KR20090009100U - Air Conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and an object of the present invention is to provide an air conditioner that can create a comfortable sleeping environment for the user by changing and controlling the set temperature on the bedtime operation based on the user's temperature (temperature).

To this end, the air conditioner according to the present invention includes a temperature sensing unit for sensing a temperature of a user; And a control unit for comparing the user's temperature sensed by the temperature sensing unit with the reference temperature when switching to the sleep operation, and changing the set temperature on the sleep operation according to the comparison result.

Description

Air Conditioner

The present invention relates to an air conditioner, and more particularly to an air conditioner that can create a comfortable sleeping environment for the user.

In general, an air conditioner is a device used to perform cooling or heating of a room, and circulates a refrigerant between an indoor unit and an outdoor unit to absorb ambient heat when the liquid refrigerant evaporates and release the heat when liquefied. The cooling or heating action is performed by the characteristic of the air conditioner, and the cooling or heating action of the air conditioner is determined according to the circulation direction of the refrigerant.

In recent years, the creation of a comfortable environment by the air conditioner has been required to add a more special function, the functions provided in the product is acting very large in the part to increase the purchasing power for the product.

In fact, the air conditioner simply starts with a function of warming or cooling the room temperature, and recently, a function of purifying the air has been added to create a comfortable environment including room temperature and indoor air.

Thus, one of the special functional modes of the air conditioner is the sleep mode. The sleep mode is a mode in which a comfortable sleep environment is formed in a user's sleep state. In general, the user's exercise amount is little during sleep and the ambient temperature decreases. To adjust.

In connection with the sleep operation, Korean Patent Publication No. 1994-007007 discloses a control method for changing the conditions of the sleep operation according to the amount of activity of the user when performing the sleep operation. According to the publication, the activity detection pulse of the user is counted during the sleep operation, the number of counted activity detection pulses is compared with a set value, and the air volume is controlled according to the result.

However, in the case of the activity detection pulse proposed in the above-described prior art, only the degree of activity (activity / inactivity) of the user can be recognized, but there is a problem in that the fine detection is not performed so that it can be used as a control variable. Even if the air volume is controlled using the number of activity detection pulses, the user's comfort during sleep is mainly influenced by the room temperature, not the air volume (airflow). There is a problem that is difficult to form.

Accordingly, an object of the present invention is to solve the above-described problems, and an object of the present invention is to change and control a setting temperature in bedtime operation based on a user's temperature (body temperature) to create a comfortable sleeping environment for a user. In providing.

Air conditioner according to the present invention for achieving the above object is a temperature sensing unit for sensing the temperature of the user; And a control unit for comparing the user's temperature sensed by the temperature sensing unit with the reference temperature when switching to the sleep operation, and changing the set temperature on the sleep operation according to the comparison result.

The controller may increase the set temperature on the sleep operation by a predetermined temperature when the temperature of the user is equal to or less than the reference temperature as a result of the comparison.

In addition, the said reference temperature is 34.5 degreeC.

In addition, the said predetermined temperature is 1 degreeC.

The apparatus may further include an illuminance sensor configured to detect an illuminance of the room, and the controller may switch to the sleep mode when the state in which the illuminance detected by the illuminance sensor during the normal operation is less than a first reference illuminance lasts for a predetermined time. .

The controller may switch to the normal operation when the indoor illuminance detected by the illuminance sensor during sleep operation is equal to or greater than a second reference illuminance.

According to the present invention has an effect that can provide a comfortable sleeping environment to the user by changing and controlling the set temperature on the bedtime operation based on the user's temperature (body temperature).

In addition, according to the present invention, the effect can be enhanced for the user's convenience by automatically switching from the normal driving to the sleep operation or from the sleep operation to the normal (weather) operation based on the indoor illumination (avoiding the trouble of the operation of the sleep operation key and Weather induced effects).

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

1 is a perspective view of an air conditioner according to an embodiment of the present invention. As shown in FIG. 1, the air intake unit 12 (hereinafter, referred to as an air conditioner) is formed at both sides of the lower side of the air inlet 12 so that indoor air is sucked in. Discharge openings 14 are formed on both sides of the upper portion so as to be discharged back into the room.

The discharge port 14 is provided with a louver 16 for opening and closing the discharge port 14 as well as adjusting the wind direction of the discharged air, and a drive motor 18 for driving the louver 16 above the louver 16. ) Is installed.

If a variable reluctance type stepping motor with excellent rotation angle resolution is used as the driving motor 18, not only the stepwise direction change of the louver 16, but also the swing mode requiring continuous direction change freely It can be implemented as, in addition to any power unit can be used as long as it can implement the stepwise and continuous direction change of the louver (16).

Therefore, the louver 16 is connected to the rotation axis of the drive motor 18 in accordance with the drive of the drive motor 18, the rotation angle is changed, the wind direction of the air discharged through the discharge port 14 in accordance with the changing rotation angle And the discharge port 14 is opened and closed according to the position of the default angle.

In addition, the inside of the air conditioner 10, the indoor heat exchanger 20 for heat-exchanging the indoor air sucked through the inlet 12 to the cold or warm air by the latent heat of evaporation of the refrigerant, and the heat exchanger in the indoor heat exchanger 20 An indoor fan 22 for blowing the air is provided.

In addition, the upper portion of the front of the air conditioner 10, the temperature sensing unit consisting of a thermal sensor 32 and the step motor 34 to grasp the temperature information in the space (air conditioning space) is installed air conditioner ( 30 is installed, and the upper end of the temperature sensing unit 30 is provided with an illuminance sensing unit 40 for sensing the illuminance in the air conditioning space (indoor).

As shown in FIG. 2, the air conditioner according to an embodiment of the present invention includes a power supply unit 50, an input unit 60, a temperature sensing unit 30, an illuminance sensing unit 40, a control unit 70, and a driving unit ( 80) and a display unit 90.

The power supply unit 50 converts the commercial AC voltage supplied from the AC power supply terminal (not shown) into a predetermined DC voltage necessary for the operation of the indoor unit, and outputs it.

The input unit 60 allows the user to input an operation mode (automatic, cooling, dehumidification, blowing, heating, sleeping, etc.) of a desired air conditioner, start / stop of operation, set temperature, and set air volume of the discharged air. A plurality of keys are included in the front panel or the remote controller of (10).

The temperature sensor 30 measures temperature information in the air conditioning space, and a thermopile sensor which amplifies a voltage output by reading infrared rays to detect a heat source in the air conditioning space and outputs the temperature as a temperature detection voltage. 32; hereinafter referred to as a heat sensor) and a step motor 34 which horizontally reciprocates the heat sensor 32 horizontally at regular intervals in order to scan the overall temperature information in the air conditioning space (indoor). It is configured to include.

The illuminance detector 40 detects the illuminance in the air conditioning space (indoor) and provides the illuminance information to the controller 70.

The controller 70 is a microcomputer that controls the overall operation of the air conditioner 10 such as cooling and heating according to the operation mode input through the input unit 60, and the temperature sensing unit 30 when switching from the normal operation to the sleep operation. By comparing the user's temperature and the reference temperature sensed by), and changing the set temperature on the bedtime operation according to the comparison result to provide a comfortable sleeping environment to the user.

In addition, the controller 70 compares the indoor illuminance sensed by the illuminance sensor 40 with the reference illuminance, and controls to automatically switch from normal operation to sleep operation or from sleep operation to normal (weather operation) according to the comparison result. As a result, the user's convenience can be achieved (a cumbersome avoidance of wake-up operation key operation and a weather induction effect).

The driving unit 80 includes a drive motor 18 for driving the louver 16 to adjust the discharge wind direction according to the control signal of the controller 70, an indoor fan motor 24 for changing the discharge air volume, and an air conditioning space (indoor). Controls the driving of the step motor 34 to horizontally reciprocate the heat sensor 32 in order to scan the temperature information.

The display unit 90 is an air conditioner such as an operation mode (automatic, cooling, dehumidifying, blowing, heating, sleeping, etc.) input by the user through the input unit 60 according to a control signal of the control unit 70, a set temperature, an indoor temperature, and the like. Displays the operation status of

Hereinafter, the operation control operation of the air conditioner according to an embodiment of the present invention with reference to FIG.

First, normal operation (normal cooling or heating operation) is performed according to an operating condition (set temperature, set air volume, etc.) input by the user through the input unit 60 (105). While the general driving is performed, the illuminance sensor 40 periodically detects the illuminance of the indoor space and provides the illuminance to the controller 70 in real time (110).

Thereafter, the controller 70 determines whether the detected indoor illuminance is equal to or less than the first reference illuminance for a predetermined time (eg, 1 minute) (115). Here, the first reference illuminance is a reference illuminance for switching to sleep operation, and the interior light such as fluorescent lights existing in an indoor space (air conditioning space) is turned off, and the illuminance of a state in which an auxiliary light or a television placed on a bed is turned on ( About 5 lux).

As a result of the determination in step 115, if the state in which the room illuminance is equal to or less than the first reference illuminance does not continue for the set time (NO in step 115), the control unit 70 determines that the user has not yet started to sleep, and in step 105 Return to control to continue normal operation.

On the other hand, if the determination result that the indoor illuminance is less than the first reference illuminance for a predetermined time (YES in step 115), the control unit 70 determines that the user has started to sleep (determined as an elevation step) and switches to sleep operation. The control is performed to 120.

Thereafter, the temperature sensor 30 scans the overall temperature information (temperature information according to the angle) of the indoor space while reciprocating in the horizontal direction every predetermined time by driving the step motor 34, and then determines that the user (human body) is a user. By taking only the temperature information (about 30 ~ 38 ℃) within the range to detect the user's temperature (body temperature) (125).

Next, the controller 70 determines whether the detected user's temperature is equal to or higher than the reference temperature (130). Here, the reference temperature is a skin temperature at which the user feels comfortable when sleeping, and is set at 34.5 ° C.

If the user's temperature is equal to or higher than the reference temperature (YES in step 130), the controller 70 controls the sleep operation according to a preset sleep operation algorithm (sleep time or a set temperature algorithm according to the step). This is controlled to be performed (135).

On the other hand, if the user's temperature is less than the reference temperature (NO in step 130), the control unit 70 determines that the user's temperature (body temperature) is rather low, and sets the predetermined temperature in the sleeping operation to a predetermined temperature (eg : 1 ° C.) and control to perform the sleep operation (140). This is to prevent problems such as the user getting a cold or the sleep efficiency is lowered by performing the bedtime operation at a predetermined temperature even in a state where the user's body temperature is low to feel a little cold.

Even while the sleep operation is performed, the illuminance sensor 40 periodically detects the illuminance of the indoor space and provides the illuminance to the controller 70 in real time (145).

Thereafter, the controller 70 determines whether the detected indoor illuminance is greater than or equal to the second reference illuminance (150). Here, the second reference illuminance is a reference illuminance for switching to normal operation (weather operation) and set to an illuminance (approximately 50 lux) in which sunlight is incident through a glass window provided in an indoor space (room or living room) at dawn. do.

If it is determined in step 150 that the indoor illuminance is equal to or less than the second reference illuminance (NO in step 150), the controller 70 determines that the day is not bright yet, and returns to step 135 to control to continue the sleep operation. do.

On the other hand, if the indoor illumination is greater than or equal to the second reference illuminant (YES in step 150), the controller 70 determines that the day is bright (it is determined that the weather time has been reached), and ends the sleep operation control and wakes up. Control by switching to inducible general operation (155).

Thereafter, the controller 70 determines whether the operation end signal is input from the input unit 60 (160), and if the operation end signal is not input (NO in step 160), returns to step 105 to continuously perform normal operation. When the operation end signal is input (YES in step 160), the air conditioning operation is terminated.

1 is a perspective view of an air conditioner according to the present invention.

2 is a control block diagram of an air conditioner according to the present invention.

3 is a flowchart illustrating a sleep operation control operation of an air conditioner according to an embodiment of the present invention.

* Description of symbols on the main parts of the drawings *

10: air conditioner (indoor) 30: temperature sensing unit

32: thermal sensor 34: step motor

40: illuminance detection unit 70: control unit

80 drive unit

Claims (6)

A temperature sensor for sensing a temperature of a user; An air conditioner including a control unit for comparing the user's temperature detected by the temperature sensing unit and the reference temperature when switching to the sleep operation, and changing the set temperature on the sleep operation according to the comparison result. The method of claim 1, The controller may increase the set temperature on the sleep operation by a predetermined temperature when the temperature of the user is equal to or less than the reference temperature as a result of the comparison. The method of claim 2, The reference temperature is 34.5 ℃ air conditioner The method of claim 2, The predetermined temperature is 1 ℃ air conditioner The method of claim 1, Further comprising an illuminance detecting unit for detecting the illuminance of the room, The control unit switches the air conditioner to the sleep mode when the state in which the indoor illuminance sensed by the illuminance sensor during the normal operation is equal to or less than a first reference illuminance lasts for a predetermined time. The method of claim 5, wherein The controller may switch to the normal operation if the indoor illuminance detected by the illuminance sensor during sleep operation is equal to or greater than a second reference illuminance.

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