JP6781395B2 - Air conditioner - Google Patents

Description

The present invention relates to an air conditioner that controls sleep suitable for cooling operation.

The air conditioner has a control mode called "good night mode" that air-conditions the room so that a person can sleep comfortably. In this "good night mode", the room temperature is first lowered to the first target temperature by setting a temperature (first target temperature) lower than the set temperature of the cooling operation by a predetermined value as the target temperature. Next, the air conditioner keeps the room temperature constant after the room temperature reaches the first target temperature. With this air conditioning control, the air conditioner aims to make the user sleep better.

When the wake-up time is set in the good night mode, the air conditioner gradually sets the room temperature to a temperature higher than the first target temperature (second target temperature) from a predetermined time before the wake-up time set by the user. Raise to. Therefore, the air conditioner stops the cooling operation or reduces the amount of air blown to raise the room temperature until the time of waking up. With this air conditioning control, the air conditioner aims to make it easier for the user to wake up.

Japanese Unexamined Patent Publication No. 2004-92918

However, in the method of Patent Document 1, when the air conditioner gradually raises the temperature in the room toward the wake-up time, the air conditioner may stop the cooling operation. When the cooling operation is stopped, the main fan may be stopped, for example, to prevent an increase in humidity. When the main fan is stopped, air is not blown out from the indoor unit of the air conditioner, and the indoor air is not circulated. Therefore, the temperature of the air near the floor surface does not rise to the second target temperature, and the user may not be easily awakened.

An object of the present invention is to make it easier for the user to wake up by raising the temperature of the air near the floor surface to the second target temperature.

Therefore, the present invention includes a main body unit including an indoor heat exchanger, a main fan that blows harmonized air that has passed through the indoor heat exchanger, and a side fan that blows indoor air that does not pass through the heat exchanger. It has a fan unit, a side fan wind direction changing means that can change the wind direction of the side fan in the vertical and horizontal directions, a side fan control means that drives the side fan, and an indoor unit that has a temperature sensor that detects the temperature in the room. The room temperature is lowered so that the room temperature becomes the first target temperature lower than the set temperature set before bedtime at bedtime, and the room temperature is higher than the first target temperature from a predetermined time before the preset wake-up time. An air harmonizer equipped with a sleep mode that raises the room temperature so that it reaches a temperature. When the sleep mode is set during cooling operation, and when a predetermined time is before the preset wake-up time, the side fan control means is used. It is characterized by driving a side fan.

In addition, when the sleep mode is set during cooling operation, when a predetermined time is before the preset wake-up time, the side fan control means reduces the air volume of the side fan to a breeze, and the side fan wind direction changing means is the side fan. It is characterized by directing the wind direction toward the floor in the room.

In addition, when the sleep mode is set during the cooling operation, the side fan control means reduces the air volume of the side fan to a breeze, and then stops the side fan when the temperature detected by the temperature sensor reaches the target temperature. It is a feature.

The air conditioner of the present invention as described above raises the temperature of the air near the floor surface to the second target temperature, making it easier for the user to wake up.

It is the schematic which shows the indoor unit of the air conditioner of this embodiment. It is the schematic which showed the refrigerant circuit of this embodiment. It is a system block diagram of the air conditioner of this embodiment. It is a flowchart which showed the operation of the good night mode of this embodiment.

Hereinafter, examples of the air conditioner according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment.

FIG. 1 is a diagram showing an indoor unit 100 of the air conditioner 10 of this embodiment. FIG. 2 is a diagram showing a refrigerant circuit 400 of the air conditioner of this embodiment. FIG. 3 is a configuration diagram showing an outline of a part of the indoor unit 100.

The air conditioner of this embodiment will be described with reference to FIGS. 1, 2 and 3. The air conditioner 10 includes an indoor unit 100, an outdoor unit 200, and a remote controller 300 as an operating means. The indoor unit 100 includes a main body unit 110, and a right fan unit 180 and a left fan unit 190 on both sides of the main body unit 110. The main body unit 110 is provided with a suction port 111 for sucking air on the top surface and an outlet 112 for blowing out air at the lower part of the front surface. Further, the main body unit 110 includes an indoor heat exchanger 120, a main fan 130, and a temperature sensor 140 inside. When the main fan 130 is driven, the harmonized air sucked from the suction port 111 in the main body unit 110 and conditioned by the indoor heat exchanger 120 is blown out from the outlet 112. The main fan 130 is driven by the main fan control means 133 to adjust the air volume. Further, the temperature sensor 140 measures the temperature in the room.

The right fan unit 180 and the left fan unit 190 are arranged on the right side and the left side of the main body unit 110. Auxiliary outlets 182 and 192 are provided on the front surfaces of the fan units 180 and 190, and the auxiliary outlets 182 and 192 have left and right wind direction plates, which are one of the side fan wind direction changing means for changing the air blown to the left and right. 185 and 195 are arranged. Further, the fan units 180 and 190 are rotated around the horizontal axis 500 by the drive units 184 and 194, which are one of the side fan wind direction changing means, so that the wind direction of the air blown from the auxiliary outlets 182 and 192 can be changed. Can be changed up and down. Further, side fans 186 and 196 are provided inside the fan units 180 and 190, respectively, and when the side fans 186 and 196 are driven, indoor air is inside the fan units 180 and 190 from the auxiliary suction ports 181 and 191. Is sucked in, and the sucked indoor air is blown out from the auxiliary outlets 182 and 192 of the fan units 180 and 190, respectively. The side fans 186 and 196 are driven by the side fan control means 183 and 193 to adjust the air volume.

The indoor unit 100 is provided with a control unit 150 that controls each component in the indoor unit 100 including the above-mentioned components, and transmits and controls signals between the above-mentioned components.

The outdoor unit 200 includes a compressor 210, a four-way valve 240, an outdoor heat exchanger 250, an outdoor fan 260, and an expansion valve 280, and is connected by a refrigerant pipe.

The remote controller 300 is for the user to select and set the operation mode of the indoor unit 100. For example, the remote controller 300 can set a sleep mode in which the room temperature is lowered at bedtime and the room temperature is raised at the time of waking up.

The refrigerant circuit 400 when the air conditioner 10 is performing the cooling operation will be described below. In the four-way valve 240 during the cooling operation, the first port 240a and the fourth port 240d communicate with each other, and the second port 240b and the third port 240c communicate with each other. The high-temperature and high-pressure refrigerant discharged from the compressor 210 flows into the outdoor heat exchanger 250 via the four-way valve 240. The refrigerant that has flowed into the outdoor heat exchanger 250 dissipates heat to the outside air. The heat-dissipated refrigerant flows into the expansion valve 280 and is depressurized. The decompressed refrigerant flows into the indoor heat exchanger 120. The refrigerant flowing into the indoor heat exchanger 120 absorbs heat from the indoor air. The endothermic refrigerant returns to the compressor 210 via the four-way valve 240. At this time, the conditioned air cooled by the refrigerant is horizontally blown toward the vicinity of the ceiling in the room by the vertical wind direction plates (not shown) provided at the main fan 130 and the air outlet 112 to lower the temperature in the room. Both the fan units of the right fan unit 180 and the left fan unit 190 are driven to blow out the indoor air of the side fans 186 and 196 downward.

The refrigerant circuit 400 when the air conditioner 10 is in the heating operation will be described below. In the four-way valve 240 during the heating operation, the first port 240a and the third port 240c communicate with each other, and the second port 240b and the fourth port 240d communicate with each other. The high-temperature and high-pressure refrigerant discharged from the compressor 210 flows into the indoor heat exchanger 120 via the four-way valve 240. The refrigerant flowing into the indoor heat exchanger 120 dissipates heat to the indoor air. The heat-dissipated refrigerant flows into the expansion valve 280 and is depressurized. The decompressed refrigerant flows into the outdoor heat exchanger 250. The refrigerant flowing into the outdoor heat exchanger 250 absorbs heat from the outside air. The endothermic refrigerant returns to the compressor 210 via the four-way valve 240. At this time, the conditioned air heated by the refrigerant is blown out toward the vicinity of the floor surface in the room by a vertical wind direction plate (not shown) provided at the main fan 130 and the air outlet 112 to raise the temperature in the room. The right fan unit 180 and the left fan unit 190 are driven to blow out the indoor air of the side fans 186 and 196 in the horizontal direction.

Next, a case where the user sets the good night mode while the air conditioner 10 is in the cooling operation will be described with reference to the flowchart of FIG.

In the air conditioner of this embodiment, the wind direction of the main fan 130 is horizontal and the wind direction of the side fans 186 and 196 is downward during the cooling operation. During the cooling operation, the user operates the remote controller 300 to select the sleep mode (S101), so that the remote controller 300 transmits a signal for setting the sleep mode to the indoor unit 100. The control unit 150 inside the indoor unit 100 that has received the signal continues to drive the main fan 130 via the main fan control means 133, and transfers the air volume of the side fans 186 and 196 via the side fan control means 183 and 193. It is driven with a "breeze" (S102). This "breeze" has a wind speed of about 0.5 to 1.5 m / s. The control unit 150 controls the drive units 184 and 194 so as to direct the wind direction of the side fans 186 and 196 to the user (S103). Next, the control unit 150 calculates the first target temperature, which is the temperature at which the user can sleep comfortably (S104). As the first target temperature calculation method, the temperature is calculated by subtracting the temperature by a predetermined value previously determined by an experiment or the like from the set temperature set during the cooling operation. For example, when the set temperature during the cooling operation is 28 ° C. and the predetermined value is 2 ° C., the first target temperature is 26 ° C. The control unit 150 executes the air conditioning operation at the first target temperature (S105). Although the predetermined value is set to 2 ° C. in this embodiment, the present invention is not limited to this and may be changed as appropriate.

Next, the temperature sensor 140 measures the temperature in the room (S106). The control unit 150 acquires the indoor temperature from the temperature sensor 140 and determines whether or not the first target temperature has been reached (S107). If the room temperature has not reached the first target temperature (S107-No), the process returns to S106. If the room temperature has reached the first target temperature (S107-Yes), the control unit 150 stops the side fans 186 and 196 via the side fan control means 183 and 193 (S108).

The control unit 150 determines whether or not the time is within a predetermined time (for example, one hour) set in advance until the wake-up time (S109). If the time is not within 1 hour until the wake-up time (S109-No), the control unit 150 repeats S109 until the wake-up time is within 1 hour. If the time is within one hour before the wake-up time (S109-Yes), the control unit 150 calculates the second target temperature, which is the temperature at which the user can wake up comfortably (S110). As a method of calculating the second target temperature, the same temperature as the set temperature during the cooling operation is calculated. For example, when the set temperature during the cooling operation is 28 ° C., the second target temperature is 28 ° C. The control unit 150 executes the air conditioning operation at the second target temperature (S111). In order to raise the room temperature, the control unit 150 continues the cooling operation to reduce the air volume of the main fan 130, or stops the cooling operation to stop the main fan 130. As a result, the temperature in the room gradually rises. Here, if the main fan 130 is stopped when the cooling operation is stopped, an increase in humidity in the room can be suppressed. In the present embodiment, it is determined whether or not the wake-up time is within 1 hour, but the present invention is not limited to 1 hour and may be changed as appropriate. Further, although the second target temperature is the same as the set temperature, the present invention is not limited to this and may be changed as appropriate.

The control unit 150 sets the air volume of the side fans 186 and 196 to "light wind" via the side fan control means 183 and 193 (S112), and drives the drive units 184 and 194 so that the wind direction of the side fans 186 and 196 faces the floor. Controls the fan units 180 and 190 so as to tilt downward (S113). As a result, even when the main fan 130 is stopped, the air in the room is agitated by the air of the side fans 186 and 196, and the temperature of the air near the floor surface can be raised to the second target temperature.

The control unit 150 determines whether or not the time has reached the wake-up time (S114). If the time is not the wake-up time (S114-No), the control unit 150 repeats S114 until the wake-up time is reached. If the time reaches the wake-up time (S114-Yes), the control unit 150 ends the good night mode (S115).

In this embodiment, the wind direction of the side fan is directed toward the floor, but the present invention is not limited to this, and it is sufficient that the air in the room close to the floor surface can be agitated, so that the air can be directed to another angle. Good.

From the above, the purpose of the air conditioner 10 of the present invention is to lower the temperature in the room at bedtime so that the user can sleep comfortably. In addition, when waking up, the purpose is to raise the temperature of the air near the floor surface so that the user can wake up comfortably.

10 Air conditioner 100 Indoor unit 150 Control unit 200 Outdoor unit 300 Remote control 400 Refrigerant circuit

Claims (3)

Indoor heat exchanger and
A main unit equipped with a main fan that blows conditioned air that has passed through the indoor heat exchanger, and
A fan unit equipped with a side fan that blows indoor air that does not pass through the heat exchanger,
A side fan wind direction changing means that can change the wind direction of the side fan in the vertical and horizontal directions,
The side fan control means for driving the side fan and
It has an indoor unit equipped with a temperature sensor that detects the temperature inside the room.
The room temperature is lowered so that the room temperature becomes the first target temperature lower than the set temperature set before bedtime at bedtime, and the room temperature is higher than the first target temperature from a predetermined time before the preset wake-up time. An air conditioner equipped with a sleep mode that raises the room temperature to reach the target temperature.
When the good night mode is set during the cooling operation, or when the predetermined time is before the preset wake-up time.
The side fan control means is an air conditioner characterized by driving the side fan even when the main fan is stopped . In the air conditioner according to claim 1,
When the good night mode is set during the cooling operation, when the predetermined time is before the preset wake-up time,
The side fan control means reduces the air volume of the side fan to a breeze.
The side fan wind direction changing means is an air conditioner characterized in that the wind direction of the side fan is directed toward the floor in the room. In the air conditioner according to claim 1 or 2.
If the good night mode is set during cooling operation,
The side fan control means reduces the air volume of the side fan to a breeze.
After that, when the temperature detected by the temperature sensor reaches the first target temperature, the side fan is stopped.

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