ES2649754T3 - Apparatus and procedure for controlling the air flow of an air conditioner in sleep mode - Google Patents

Abstract

A method for controlling a sleep mode airflow of an air conditioner having at least one louver for adjusting directions of discharged air, comprising: determining (S200) whether the sleep mode is entered; detecting (S212) an indoor temperature, when it is determined that the sleep mode is entered; and comparing (S214, S218) the detected indoor temperature with a set control temperature, and adjusting (S216, S220, S222) discharged air directions according to the comparison results, characterized in that adjusting the air directions unloaded includes controlling the directions of the unloaded air to produce one selected from the group consisting of an indirect wind, an intermittent indirect wind and an intermittent direct wind according to the comparison results, in which the intermittent indirect wind is produced by rotating the at least one slat (14a, 16a, 18a), so that the time to position the at least one slat at angles, in which a user does not directly perceive the air current, is longer than the time to position the al least one slat in angles, in which the user directly perceives the air current, when the interior temperature is not lower than the control temperature and is not more higher than a first temperature, which is higher than the control temperature.

Description

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DESCRIPTION

Apparatus and procedure for controlling the air flow of an air conditioner in sleep mode Cross reference to the related request

This application claims the benefit of Korean patent application No. 2006-0116079, filed on November 22, 2006, at the Korean Intellectual Property Office.

Background of the invention

1. Field of the invention

The present invention relates to a method for controlling an air flow of a sleep mode air conditioner to save energy, and more particularly, to an apparatus and a method for controlling an air flow of a sleep mode air conditioner, in that the air directions are discharged through the discharge holes while creating a comfortable sleeping environment.

2. Description of the related technique

Generally, air conditioners are devices for cooling or heating an interior space and provide hot or cold air due to the characteristics that a refrigerant absorbs the surrounding heat when the refrigerant in liquid state evaporates and emits heat when the refrigerant is liquefied using a Conventional refrigeration cycle obtained by refrigerant circulation.

Recently, air conditioners work in several automatic modes to create a comfortable indoor environment, including a dehumidification mode to dehumidify without changing the indoor temperature. The various previous automatic modes include a sleep mode, which a user selects when they want to sleep.

The sleep mode of a conventional air conditioner employs a procedure to control the directions of the discharged air so that the air flow is not transferred directly to a sleeping user. Korean Patent Publication Open for Public Inspection No. 2002-0002796 discloses such an air conditioner.

The air conditioner disclosed in the patent operates in sleep mode to provide a comfortable sleeping environment by adjusting the slat angles according to the direction of the air, selected by a user, in an initial state of the sleep mode to control the directions of the air discharged through the discharge holes, and adjusting the angles of the slats to produce an indirect wind in which the discharged air is not transferred directly to the user, when a designated time has elapsed.

In the above conventional procedure to control the directions of the discharged air, the indirect wind in which the air flow is not transferred directly to the user occurs when a designated time has elapsed since the beginning of the sleep mode. Since the air flow always produces indirect wind regardless of the temperature to be controlled, cold air is not transferred directly to the user. Therefore, the user cannot easily fall asleep in the suffocating heat of a tropical summer night.

In addition, the number of rotations of an indoor fan is regularly adjusted in the sleep mode of the air conditioner regardless of whether a compressor operates, thereby increasing the user's sensitivity to the air flow when the compressor shuts down and causing user discomfort. Therefore, energy consumption also increases.

EP 1 811 239 A2 discloses a method for controlling a blowing direction in the sleep mode operation of an air conditioner. The air conditioner comprises a main body that has at least one discharge port through which heat exchange air is discharged. The procedure comprises determining whether a current mode of operation is the operation in sleep mode or not, determining whether or not a period of operation is entered in sleep mode if it is determined that the current mode of operation is the operation in sleep mode and controlling the flow of air discharged through the discharge port according to subdivided modes of sleep mode operation if it is determined that the period of sleep mode operation is entered, the subdivided modes comprising an initial sleep mode corresponding to an initial phase of operation in sleep mode, a sleep mode that corresponds to an intermediate phase of sleep mode operation and a wake mode that corresponds to a final phase of sleep mode operation.

Summary of the invention

The object of the present invention is to provide an improved apparatus and method for controlling a stream of air in the sleep mode of an air conditioner.

This object is solved by the object of the independent claims.

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Preferred embodiments are defined by the dependent claims.

In accordance with one aspect of the present invention, an apparatus and a method for controlling an air flow in the sleep mode of an air conditioner are provided, in which the directions of the discharged air are controlled according to an indoor temperature in the sleep mode. , therefore providing a comfortable environment for a user to sleep. Therefore, one aspect of the invention is to provide an apparatus and method for controlling an air stream in sleep mode of an air conditioner, in which the directions of the discharged air are controlled according to an indoor temperature in sleep mode, thus providing the User a comfortable sleeping environment.

An unclaimed embodiment discloses providing an apparatus and a method for controlling an air flow in the sleep mode of an air conditioner, in which the volume of air discharged is controlled by adjusting a number of rotations of an indoor unit depending on whether it works. a compressor, which reduces energy consumption while reducing user sensitivity to air flow.

In accordance with one aspect, the present invention provides a method for controlling a stream of air in the sleep mode of an air conditioner having slats to adjust the directions of the discharged air, comprising determining whether the mode of operation introduced is the sleep mode ; detect an indoor temperature, when it is determined that the mode of operation introduced is the sleep mode; and compare the detected indoor temperature with an established control temperature, and adjust the directions of the discharged air according to the results of the comparison.

The control temperature is set according to the user's instructions, or is set to a default value, which is predetermined.

Adjusting the directions of the discharged air includes controlling the directions of the discharged air to produce a selected one from the group consisting of an indirect wind, an intermittent indirect wind and a direct intermittent wind according to the results of the comparison.

Indirect wind is produced by positioning the slats at angles, in which a user does not directly perceive the air flow, when the indoor temperature is lower than the control temperature.

The intermittent indirect wind is produced by rotating the blades so that the time to position the slats at angles, in which a user does not directly perceive the air flow, is longer than the time to position the slats at angles, in which The user directly perceives the air flow, when the indoor temperature is not lower than the control temperature and is not higher than a first temperature, which is higher than the control temperature.

Direct intermittent wind is produced by rotating the slats in such a way that the time to position the slats at angles, in which the user directly perceives the air flow, is longer than the time to position the slats at angles, in which The user does not directly perceive the air flow, when the indoor temperature is higher than the first temperature. An unclaimed embodiment discloses a method for controlling a stream of air in the sleep mode of an air conditioner having an indoor fan to adjust the volume of discharged air, which comprises determining whether the mode of operation introduced is the sleep mode; detect an indoor temperature, when it is determined that the mode of operation introduced is the sleep mode; determine if a compressor works by comparing the detected indoor temperature with an established control temperature; and adjust the minimum number of rotations of the indoor fan differently according to the results of the determination.

Setting the minimum number of rotations of the indoor fan includes setting the minimum number of rotations of the indoor fan when the compressor is turned off to be smaller than the minimum number of rotations of the indoor fan when the compressor is on.

According to another aspect, the present invention provides an apparatus for controlling an air flow in the sleep mode of an air conditioner, comprising slats for adjusting the directions of the discharged air; an input unit to select an operating mode according to the user's instructions; a temperature detection unit to detect an indoor temperature when the input unit selects the sleep mode; and a control unit to compare the detected indoor temperature with a set control temperature and to adjust the directions of the slats according to the results of the comparison, to control the directions of the discharged air.

The control unit controls the directions of the discharged air by positioning the directions of the slats at angles to produce an indirect wind, in which a user does not directly perceive the air flow, when the indoor temperature is lower than the control temperature.

The control unit controls the directions of the discharged air by rotating the slats so that the time to position the slats at angles, in which the user does not directly perceive the air flow, is longer than the time to position the slats at angles. , in which the user directly perceives the air flow, to

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produce an intermittent indirect wind, when the indoor temperature is not lower than the control temperature and is not higher than a first temperature, which is higher than the control temperature.

The control unit controls the directions of the discharged air by rotating the slats so that the time to position the slats at angles, in which the user directly perceives the air flow, is longer than the time to position the slats at angles, in which the user does not directly perceive the air flow, to produce a direct intermittent wind, when the indoor temperature is higher than the first temperature.

The apparatus further comprises an indoor fan to control the volume of the discharged air, and the control unit determines whether a compressor operates according to the results of the comparison, and differently adjusts the minimum number of rotations of the indoor fan according to The results of the determination.

According to another unclaimed embodiment, an apparatus is provided for controlling an air flow in the sleep mode of an air conditioner, which comprises an indoor fan for adjusting the volume of air discharged; an input unit to select an operating mode according to the user's instructions; a temperature detection unit to detect an indoor temperature when the input unit selects the sleep mode; and a control unit for comparing the detected indoor temperature with an established control temperature, determining whether a compressor operates according to the results of the comparison, and for differently adjusting the minimum number of rotations of the indoor fan according to the Results of the determination.

The control unit controls the minimum number of rotations of the indoor fan when the compressor is turned off to be smaller than the minimum number of rotations of the indoor fan when the compressor is on.

Brief description of the drawings

These and / or other aspects and advantages of the invention will be apparent and will be more readily appreciated from the following description of the embodiments, taken together with the accompanying drawings in which:

Figure 1 is a perspective view of an indoor unit of an air conditioner in accordance with the present invention;

Figure 2 is a control diagram of an apparatus for controlling a stream of air in the sleep mode of an air conditioner in accordance with an embodiment of the present invention;

Fig. 3 is a flow chart illustrating a method for controlling a stream of air in the sleep mode of an air conditioner by adjusting the directions of the discharged air in accordance with an embodiment of the present invention; Y

Fig. 4 is a flow chart illustrating a procedure for controlling an air flow in the sleep mode of an air conditioner by adjusting a number of rotations of an indoor fan to save energy in accordance with another embodiment of the present invention.

Detailed description of the preferred embodiments

Reference will now be made in detail to the embodiments of the present invention, of which an example is illustrated in the accompanying drawings, in which the same reference numbers refer to similar elements throughout. The embodiments are described below to explain the present invention by referring to the accompanying drawings.

Figure 1 is a perspective view of an indoor unit of an air conditioner according to the present invention, more particularly, a column type air conditioner, in which the air is discharged from three surfaces.

As shown in Figure 1, the suction holes 12 for sucking through them the indoor air are formed through the lower parts of the side surfaces of an indoor unit 10 and a plurality of holes 14, 16 and 18 discharge to discharge, through them, the air sucked through the suction holes 12 to an interior space are formed through the upper part of the indoor unit 10.

The plurality of discharge holes 14, 16 and 18 includes a left discharge hole 14 formed through the upper part of the left side surface of the indoor unit 10, a right discharge hole 16 formed through the upper part of the right side surface of the indoor unit 10, and a front discharge hole 18 formed through the central part of the front surface of the indoor unit 10.

In the discharge holes 14, 16 and 18 respectively, the slats 14a, 16a and 18a are provided to open and close the discharge holes 14, 16, 18 and to adjust the directions of the air that is discharged through the holes 14, 16 and 18 download. In the blades 14a, 16a and 18a are respectively provided with the first to the third motor 14b, 16b and 18b of gradual speed to rotate the blades 14a, 16a and 18a.

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The engines 14b, 16b and 18b of gradual speed from first to third to rotate the blades 14a, 16a and 18a provided in the discharge holes 14, 16 and 18 separately, are provided respectively in the blades 14a, 16a and 18a, and rotate the slats 14a, 16a and 18a at designated angles according to the amounts of rotation thereof.

When using a variable speed reluctance type speed motor that has excellent rotation angle resolution such as motors 14b, 16b and 18b with gradual speed from first to third, the slats 14a, 16a and 18a can change their directions of continuous as well as in phases, thus operating in a rotating mode. Any power unit can be used, which can change the directions of the slats 14a, 16a and 18a continuously as well as by phases, such as the first to the third motor 14b, 16b and 18b of gradual speed.

The gradual speed motors 14b, 16b and 18b are driven and therefore the connecting members (not shown) rotate connected to the drive shafts of the gradual speed motors 14b, 16b and 18b. In this way, the rotation angles of the slats 14a, 16a and 18a are changed. The directions of air discharged through the discharge holes 14, 16 and 18 are adjusted according to the changed rotation angles of the slats 14a, 16a and 18a, and the discharge holes 14, 16 and 18 open and they close according to the angles of rotation of the slats 14a, 16a and 18a. The slats 14a, 16a and 18a rotate in the range of an angle from 0 ° to 70 °.

For the convenience of the description, the blade 14a provided in the left discharge hole 14 is called the left blade, the blade 16a provided in the right discharge hole 16 is called the right blade and the blade 18a provided in the front discharge hole 18 is called frontal slat.

An indoor heat exchanger 20 is installed in the indoor unit 10 to convert the sucked indoor air through the suction holes 12 into cold air or hot air through the latent heat of vaporization of a refrigerant and an indoor fan 22 to expel the air, which has been heat exchanged by the internal heat exchanger 20.

Fig. 2 is a control diagram of an apparatus for controlling an air flow in the sleep mode of an air conditioner in accordance with an embodiment of the present invention. The apparatus includes an input unit 100, an indoor temperature sensing unit 110, a control unit 120, a compressor drive unit 130, an indoor fan drive unit 140, a louver drive unit 150 and a display unit 160.

The input unit 100 includes a key operating unit or a remote control signal receiving unit for entering an operating mode (for example, a cooling, heating or sleep mode) and operating data, such as a control temperature (Ts), a designated air volume and a designated air direction. The indoor temperature sensing unit 110 detects the temperature (Tr) of the indoor air sucked into the indoor unit 10.

The control unit 120 is a microcomputer for controlling the cooling, heating or sleep mode operation according to the operating mode introduced by the input unit 100. In the sleep mode, the control unit 120 adjusts the angles of the slats 14a, 16a and 18a according to the results of the comparison between the indoor temperatures (Tr) and the control temperature (Ts) to control the air directions discharged through the discharge holes 14, 16 and 18, and adjusts differently the number of rotations of the indoor fan 22 according to whether a compressor 132 operates to control the volume of the discharged air.

In the sleep mode, the control unit 120 adjusts the angles of the slats 14a, 16a and 18a according to the results of the comparison between the interior temperatures (Tr) and the control temperature (Ts), thus controlling the directions of air discharged through the discharge holes 14, 16 and 18. The above air directions controlled by the control unit 120 are defined as follows.

First, the discharged air that has a direction, which is oriented directly to a user to perceive an air current, by adjusting the angles of the slats 14a, 16a and 18a, is defined as a direct wind, the discharged air which has a direction, which is not directly oriented to the user so that it does not perceive an air current, when adjusting the angles of the slats 14a, 16a and 18a, is defined as an indirect wind, and the discharged air that has a direction, which is intermittently oriented to the user to intermittently perceive an air current, when adjusting the angles of the slats 14a, 16a and 18a, is defined as an intermittent wind.

In this document, the intermittent wind is obtained by the alternative (rotating) movement of the slats 14a, 16a and 18a between an angle that produces direct wind and an angle that produces indirect wind. Particularly, the intermittent wind, which is obtained by the permanence of the slats 14a, 16a and 18a at the angle produced by the direct wind for longer than at the angle produced by the indirect wind, is defined as a direct intermittent wind and the intermittent wind that is obtained by the permanence of the blades 14a, 16a and 18a at the angle produced by the indirect wind for longer than at the angle produced by the direct wind, is defined as an intermittent indirect wind.

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The angles of the slats 14a, 16a and 18a that produce direct wind, indirect wind, intermittent direct wind and indirect intermittent wind and the times to expel direct wind, indirect wind, intermittent direct wind and indirect wind Flashing are stored in a read-only memory table of the control unit 120.

For example, in the column-type air conditioner, in which air is discharged from three surfaces, in accordance with the present invention, when the front blade 18a rotates in the downward direction, the air discharged through the front discharge hole 18 produces a direct wind, and when the front blade 18a rotates in the horizontal or upward direction, the air discharged through the front discharge hole 18 produces an indirect wind. In addition, when the left and right laths 14a and 16a rotate in the convergent direction, the air discharged through the left and right discharge holes 14 and 16 produces a direct wind, and when the left and right laths 14a and 16a rotate in the divergent direction, the air discharged through the left and right discharge holes 14 and 16 produces an indirect wind.

Therefore, as a result of the comparison between the internal temperature (Tr) and the control temperature (Ts), when the internal temperature (Tr) is lower than the control temperature (Ts) (Tr <Ts), the unit 120 control controls the directions of the air discharged through the discharge holes 14, 16 and 18 to produce indirect wind, when the internal temperature (Tr) is not lower than that of the control unit (Ts) and is not higher at the control temperature (Ts) + P (Ts <Tr <Ts + P), the control unit 120 controls the directions of the air discharged through the discharge holes 14, 16 and 18 to produce the intermittent indirect wind, and when the internal temperature (Tr) is higher than the control temperature (Ts) + P (Tr> Ts + P), the control unit 120 controls the directions of the air discharged through the holes 14, 16 and 18 discharge to produce intermittent direct wind. Here, the control temperature (Ts) may be a temperature, which is set by a user, or a temperature pattern, which is programmed in the sleep mode.

The compressor drive unit 130 controls the operation of the compressor 132 in accordance with the control signal of the control unit 120, and the indoor fan drive unit 140 controls the operation of the indoor fan 22 in accordance with the control signal of control unit 120.

The blade drive unit 150 includes the gradual speed motors 14b, 16b and 18b for controlling the positions and turning angles of the slats 14a, 16a and 18a to adjust the directions of the air discharged through the holes 14, 16 and 18 discharge according to the control signal of the control unit 120.

The display unit 160 shows the operating status and the error mode of the air conditioner according to the display control signal of the control unit 120. The display unit 160 visually shows the directions of the slats 14a, 16a and 18a, which are changed in phases, thus informing a user of the current addresses of the lamas 14a, 16a and 18a.

Hereinafter, a procedure for controlling an air flow in the sleep mode of an air conditioner using the previous apparatus will be described.

First, the discharged air that has an address, which causes the user to directly perceive an air stream, is defined as direct wind, the discharged air that has a direction, which causes the user to not directly perceive the airflow, is defined as indirect wind, and the discharged air that has a direction, which causes the user to intermittently perceive an air current, is defined as an intermittent wind. Particularly, the intermittent wind, in which the time to expel the direct wind is greater than the time to expel the indirect wind, is defined as a direct intermittent wind, and the intermittent wind, in which the time to expel the indirect wind it is longer than the time to expel the direct wind, it is defined as an intermittent indirect wind.

In the column-type air conditioner, in which air is discharged from three surfaces, in accordance with the present invention, when the front plank 18a rotates in the downward direction and the left and right planks 14a and 16a rotate in the convergent direction, the air discharged through the discharge holes 14, 16 and 18 produces a direct wind, and when the front slat 18a rotates in the horizontal direction or upwards and the slats 14a and 16a left and right rotate in the divergent direction, the Air discharged through the discharge holes 14, 16 and 18 produces an indirect wind. In addition, when the front plank 18a rotates up and down and the planks 14a and 16a left and right turn right and left, the air discharged through the discharge holes 14, 16 and 18 produces an intermittent wind .

Figure 3 is a flow chart illustrating a method for controlling an air flow in the sleep mode of an air conditioner in accordance with the present invention. Hereinafter, a cooling operation of the air conditioner will be described.

First, an operating mode (for example, a cooling, heating or sleep mode) and operating data (for example, a sleep mode operating time, a control temperature, are introduced into the control unit 120) etc. in the sleep mode) corresponding to the operating mode through the input unit 100 according to the user's instructions.

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The control unit 120 determines whether a sleep mode (S200) is entered. When it is determined that the sleep mode is not entered, the control unit 120 drives the compressor 132 through the compressor drive unit 130, and adjusts the positions of the slats 14a, 16a and 18a and the volume of air discharged by the indoor fan 22 in accordance with the values set by the user, thus performing normal cooling operation (S202).

As a result of the determination, when it is determined that the sleep mode is entered, the control unit 120 determines whether the sleep mode operating time is entered through the input unit 100 according to the user's instructions, before the sleep mode is activated (S204). When it is determined that the sleep mode operating time is not entered, the control unit 120 sets the sleep mode operating time to a default value (approximately 8 hours), which is predetermined in the control unit 120 (generally , a period from the time of bedtime when getting out of bed) (S206).

When it is determined that the sleep mode operating time is entered, the control unit 120 determines whether the control temperature (Ts) in the sleep mode is entered through the input unit 100 according to the user's instructions ( S208). When it is determined that the control temperature (Ts) is not entered in the sleep mode, the control unit 120 sets the control temperature (Ts) to a default value, which is predetermined in the control unit 120, (S210 ).

As described above, when the operating time of the sleep mode and the control temperature (Ts) in the sleep mode are entered into the control unit 120 according to the user's instructions or set to the default values, the control unit 120 detects an indoor temperature (Tr) through the indoor temperature sensing unit 110 to control the air directions in the sleep mode (S212).

The control unit 120 compares the interior temperature (Tr) detected with the control temperature (Ts, approximately 27 ~ 28 ° C) (S214). As a result of the comparison, when it is determined that the detected interior temperature (Tr) is lower than the control temperature (Ts), an interior space has temperature conditions that reduce the temperature of the user's skin to lie down, and thus the control unit 120 controls the air discharged from the discharge ports 14, 16 and 18 so that it has a direction to produce an indirect wind in order to minimize the operation of a nerve center that controls the temperature of a human body (S216).

On the other hand, when it is determined that the detected indoor temperature (Tr) is not lower than the control temperature (Ts), the control unit 120 determines whether the indoor temperature (Tr) is not lower than the control unit (Ts ) and is not greater than the control temperature (Ts) + P (here, P is approximately 1 ° C) (S218). When it is determined that the interior temperature (Tr) is not lower than that of the control unit (Ts) and is not higher than the control temperature (Ts) + P, the interior space has temperature conditions that maintain a comfortable state of the temperature of the user's skin to lie down and thus the control unit 120 controls the air discharged from the discharge holes 14, 16 and 18 so that it has a direction to produce an intermittent indirect wind (S220).

On the other hand, when it is determined that the detected interior temperature (Tr) is greater than the control temperature (Ts) + P, the interior space has temperature conditions, which raise the temperature of the user's skin and, therefore, , the control unit 120 controls the air discharged from the discharge ports 14, 16 and 18 so that it has a direction to produce a direct intermittent wind to prevent the skin temperature from rising (S222).

As described above, the control unit 120 controls the directions of the air discharged from the discharge holes 14, 16 and 18 to produce the indirect wind, the intermittent indirect wind or the intermittent direct wind according to the results of the comparison between the internal temperature (Tr) and the control temperature (Ts), which allows the user to intermittently perceive a stream of air and comfortably maintain the temperature of the user's skin. In addition, the control unit 120 increases the control temperature (Ts), as compared to the sleep mode of the conventional air conditioner, thereby reducing energy consumption.

Thereafter, the control unit 120 determines whether the predetermined sleep mode operating time (S224) has elapsed. When it is determined that the sleep mode operation time has not elapsed, the procedure returns to step S212. Thus, in the sleep mode, the control unit 120 detects the indoor temperature (Tr), which changes, and continuously controls the directions of the air discharged from the discharge holes 14, 16 and 18 to produce the indirect wind, the indirect intermittent wind and direct intermittent wind.

On the other hand, when it is determined that the sleep mode operation time has elapsed, the control unit 120 stops the operations of all loads, thus terminating the operation of the air conditioner in the sleep mode.

Hereinafter, a procedure for adjusting a number of rotations of the indoor fan 22 to save energy in the sleep mode of the air conditioner according to the present invention will be described.

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Fig. 4 is a flow chart illustrating a procedure for controlling an air flow in the sleep mode of an air conditioner by adjusting a number of rotations of an indoor fan to save energy in accordance with another embodiment of the present invention. Some elements of Figure 4 are substantially the same as those of Figure 3, and their detailed description will be omitted because it is considered unnecessary.

In Figure 4, an operating mode (for example, a cooling, heating or sleep mode) and operating data (for example, a sleep mode operating time, a control temperature, etc. in the mode are entered) sleep) corresponding to the operating mode in the control unit 120 through the input unit 100 according to the user's instructions.

The control unit 120 determines whether a sleep mode (S300) is entered. When it is determined that the sleep mode is not entered, the control unit 120 performs normal cooling operation (S302).

As a result of the determination, when it is determined that the sleep mode is entered, the control unit 120 determines whether the sleep mode operating time is entered through the input unit 100 according to the user's instructions, before the sleep mode is activated (S304). When it is determined that the sleep mode operating time is not entered, the control unit 120 sets a sleep mode operating time, which is predetermined in the control unit 120, to a default value (S306).

When it is determined that the sleep mode operating time is entered, the control unit 120 determines whether the control temperature (Ts) in the sleep mode is entered through the input unit 100 according to the user's instructions ( S308). When it is determined that the control temperature (Ts) is not entered in the sleep mode, the control unit 120 sets a control temperature (Ts), which is predetermined in the control unit 120, to a default value (S310 ).

As described above, when the sleep mode operating time and the control temperature (Ts) in the sleep mode are entered in the control unit 120 according to the user instructions or set to the default values, the control unit 120 detects an indoor temperature (Tr) through the indoor temperature sensing unit 110 to turn the compressor 132 on or off (S312).

The control unit 120 determines whether the compressor 132 is turned on by comparing the indoor temperature (Tr) with the control temperature (Ts) (S314).

When it is determined that the compressor is turned on, the control unit 120 establishes that the minimum number of rotations of the indoor fan 22 is greater than that of the indoor fan 22 when the compressor is off (S316). That is, the minimum number of rotations of the indoor fan 22 is set at approximately 300 RPM.

When it is determined that the compressor is turned off, the control unit 120 establishes that the minimum number of rotations of the indoor fan 22 is smaller than that of the indoor fan 22 (approximately, 300 RPM) when the compressor is on, as much as Q (approximately , 50 RPM) (S318). That is, the minimum number of rotations of the indoor fan 22 is set at approximately 250 RPM.

The minimum number of rotations of the indoor fan 22 when the compressor 132 is off is less than that of the indoor fan 22 when the compressor 132 is on, thus reducing the user's sensitivity to an air current when the discharged air produces an indirect wind at the time that reduces energy consumption.

Next, the control unit 120 determines whether the predetermined sleep mode operating time (S320) has elapsed. When it is determined that the sleep mode operation time has not elapsed, the procedure returns to step S312. Thus, in the sleep mode, the control unit 120 detects the indoor temperature (Tr), which has changed, and adjusts the minimum number of rotations of the indoor fan 22 by determining whether the compressor 132 is turned on or off according to the result of the comparison between the internal temperature (Tr) and the control temperature (Ts).

On the other hand, when it is determined that the sleep mode operation time has elapsed, the control unit 120 stops the operation of all the loads, thus terminating the operation of the air conditioner in the sleep mode.

As is evident from the above description, the present invention provides an apparatus and method for controlling an air flow in the sleep mode of an air conditioner, in which the directions of the air discharged through the discharge orifices are they adjust differently according to the results of the comparison between an indoor temperature and a control temperature in the sleep mode to provide a comfortable resting environment for the user, and the control temperature increases to reduce energy consumption.

In addition, since the volume of the discharged air is controlled by adjusting a number of rotations of an indoor unit in accordance with the activation of a compressor, the energy consumption is thus reduced while reducing

User sensitivity to air flow.

Although embodiments of the invention have been shown and described, those skilled in the art will appreciate that changes can be made to these embodiments without departing from the scope defined in the claims.

Claims (9)

5 10 fifteen twenty 25 30 35 40 Four. Five fifty 55 1. A method for controlling an air flow in the sleep mode of an air conditioner having at least one slat to adjust the directions of the discharged air, comprising: determine (S200) if the sleep mode is entered; detect (S212) an indoor temperature, when it is determined that the sleep mode is entered; and compare (S214, S218) the interior temperature detected with an established control temperature, and adjust (S216, S220, S222) the directions of the discharged air according to the comparison results, characterized in that the adjustment of the air directions Discharged includes controlling the directions of the discharged air to produce one selected from the group consisting of an indirect wind, an intermittent indirect wind and a direct intermittent wind according to the results of the comparison, in which the intermittent indirect wind is produced by rotating the at least one lama (14a, 16a, 18a), so that the time to position the at least one lama at angles, in which a user does not directly perceive the air flow, is longer than the time to position the less a slat at angles, in which the user directly perceives the air flow, when the indoor temperature is not lower than the control temperature and does not s higher than a first temperature, which is higher than the control temperature. 2. The method according to claim 1, wherein the control temperature is set by user instructions. 3. The method according to claim 1, wherein the control temperature is set to a default value, to which it is predetermined. 4. The method according to claim 1, wherein the indirect wind is produced by positioning the at least one blade (14a, 16a, 18a) at angles, in which a user does not directly perceive the air flow, when the indoor temperature is lower than the control temperature. 5. The method according to claim 1, wherein the intermittent direct wind is produced by rotating the at least one blade (14a, 16a, 18a), so that the time to position the at least one blade at angles, in those that a user directly perceives the air flow, is longer than the time to position the at least one slat at angles, in which the user does not directly perceive the air flow, when the indoor temperature is higher than the first temperature. 6. An apparatus for controlling an air flow in the sleep mode of an air conditioner, comprising: at least one strip (14a, 16a, 18a) to adjust the directions of the discharged air; an input unit (100) for selecting an operating mode according to the user's instructions; a temperature detection unit (110) for detecting an indoor temperature when the sleep mode is selected by the input unit (100); Y a control unit (120) for comparing the detected indoor temperature with an established control temperature and for adjusting the directions of the at least one slat according to the results of the comparison, in order to control the directions of the discharged air, characterized in that the control unit (120) is adapted to control the directions of the discharged air by turning the at least one blade, so that the time to position the at least one blade at angles, in which the user does not directly perceive the current of air, is longer than the time to position at least one slat at angles, in which the user directly perceives the air flow, to produce an intermittent indirect wind, when the indoor temperature is not lower than the control temperature and It is not higher than a first temperature, which is higher than the control temperature. 7. The apparatus according to claim 6, wherein the control unit (120) is adapted to control the directions of the discharged air by positioning the directions of the at least one slat (14a, 16a, 18a) at angles to produce an indirect wind, in which a user does not directly perceive the air flow, when the indoor temperature is lower than the control temperature. The apparatus according to claim 6, wherein the control unit (120) is further adapted to control the directions of the discharged air by rotating the at least one blade, so that the time to position the at least one blade at angles, in which a user directly perceives the air flow, it is longer than the time to position the at least one slat at angles, in which the user does not directly perceive the air flow, to produce a direct intermittent wind , when the indoor temperature is higher than the first temperature. 9. The apparatus according to claim 6, further comprising an indoor fan (22) for controlling the volume of the discharged air, wherein the control unit (120) is further adapted to determine if a compressor (132) operates according to the results of the comparison, and adjusts differently the minimum number of rotations of the indoor fan (22) according to the results of the determination.