside air, and it is possible to maintain comfort.

1 is a schematic configuration diagram of an air conditioner according to an embodiment of the present invention. It is a circuit diagram of the control system of the air conditioner shown in FIG. It is a control flow figure at the time of the external air cooling of the air conditioner shown in FIG. It is explanatory drawing of the modification of the control system at the time of the external air cooling of the air conditioner shown in FIG. Is a control flow diagram of prevention room temperature down only when outdoor air cooling of the air conditioner shown in FIG. It is explanatory drawing of the modification of the room temperature too much fall prevention measure at the time of external air cooling shown in FIG.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 shows a schematic configuration diagram of an air conditioner according to an embodiment of the present invention. Here, a buried air conditioner 1 is illustrated. The air conditioner 1 is a single-type air conditioner in which one indoor unit is connected, but may be a multi-type air conditioner in which a plurality of indoor units are connected. The air conditioner 1 includes an indoor unit 4 installed on the ceiling surface 3 of the room 2 and an outdoor unit 5 installed outdoors.

  The indoor unit 4 includes an indoor heat exchanger 6, an indoor blower 7, an indoor unit controller 8, a suction temperature sensor 9, and the like. The outdoor unit 5 includes a compressor, an outdoor heat exchanger, an outdoor blower, and an outdoor unit controller (not shown). 10 and an outside air temperature sensor 11 and the like. The indoor unit 4 and the outdoor unit 5 are connected via a refrigerant pipe and a communication line 12 (not shown). The indoor unit 4 cools or heats the air sucked from the room 2 through the room blower 7 by heat exchange with the refrigerant in the room heat exchanger 6 and blows the air into the room 2 to cool the room 2. Or it is used for heating.

  A wired remote controller (hereinafter simply referred to as a remote controller) 13 is connected to the indoor unit 4, and an indoor unit controller 8 that operates the air conditioner 1 based on a command from the remote controller 13, A suction temperature sensor 9 for detecting the temperature of the sucked air is provided. The remote controller 13 includes various operation buttons such as an on / off button, an operation mode switching button, a temperature setting button, and an air volume setting button, and performs an operation of the air conditioner 1.

  In addition, a ventilation fan 15 for introducing fresh outdoor air from the outside into the room 2 through the duct 14 is installed in the ceiling surface 3 of the room 2 and can be driven through the fan motor 16. . The ventilation fan 15 is configured to be able to operate independently of the air conditioner 1 and is configured to be on / off controlled by a command from the indoor unit 4. FIG. 2 shows a circuit diagram of the control system.

  The indoor unit controller 8 on the indoor unit 4 side is provided with an indoor control board 17, and the outdoor unit controller 10 on the outdoor unit 5 side is provided with an outdoor control board 18. , 18 are connected via a communication line 12. The suction temperature sensor 9 is connected to the indoor side control board 17, and the outside air temperature sensor 11 for detecting the outside air temperature is connected to the outdoor side control board 18. Based on the detection values of the sensor 9 and the outside air temperature sensor 11, a function of on / off controlling the ventilation fan 15 is provided.

  The indoor control board 17 is provided with an output terminal 19 for driving the fan, and a ventilation fan 15 is connected to the output terminal 19 for driving the fan. The ventilation fan 15 is driven by the relay 20 being controlled by the output from the indoor control board 17 and the fan motor 16 being on / off controlled via the contact 20A. FIG. 3 shows a control flow diagram in the case of performing the outside air cooling by operating the ventilation fan 15 to introduce the low temperature outside air while the air conditioner 1 is performing the cooling operation. Below, this outside air cooling function is demonstrated using FIG.

In step S1, when the cooling operation is started, the process proceeds to step S2, the indoor blower 7 and the outdoor blower (not shown) are turned on for a certain period of time, and the air around the suction temperature sensor 9 and the outside air temperature sensor 11 is replaced. The intake air temperature and the outside air temperature can be detected. Then, it transfers to step S3, compares the indoor unit suction air temperature detected with the suction temperature sensor 9 and the outdoor temperature sensor 11, and the outdoor unit suction air temperature (outside temperature),
Indoor unit intake air temperature> Outdoor unit intake air temperature (outside air temperature) + αc
However, it is determined whether αc satisfies an arbitrary correction value that can be changed in consideration of heat exchange in the duct 14 or the like.

  If "NO" is determined in the step S3, the process proceeds to a step S4, the output to the ventilation fan 15 is turned off, and the process proceeds to the step S5. In step S5, for example, after a predetermined time is counted by a 5-minute timer, the process returns to step S3, and the same operation is repeated when the outside air temperature is higher than the intake air temperature of the indoor unit 4. For this reason, the normal cooling operation is continued by the air conditioner 1. On the other hand, if the outside air temperature is lower than the intake air temperature of the indoor unit 4 and it is determined “YES” in step S3, the process proceeds to step S6, an on command is output to the ventilation fan 15, and the relay 20 and its contacts are connected. The fan motor 16 is driven via 20A. As a result, the ventilation fan 15 is operated, and the outside air cooling by introducing the low temperature outside air is realized.

  When the ventilation fan 15 is turned on in step S6, the process proceeds to step S7. For example, after a predetermined time is counted by a timer for 5 minutes, the process returns to step S3 again, and the same operation is repeated thereafter. In this manner, “indoor unit intake air temperature> outdoor unit intake air temperature (outside air temperature) + αc?” Is determined every predetermined time, for example, every 5 minutes, and when this condition is satisfied, outside air is introduced to cool the outside air It can be performed.

In the above description, the case where the outside air is introduced by the ventilation fan 15 and the outside air is cooled when the outside air temperature is lower than the intake air temperature of the indoor unit 4 during the cooling operation has been described. When the temperature is higher than the intake air temperature of the indoor unit 4,
Indoor unit intake air temperature <Outdoor unit intake air temperature (outside air temperature) -αh
However, it is determined whether or not αh satisfies an arbitrary correction value that can be changed in consideration of heat exchange in the duct 14 and the like, and the outside air is heated by introducing high-temperature outside air into the room 2. Also good.

  Moreover, in said example, by step S3 thru | or step S7, an indoor unit suction air temperature and an outdoor unit suction air temperature (outside temperature) are compared for every predetermined time, and it is judged whether outdoor air cooling or outside air heating is possible. The ventilation fan 15 is controlled to be turned on / off by the determination. However, as shown in FIG. 4, the ventilation fan 15 is controlled to be turned on / off with a predetermined differential (this example is for cooling). Also good.

Thus, according to the present embodiment, the following operational effects are obtained.
In the air conditioner 1 described above, during normal cooling / heating operation, air is sucked from the room through the indoor blower 7, and the air is cooled or heated by exchanging heat with the refrigerant in the indoor heat exchanger 6. By taking out, the room can be cooled or heated. During this time, when the intake air temperature detected by the intake temperature sensor 9 reaches the set temperature set by the remote controller 13, the air conditioner 1 is thermo-off, the circulation of the refrigerant to the indoor heat exchanger 6 is stopped, and the indoor The blower 7 is stopped or operated in a light breeze.

  On the other hand, when the outside air temperature is lower or higher than the intake air temperature from the room 2 based on the detected temperatures of the suction temperature sensor 9 and the outside air temperature sensor 11 during the cooling operation or the heating operation, that is, during the cooling operation, When the intake air temperature> the outside air temperature, and during the heating operation, when the intake air temperature <the outside air temperature, the indoor drive controller 18 is connected to the fan drive output terminal 19 via the indoor unit controller 8. By controlling the ventilation fan 15 on and off, it is possible to actively take in low-temperature outside air or high-temperature outside air into the room 2 and perform outside air cooling or outside air heating.

  Thereby, the heat load processed with the air conditioner 1 can be reduced, and as a result, the air conditioner 1 can be energy-saving operated. In addition, this outside air cooling or outside air heating is a function independent of the original temperature control of the air conditioner 1, and even if this control is added, it is not necessary to verify the original function of the air conditioner 1 and can be easily performed. Can be implemented. Furthermore, the existing sensors can be used as they are as the suction temperature sensor 9 and the outside air temperature sensor 11, and the existing fan driving output terminal 19 provided on the indoor side control board 17 of the indoor unit controller 8 is ventilated. By simply connecting the fan 15, a new function can be added to the existing air conditioner 1 and the ventilation fan 15 easily and at low cost without preparing a new connection device.

  Moreover, the indoor unit controller 8 is configured to perform on / off determination of the ventilation fan 15 based on the detected temperatures of the suction temperature sensor 9 and the outside air temperature sensor 11 for each preset time. ON / OFF determination of the ventilation fan 15 is performed based on the intake air temperature and the outside air temperature every 5 minutes, for example, every 5 minutes, and when a predetermined condition is satisfied, the outside air is introduced and the outside air cooling or the outside air heating is performed. Is to be done. For this reason, stable outside air cooling or outside air heating can be performed while preventing on / off hunting of the ventilation fan 15. The same effect can be obtained when the ventilation fan 15 is controlled to be turned on / off with a predetermined differential.

  Furthermore, the indoor unit controller 8 is configured to perform on / off determination of the ventilation fan 15 after turning on the indoor blower 7 and the outdoor blower (not shown) for a certain period of time when the operation of the air conditioner 1 is started. For this reason, even if air stays around the suction temperature sensor 9 and the outside air temperature sensor 11 and heat is generated, the air around the sensor is switched by turning on the indoor fan 7 and the outdoor fan for a certain period of time. be able to. Therefore, accurate intake air temperature and outside air temperature can always be detected via the suction temperature sensor 9 and the outside air temperature sensor 11, and highly accurate and stable outside air cooling or outside air heating can be performed.

In the embodiment described above, the room temperature may be excessively lowered during the cooling of the outside air. Therefore, the prevention measures will be described below with reference to FIGS. 5 and 6.
That is, in the above embodiment , if the air conditioner 1 is thermo-off during the outside air cooling in which the ventilation fan 15 is on, the room temperature may be excessively lowered if the low temperature outside air is continuously introduced. So we have added a function to prevent it. FIG. 5 is a control flow diagram illustrating the function of preventing the room temperature from excessively decreasing.

In step S11, when the air conditioner (air conditioner) 1 is thermo-off, the process proceeds to step S12, and the indoor intake air temperature Ta · off detected by the intake temperature sensor 9 at that time is stored. Subsequently, the process proceeds to step S13, and after counting a predetermined time, for example, a time by a timer for 1 minute, the process proceeds to step S14, and the suction air temperature at that time is compared with Ta · off,
Suction air temperature <Ta · off-αc2
However, αc2 is a preset temperature, and it is determined whether or not αc2 = 1 to about 3 ° C. is satisfied. If “NO”, the process returns to step S13 and the same every minute. The operation is repeated.

  If "YES" is determined in the step S14, the process proceeds to a step S15, an off output is output to the ventilation fan 15, and the operation of the ventilation fan 15 is stopped. As a result, the introduction of the outside air is stopped, and it is possible to prevent the room temperature from being excessively lowered due to the continuous introduction of the low temperature outside air. When the operation of the ventilation fan 15 is stopped in step S15, the process proceeds to step S16, and the air conditioner 1 is thermo-ON when the intake air temperature is raised above the set temperature, and the cooling operation is started again. Thereafter, it is determined whether the ventilation fan 15 is turned on or off according to the control flow shown in FIG.

  Thus, when the air conditioner 1 is thermo-off when the room temperature (suction air temperature) reaches the set temperature during the cooling of the outside air, the suction air temperature becomes lower than Ta · off (suction air temperature at the time of thermo-off). In this case, since the intake of outside air can be stopped by turning off the ventilation fan 15, it is possible to prevent the room temperature from being excessively lowered due to the intake of outside air, and to maintain comfort.

  In the above-described embodiment, the indoor intake air temperature when the air conditioner 1 is thermo-off is stored as Ta · off, and the ventilation fan 15 is turned off by comparing this temperature with the intake air temperature every predetermined time. The room temperature set temperature set by the remote controller 13 may be Ta · off. The one-minute timer is not limited to this, and may be an arbitrary time timer.

  Further, in the above embodiment, when the air conditioner 1 is thermo-off, it is determined whether or not the ventilation fan 15 is turned off while looking at the intake air temperature every predetermined time, but the air conditioner 1 is thermo-off. In this case, the ventilation fan 15 may be turned off. In this case, as shown in FIG. 6, “remote control set temperature + αf · off” before and after the thermo-off (where αf · off is The ventilation fan 15 may be turned on and off at αf · off = −2 deg to +2 deg.

  In addition, this invention is not limited to the invention concerning the said embodiment, In the range which does not deviate from the summary, it can change suitably. For example, in the above embodiment, the case where there is one indoor unit 4 has been described. However, in the case of a multi-type in which a plurality of indoor units 4 are connected, a plurality of indoor units 4 are installed in the same room. What is necessary is just to comprise so that the ventilation fan 15 can be controlled on / off by at least 1 unit | set.

  In addition, the control temperature value, the time set value, and the like described in the above embodiment are merely examples, and are not limited to these, and it goes without saying that the best value is appropriately set. There is nothing.

DESCRIPTION OF SYMBOLS 1 Air conditioner 4 Indoor unit 5 Outdoor unit 6 Indoor heat exchanger 7 Indoor fan 8 Indoor unit controller 9 Suction temperature sensor 11 Outside temperature sensor 15 Ventilation fan 16 Fan motor 17 Indoor side control board 19 Fan drive output terminal 20 Relay 20A Relay contact

Claims (5)

An indoor unit equipped with an indoor heat exchanger, an indoor fan, a suction temperature sensor that detects the temperature of the intake air and an indoor unit controller, and a compressor, an outdoor heat exchanger, an outdoor fan, and an outside air temperature sensor that detects the outside air temperature In the air conditioner composed of the outdoor unit
A ventilation fan installed indoors separately from the indoor unit is connected to the fan drive output terminal provided on the control board of the indoor unit controller,
The ventilation fan can be controlled on and off based on the detected temperature of the suction temperature sensor and the outside air temperature sensor via the indoor unit controller ,
When the air conditioner is thermo-off during cooling while taking in outside air, the indoor unit controller sets the suction air temperature or set temperature at that time to Ta · off, and the suction air temperature is based on the Ta · off. An air conditioner configured to turn off the ventilation fan when temperature <Ta · off .   The indoor unit controller, based on the detected temperatures of the suction temperature sensor and the outside air temperature sensor, when cooling, when the intake air temperature> outside air temperature, and during heating, when the intake air temperature <outside air temperature, the ventilation The air conditioner according to claim 1, wherein the air conditioner is configured to turn on a fan.   The indoor unit controller is configured to perform on / off determination of the ventilation fan based on detection temperatures of the suction temperature sensor and the outside air temperature sensor for each preset time. The air conditioner according to claim 1 or 2.   The indoor unit controller is configured to perform on / off determination of the ventilation fan after turning on the indoor blower and the outdoor blower for a predetermined time at the start of operation of the air conditioner. Item 4. The air conditioner according to any one of Items 1 to 3. An indoor unit equipped with an indoor heat exchanger, an indoor fan, a suction temperature sensor that detects the temperature of the intake air and an indoor unit controller, and a compressor, an outdoor heat exchanger, an outdoor fan, and an outside air temperature sensor that detects the outside air temperature In the air conditioner composed of the outdoor unit
A ventilation fan installed indoors separately from the indoor unit is connected to the fan drive output terminal provided on the control board of the indoor unit controller,
The ventilation fan can be controlled on and off based on the detected temperature of the suction temperature sensor and the outside air temperature sensor via the indoor unit controller,
The indoor unit controller , based on the detected temperatures of the suction temperature sensor and the outside air temperature sensor, when cooling, when the intake air temperature> outside air temperature, and during heating, when the intake air temperature <outside air temperature, the ventilation An air conditioner configured to turn off the ventilation fan in conjunction with a thermo-off of the air conditioner when the fan is turned on and the outside air is being cooled while taking in outside air.

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