JP2016183799A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a user from feeling discomfort caused by lowering cold air, blown from a blower fan, from the vicinity of a ceiling in dehumidification operation.SOLUTION: When an air conditioner performs dehumidification operation, a control unit changes the direction of a vertical wind direction plate so that a blowout direction of conditioned air blown from a blowout port becomes a horizontal direction, makes the rotational frequency of a blower fan into a predetermined minimum rotational frequency, and changes the direction of a fan unit so that the blowout direction of indoor air blown from an auxiliary blowout port is below the blowout direction of the conditioned air blown from the blowout port. Further, a body unit has a temperature sensor for measuring the temperature of indoor air, and during dehumidification operation of the air conditioner, when an indoor temperature measured by the temperature sensor becomes a setting second temperature higher than a first setting temperature by a predetermined temperature, the control unit increases the rotational frequency of the auxiliary blower fan.SELECTED DRAWING: Figure 6

Description

  The present invention relates to an air conditioner.

  Some indoor units of an air conditioner include a main unit and a pair of fan units attached to both sides of the main unit. An indoor heat exchanger and a blower fan are arranged inside the main unit. By rotating this blower fan, indoor air is sucked into the main unit, and the sucked air is heat-exchanged with the refrigerant in the indoor heat exchanger and blown into the room as conditioned air. An auxiliary blower fan is disposed inside the fan unit. By rotating this auxiliary blower fan, the room air is sucked into the fan unit and serves as a blower that blows out the sucked room air. (For example, refer to Patent Document 1.)

  The air conditioner described in Patent Document 1 performs a weak cooling type dehumidifying operation. In this case, the cool air that is conditioned air blown from the blower fan is blown horizontally in the vicinity of the ceiling, and the indoor air blown from the auxiliary blower fan is from the blowout direction (horizontal direction) of the cool air blown from the blower fan. Is also blown obliquely downward. This prevents cold air from directly hitting a user in the room and causing discomfort.

JP 2014-169839 A

  The dehumidifying operation of Patent Document 1 is a weak cooling system as described above, and the temperature of the indoor heat exchanger is lower than that during the cooling operation as in a conventional air conditioner, and the temperature of the conditioned air blown out from the blower fan. Is lower than during cooling operation. Therefore, the cool air blown out from the blower fan is more likely to descend from the vicinity of the ceiling than during the cooling operation, which may cause discomfort to the user in the room.

  Therefore, the present invention provides an air conditioner that prevents cool air blown from a blower fan from falling from the vicinity of the ceiling during a dehumidifying operation so as not to cause discomfort to the user.

  In order to achieve the above-described object, an air conditioner of the present invention includes a blower fan that sucks room air from a suction port and blows conditioned conditioned air from a blower outlet at a lower portion of the front surface, and a blower outlet provided in the blower outlet The main unit has an up-and-down airflow direction plate that deflects the conditioned air blown from the top and bottom, and is attached to the side of the main unit and sucks room air from the auxiliary suction port on one side, and the sucked room air is front Air having an auxiliary air blowing fan that blows out from the auxiliary air outlet on the side, and a fan unit capable of deflecting indoor air blown out from the auxiliary air outlet in the vertical and horizontal directions, a main body unit, and a controller that controls the fan unit In the conditioner, when the air conditioner performs the dehumidifying operation, the control unit controls the direction of the upper and lower wind direction plates so that the direction of the conditioned air blown from the outlet is horizontal. And the rotation speed of the blower fan is set to a predetermined minimum rotation speed so that the blowing direction of the indoor air blown from the auxiliary blower outlet is lower than the blowing direction of the conditioned air blown from the blower outlet. Then, change the direction of the fan unit.

  The main unit has a temperature sensor that measures the temperature of the indoor air, and the indoor temperature measured by the temperature sensor is lower than the second set temperature by a predetermined temperature higher than the first set temperature during the dehumidifying operation. When it becomes, a control part raises the rotation speed of an auxiliary ventilation fan.

  According to the air conditioner as described above, it is possible to prevent the cool air blown from the blower fan from descending from the vicinity of the ceiling and causing discomfort to the user. In addition, when the room temperature approaches the first set temperature during the dehumidifying operation, the room air blown out from the auxiliary blower fan is mixed with the cold blown out from the blower fan, so that the cold air is diluted and the temperature of the cold air rises. It is possible to prevent the user from feeling cold and uncomfortable.

It is a perspective view which shows roughly the external appearance of the indoor unit of a present Example. It is a disassembled perspective view which shows the structure of an indoor unit schematically. It is the schematic seen from the front of the main housing. It is a vertical sectional view of the indoor unit schematically showing the configuration of the blower fan. It is a vertical sectional view of the indoor unit during the cooling operation (dehumidifying operation) and the heating operation of the present embodiment. It is a flowchart which shows operation | movement of the dehumidification driving | operation of a present Example.

  Embodiments of an air conditioner according to the present invention will be described below with reference to the drawings.

  As shown in FIGS. 1, 2, and 4, the indoor unit 10 of the present embodiment includes a rectangular parallelepiped main body unit 20 and a pair of fan units 30. An outer panel 23 is disposed on the front surface of the main unit 20. A suction port 21 for taking in indoor air is provided on the top side and the front side of the main unit 20. A front panel 24 is provided at a position facing the suction port 21 on the front side, and the front panel 24 is covered with an outer panel 23. As shown in FIG. 4, an indoor heat exchanger 25 and a blower fan 27 are disposed inside the main unit 20. As the blower fan 27 rotates, room air is sucked into the main unit 20 from the suction port 21. The sucked indoor air is heat-exchanged with the refrigerant in the indoor heat exchanger 25 to generate conditioned air. The generated conditioned air is deflected in the wind direction by the up and down wind direction plates 29 a and 29 b provided in the air outlet 22 at the lower front of the main unit 20, and blown out into the room from the air outlet 22.

  The fan unit 30 is demonstrated based on FIG.1, FIG.2 and FIG.3. As shown in FIG. 1, the fan unit 30 is disposed so as to be accommodated in side fan covers 35 on both sides of the main unit 20. The fan unit 30 is pivotally supported by the side fan cover 35 so as to be rotatable around the horizontal axis 41 with respect to the main unit 20. As shown in FIG. 2, the fan unit 30 is provided with an auxiliary suction port 31 for sucking room air from the outside in the direction of the horizontal axis 41 on one side surface, and the room air sucked from the auxiliary suction port 31 is placed in the indoor space. An auxiliary outlet 32 for blowing out is disposed on the front side of the fan unit 30. In addition, the fan unit 30 includes an auxiliary blower fan 33 for sucking room air and blowing out the sucked room air. The auxiliary blower fan 33 is disposed inside the fan unit 30. A motor 34 is connected to the auxiliary blower fan 33 and is rotated by the motor 34.

  As shown in FIG. 3, an electrical component unit 26 is disposed inside the main unit 20. The electrical component unit 26 includes a control unit 53 that controls the blower fan 27 and the auxiliary blower fan 33, a temperature sensor 51 that measures the temperature of the indoor air sucked from the suction port 21, and a humidity sensor that measures the humidity of the indoor air. 52 is mounted. As shown in FIG. 2, the electrical component unit 26 is mounted on the front side of the main unit 20 so that at least a part of the electrical component unit 26 faces the indoor heat exchanger 25. Covered by the panel 24. The electrical component unit 26 includes a storage unit 54. The storage unit 54 stores a first set temperature and a second set temperature that is higher than the first set temperature by a predetermined temperature. This second set temperature is a condition of the room temperature for controlling the rotational speed of the auxiliary blower fan 33 so that the user in the room does not feel cold. For example, when the first preset temperature is 20 ° C. and the predetermined temperature is 3 ° C., the second preset temperature is 23 ° C. In addition, when the first preset temperature is set at a high temperature of, for example, 25 ° C. or higher, the above-described predetermined temperature may be reduced. For example, when the first set temperature is 25 ° C., the predetermined temperature is set to 2 ° C. and the second set temperature is set to 27 ° C. This is because, when the first preset temperature is set at a high temperature, the user is less likely to feel cold when the indoor temperature becomes close to the first preset temperature. In addition, the humidity at which the user in the room can feel comfortable is stored in advance as the set humidity. This set humidity may be set by the user using a remote controller or the like.

  By attaching the mounting position of the electrical component unit 26 to the front side of the main unit 20, the electrical component unit 26 can be disposed at a position where air sucked from the suction port 21 by the blower fan 27 circulates. For example, as shown in FIG. 4, the electrical component unit 26 is disposed between the suction port 21 and the indoor heat exchanger 25. Further, the temperature sensor 51 and the humidity sensor 52 mounted on the electrical component unit 26 can measure the temperature and humidity in the room as the air sucked from the suction port 21 by the blower fan 27 circulates around them. I can do it.

  The operations of the main unit 20 and the fan unit 30 during the cooling operation, the heating operation, and the dehumidifying operation will be described.

  During the cooling operation, the indoor heat exchanger 25 functions as an evaporator that absorbs heat from the air, and as shown in FIG. 5 (a), the cold air that is conditioned air blown out from the outlet 22 is the vertical airflow direction plate 29a. 29b is deflected in the horizontal direction and blown out. At this time, the room air blown from the auxiliary blower 32 by rotating the fan unit 30 until the auxiliary blower 32 is directed obliquely downward from the horizontal direction is blown out of the cool air blown from the blower outlet 22 (horizontal direction). ) Is blown obliquely downward. Thereby, the cold air blown out from the air outlet 22 is directly applied to a person in the room to prevent the cold from causing discomfort, and the room air blown out from the auxiliary air outlet 32 is blown out toward the person in the room. Can provide coolness. The controller 53 controls the rotational speeds of the blower fan 27 and the auxiliary blower fan 33 according to the temperature difference between the room temperature measured by the temperature sensor 51 and the first set temperature set by the user. In the air volume automatic mode, when the temperature difference is large, the rotation speed of the blower fan 27 and the auxiliary blower fan 33 is controlled to be increased, and when the temperature difference is small, the rotation speed of the blower fan 27 and the auxiliary blower fan 33 is decreased. Control to be.

  During the heating operation, the indoor heat exchanger 25 functions as a condenser that radiates heat to the air, and as shown in FIG. 5B, the warm air that is conditioned air blown out from the air outlet 22 is a vertical airflow direction plate 29a. , 29b, and blown vertically downward toward the floor surface. At this time, the room air blown from the auxiliary blower port 32 by rotating the fan unit 30 until the auxiliary blower port 32 is directed forward from the vertically lower side is blown out warm air blown from the blower port 22 (vertically downward). Blows forward than. Since the air direction of the room air blown out from the auxiliary air outlet 32 is directed slightly upward from the air direction of the warm air blown out from the air outlet 22, the room air blown out from the auxiliary air outlet 32 is from the air outlet 22. The warm air blown out can be suppressed from above, and the rise of the warm air can be prevented to warm the feet of people in the room. As in the cooling operation, the control unit 53 controls the rotational speeds of the blower fan 27 and the auxiliary blower fan 33 according to the temperature difference between the room temperature measured by the temperature sensor 51 and the first set temperature set by the user. To do. In the air volume automatic mode, when the temperature difference is large, the rotation speed of the blower fan 27 and the auxiliary blower fan 33 is controlled to be increased, and when the temperature difference is small, the rotation speed of the blower fan 27 and the auxiliary blower fan 33 is decreased. Control to be.

  In the dehumidifying operation, as in the cooling operation, as shown in FIG. 5 (a), the cold air that is conditioned air blown out from the blowout port 22 is deflected in the horizontal direction and blown out by the vertical airflow direction plates 29a and 29b. . Moreover, the control part 53 controls the rotation speed of the ventilation fan 27 to the minimum rotation speed respectively predetermined. Furthermore, by rotating the fan unit 30 until the auxiliary air outlet 32 is directed obliquely downward from the horizontal direction, the room air blown from the auxiliary air outlet 32 is blown out from the air outlet 22 in the direction of the cool air (horizontal direction). ) Is blown obliquely downward. As a result, the cool air blown out from the outlet 22 can be made difficult to descend from the ceiling, and the room air blown out from the auxiliary blower fan 33 is mixed with a small amount of cool air blown out from the blower fan to diminish the cool air. The temperature can be raised so that the user does not feel cold and does not feel uncomfortable. In addition, the control part 53 is controlling the rotation speed of the auxiliary ventilation fan 33 also to the minimum rotation speed determined beforehand.

  Next, the control for increasing the rotational speed of the auxiliary blower fan 33 when the room temperature reaches the second set temperature during the dehumidifying operation of the air conditioner of the present embodiment will be described based on the control flowchart shown in FIG. .

  First, when the indoor unit 10 receives a signal instructed to start the dehumidifying operation transmitted from a remote controller (not shown) by a remote controller receiver (not shown), the control unit 53 starts the dehumidifying operation (S1). Specifically, as described above, the control unit 53 assists by rotating the fan unit 30 by blowing the conditioned air in the horizontal direction from the outlet 22 by leveling the up-and-down air direction plates 29a and 29b. Room air is blown out from the auxiliary air outlet 32 with the air outlet 32 directed obliquely downward. Furthermore, the control part 53 controls the rotation speed of the ventilation fan 27 and the auxiliary ventilation fan 33 to the minimum rotation speed respectively determined beforehand. This prevents the user from being directly chilled.

  Next, the control unit 53 acquires the first set temperature transmitted from a remote controller (not shown) (S2), and acquires the room temperature measured by the temperature sensor 51 (S3). Note that the first set temperature acquired in S2 is not limited to the first set temperature transmitted from the remote controller, and the first set temperature set during the cooling operation before the dehumidifying operation may be used.

  The control unit 53 determines whether or not the room temperature acquired in S3 is equal to or lower than the second set temperature stored in the storage unit 54 than the first set temperature acquired in S2 (S4). Is higher than the second set temperature (S4-No), the process returns to S3. When the room temperature is equal to or lower than the second set temperature (S4-Yes), the control unit 53 sets the rotation speed of the auxiliary blower fan 33 of the auxiliary blower fan 33 when the room temperature reaches the second set temperature. The number of revolutions is larger than the number of revolutions, for example, the number of revolutions having a large one-step air volume, such as the minimum number of revolutions to a weak number of revolutions (S5). As a result, the room air blown out from the auxiliary blower fan 33 is mixed with a small amount of cool air blown out from the blower fan, so that the cold air is diluted and the temperature of the cold air rises, and the user feels cold and gives unpleasant feeling Can not be. Note that the orientation of the left and right wind direction plates (not shown) in the auxiliary air outlet 32 is set so that the indoor air blown from the auxiliary blower fan 33 hits the cold air blown from the blower fan in order to easily mix cold air and room air. You may adjust more than 20.

  Thereafter, the control unit 53 acquires the indoor humidity measured by the humidity sensor 52 (S6). The control unit 53 determines whether or not the room humidity acquired in S6 is equal to or lower than the set humidity stored in the storage unit 54 (S7), and when the room humidity is higher than the set humidity (S7-No). Return to S6. Moreover, when indoor humidity is below setting humidity (S7-Yes), the control part 53 stops a dehumidification driving | operation (S8).

  According to the air conditioner as described above, it is possible to prevent the cool air blown from the blower fan from descending from the vicinity of the ceiling and causing discomfort to the user. In addition, when the room temperature approaches the first set temperature during dehumidifying operation, the room air blown out from the auxiliary blower fan is mixed with a small amount of cold blown out from the blower fan, so that the cold air is diluted and the user feels cold. It is possible to prevent discomfort.

DESCRIPTION OF SYMBOLS 10 Indoor unit 20 Main body unit 21 Suction inlet 22 Outlet 25 Indoor heat exchanger 26 Electrical component unit 27 Blower fan 28 Motor 30 Fan unit 31 Auxiliary inlet 32 Auxiliary outlet 33 Auxiliary blower fan 34 Motor 35 Side fan cover 53 Control part

Claims (2)

A blower fan that sucks in indoor air from the suction port and blows out conditioned conditioned air from a blower outlet in the lower part of the front surface, and a vertical wind direction plate that is provided in the blower outlet and deflects the conditioned air blown from the blower port up and down A main unit having
The auxiliary air blower is attached to a side portion of the main unit, sucks room air from an auxiliary air inlet on one side, and blows out the sucked room air from an auxiliary air outlet on the front side, from the auxiliary air outlet A fan unit capable of deflecting indoor air to be blown up, down, left and right;
In an air conditioner comprising the main unit and a control unit that controls the fan unit,
When the air conditioner performs a dehumidifying operation,
The controller is
While changing the direction of the up-and-down air direction plate so that the direction of the conditioned air blown out from the air outlet becomes a horizontal direction, the rotational speed of the blower fan is set to a predetermined minimum rotational speed,
The air conditioning is characterized in that the direction of the fan unit is changed so that the blowing direction of the indoor air blown from the auxiliary blower outlet is lower than the blowing direction of the conditioned air blown from the blower outlet. Machine. In the air conditioner according to claim 1,
The main unit has a temperature sensor for measuring the temperature of room air,
During the dehumidifying operation of the air conditioner, when the room temperature measured by the temperature sensor is equal to or lower than a second set temperature that is higher than the first set temperature by a predetermined temperature,
The said control part raises the rotation speed of the said auxiliary ventilation fan, The air conditioner characterized by the above-mentioned.

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