KR20170140527A - Air conditioner - Google Patents

Abstract

According to an embodiment of the present invention, disclosed is an air conditioner including: an indoor unit body having an air inlet formed therein, an air passage formed therein through which air passes, and an air outlet formed therein through which the air having passed through the air passage is discharged to the outside; an indoor heat exchanger disposed in the air passage and evaporating a refrigerant; a fan disposed in the air passage, and configured to suction air into the air inlet and allow the air to be passed through the air passage and then to be blown into the air outlet; an ultraviolet lamp configured to irradiate ultraviolet rays to at least one of the air passage and the air outlet; and an infrared lamp configured to irradiate infrared rays to the indoor heat exchanger, wherein when either the ultraviolet lamp or the infrared lamp is on, the other is off. Accordingly, the present invention is able to realize both sterilization of air and drying of an indoor heat exchanger, and provide more comfortable air to a room.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner having an indoor heat exchanger for exchanging heat between a refrigerant and air.

Background Art [0002] An air conditioner is a device for creating a more comfortable indoor environment for a user, and is a device for cooling and heating a room by using a refrigerating cycle of a refrigerant composed of a compressor, a condenser, an expansion mechanism and an evaporator.

The air conditioner may include an indoor heat exchanger for exchanging indoor air with the refrigerant.

The air conditioner can perform air conditioning operation such as cooling operation, heating operation, air blowing operation, and the like. In such an air conditioning operation, air can be discharged to the room after passing through the indoor heat exchanger.

Meanwhile, in recent years, a technique of mounting an ultraviolet lamp for irradiating ultraviolet rays on an air conditioner has been developed, and an ultraviolet lamp can be installed inside the air conditioner and irradiate ultraviolet rays into the air conditioner.

KR 10-2013-0125436 A (published November 19, 2013) KR 10-2004-0083416 A (published Aug. 26, 2005) KR 10-2003-0022617 A (published March 17, 2003)

It is an object of the present invention to provide an air conditioner capable of effectively sterilizing air by ultraviolet rays and drying indoor heat exchangers by infrared rays.

An air conditioner according to an embodiment of the present invention includes an indoor unit body having an air inlet formed therein and having an air discharge passage through which air passing through the air passage is discharged to the outside; An indoor heat exchanger disposed in the flow path and evaporating the refrigerant; A fan disposed in the flow passage and sucking air into the air intake port, passing the air through the air passage, and blowing air to the air discharge port; An ultraviolet lamp that emits ultraviolet rays to at least one of the flow path and the air outlet; And an infrared lamp for irradiating infrared rays to the indoor heat exchanger, wherein when either one of the ultraviolet lamp and the infrared lamp is on, the other is off.

The ultraviolet lamp may be turned on or off during operation of the air conditioner, and the infrared lamp may be turned on or off during operation stop of the air conditioner.

A cleanliness sensor for detecting air cleanliness; A humidity sensor for sensing the humidity of the flow path; When the fan is operating and the cleanliness level detected by the cleanliness sensor is outside the set cleanliness range, the ultraviolet lamp is turned on, and when the operation stoppage time of the air conditioner is longer than the set time and the humidity detected by the humidity sensor is outside the set humidity range The control unit may turn on the infrared lamp.

The controller may turn off the infrared lamp when the humidity detected by the humidity sensor is outside the set humidity range while the infrared lamp is on.

The control unit may turn off the infrared lamp when the operation of the air conditioner is started while the infrared lamp is on.

The cleanliness sensor may be disposed between the air inlet and the indoor heat exchanger in the flow passage, the air inlet, and one side of the indoor unit body.

The humidity sensor may be mounted on the indoor heat exchanger.

The ultraviolet lamp may be disposed between the air outlet of the flow passage and the indoor heat exchanger or the air outlet, and the infrared lamp may be installed to face the indoor heat exchanger.

According to the embodiment of the present invention, the air can be comfortably sterilized during operation of the air conditioner, the indoor heat exchanger can be comfortably dried at the time of stopping the operation of the air conditioner, There is an advantage that a pleasant air can be supplied.

In addition, there is an advantage that both the indoor and the air conditioner can be maintained comfortably while minimizing power consumption by optimally controlling the ultraviolet lamp and the infrared lamp.

In addition, there is an advantage that the cooling performance of the indoor heat exchanger can be minimized by the infrared rays irradiated from the infrared lamp.

In addition, it is possible to prevent the infrared lamp from being damaged by the ultraviolet ray irradiated from the ultraviolet lamp.

FIG. 1 is a view showing the inside of an air conditioner according to an embodiment of the present invention.
2 is a control block diagram of an air conditioner according to an embodiment of the present invention.
3 is a flowchart illustrating an operation method of an air conditioner according to an embodiment of the present invention.

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

FIG. 1 is a block diagram of an air conditioner according to an embodiment of the present invention, and FIG. 2 is a control block diagram of an air conditioner according to an embodiment of the present invention.

The air conditioner includes an indoor unit body 10 having an air inlet 1 formed therein and an air discharge port 2 through which a passage P through which air passes, ; An indoor heat exchanger (20) disposed in the flow path (P) and evaporating the refrigerant; A fan (30) disposed in the flow path (P) and sucking air into the air inlet (1) to pass through the flow path (P) and blowing air to the air outlet (2); An ultraviolet lamp (40) for emitting ultraviolet rays to at least one of the flow path (P) and the air discharge port (2); An infrared lamp 50 for irradiating infrared rays to the indoor heat exchanger 20 and an ultraviolet lamp 40 and an infrared lamp 50 may be off when either one of them is turned on.

The air conditioner of this embodiment may be constituted by a ceiling type air conditioner, or may be constituted by a wall-mounted type air conditioner or a stand type air conditioner, and is not limited to the installation position.

The indoor unit body 10 can form an appearance of the air conditioner. The indoor unit body 10 may be composed of a combination of a plurality of members. The indoor unit body 10 may include a suction body 11 formed with an air inlet 1 and a discharge body 12 having an air outlet 2 formed therein.

The indoor unit body 10 may further include a body body 13 in which the blower 20 and the indoor heat exchanger 30 are housed. A flow path P for guiding the air sucked into the air inlet 1 to the air outlet 2 may be formed in the body 13.

The indoor heat exchanger (20) may include a refrigerant tube through which the refrigerant passes. The indoor heat exchanger 20 may further include a heat transfer fin Fin coupled to the refrigerant tube.

The fan 30 can suck air in the room through the air inlet 1 and flow it to the indoor heat exchanger 20 and blow the air exchanged with the refrigerant in the indoor heat exchanger 20 to the air outlet 2 . The fan 30 can be installed in the indoor unit body 10 in the flow path P and can be disposed between the air inlet 1 and the indoor heat exchanger 20 in the air flow direction, It is possible to arrange it between the unit 20 and the air outlet 2.

The ultraviolet lamp 40 may be disposed in the flow path P between the air outlet 2 and the indoor heat exchanger 20 or at the air outlet 2. The ultraviolet lamp 40 may be installed in the indoor unit body 10 and at least a part of the flow path P may be disposed between the air outlet 2 and the indoor heat exchanger 20. The ultraviolet lamp 40 may be provided to emit ultraviolet rays in a direction orthogonal to the air discharge direction.

The ultraviolet lamp 40 may be installed to emit ultraviolet (UV) light in a direction orthogonal to the flow direction of the air. The ultraviolet lamp 40 may be installed such that the ultraviolet irradiation surface faces the inside of the indoor unit body 10. [ The ultraviolet lamp 40 may be a light source for irradiating one of UV-A, UV-B, and UV-C. The light irradiated from the ultraviolet lamp 40 can sterilize bacteria such as Escherichia coli directly.

The ultraviolet lamp 40 can emit ultraviolet rays to the flow path P or the air discharge port 2 when the air conditioner is in operation and the air passing through the flow path P or the air discharge port 2 can be sterilized . Here, the operation of the air conditioner may be an operation in which the fan 30 forcibly flows air, and may be a operation in which the fan 30 is driven such as cooling operation, heating operation, air blowing operation, and the like. The air in the room can be circulated through the air passage P and the room by the fan 30. The air conditioner can purify the air with ultraviolet rays during the operation such as cooling operation, heating operation, air blowing operation and the like. The air conditioner preferably turns on the ultraviolet lamp 40 while air is being flown by the fan 30. In this case, the air in the room can be quickly cleaned.

The infrared lamp (50) can be installed facing the indoor heat exchanger (20). The infrared lamp 50 may be a far-infrared lamp that irradiates the far-infrared rays to the indoor heat exchanger 20.

The far-infrared rays irradiated from the infrared lamp 50 have various beneficial properties such as antibacterial, deodorization, sterilization, dehumidification, and air purification, and are long wavelengths ranging from 5 to 25 μm, The molecules of the object can be easily vibrated and heat can be generated by itself, and the temperature of the indoor heat exchanger 20 can be raised.

It is preferable that the infrared lamp 50 does not irradiate the far infrared ray to the indoor heat exchanger 20 while the cold refrigerant passes through the indoor heat exchanger 20. [

When the infrared lamp 50 irradiates the far-infrared rays to the indoor heat exchanger 20 while the cold refrigerant passes through the indoor heat exchanger 20, the temperature of the indoor heat exchanger 20 rises or the temperature of the indoor heat exchanger 20 And the sterilization effect of the indoor heat exchanger 20 due to far-infrared rays may be insufficient.

It is preferable that the infrared lamp 50 emits far-infrared rays to the indoor heat exchanger 20 when the air conditioner is in operation and the inside of the air conditioner is humid.

The air conditioner includes a cleanliness sensor (60) for detecting air cleanliness; A humidity sensor (70) for sensing the humidity of the flow path (P); And a control unit (80) for controlling the ultraviolet lamp (40) and the infrared lamp (50).

The cleanliness sensor 60 can be disposed on one side of the flow path P between the air inlet 1 and the indoor heat exchanger 20 and between the air inlet 2 and the indoor unit body 10. [

The cleanliness sensor 60 may include a dust sensor for detecting a dust amount, a gas sensor for detecting a harmful gas in the air, and the like. It is needless to say that the cleanliness sensor 60 can be installed at a position exposed to the room of the air conditioner, and can be installed inside the air conditioner. The cleanliness sensor 60 is preferably installed between the air inlet 1 and the indoor heat exchanger 20 when the cleanliness sensor 60 is installed inside the air conditioner.

The humidity sensor 70 preferably measures the humidity of the space where the indoor heat exchanger 20 is located. The humidity sensor 70 may be mounted to the indoor heat exchanger 20. The humidity sensor 70 can be mounted on the indoor unit body 10 as close as possible to the indoor heat exchanger 20 when the humidity sensor 70 is not mounted on the indoor heat exchanger 20. [

The control unit 80 can selectively turn on the ultraviolet lamp 40 and the infrared lamp 50. [ The on-infrared lamp 50 of the ultraviolet lamp 40 may be off and the on-ultraviolet lamp 40 of the infrared lamp 50 may be off.

The control unit 80 can turn the ultraviolet lamp 40 on and off during operation of the air conditioner and can turn the infrared lamp 50 on and off while the air conditioner is in operation.

The air conditioner is capable of optimally sterilizing and purifying the air by the selective turning on of the ultraviolet lamp 40 and the infrared lamp 50 , And the indoor heat exchanger can be sterilized and dried.

The control unit 80 can turn on the ultraviolet lamp 40 when the fan 30 is in operation and the air cleanliness detected by the cleanliness sensor 60 is outside the set cleanliness range.

The control unit 80 can turn off the ultraviolet lamp 40 when the fan 30 is stopped or the air cleanliness degree detected by the cleanliness sensor 60 is within the set cleanliness range during on-time of the ultraviolet lamp 40. [

The control unit 80 can turn on the infrared lamp 50 when the operation stop time is equal to or longer than the set time and the humidity detected by the humidity sensor 50 is outside the set humidity range. The control unit 80 can turn off the infrared lamp 50 when the humidity detected by the humidity sensor 50 is within the set humidity range during the warming of the infrared lamp 50. [ The control unit 80 can turn off the infrared lamp 50 when the set time is completed after turning on the infrared lamp 50. [

The air conditioner can perform a pleasant drying mode in which the ultraviolet lamp 40 can perform a pleasant sterilization mode in which the air is sterilized and the infrared lamp 50 dries the indoor heat exchanger 20. [

The air conditioner may further include an input unit 90 through which a user can input various modes. The input unit 90 may be a remote controller such as a remote controller for remotely controlling the air conditioner. The input unit 90 may be provided with a pleasant sterilization mode input unit capable of inputting the start of the pleasant sterilization mode. The input unit 90 may be provided with a pleasant disinfection mode option input unit for inputting an option of a comfortable disinfection mode. The input unit 90 may be provided with a comfortable drying mode input unit capable of inputting the start of the comfortable sound mode. The input unit 90 may be provided with a comfortable drying mode option input unit for inputting a comfortable drying mode option.

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

When the air conditioner is in operation, the control unit 80 can drive the fan 30 and perform air conditioning operations such as cooling operation, heating operation, air blowing operation, and air blowing operation in accordance with the input of the user or the air conditioning environment in the room (S1) (S2)

In the air conditioning operation, the air in the room is sucked into the air inlet 1, sucked into the indoor unit body 10, discharged to the air outlet 2 after passing through the indoor heat exchanger 20, The cleanliness sensor 60 periodically senses the degree of cleanliness of the air and outputs it to the control unit 80.

The controller 80 can sense the current cleanliness according to the sensed value of the cleanliness sensor 60 and compare the sensed cleanliness with the set cleanliness range. Here, the set cleanliness range may be a range when the indoor is clean. The controller 80 can turn on the ultraviolet lamp 40 when the degree of cleanliness is outside the set cleanliness range.

The air that has passed through the flow path P in the indoor unit body 10 is sterilized by the ultraviolet rays irradiated from the ultraviolet lamp 40. In this case, the ultraviolet lamp 40 is turned on during the air conditioning operation, . When the fan 30 is driven and the ultraviolet lamp 40 is turned on, the pleasant sterilization mode can be started.

Air sterilized by the ultraviolet ray lamp 40 can be discharged to the room through the air discharge opening 2. [ The air in the room can be sterilized by the ultraviolet lamp 40 while circulating through the indoor unit body 10 and the room during the air conditioning operation, and the air in the room can be sterilized comfortably.

The air conditioner can be stopped by the user's input or the like and the control unit 80 can stop the fan 30 during the air conditioning operation and the comfortable sterilization mode.

The control unit 80 can turn off the ultraviolet lamp 40 with the stop of the fan 30. (S5) (S7)

The control unit 80 may turn off the ultraviolet lamp 40 according to the detection value of the cleanliness sensor 60 while the fan 30 continues to be driven. The control unit 80 can turn off the ultraviolet lamp 40 if the degree of cleanliness sensed by the cleanliness sensor 60 is within the set cleanliness range after the ultraviolet lamp 40 is turned on. The comfort sterilization mode when the ultraviolet lamp 40 is off is ended.

When the operation of the air conditioner is stopped, the control unit 80 can count the time that the operation stop is continued and compare the operation stop time with the set time. (S11)

Here, the set time is a time set for judging the start of the comfortable drying mode, for example, a specific time such as 1 hour, 2 hours, 10 hours, etc. may be set.

The air conditioner can detect the humidity and output the humidity sensor 70 to the control unit 80. The control unit 80 controls the operation of the infrared lamp 70 in consideration of the operation stop time and the detection value of the humidity sensor 70 50 can be turned on.

The control unit 80 can turn on the infrared lamp 50 when the operation stop time is equal to or longer than the set time and the humidity detected by the humidity sensor 70 is outside the set humidity range (S11) (S12) (S13)

Here, the set humidity range may be a humidity range with insufficient mold or odor due to the moisture of the indoor heat exchanger 20, and may be a predetermined range. The set humidity range can be set such that the humidity ranges from 0% to 60%.

The control unit 60 can turn on the infrared lamp 50 when the operation stop time is equal to or longer than the set time and the humidity detected by the humidity sensor 70 exceeds the maximum value of the set humidity range.

The on-infrared lamp 50 of the infrared lamp 50 can irradiate the far-infrared ray to the indoor heat exchanger 30, and the air conditioner can start the pleasant drying mode during the operation stop. The far infrared rays irradiated from the infrared lamp 50 can minimize the generation of odor and mold due to the residual moisture on the surface of the indoor heat exchanger 30 and the indoor heat exchanger 30 can be dried comfortably.

The control unit 80 can determine that the infrared lamp 50 is turned off according to the humidity sensed by the humidity sensor 70 after the infrared lamp 50 is turned on.

The controller 80 can turn off the infrared lamp 50 when the humidity sensed by the humidity sensor 70 is detected to be within the set humidity range during the warming-up of the infrared lamp 50. (S14)

The control unit 80 can turn off the infrared lamp 50 when the operation of the air conditioner is inputted through the input unit 90 while the infrared lamp 50 is on. Air conditioning operation such as cooling operation, heating operation, air blowing operation, and air blowing operation is inputted through the input unit 90 while the infrared lamp 50 is on, or the air conditioning operation such as the heating operation, the air blowing operation, The air conditioning operation can be automatically resumed. In this case, the control unit 80 can turn off the infrared lamp 50. [

After the infrared lamp 50 is turned off, the air conditioner can restart the air conditioning operation such as cooling operation, heating operation, air blowing operation, air blowing operation, etc., and the air in the room can be restored to the indoor heat exchanger 20 And the odor or the like is not discharged into the room when the air conditioning operation resumes.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: indoor unit body 20: indoor heat exchanger
30: fan 40: ultraviolet lamp
50: infrared lamp 60: cleanliness sensor
70: Humidity sensor 80:

Claims (8)

An indoor unit body having an air inlet formed therein and having an air discharge passage through which air passing through the air passage is discharged to the outside;
An indoor heat exchanger disposed in the flow path and evaporating the refrigerant;
A fan disposed in the flow passage and sucking air into the air intake port, passing the air through the air passage, and blowing air to the air discharge port;
An ultraviolet lamp that emits ultraviolet rays to at least one of the flow path and the air outlet;
And an infrared lamp for irradiating infrared rays to the indoor heat exchanger,
Wherein one of the ultraviolet lamp and the infrared lamp is on when the other is off. The method according to claim 1,
The ultraviolet lamp is turned on and off during operation of the air conditioner,
Wherein the infrared lamp is turned on and off during operation stop of the air conditioner. The method according to claim 1,
A cleanliness sensor for detecting air cleanliness;
A humidity sensor for sensing the humidity of the flow path;
When the fan is operating and the cleanliness level detected by the cleanliness sensor is outside the set cleanliness range, the ultraviolet lamp is turned on,
And a control unit for turning on the infrared lamp when the operation stoppage time of the air conditioner is longer than the set time and the humidity detected by the humidity sensor is outside the set humidity range. The method of claim 3,
Wherein the controller turns off the infrared lamp when the humidity sensed by the humidity sensor is outside the set humidity range during the infrared lamp is on. The method of claim 3,
Wherein the control unit turns off the infrared lamp when the operation of the air conditioner is started while the infrared lamp is on. The method of claim 3,
The cleanliness sensor is disposed between the air intake port and the indoor heat exchanger in the flow channel, the air inlet port, and one side of the indoor unit body. The method of claim 3,
And the humidity sensor is installed in the indoor heat exchanger. The method according to claim 1,
Wherein the ultraviolet lamp is disposed between the air outlet of the flow passage and the indoor heat exchanger or the air outlet,
And the infrared lamp is installed facing the indoor heat exchanger.

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