JP6971665B2 - Air conditioner, control method of air conditioner - Google Patents

Description

The present invention relates to an air conditioner and a control method for an air conditioner.

The air conditioner installed on the ceiling surface of the room is provided with a panel body called a ceiling panel, a decorative panel, etc. at the bottom of the unit body. The panel main body is formed with a suction port formed in the central portion thereof for sucking indoor air, and a plurality of outlets provided around the suction port for blowing conditioned air downward. The outlets are often provided in two or four directions around the suction port. A louver for adjusting the blowing direction of the conditioned air is rotatably provided at each outlet, and the wind direction can be adjusted in any direction.

However, as mentioned above, despite the fact that the louver is provided at the outlet to adjust the direction of the air-conditioned air, depending on the angle of the louver, the air-conditioned air directly hits the person under the outlet, giving a draft feeling. May be given.

On the other hand, in Patent Document 1, a storage position flush with the panel body and a louver direction facing the air-conditioned air blown from the air outlet are described on the outside of the air outlet opened downward in the panel body. A configuration is disclosed in which a draft prevention mechanism that is rotatable between the position and the position is provided. According to this configuration, by rotating the draft prevention mechanism to the position in the louver direction facing the air conditioning air blown from the air outlet, the flow of the air conditioning air in the louver direction can be blocked and the draft feeling can be reduced. ..

Even if the wind direction is adjusted by the louver as described above and the draft feeling is adjusted by the draft prevention mechanism, if there are multiple people in the room where the air conditioner is installed, what is the draft feeling of the air conditioning wind? How it feels may differ individually depending on each person's physical condition and preferences.

On the other hand, a remote controller (hereinafter, this may be abbreviated as a remote controller) is used to individually adjust a plurality of louvers.
For example, Patent Document 2 discloses a configuration in which an arbitrary louver is selected from a plurality of louvers by remote control operation and the wind direction angle is adjusted.

Japanese Unexamined Patent Publication No. 2016-109310 Japanese Unexamined Patent Publication No. 2015-114031

However, in order to select and adjust any one of multiple louvers and draft prevention mechanisms by remote control operation, it is necessary to specify one louver or draft prevention mechanism to be adjusted from among the multiple louvers and draft prevention mechanisms. is necessary.
That is, when a button associated with each of a plurality of louvers and draft prevention mechanisms is provided, the button for operating the target louver or draft prevention mechanism must be selected and operated.
Further, in the configuration disclosed in Patent Document 2, the louvers whose wind direction can be adjusted by operating the remote controller are sequentially switched at a fixed time. Therefore, in order to operate the target louver, it is necessary to wait until the timing at which the louver can be operated is reached.

The present invention has been made in view of such circumstances, and provides a control method for an air conditioner and an air conditioner that can more easily adjust wind direction adjusting members such as a louver and a draft prevention mechanism. The purpose is to provide.

In order to solve the above problems, the following means are adopted for the air conditioner and the control method of the air conditioner of the present invention.
The air conditioner according to the present invention is provided at each of a unit main body that harmonizes the air supplied to the room and sends out air conditioning air, a plurality of air outlets that blow the air conditioning air into the room, and a plurality of air outlets. A wind direction adjusting member provided with each of the wind direction adjusting member provided at the plurality of air outlets and a drive unit for changing the direction of the wind direction adjusting member with respect to the air conditioning wind. , A plurality of receiving units for receiving an operation signal from the remote controller, and a control unit for controlling the direction of a part of the plurality of the wind direction adjusting members in response to the operation signal from the remote controller. The control unit is operated by the operation signal transmitted by the remote controller among the wind direction adjusting members provided at the plurality of outlets based on the transmission direction of the operation signal received by the reception unit. It is characterized by including an operation target specifying unit for specifying the wind direction adjusting member, and a drive control unit for driving the driving unit of the wind direction adjusting member specified by the operation target specifying unit.

According to the air conditioner according to the present invention, the operation transmitted by the remote controller among the wind direction adjusting members provided at the plurality of outlets based on the transmission direction of the operation signal from the remote controller received by the receiving unit. Identify the wind direction adjusting member to be operated by the signal. As a result, the operator of the remote controller only changes the direction of the wind direction adjusting member without selecting the wind direction adjusting member to be operated, and adjusts the desired wind direction of a part of the plurality. It is possible to change the direction of only the member.

In the air conditioner, the receiving unit is provided corresponding to each of the plurality of outlets, and the operation target specifying unit receives the operation signal from the remote controller among the plurality of receiving units. By specifying the receiving unit, the wind direction adjusting member to be operated is specified, and the drive control unit is provided at the outlet corresponding to the receiving unit specified by the operation target specifying unit. It is more preferable to drive the drive unit of the wind direction adjusting member.

According to such an air conditioner, a receiving unit is provided corresponding to each of the plurality of outlets. If the receiving unit that has received the operation signal from the remote controller is specified among the plurality of receiving units, the transmission direction of the operation signal received by the receiving unit can be specified. As a result, the wind direction adjusting member to be operated can be specified and its direction can be changed.

In the air conditioner, it is more preferable that the receiving unit includes a receiving range limiting unit that limits the receiving range of the operation signal transmitted by the remote controller.

According to such an air conditioner, the operation signal transmitted from the remote controller is suppressed from being received by another receiving unit. This makes it possible to identify the receiving unit that has received the operation signal from the remote controller from among the plurality of receiving units with higher accuracy.

The air conditioner includes a plurality of the remote controllers, the plurality of remote controllers transmit the operation signal including different identification information from each other, and the operation target specifying unit transmits the operation transmitted by the remote controller. It is more preferable to specify the wind direction adjusting member to be operated based on the identification information included in the signal.

According to such an air conditioner, when an operation signal is transmitted by using the remote controller associated with the wind direction adjusting member to be operated among a plurality of remote controllers, the operation signal is based on the identification information included in the operation signal. , The wind direction adjusting member to be operated can be specified. As a result, the direction of only the wind direction adjusting member to be operated can be changed by operating the remote controller.

In the air conditioner, the air conditioner is further provided with a louver that is rotatably provided at the outlet and adjusts the blowing direction of the conditioned air from the outlet, and the wind direction adjusting member is arranged outside the outlet. It is more preferable that the louver is rotatably provided between the louver direction position facing the air-conditioned air whose blowing direction is adjusted by the louver and the retracted position retracted from the louver direction position.

According to such an air conditioner, by operating the remote controller, the wind direction adjusting member provided at a part of the air outlets is positioned in the louver direction facing the air-conditioned wind whose blowing direction is adjusted by the louver. Can be placed in. As a result, the conditioned air whose blowing direction is adjusted by the louver collides with the wind direction adjusting member, and the draft feeling due to the conditioned air can be reduced.

The control method of the air conditioner according to the present invention is the control method of the air conditioner, in which the step of receiving the transmission signal transmitted from the remote controller by the receiving unit and the transmission direction of the received operation signal. In the step of specifying the wind direction adjusting member to be operated by the operation signal transmitted by the remote controller among the wind direction adjusting members provided in the plurality of outlets, and the operation target specifying unit. It is characterized by including a step of driving the driving unit of the identified wind direction adjusting member.

According to the control method of the air conditioner according to the present invention, the operator of the remote controller can operate only by changing the direction of the wind direction adjusting member without performing the operation of selecting the wind direction adjusting member to be operated. It is possible to change the direction of only a part of the target wind direction adjusting members.

According to the air conditioner and the control method of the air conditioner according to the present invention, it is possible to more easily adjust the wind direction adjusting member such as the louver and the draft prevention mechanism.

It is a perspective view of the air conditioner which concerns on embodiment of this invention in the state which the part was broken | looked at from the bottom. It is a perspective view of the state which made the draft prevention mechanism provided in the said air conditioner a storage position. It is a perspective view of the state in which the draft prevention mechanism provided in the said air conditioner is positioned in the louver direction. It is a figure which shows the schematic structure of the air conditioner which concerns on 1st Embodiment of this invention. It is a top view which shows an example of the light receiving part provided in the said air conditioner. It is a block diagram which shows the functional structure for operating the draft prevention mechanism provided in the said air conditioner. It is a figure which shows the flow of the control method of the said air conditioner. It is a perspective view which shows the modification of the light receiving part provided in the said air conditioner. It is a perspective view which shows the other modification of the light receiving part provided in the said air conditioner. It is a figure which shows the schematic structure of the air conditioner which concerns on 2nd Embodiment of this invention.

Hereinafter, an embodiment of the air conditioner and the control method of the air conditioner according to the present invention will be described with reference to the drawings.
[First Embodiment]
Hereinafter, the first embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 1, the air conditioner 1 is installed on the ceiling surface of the room. The air conditioner 1 includes a unit main body 2, a panel main body 3, a suction port 11, and an outlet 14.

The unit main body 2 is a box body having a square shape and an opening at the bottom, which is installed in the ceiling. The unit main body 2 is arranged below the turbofan 4 installed in the central portion of the interior, the heat exchanger 5 bent and molded into a square shape arranged so as to surround the turbofan 4, and the lower part of the heat exchanger 5. It is provided with a drain pan 6, a blowout air passage 7 formed between the peripheral wall of the drain pan 6 and the inner peripheral surface of the unit body 2, and a bell mouth 8 arranged on the suction side of the turbofan 4. ..
The unit main body 2 is connected to the outdoor unit via two refrigerant pipes 9 including a liquid pipe and a gas pipe and an electric wiring 10.

The panel main body 3 is provided so as to cover the lower surface of the unit main body 2. The panel main body 3 is a panel having a substantially square shape, and is also referred to as a ceiling panel or a decorative panel.

The suction port 11 has a substantially square shape and is open to the central portion of the panel main body 3 in order to suck in the air in the room. A suction grill 12 is installed in the suction port 11. The suction grill 12 has an air filter (not shown) installed on the inner surface side of the grill, and in order to replace or clean the air filter, the panel main body 3 is connected to the panel body 3 via a wire 13, an elevating motor (not shown), or the like. It is installed so that it can be raised and lowered so that it can be lowered to near the floor in the room. In addition, in order to automatically clean the air filter, an air filter automatic cleaning mechanism may be incorporated.

The air outlet 14 is provided in the panel main body 3 in four directions corresponding to the four sides of the panel main body 3 so as to surround the suction port 11. Each outlet 14 is formed in a substantially rectangular shape extending in parallel along the four sides of the substantially square suction port 11. At each outlet 14, air cooled or heated by the heat exchanger 5 is blown into the room as air conditioning air.

As shown in FIGS. 1 to 3, each outlet 14 is provided with a louver 15 and a draft prevention mechanism (wind direction adjusting member) 17.

The louver 15 adjusts the blowing direction (wind direction) of the air-conditioned air from each outlet 14. The louver 15 has a substantially rectangular shape and is provided so as to cover the air outlet 14. The louver 15 is provided so as to be swingable around the base end portion 15a on the suction port 11 side. The louver 15 is provided so that the direction in which the air-conditioned air blown from the air outlet 14 can be blown out can be changed by swinging the louver 15 with a motor or the like (not shown). Here, a total of four louvers 15 provided at the four outlets 14 are individually rotated independently.

The draft prevention mechanism 17 is arranged on the outside of each outlet 14. The draft prevention mechanism 17 is integrally provided with a wind direction adjusting portion 18 and an arm portion 19 to form a substantially gate shape.
The wind direction adjusting portion 18 is arranged on the outside of the panel main body 3 with respect to the louver 15 provided at the air outlet 14. The wind direction adjusting portion 18 extends along the longitudinal direction of the louver 15.
The arm portions 19 are provided at both ends in the longitudinal direction of the wind direction adjusting portion 18. The arm portions 19 extend from both ends of the wind direction adjusting portion 18 toward the inside of the panel main body 3. In the arm portion 19, the base end portion 19a on the suction port 11 side is rotatably connected to the panel main body 3 by a support shaft (not shown). The draft prevention mechanism 17 is provided so as to be swingable around the base end portion 19a of the pair of arm portions 19 by means of draft prevention mechanism drive portions 16A, 16B, 16C, 16D (see FIG. 6) such as a motor (not shown). ing.
Ribs (not shown) are integrally formed on the back surface side (upper surface side) of the wind direction adjusting portion 18 and both arm portions 19, so that the strength and rigidity of each are ensured.

The draft prevention mechanism 17 has a storage position (position in FIG. 2) that is flush with the panel body 3 and a louver direction position (position in FIG. 3) in which the wind direction adjusting unit 18 faces the conditioned air blown from the air outlet 14. ) And it is rotatable.
The draft prevention mechanism 17 forms a part of the panel main body 3 at a storage position (position in FIG. 2) that is flush with the panel main body 3. In this state, the surface (lower surface) of each of the wind direction adjusting portion 18 and the arm portion 19 is flush with the surface (lower surface) of the panel main body 3.
The draft prevention mechanism 17 projects to a position in the louver direction facing the air outlet 14, so that the wind direction adjusting unit 18 blocks the conditioned air blown from the air outlet 14 and changes the wind direction. As a result, the draft prevention mechanism 17 reduces or eliminates the draft feeling caused by the air-conditioning wind directly hitting the person below.

As shown in FIG. 4, the air conditioner 1 remotely controls the directions of the draft prevention mechanisms (wind direction adjusting members) 17A to 17D provided in the four directions corresponding to the four sides of the panel body 3 as described above. It is controlled according to the operation signal from the controller 100. In the present embodiment, the direction of only one (part) of the draft prevention mechanisms 17A to 17D is adjusted based on the transmission direction of the operation signal from the remote controller 100 to the air conditioner 1.

Therefore, the air conditioner 1 includes a plurality of light receiving units (reception units) 20A to 20D and a control unit 30 (see FIG. 6).

The light receiving units 20A to 20D are provided corresponding to each of the draft prevention mechanisms 17A to 17D provided in the plurality of outlets 14A to 14D. The light receiving units 20A to 20D receive the operation signal when the remote controller 100 is operated in the air-conditioning air blowing ranges A1 to A4 from the outlets 14A to 14D, respectively. That is, the light receiving unit 20A is provided so as to receive the operation signal when the remote controller 100 is operated in the air-conditioning air blowing range A1 from the air outlet 14A. The light receiving unit 20B is provided so as to receive an operation signal when the remote controller 100 is operated in the air-conditioning air blowing range A2 from the air outlet 14B. The light receiving unit 20C is provided so as to receive the operation signal when the remote controller 100 is operated in the air-conditioning air blowing range A3 from the air outlet 14C. The light receiving unit 20D is provided so as to receive an operation signal when the remote controller 100 is operated in the air-conditioning air blowing range A4 from the air outlet 14D.

As shown in FIG. 5, each of the light receiving units 20A to 20D includes a light receiving element 22 that receives an operation signal transmitted by the remote controller 100. It is preferable that the light receiving units 20A to 20D include a reception range limiting unit 21A that limits the reception range of the operation signal transmitted by the remote controller 100 in the light receiving element 22. In the present embodiment, the reception range limiting portion 21A includes a pair of wall portions 23, 23 provided on both sides of the light receiving element 22. The pair of wall portions 23, 23 are provided so that the distance from each other gradually increases as the distance from the light receiving element 22 increases. The reception range limiting unit 21A has an opening angle of the pair of wall portions 23, 23 so that the range in which the operation signal of the remote controller 100 can be received by the light receiving element 22 corresponds to the blowout ranges A1 to A4. Set.

As shown in FIG. 6, the control unit 30 controls the orientation of a part of the plurality of draft prevention mechanisms 17A to 17D in response to the operation signal from the remote controller 100. The control unit 30 includes an operation target specifying unit 31 and a drive control unit 32.

The operation target specifying unit 31 is transmitted by the remote controller 100 among the draft prevention mechanisms 17A to 17D provided in the plurality of outlets 14A to 14D based on the transmission direction of the operation signal received by the light receiving units 20A to 20D. Draft prevention mechanisms 17A to 17D to be operated by the operation signal are specified. In the present embodiment, the operation target specifying unit 31 identifies the light receiving units 20A to 20D that have received the operation signal from the remote controller 100 among the plurality of light receiving units 20A to 20D, thereby preventing the draft prevention mechanism 17A to be operated. Identify ~ 17D.

The drive control unit 32 drives the draft prevention mechanism drive units 16A to 16D corresponding to one of the draft prevention mechanisms 17A to 17D specified by the operation target identification unit 31. In the present embodiment, the drive control unit 32 is a draft of the draft prevention mechanisms 17A to 17D provided at the outlets 14A to 14D corresponding to one of the light receiving units 20A to 20D specified by the operation target specifying unit 31. The prevention mechanism drive units 16A to 16D are driven.

Next, the control method of the air conditioner 1 will be described.
As shown in FIG. 7, the control method of the air conditioner 1 in the present embodiment drives a step S1 for receiving an operation signal, a step S2 for specifying a draft prevention mechanism to be operated, and a draft prevention mechanism to be operated. Step S3 to be performed.

In step S1 for receiving the operation signal, the transmission signal transmitted from the remote controller 100 is received by any of the light receiving units 20A to 20D. In this embodiment, for example, a case where the remote controller 100 is operated in the blowout range A1 will be illustrated.
When the remote controller 100 is operated in the blowout range A1, the operation signal transmitted from the remote controller 100 is received by the light receiving unit 20A provided in the blowout port 14A that blows the air conditioner air into the blowout range A1.

In step S2 for specifying the draft prevention mechanism for the operation target, the operation target identification unit 31 is provided at the plurality of outlets 14A to 14D based on the transmission direction of the operation signal received by any of the light receiving units 20A to 20D. Among the draft prevention mechanisms 17A to 17D, the draft prevention mechanisms 17A to 17D to be operated by the operation signal transmitted by the remote controller 100 are specified.
That is, in the example of the present embodiment, since the operation signal is received by the light receiving unit 20A, the operation target specifying unit 31 indicates that the draft prevention mechanism 17A of the outlet 14A associated with the light receiving unit 20A is the operation target. Identify.

In step S3 for driving the draft prevention mechanism to be operated, the drive control unit 32 is the draft prevention mechanism drive unit 16A provided in the draft prevention mechanisms 17A to 17D specified in step S2 among the draft prevention mechanisms 17A to 17D. Drive ~ 16D.
That is, in the example of this embodiment, the draft prevention mechanism drive unit 16D provided in the draft prevention mechanism 17D is driven.

In this way, if the operator operates the remote controller 100 in the blowout range A4 in which the air-conditioning air is blown out from the air-conditioning outlet 14D, the direction of the draft prevention mechanism 17D provided in the air-conditioning outlet 14D changes, and the air-conditioning air blows. The draft feeling can be adjusted according to the preference of the operator.
That is, if the operator operates the remote controller 100 in any of the blowing ranges A1 to A4 around the air conditioner 1, the draft feeling of the conditioned air blown toward the position can be adjusted.

According to the configuration as described above, among the draft prevention mechanisms 17A to 17D provided in the plurality of outlets 14A to 14D, based on the transmission direction of the operation signal from the remote controller 100 received by the light receiving units 20A to 20D. , The draft prevention mechanisms 17A to 17D to be operated by the operation signal transmitted by the remote controller 100 are specified. As a result, the operator of the remote controller 100 does not perform the operation of selecting the draft prevention mechanisms 17A to 17D to be operated, but merely performs the operation of changing the direction of the draft prevention mechanisms 17A to 17D, and becomes the operation target. It is possible to change the direction of only some of the draft prevention mechanisms 17A to 17D among the plurality. Therefore, the draft prevention mechanisms 17A to 17D can be adjusted more easily.

Further, by operating the remote controller 100, the draft prevention mechanisms 17A to 17D provided at some of the outlets 14A to 14D are positioned in the louver direction facing the air-conditioned air whose blowing direction is adjusted by the louver 15. Can be placed in. As a result, the air-conditioning air whose blowing direction is adjusted by the louver 15 collides with the draft prevention mechanisms 17A to 17D, and the draft feeling due to the air-conditioning air can be reduced.

Further, by providing the light receiving units 20A to 20D corresponding to each of the plurality of outlets 14A to 14D, the light receiving units 20A to 20D that have received the operation signal from the remote controller 100 among the plurality of light receiving units 20A to 20D. Is specified, the transmission direction of the operation signal received by the light receiving units 20A to 20D can be specified. Thereby, the draft prevention mechanisms 17A to 17D to be operated can be specified and their directions can be changed.

Further, since the light receiving units 20A to 20D include a reception range limiting unit 21A that limits the receiving range of the operation signal transmitted by the remote controller 100, the operation signal transmitted from the remote controller 100 can be used as another light receiving unit. It suppresses reception by 20A to 20D. As a result, among the plurality of light receiving units 20A to 20D, the light receiving units 20A to 20D that have received the operation signal from the remote controller 100 can be specified with higher accuracy.

(Variation example of the first embodiment)
In the above embodiment, the pair of wall portions 23, 23 is provided as the reception range limiting unit 21A that limits the reception range of the operation signal transmitted by the remote controller 100, but the present invention is not limited to this.
For example, as shown in FIG. 8, the light receiving units 20A to 20D serve as a receiving range limiting unit 21B that limits the receiving range of the operation signal transmitted by the remote controller 100, and the inner diameter thereof increases as the distance from the light receiving element 22 increases. A conical hood portion 24 that gradually expands may be provided.

Even in such a configuration, it is possible to prevent the operation signal transmitted from the remote controller 100 from being received by the other light receiving units 20A to 20D. As a result, among the plurality of light receiving units 20A to 20D, the light receiving units 20A to 20D that have received the operation signal from the remote controller 100 can be specified with higher accuracy.

(Other Modifications of the First Embodiment)
In the first embodiment, the draft prevention mechanism to be operated by receiving the operation signal of the remote controller 100 by any one of the light receiving units 20A to 20D associated with each of the draft prevention mechanisms 17A to 17D. 17A to 17D are specified and operated, but the operation is not limited to this.
For example, the air conditioner 1 may be provided with only two light receiving units (reception units). The two light receiving units detect a difference in reception timing of an operation signal from the remote controller 100 operated at an arbitrary position. Based on this difference in reception timing, the distance from each light receiving unit to the transmission position of the operation signal can be calculated. The transmission direction (transmission position) of the operation signal from the remote controller 100 can be specified by the trigonometry based on the distance between each light receiving unit and the transmission position. As a result, any of the draft prevention mechanisms 17A to 17D corresponding to the transmission position of the operation signal of the specified remote controller 100 is controlled.

Further, for example, in the above embodiment, the four light receiving units 20A to 20D are individually provided, but as shown in FIG. 9, one light receiving device 25 is provided with four light receiving units (reception units) 20E to 20H. You may do so. The light receiving device 25 is provided with four partition walls 27 arranged in a cross shape as a reception range limiting portion 21C on the base portion 26 provided in the panel main body 3. The light receiving units 20E to 20H are configured to include light receiving elements 22 between two partition walls 27 adjacent to each other in the circumferential direction.
In such a light receiving device 25, in each of the light receiving units 20E to 20H, the operation signal transmitted from the remote controller 100 by the two partition walls 27 on both sides of the light receiving element 22 is transmitted by the other light receiving units 20A to 20D. Suppress reception. As a result, among the plurality of light receiving units 20A to 20D, the light receiving units 20A to 20D that have received the operation signal from the remote controller 100 can be specified with higher accuracy.

[Second Embodiment]
Next, a second embodiment of the air conditioner according to the present invention will be described. In the following description, the same reference numerals will be given to the configurations common to the first embodiment, and the description thereof will be omitted.
As shown in FIG. 10, the air conditioner 1 of the present embodiment includes a plurality of remote controllers 100A to 100D in order to operate the draft prevention mechanisms 17A to 17D.

These plurality of remote controllers 100A to 100D transmit operation signals including different identification information from each other.
Identification information is set in the remote controllers 100A to 100D in association with each of the draft prevention mechanisms 17A to 17D provided in the outlets 14A to 14D. That is, the remote controller 100A is set with the identification information so as to operate only the draft prevention mechanism 17A. The remote controller 100B is set with identification information so as to operate only the draft prevention mechanism 17B. The remote controller 100C is set with identification information so as to operate only the draft prevention mechanism 17C. The remote controller 100D is set with identification information so as to operate only the draft prevention mechanism 17D.

When any of the remote controllers 100A to 100D is operated, the light receiving units 20A to 20D receive the operation signal. The operation target specifying unit 31 identifies the draft prevention mechanisms 17A to 17D associated with the identification information as the operation target based on the identification information included in the received operation signal.

The drive control unit 32 drives the draft prevention mechanism drive units 16A to 16D corresponding to one of the draft prevention mechanisms 17A to 17D specified by the operation target identification unit 31.

According to such an air conditioner 1, when the operation signal is transmitted by using the remote controllers 100A to 100D associated with the draft prevention mechanisms 17A to 17D to be operated among the plurality of remote controllers 100A to 100D, the operation signal is transmitted. The draft prevention mechanisms 17A to 17D to be operated can be specified based on the identification information included in the operation signal. Thereby, by operating the remote controllers 100A to 100D, the direction of only the draft prevention mechanisms 17A to 17D to be operated can be changed.
Even in such a configuration, the draft prevention mechanisms 17A to 17D can be adjusted more easily as in the first embodiment.

In the second embodiment, the operation signals from the remote controllers 100A to 100D are received by the light receiving units 20A to 20D, but for example, the number of light receiving units may be less than four, for example, only one. Based on the identification information included in the operation signal received by only one light receiving unit, the operation target identification unit 31 can specify the draft prevention mechanisms 17A to 17D associated with the identification information as the operation target. ..

The present invention is not limited to the invention according to the above embodiment, and can be appropriately modified without departing from the gist thereof. For example, in the above embodiment, an example of an air conditioner 1 in which outlets 14 provided with louvers 15 in four directions of the panel main body 3 are provided and a draft prevention mechanism 17 is provided corresponding to each outlet 14 will be described. However, it goes without saying that the same can be applied to an air conditioner or the like in which the outlet 14 is provided in two directions, three directions, or five or more directions.
Further, in the above embodiment, the direction of the draft prevention mechanism 17 is changed by operating the remote controller 100, but the operation target by the remote controller 100 may be the louver 15.

1 Air conditioner 2 Unit body 3 Panel body 14, 14A, 14B, 14C, 14D Outlet 15 Louver 16A, 16B, 16C, 16D Draft prevention mechanism Drive unit 17, 17A, 17B, 17C, 17D Draft prevention mechanism (wind direction adjustment) Element)
18 Wind direction adjustment unit 19 Arm unit 20A, 20B, 20C, 20D, 20E, 20F, 20G, 20H Light receiving unit (reception unit)
21A, 21B, 21C Reception range limiting unit 23 Wall unit 24 Hood unit 30 Control unit 31 Operation target specific unit 32 Drive control unit 100, 100A, 100B, 100C, 100D Remote controller A1, A2, A3, A4 Blow-out range

Claims (4)

The unit body that harmonizes the air supplied to the room and sends out the air conditioning air,
A plurality of outlets that blow the air-conditioning air into the room,
A wind direction adjusting member provided at each of the plurality of outlets and hit by the air-conditioning air blown from the outlets.
A drive unit provided in each of the wind direction adjusting members provided at the plurality of air outlets and changing the direction of the wind direction adjusting member with respect to the air conditioning wind.
Multiple receivers that receive operation signals from the remote controller,
A control unit that controls the direction of a part of the plurality of wind direction adjusting members in response to an operation signal from the remote controller is provided.
The control unit
Among the wind direction adjusting members provided at the plurality of outlets based on the transmission direction of the operation signal received by the receiving unit, the wind direction adjusting member to be operated by the operation signal transmitted by the remote controller. The operation target identification part that identifies
A drive control unit that drives the drive unit of the wind direction adjusting member specified by the operation target identification unit, and a drive control unit.
Equipped with
The receiving unit is provided corresponding to each of the plurality of outlets.
The operation target specifying unit identifies the wind direction adjusting member to be operated by specifying the receiving unit that has received the operation signal from the remote controller among the plurality of receiving units.
The drive control unit, an air conditioner, wherein Rukoto by driving the driving portion of the wind direction adjustment member provided on the air outlet corresponding to the receiver identified in the operation target specifying unit. The air conditioner according to claim 1 , wherein the receiving unit includes a reception range limiting unit that limits the receiving range of the operation signal transmitted by the remote controller. A louver that is rotatably provided at the outlet and that adjusts the blowing direction of the air-conditioned air from the outlet is further provided.
The wind direction adjusting member is arranged outside the outlet and rotates between a louver direction position facing the air-conditioned wind whose blowing direction is adjusted by the louver and a retracting position retracted from the louver direction position. The air conditioner according to claim 1 or 2 , wherein the air conditioner is movably provided. The method for controlling an air conditioner according to any one of claims 1 to 3.
The step of receiving the transmission signal transmitted from the remote controller in the receiving unit, and
A step of specifying the wind direction adjusting member to be operated by the operation signal transmitted by the remote controller among the wind direction adjusting members provided at the plurality of outlets based on the transmission direction of the received operation signal. When,
A step of driving the drive unit of the wind direction adjusting member specified by the operation target specific unit, and
A method of controlling an air conditioner, which comprises.

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