KR20150102202A - Air conditioner and Control method of the same - Google Patents

Abstract

According to the present invention, a control method for an air conditioner comprises: a first step of rotating a discharge vane at an angle of 32-64° to a maximum opening angle when an air volume mode is on a power wind mode during a cooling operation; and a second step of switching over to a strong wind mode which is weaker than the power wind mode after the first step. As such, the air conditioner is capable of quickly cooling an indoor residential area with minimal power consumption, and prevents the residential area from being excessively cooled when a height of a ceiling of the indoor residential area is high, or the installation height of the air conditioner is high.

Description

[0001] The present invention relates to an air conditioner and a control method thereof,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner and a method of operating the same. More particularly, the present invention relates to an air conditioner and a method of operating the same.

In general, an air conditioner is a device that processes intake air to maintain indoor air in a comfortable condition and supplies it to a building or a room, and there are a window type and a split type (seperate type or split type).

The integrated air conditioner and the separate type air conditioner are functionally the same, but the integral type air conditioner integrates the function of cooling heat dissipation, and holes are formed in the wall of the house or the device is installed directly on the window. And a heat radiating and compressing device is installed on the outdoor side, and the refrigerant piping is connected between the two devices separated from each other.

The separate type air conditioner includes an indoor unit including an indoor heat exchanger and a blower, an outdoor unit including a compressor, an outdoor heat exchanger and an outdoor fan, and a refrigerant pipe connecting the indoor unit and the outdoor unit.

The indoor unit may be a wall-mounted indoor unit installed on the wall. In this case, the indoor unit may include a discharge vane for controlling the direction of the air discharged to the air discharge port and a vane motor for rotating the discharge vane.

  The indoor unit of the air conditioner can be installed in a room having a high ceiling (height of the ceiling). In this case, the indoor unit can be installed at a high installation height so as to air the entire room.

The conventional air conditioner has a problem that when the installation height is high in a room having a high ceiling height, the user can not quickly and efficiently cool the main occupancy area in which the user mainly resides.

An object of the present invention is to provide an air conditioner and an operating method of an air conditioner capable of quickly cooling a main occupancy area with a minimum power consumption when a high installation height is installed in a room having a high ceiling.

A method of operating an air conditioner according to the present invention includes a first step of swinging a discharge vane in a range of 32 ° to 64 ° from a maximum opening angle; And a second stage in which the airflow mode is weaker than the power wind mode after the first step.

The second step may swing the discharge vane in a range of 40 ° to 72 ° from the maximum opening angle.

The first step may swing the discharge vane at a first rotation speed, and the second step may rotate the discharge vane at a second rotation speed which is slower than the first rotation speed.

The first rotation speed may be 1.5 to 2.5 times the second rotation speed.

In the first step, the vane motor for rotating the discharge vane may be controlled to 100 PPS, and in the second step, the vane motor may be controlled to 50 PPS.

The first and second steps may have the same target temperature.

The first step may be initiated once the key is entered once.

The first step may be terminated when the Himalayan key is input one more time.

  The first step may be terminated after the set time has elapsed, and the second step may be started when the set time has elapsed.

  The first step may be terminated when the mode change after the start of the first step is input.

   The first step may be terminated when a change in air volume after the start of the first step is input.

The first step may be terminated when a temperature change after the start of the first step is input.

A method for operating an air conditioner according to the present invention is a cooling method in which a set temperature is a target temperature, a blowing mode is a power wind mode, and a discharge vane is moved from a maximum opening angle in a range of a first set angle to a second set angle A first step of swinging at a rotational speed; Wherein when the set time after the start of the first step is elapsed, the air flow mode is a weaker wind mode than the power wind mode and the discharge vane is moved from the maximum opening angle to the first The second set angle is greater than the third set angle, and the third set angle is greater than the third set angle, and the second set angle is greater than the second set angle, Is larger than the first set angle.

  The first setting angle may be 32 degrees, the second setting angle may be 64 degrees, the third setting angle may be 40 degrees, and the fourth setting angle may be 72 degrees.

The set temperature may be 18 [deg.].

The first and second steps may have the same target temperature.

In the first step, the vane motor for rotating the discharge vane may be controlled to 100 PPS, and in the second step, the vane motor may be controlled to 50 PPS.

The first step may be initiated once the cool key is input once, and the first step may be started before the set time is reached, when the mode change is input, the air volume change is input, the temperature change is input, If the cool key is input one more time, it can be terminated.

  The first step may be started once the cool key is inputted once, and the second step may be started when the mode change is not inputted during the first step, the air volume change is not input, the temperature change is not inputted, And may be started when the set time has elapsed since the start of the first step without inputting the cool key once more.

The air conditioner of the present invention includes an indoor unit and an outdoor unit, the indoor unit including a casing having an air inlet and an air outlet; An indoor heat exchanger disposed inside the casing; A blower disposed inside the casing; A discharge vane for adjusting the vertical direction of the air discharged to the air discharge port; Wherein when the Himalayan cool mode is input to the input unit, the set temperature is set to the target temperature, the blower is driven in the power wind mode, and the discharge vane is moved from the maximum opening angle by 32 degrees Wherein the fan is operated in a Himalayan cool mode in which the vane motor is controlled to swing in a range of 0 ~ 64 °, and when the preset time elapses after the start of the Himalayan cool mode, The vane is operated in the Himalayan cool-off mode controlling the vane motor to swing in the range of 40 ° to 72 ° from the maximum opening angle.

The present invention can quickly cool a main occupancy area of a room with a minimum power consumption when the installation height of the air conditioner is high in a room having a high ceiling in a room and can prevent the main occupancy area of the room from being excessively cooled There is an advantage that it can be prevented.

1 is a view illustrating an indoor unit and an outdoor unit of an air conditioner according to an embodiment of the present invention.
FIG. 2 is a sectional view of an air conditioner according to an embodiment of the present invention,
FIG. 3 is a sectional view of the air conditioner according to the embodiment of the present invention when the discharge vane is at the maximum opening angle,
4 is a sectional view of a Himalayan cool mode of an air conditioner according to an embodiment of the present invention,
5 is a sectional view of the Himalayan cool-off mode of the embodiment of the air conditioner according to the present invention,
6 is a control block diagram of an embodiment of an air conditioner according to the present invention,
FIG. 7 is a front view of an input unit of an air conditioner according to an embodiment of the present invention,
FIG. 8 is a view illustrating an indoor unit in which an embodiment of an air conditioner according to the present invention is tested,
FIG. 9 is a view showing a cooling rate of an air conditioner according to an embodiment of the present invention and a comparative example,
FIG. 10 is a graph showing integrated power consumption of an air conditioner according to an embodiment of the present invention and a comparative example,
11 is a flowchart of an operation method of an air conditioner according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating an indoor unit and an outdoor unit of an air conditioner according to an embodiment of the present invention.

The air conditioner may include an indoor unit I and an outdoor unit 0 and the indoor unit I and the outdoor unit O may be connected by a refrigerant pipe P. [

The indoor unit I can be installed indoors, and can suck air in the room, exchange heat with the indoor heat exchanger, and then discharge it back into the room.

The outdoor unit (O) can be installed outdoors, exchanges the outdoor air with the outdoor heat exchanger, and then discharges the outdoor air again. The outdoor unit O includes a compressor for compressing the refrigerant, an outdoor heat exchanger for exchanging the refrigerant with the outdoor air, an outdoor air blower for flowing outdoor air to the outdoor heat exchanger, And an expansion mechanism for expanding the refrigerant.

3 is a cross-sectional view of the air conditioner according to an embodiment of the present invention when the discharge vane is at a maximum opening angle, and FIG. 4 is a sectional view of the air conditioner according to an embodiment of the present invention. FIG. 5 is a cross-sectional view of a Himalayan cool-off mode of an air conditioner according to an embodiment of the present invention, FIG. 6 is a block diagram of an air conditioner according to an embodiment of the present invention And FIG. 7 is a front view showing an input unit of an air conditioner according to an embodiment of the present invention.

The indoor unit (I) includes a casing (6) having an air inlet (2) and an air outlet (4); An indoor heat exchanger (8) disposed inside the casing (6); A blower (10) arranged inside the casing (6); A discharge vane (12) for adjusting the vertical direction of the air discharged to the air discharge port (4); And a vane motor (14) for rotating the discharge vane (12).

The casing 6 may be installed on the wall of the room or on the wall of the room to a predetermined height. The indoor unit I may be an indoor unit of the wall-mounted type air conditioner. The casing 6 can be installed close to the ceiling of the wall of the room, and the air conditioner can discharge the cool air to the room while being positioned in the upper region of the room.

The casing 6 may include a base 6A and a front panel 6B provided in front of the base 6A. The casing 6 may have an air inlet 2 formed in the front panel 6B. At least one air intake port 2 may be formed on the front panel 6B. The air intake port 2 may include a front air intake port formed on the front panel of the front panel 6B and a top air intake port formed on the top panel of the front panel 6 B. The casing 6 is provided with a front cover (7) can be installed.

The indoor heat exchanger (8) is arranged to exchange heat with the room air sucked into the air inlet (2), and can exchange heat with the refrigerant in the room air. The indoor heat exchanger (8) can be connected to the compressor and the expansion mechanism of the outdoor unit (O) by a refrigerant pipe (P) such as a liquid pipe and an engine.

The blower 10 may have a plurality of blowing modes, and a plurality of blowing modes may be selectively implemented. The blower 10 is capable of selecting a five-stage airflow mode of a weak wind mode, a weak wind mode, a neutral wind mode, a strong wind mode, and a power wind mode. Can be selected. The blower 10 can count wind speeds from the weak wind mode to the neutral wind mode to the strong wind mode to the power wind mode and to the power wind mode to the strong wind mode to the neutral wind mode to the weak wind mode The strength (wind speed) may be weak.

The discharge vane 12 can be rotated around a horizontal central axis and can horizontally guide the air when horizontally disposed and guide the air vertically when rotated vertically. The discharge vane 12 may be formed long in the left-right direction.

The discharge vane 12 can be rotated at an angle blocking the air discharge port 4. [ The angle at which the air outlet port 4 is closed may be an air outlet port shielding angle P1 at which the air outlet port 4 is shielded by the outlet vane 12. The discharge vane 12 can be rotated at the maximum opening angle P2 at the air discharge port shielding angle P1. The maximum opening angle P2 may be an angle when the discharge vane 12 is rotated at the maximum angle P1 at which the air discharge port 4 is blocked. The maximum opening angle P2 may be a reference angle that determines the rotation angle of the discharge vane 12. [ The maximum opening angle P2 may be 115 degrees or 120 degrees based on the air outlet port shielding angle P1. When the discharge vane 12 is at the air discharge port shielding angle P1, it can be arranged to be inclined upward toward the front upper side. When the discharge vane 12 is at the air discharge port shielding angle P1, it can be disposed at an acute angle with the horizontal plane. When the discharge vane 12 is at the maximum opening angle P2, it can be arranged to be inclined downward toward the rear lower side. When the discharge vane 12 is at the air discharge port shielding angle P1, it can be disposed at an acute angle with the vertical plane.

The vane motor 14 may be constituted by a step motor. When the operation of the air conditioner is started, the vane motor 14 can rotate the discharge vane 12 from the air discharge opening shielding angle P1 to the maximum opening angle P2. When the discharge vane 12 reaches the maximum opening angle P2, the vane motor 14 can rotate the discharge vane 12 by a set angle in a direction approaching the air discharge port shielding angle P1. The vane motor 14 may be rotated at an angle of 8 degrees with each rise of the mode by the maximum opening angle P2. When the vane motor 14 is in 4 mode, the discharge vane 12 can be rotated by 32 degrees with respect to the maximum opening angle P2. When the vane motor 14 is in 5 mode, the discharge vane 12 can be rotated by 40 degrees with respect to the maximum opening angle P2. When the vane motor 14 is in 8 mode, the discharge vane 12 can be rotated 64 degrees with respect to the maximum opening angle P2. When the vane motor 14 is at 9 mode, the discharge vane 12 can be rotated 72 degrees with respect to the maximum opening angle P2. The vane motor 14 is capable of swinging the discharge vane 12 and when the discharge vane 12 is driven in the 4-8 mode, the discharge vane 12 is swung in the range of 32 ° to 64 ° with respect to the maximum opening angle P2 . The vane motor 14 can swing the discharge vane 12. When the discharge vane 12 is driven in the mode 5 to 9, the discharge vane 12 is swung in the range of 40 to 72 degrees with respect to the maximum opening angle P2. .

  The air conditioner may include an input unit (16) and a control unit (18).

The input unit 16 may be an operation unit for inputting various commands such as operation and stop of the air conditioner. The input unit 16 can be constituted by a control panel installed in the indoor unit I and can be constituted by a remote controller such as a remote controller separated from the indoor unit I. [ The input unit 16 may be a mobile terminal or a computer that communicates with the air conditioner to operate the air conditioner.

The control unit 18 can control the air conditioner in accordance with the input of the input unit 16. [ The air conditioner may include an indoor unit controller installed in the indoor unit I and an outdoor unit controller installed in the outdoor unit O. The indoor unit controller and the outdoor unit controller may be connected to each other via a signal line. The control unit 18 can control the blower 10 and the vane motor 14 of the indoor unit I. [

The input unit 16 may include a power key 22. The input unit 16 may include a Himalayan cool key 24, a mode key 26, an air volume key 28, and a temperature control key 30 (32).

The power key 22 is a key for operating the air conditioner in a state where the air conditioner is stopped. The power key 22 is a key that can stop the air conditioner when the air conditioner is in operation.

When the power key 22 is inputted once, the control unit 18 can operate the air conditioner. When the power key 22 is inputted once in the state that the air conditioner is in operation, the control unit 18 can stop the air conditioner. The control unit 18 can stop the blower 10 and control the vane motor 14 so that the discharge vane 12 is rotated at the angle P1 at which the air discharge port 4 is closed have. When operating the air conditioner

The control unit 18 can drive the blower 10 and control the vane motor 14 so that the discharge vane 12 is rotated at an angle that opens the air discharge port 4. [ The control unit 18 controls the vane motor 14 to rotate between the maximum opening angle P2 and the air outlet opening angle P1 after the air outlet vane 12 is rotated at the maximum opening angle P2 Can be controlled.

The Himalayan key 24 may be a key provided to turn on the Himalayan cool mode. The Himalayan key 24 may be a key provided to turn off the Himalayan cool mode. If the Himalayan key 24 is input once, the Himalayan cool mode can be started. If the Himalayan key 24 is input one more time during the Himalayan cool mode, the Himalayan cool mode can be turned off. At the end of the Himalayan cool mode, the air conditioner can be operated in normal cooling operation (non-Himalayan cool mode). That is, the off of the Himalayan cool mode may be a normal cooling operation.

The Himalayan cool mode may be a mode for controlling the low temperature air cooled by the indoor heat exchanger 8 in the set air volume mode and the set airflow mode so as to efficiently cool the main occupancy area of the room at a high speed.

The Himalayan cool mode may be a special cooling operation (non-normal cooling operation) controlled by the set air volume mode and simultaneously having the set wind direction mode while setting the set temperature as the target temperature.

Here, it is preferable that the set temperature is a target temperature of the Himalayan cool mode, and a temperature at which the room can be cooled at a high speed is preferably set to 18 degrees.

In addition, the set air volume mode may be the maximum air volume mode in which the wind strength is the highest among the air volume modes. The set air volume mode may be one of the weak wind mode, the neutral wind mode, the strong wind mode and the power wind mode. The set air volume mode may be a weak wind mode, a weak wind mode, a neutral wind mode, a strong wind mode, or a power wind mode.

The set wind direction mode may be a mode for swinging the discharge vane 12 so that the discharge vane 12 swings in the range from the maximum opening angle P2 to the first set angle P3 to the second set angle P4 . The second setting angle P4 may be an angle larger than the first setting angle P3 with respect to the maximum opening angle P2. It is desirable that the first setting angle P3 and the second setting angle P4 are set so as to not only cool the main residence area quickly but also minimize the power consumption.

Here, the first setting angle P3 may be a minimum rotation angle at which the discharge vane 12 is swung in the Himalayan cool mode, and the discharge vane 12 is arranged at an air discharge port shielding angle P1 ), And may be 32 [deg.].

The second setting angle P4 may be the maximum rotation angle at which the discharge vane 12 is swung in the Himalayan cool mode and the discharge vane 12 is arranged at the air discharge port shielding angle P1 ), And may be 64 [deg.].

In the case where the vane motor 14 is a step motor in which the rotation angle is increased by 8 degrees per mode, the set wind direction mode may be 4 to 8 mode driving, and the discharge vane 12 may be driven by 32 It can swing in the range of ° to 64 °.

On the other hand, the set wind direction mode can rotate the discharge vane 12 at the swing speed to the set speed. Here, it is preferable that the set speed is set so that not only the main residence area can be quickly cooled but also the power consumption can be minimized, and the speed of the vane motor 14 is controlled to 100 PPS (pulse per second) have.

The air conditioner can rotate the discharge vane 12 at the first rotation speed in the Himalayan cool mode and rotate the discharge vane 12 at the second rotation speed in the Himalayan cool-off mode described later. In the Himalayan cool mode, the first rotation speed of the discharge vane 12 may be faster than the second rotation speed of the discharge vane 12 in the Himalayan cool-off mode, and the first rotation speed may be 1.5 to 2.5 It can be boats. In the Himalayan cool mode, the vane motor 14 can be controlled to 100PPS, and in the Himalayan cool-off mode, the vane motor 14 can be controlled to 50PPS.

The control unit 18 can control the air conditioner in the Himalayan cool mode when the Himalayan key 24 is input once. When the Himalayan key 24 is input one more time during the Himalayan cool mode, the controller 18 can exit the Himalayan cool mode and control the air conditioner in the Himalayan cool-off mode.

The mode key 26 is a key for selecting a cooling operation, a dehumidifying operation, and a blowing operation. The air conditioner can be switched to normal cooling operation, dehumidification operation, or air blowing operation while the Himalayan cool mode is on. If the mode key 26 is input during the Himalayan cool mode, the Himalayan cool mode can be terminated and the air conditioner can be controlled by the mode selected by the mode key 26. For example, when the mode key 26 is inputted during the on-mode of the Himalayan cool mode and the cooling operation is selected, the control unit 18 may switch the operation mode of the air conditioner from the cool mode to the normal cooling mode . Also, when the mode key 26 is inputted during the Himalayan cool mode on and the dehumidifying operation is selected, the control unit 18 can switch the operation mode of the air conditioner from the Himalayan cool mode to the dehumidification mode. In addition, when the mode key 26 is inputted in the middle of the Himalayan cool mode on and the blowing operation is selected, the controller 18 can switch the operation mode of the air conditioner from the Himalayan cool mode to the blowing operation.

The air volume key 28 is a key for selecting a plurality of blowing modes of the blower 10. The air volume key 28 is capable of selecting one of the five-stage air-volume modes of the weak-wind mode, the weak wind mode, the neutral wind mode, the strong wind mode and the power wind mode. The air volume key 28 can select one of the four winds mode of the weak wind mode, the neutral wind mode, the strong wind mode, and the power wind mode.

When the air volume key 28 is input in the middle of the Himalayan cool mode, the control unit 18 can terminate the Himalayan cool mode and control the air conditioner with the air volume selected by the air volume key 28. [ For example, when the wind volume key 28 is inputted while the Himalayan cool mode is on, and the weak wind is selected, the control unit 18 ends the cool mode and can switch to the normal cooling operation of the weak wind. Further, when the wind amount key 28 is inputted in the middle of the Himalayan cool mode and the strong wind is selected, the control unit 18 ends the cool mode and can switch to the normal cooling operation of the strong wind.

When the temperature control keys 30 and 32 are input in the middle of the Himalayan cool mode, the control unit 18 can terminate the Himalayan cool mode, and the new desired temperature selected by the temperature control key 30 (32) It is possible to control the air conditioner. For example, when the target temperature of the Himalayan cool mode is 18 ° and 20 ° is inputted through the temperature control keys 30 and 32, the control unit 18 ends the cool mode and the new target temperature Can be switched to the normal cooling operation of 20 [deg.].

When the Himalayan cool mode is input to the input unit 16, the air conditioner sets the set temperature to the target temperature, drives the blower 10 in the power wind mode, and the discharge vane 12 moves from the maximum opening angle of 32 to 64 The vane motor 14 can be controlled so as to swing in a range of < RTI ID = 0.0 >

When the Himalayan key of the input unit 16 is inputted once, the air conditioner can input the Himalayan cool mode.

When the Himalayan cool mode is input to the input unit 16, the control unit 18 can control the indoor unit I and the outdoor unit O by setting the set temperature to the target temperature. When the Himalayan cool mode is input to the input unit 16, the control unit 18 can drive the blower 10 in the power wind mode. When the Himalayan cool mode is input to the input unit 16, the control unit 18 controls the vane motor 14 so that the discharge vane 12 swings in the range of 32 ° to 64 ° from the maximum opening angle. (14).

If the mode change is inputted in the middle of the Himalayan cool mode, the change of the air volume is inputted, or the temperature change is inputted or the cool change is inputted one more time, the Harmony cool mode may be terminated. I and the outdoor unit O can be controlled.

The air conditioner does not input the mode change during the cooling mode of the Himalayan cooler and the change of the air volume is not inputted and the temperature change is not input and the cool key is not inputted one more time, , The Himalayan cool-off mode may be initiated. Here, the set time may be a set time such as 20 minutes, 30 minutes, 40 minutes, and the like.

In the Himalayan cool-off mode, the air conditioner can drive the blower 10 in a weaker wind mode than in the power wind mode.

In the Himalayan cool-off mode, the air conditioner is a mode for swinging the discharge vane 12 such that the discharge vane 12 swings in the range from the third set angle P5 to the fourth set angle P6 from the maximum opening angle P2. .

Here, the fourth setting angle P6 may be an angle larger than the third setting angle P5. The third setting angle P5 may be an angle larger than the first setting angle P3. The fourth setting angle P6 may be an angle larger than the second setting angle P4. The fourth setting angle P6 is larger than the second setting angle P4 and the second setting angle P4 is larger than the third setting angle P5 and the third setting angle P3 is larger than the first setting angle P2 ). In the Himalayan cool-off mode, the air conditioner can discharge air in a direction toward the upper side of the Himalayan cool mode.

Here, the third setting angle P5 may be a minimum rotation angle at which the discharge vane 12 is swung in the Himalayan cool-off mode, and may be 40 ° based on the maximum opening angle P2 of the discharge vane 12 .

The fourth setting angle P6 may be the maximum rotation angle at which the discharge vane 12 swings in the Himalayan cool-off mode and may be 72 degrees based on the maximum opening angle P2 of the discharge vane 12 .

  The Himalayan cool-off mode sivane motor 14 can be controlled so that the discharge vane 12 swings in the range of 40 to 72 degrees from the maximum opening angle P2.

  That is, the control unit 18 can drive the blower 10 in the strong wind mode when the set time has elapsed after the start of the Himalayan cool mode. The control unit 19 controls the vane motor 14 so that the discharge vane 12 swings in the range of 40 to 72 degrees from the maximum opening angle when the set time elapses after the start of the Himalayan cool mode, Can be controlled.

The air conditioner may further include a display 20. The display 20 can display the cool operation through symbols, characters, figures, and the like. The display 20 can be installed in the indoor unit I and can be installed in the input unit 16.

  FIG. 9 is a view showing a cooling rate of an air conditioner according to the present invention and a comparison example according to the present invention, and FIG. 10 is a view showing a cooling rate according to an embodiment of the present invention. In which the integrated power consumption of the air conditioner according to the embodiment and the comparative example is shown.

8, when the indoor unit I is installed in a room (test chamber) having a front-rear width of 4.5 m and a width of 6 m and a height of 3 m, the time required for the indoor temperature to decrease to the set temperature, The integrated power consumption can be measured and measured.

The test was carried out under the condition that the outdoor temperature was 35 ± 0.3 ° C, the room temperature was 33 ± 0.3 ° C, and the indoor unit (I) was installed indoors at a height of 2.5 m from the floor. The area between 0.1m and 1.7m from the floor was the Occupied Zone where the occupant could be mainly active and the room temperature was measured at a height of 1,2m from the floor.

In the test, the Himalayan cool mode is a mode in which the target temperature is set to 18 °, the blowing mode of the blower 10 is the power wind mode, and the condition in which the discharge vane 12 swings in the range of 32 ° to 64 ° from the maximum opening angle (Comparative Example), the target temperature is set to 18 degrees, the blowing mode of the blower 10 is the strong wind mode, and the discharge vane 12 is rotated by 48 degrees from the maximum opening angle to be fixed Lt; / RTI >

FIG. 9 shows the result of comparing the time taken for the indoor temperature of each of the Himalayan cool mode of the present invention and the normal cooling operation (comparative example) to decrease by 5 °, and the comparison example takes 7 minutes and 35 seconds, The Himalayan cool mode of the present invention took 5 minutes and 27 seconds. In the Himalayan cool mode of the present invention, it is confirmed that the time to lower the room temperature by 5 degrees is shortened by 28.1%.

Fig. 10 shows the result obtained by comparing the integrated power consumption during the Himalayan cool mode of the present invention and the normal cooling operation (comparative example) while the room temperature is lowered by 5 degrees, and the comparative example is 0.131 [kWh] , The Himalayan cool mode of the present invention is 0.097 [kWh], and the Himalayan cool mode of the present invention can reduce the power consumption required to lower the room temperature by 5 degrees by 26.0%.

11 is a flowchart of an operation method of an air conditioner according to an embodiment of the present invention.

The operation method of the air conditioner of the present embodiment is a cooling operation, a first step (S1) (S2) (S3) (S4) in which the air flow mode is a power wind mode; (S5) and (S6) in which the air flow mode is weaker than the power wind mode after the first step S1, S2, S3, and S4.

The first step S1, S2, S3 and S4 may swing the discharge vane 12 in the range of the first set angle P3 to the second set angle P4. The first set angle P3 to the second set angle P4 may be the first range in which the discharge vane 12 is auto-swung in the first step S1, S2, S3 and S4. The first step S1, S2, S3, and S4 may swing the discharge vane 12 at the first rotational speed.

The second step S5 and S6 may be started when the set time after the start of the first step S1, S2, S3 and S4 has elapsed. The second step S5 and S6 may swing the discharge vane 12 from the maximum opening angle in the range of the third set angle P5 to the fourth set angle P6. The third set angle P5 to the fourth set angle P6 may be a second range in which the discharge vane 12 is auto-swung in the second and fifth steps S5 and S6. The fourth setting angle P6 is larger than the second setting angle P4 and the second setting angle P4 is larger than the third setting angle P5 and the third setting angle P5 is larger than the first setting angle P3 ). The second step S5 (S6) may swing the discharge vane 12 at a second rotational speed that is later than the first rotational speed.

The first set angle P3 may be 32 degrees and the second set angle P4 may be 64 degrees and the third set angle P5 may be 40 degrees and the fourth set angle P6 may be Lt; / RTI >

Hereinafter, the first step S1, S2, S3 and S4 will be described in detail.

  The first stage S1, S2, S3 and S4 are cooling operation, the air volume mode is the power wind mode, and the discharge vane 12 can be rotated in the range of 32 ° to 64 ° from the maximum opening angle P2. have.

The first step S1, S2, S3 and S4 may be a step in which the air conditioner is operated in the Himalayan cool mode.

In the first step S1, S2, S3 and S4, the air conditioner can be started in the middle of the normal cooling operation, the dehumidifying operation, and the blowing operation, and can be started during the stop of the air conditioner. The first step S1, S2, S3, and S4 may be initiated once the key 26 is entered once.

The user can input the Himalayan cool mode into the input unit 16 while the air conditioner is operating in the normal cooling operation, the dehumidifying operation, or the blowing operation. The user can input the Himalayan cool mode by pressing the Himalayan cool key 24 of the input unit 16 once during the operation of the air conditioner in the normal cooling operation, the dehumidifying operation or the air blowing operation, and the air conditioner can input the normal mode The cooling operation, the dehumidifying operation and the blowing operation are stopped, and the Himalayan cool mode of the air conditioner can be started.

The user can operate the air conditioner while the air conditioner is stopped and enter the Himalayan cool mode after the operation of the air conditioner is started. (S1) (S2) The user operates the power key 22 of the input unit 16 The user can input the operation of the air conditioner. By pressing the Himalayan cool key 24 of the input unit 16 once, the Himalayan cool mode can be input, and the Himalayan cool mode of the air conditioner Mode may be initiated.

The control unit 18 can control the indoor unit I and the outdoor unit O by the cooling operation with the set temperature as the target temperature during the first step S1, S2, S3 and S4. The first step S1, S2, S3 and S4 may have the same target temperature as the second step S5 and S6. Here, the set temperature may be 18 [deg.], And the outdoor unit O may control the compressor or the like by 18 [deg.] To the target temperature (target temperature). The control unit 18 can control the blower 10 such that the blower 10 is driven in the power wind mode in the first step S1, S2, S3 and S4. The control unit 18 can control the vane motor 14 to the set wind direction mode in the Himalayan cool mode during the first step S1, S2, S3 and S4.

The control unit 18 can control the vane motor 14 so that the discharge vane 12 of the air discharge opening shielding angle P1 is rotated at the maximum opening angle P2 as shown in Figures 2 and 3, 4, the vane motor 14 can be controlled so that the discharge vane 12 is positioned within a range of 32 to 64 degrees from the maximum opening angle, and the discharge vane 12 can be controlled to a maximum opening angle P2 It is possible to control the vane motor 14 such that the discharge vane 12 is swung in the range of 32 ° to 64 ° from the maximum opening angle P 2.

The discharge vane 12 reciprocates within a range of 32 ° to 64 ° from the maximum opening angle P 2 and can guide the air blown from the blower 10 to discharge the air to the room.

  The first step S1, S2, S3, and S4 can swing the discharge vane 12 at the first rotational speed. The first rotational speed is 1.5 to 2.5 times the second rotational speed . The vane motor 14 can be controlled to 100 PPS during the first step S1, S2, S3 and S4 and the vane motor 14 can be controlled to 50 PPS during the second step S5 and S6 And the rotation speed of the discharge vane 12 in the first step S1, S2, S3 and S4 may be faster than the rotation speed of the discharge vane 12 in the second step S5 and S6.

   The first step S1, S2, S3 and S4 may be terminated when a mode change is input after the start of the first step S1, S2, S3 and S4. The first step S1, S2, S3, and S4 may be terminated when the air volume change after the start of the first step is input. The first step S1, S2, S3 and S4 may be terminated when the temperature change after the start of the first step is input. The first step (S1) (S2) (S3) (S4) may be terminated when the Himalayan key is input one more time.

The first step S1, S2, S3, and S4 may be terminated when the mode change is input before the set time is reached, when the air volume change is input, when the temperature change is input or when the cool key is input one more time .

  In the first step S1, S2, S3 and S4, the mode change is not inputted, the air volume change is not inputted, the temperature change is not inputted and the cool key is 1 If no further input is made, it can be done for a set time and then terminated.

Here, the set time may be a time at which the Himalayan cool mode is normally completed, and may be set to 30 minutes.

That is, the Himalayan cool mode is terminated after the set time has elapsed. If the mode change is input, the air volume change is inputted or the temperature change is inputted before the set time is reached, the Himalayan cool mode is abnormal , And the air conditioner can be controlled according to the inputted command (S4) (S9)

If the cooling operation, the dehumidifying operation, or the blowing operation is input before the set time is reached after the Himalayan cool mode is started, the air conditioner can be controlled to the inputted operation by ending the Himalayan cool mode. )

If a weak wind mode, a paralytic mode or a strong wind mode is input before the set time is reached after the Himalayan cool mode is started, the air conditioner can be controlled to cool down the Himalayan cool mode and the cooling mode of the newly inputted air blowing mode. ) (S9)

If the temperature change is inputted before the set time is reached after the Himalayan cool mode is started, the air conditioner ends the Himalayan cool mode and can be controlled by the cooling operation of the newly inputted target temperature (S4) (S9)

If the Himalayan key is input one more time before the set time is reached after the Himalayan cool mode is started, the air conditioner can exit the Himalayan cool mode. (S4) (S9)

When the Harmony cool mode is terminated as described above, the outdoor unit I and the indoor unit O can be controlled according to the input, and when the stop of the air conditioner is inputted, the outdoor unit O and the indoor unit I (S9) (S10) (11) When the outdoor unit O is stopped, the compressor is stopped, and the refrigerant does not flow into the indoor heat exchanger 8. The blower 10 can be stopped at the time of stopping the indoor unit I and the vane motor 14 can be driven such that the discharge vane 12 is rotated at the air discharge port shielding angle P1 as shown in Fig. And the discharge vane 12 can block the air discharge opening 4.

Hereinafter, the second step (S5) (S6) will be described in detail as follows.

  The second step S5 and step S6 may be started when the set time elapses after the start of the first step S1, S2, S3 and S4. If the mode change is not input during the first step S1, S2, S3, and S4, the change in the air volume is not input and the temperature change is not input and the cool key is not input one more time, S1) (S2) (S3) When the set time after the start of step S4 has elapsed, the second step (S5), (S6), and (S7) can be started.

The second step S5 (S6) may be a step in which the air conditioner is operated in the Himalayan cool-off mode.

The second step S5 and S6 may have the same target temperature as the first step S1, S2, S3 and S4. In the second step S5 and S6, the set temperature of the first step S1, S2, S3 and S4 may be used as the target temperature.

The control unit 18 can control the indoor unit I and the outdoor unit O by the cooling operation with the set temperature as the target temperature during the second step S5 and S6. In this case, the set temperature of the second step S5 (S6) may be 18 degrees as in the first steps S1, S2, S3, and S4, And so on. The control unit 18 can control the blower 10 such that the blower 10 is driven in a strong wind mode in which the wind speed is weaker than the power wind mode in the second step S5 and S6. The control unit 18 can control the vane motor 14 to the set wind direction mode in the Himalayan cool-off mode during the second step S5 (S6).

The second step (S5) (S6) may swing the discharge vane 12 in the range of 40 ° to 72 ° from the maximum opening angle. The second step S5 and S6 can rotate the discharge vane 12 at a second rotation speed that is slower than the first rotation speed. In the first step S1, S2, S3, and S4, The rotational speed of the discharge vane 12 can be controlled in the first step S1, S2, S3, and S4, .

The control unit 18 can control the vane motor 14 so that the discharge vane 12 is positioned within the range of 40 to 72 degrees from the maximum opening angle P2 and the discharge vane 12 is controlled to the maximum opening angle P2, The vane motor 14 can be controlled so that the discharge vane 12 is swung in the range of 40 to 72 degrees from the maximum opening angle P2.

The discharge vane 12 reciprocates within a range of 40 to 72 degrees from the maximum opening angle P2, and can guide the air blown from the blower 10 to discharge the air to the room.

The air conditioner can discharge air in the upper direction relative to the first step S1, S2, S3, and S4 in the second step S5 and S6, And the room can be cooled evenly.

The outdoor unit O and the indoor unit I can be stopped when the stop of the air conditioner is inputted in the middle of the second step S5 (S6). (S7) (S8) O, the compressor is stopped and the refrigerant does not flow into the indoor heat exchanger (8). The blower 10 can be stopped when the indoor unit I is stopped and the vane motor 14 can be driven such that the discharge vane 12 is rotated at the air discharge port shielding angle P1, The air outlet 4 can be closed.

2: air inlet port 4: air outlet port
6: casing 8: indoor heat exchanger
10: blower 12: discharge vane
14: Vane motor 16: Input part
18: control unit 20: display
22: Power key 24: Himalayan key
26: mode key 28: airflow key
30,32: Temperature control key

Claims (20)

A first step of rotating the discharge vane in a range of 32 ° to 64 ° from a maximum opening angle;
And a second step in which the air flow mode is weaker than the power wind mode after the first step. The method according to claim 1,
Wherein the second step swings the discharge vane in a range of 40 ° to 72 ° from a maximum opening angle. The method according to claim 1,
Wherein the first step swings the discharge vane at a first rotational speed,
Wherein the second step rotates the discharge vane at a second rotational speed that is slower than the first rotational speed. The method of claim 3,
Wherein the first rotation speed is 1.5 to 2.5 times the second rotation speed.
The method according to claim 1,
In the first step, the vane motor for rotating the discharge vane is controlled to 100 PPS,
Wherein the second step controls the vane motor to 50PPS. The method according to claim 1,
Wherein the first step and the second step have the same target temperature. The method according to claim 1,
Wherein the first step is started when the key is input once. The method according to claim 6,
Wherein the first step ends when the Himalayan key is input one more time. 8. The method according to any one of claims 1 to 7,
Wherein the first step is terminated after the set time has elapsed,
Wherein the second step is started when the set time has elapsed. 8. The method according to any one of claims 1 to 7,
Wherein the first step is terminated when a mode change after the start of the first step is input. 8. The method according to any one of claims 1 to 7,
Wherein the first step is terminated when a change in air volume after the start of the first step is input. 8. The method according to any one of claims 1 to 7,
Wherein the first step is terminated when a temperature change after the start of the first step is input. A first step of swinging the discharge vane at a first rotation speed in a range from a first set angle to a second set angle from a maximum opening angle, wherein the set temperature is a cooling operation in which the set temperature is a target temperature;
Wherein when the set time after the start of the first step is elapsed, the air flow mode is a weaker wind mode than the power wind mode and the discharge vane is moved from the maximum opening angle to the first And a second step of swinging at a second rotational speed that is later than the rotational speed,
Wherein the fourth setting angle is larger than the second setting angle, the second setting angle is larger than the third setting angle, and the third setting angle is larger than the first setting angle. 14. The method of claim 13,
The first set angle is 32 degrees, the second set angle is 64 degrees,
Wherein the third setting angle is 40 ° and the fourth setting angle is 72 °. 14. The method of claim 13,
Wherein the set temperature is 18 [deg.]. 14. The method of claim 13,
Wherein the first step and the second step have the same target temperature. 14. The method of claim 13,
In the first step, the vane motor for rotating the discharge vane is controlled to 100 PPS,
Wherein the second step controls the vane motor to 50PPS. 14. The method of claim 13,
The first step starts when the cool key is input once,
Wherein the first step is terminated when a mode change is input, a change in air volume is input, a temperature change is input, or the cool key is input one more time before the set time is reached. 14. The method of claim 13,
The first step starts when the cool key is input once,
Wherein the second step is performed when the mode change is not input during the first step and the air volume change is not inputted and the temperature change is not inputted and the cool key is not input once more, And the operation of the air conditioner started when the time elapses. An indoor unit, and an outdoor unit,
The indoor unit
A casing having an air inlet and an air outlet;
An indoor heat exchanger disposed inside the casing;
A blower disposed inside the casing;
A discharge vane for adjusting the vertical direction of the air discharged to the air discharge port;
And a vane motor for rotating the discharge vane,
When the Himalayan cool mode is input to the input unit, the set temperature is set to the target temperature, the blower is driven in the power wind mode, and the vane motor is controlled to swing in the range of 32 to 64 degrees from the maximum opening angle It is operated in the Himalayan cool mode,
Wherein the blower is driven in a weaker wind mode than the power wind mode when the set time after the start of the Himalayan cool mode has elapsed and the vane motor is controlled to swing in a range of 40 to 72 degrees from the maximum opening angle Himalayan air conditioner that operates in cool-off mode.

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