KR0159622B1 - Sterilization device of an airconditioner - Google Patents

Abstract

The present invention relates to a sterilization apparatus of an air conditioner, which is installed inside an interior main body and evaporates to endotherm by heat exchange with indoor air sucked through an inlet, and is provided below the evaporator to cool air heat exchanged by the evaporator indoors. Indoor fan forcibly blown by air, a first ultraviolet lamp installed at the rear of the evaporator to sterilize airborne germs contained in the indoor air, and discharge air forced by the indoor fan to be guided to the room. A sterilizing apparatus for an air conditioner having a louver for adjusting, comprising: a collecting part supported by a bracket provided below the evaporator to collect condensed water formed by heat exchange in the evaporator; A first transparent window provided at a bottom of the collecting part so that ultraviolet rays emitted from below the collecting part can pass; A second transparent window provided near the louver and provided on the bracket facing the first transparent window to allow ultraviolet light to pass therethrough; And ultraviolet rays through the first transparent window to sterilize harmful bacteria remaining in the condensate collected in the water collecting unit, and sterilize the discharged air that is sterilized by the first ultraviolet lamp and forcedly blown by the indoor fan. A second ultraviolet lamp is provided between the first transparent window and the second transparent window so as to irradiate ultraviolet rays through the second transparent window so that the ultraviolet rays are reflected by the louver.

Description

Sterilizer of Air Conditioner

The present invention relates to a sterilization apparatus of an air conditioner, and in particular, by installing an ultraviolet lamp between the collecting portion and the discharge port of the air conditioner to sterilize harmful bacteria remaining in the condensate and airborne bacteria contained in the indoor air, The present invention relates to a sterilizing apparatus for an air conditioner that allows ultraviolet rays to be reflected to discharge blue discharge air into a room.

In general, a separate room air conditioner (hereinafter, abbreviated to room air conditioner) is used to cool a room while continuously performing a refrigerant cycle of compressing, condensing, expanding, and evaporating refrigerant by a compressor, a condenser, a capillary tube, and an evaporator. This separate type air conditioner is an indoor unit equipped with an evaporator inside which absorbs heat from indoor air as the refrigerant evaporates, an outdoor unit equipped with a condenser that discharges heat by exchanging heat with outdoor air as the refrigerant condenses and a compressor compressing the refrigerant at high temperature and high pressure. Each of the indoor unit and the outdoor unit are provided separately from the indoor and outdoor sides.

1 is a cross-sectional view of an indoor unit to which a sterilizer of an air conditioner according to the prior art is applied, the evaporator 2 being installed inside the interior main body 1 and heat-exchanging by endothermic heat exchange with indoor air sucked through the inlet 5; UV lamp 4 which is provided at the rear of the evaporator 2 and irradiates ultraviolet rays to sterilize airborne bacteria contained in the indoor air, and cold air that is provided below the evaporator 2 and heat exchanged by the evaporator 2 An indoor fan (3) forcibly blown into the room, a water collecting part (7) for collecting condensate formed by cooling and condensation by the temperature difference between the room temperature and the evaporator temperature in the process of heat exchange by the evaporator (2), and the indoor fan ( The louver 6 is provided to guide the discharged air forcedly blown by the driving of 3) to the room to adjust the wind direction.

In the sterilizer of an air conditioner according to the prior art, when power is applied by a user, the controller (not shown) drives the ultraviolet lamp 4 for a predetermined time to sterilize and then drives the compressor and the indoor fan 3 (not shown). Meanwhile, the louver 6 is opened. Accordingly, the indoor air is sucked into the indoor main body 1 through the suction port 5, and heat exchange with the indoor air sucked by the evaporator 2 is performed. The cold air heat exchanged by the evaporator 2 is discharged to the room as the indoor fan 3 is driven. As described above, when the operation of discharging the sterilized and heat-exchanged air into the room continues for a predetermined time, condensed water due to heat exchange is formed on the surface of the evaporator 2 and flows down to the bottom of the evaporator 2 to be collected in the water collecting unit 7. In addition, the controller detects the indoor temperature through a temperature sensor (not shown), adjusts the output of the compressor according to the detected difference between the detected indoor temperature and the set temperature set by the user, and drives the compressor for a predetermined time. The compressor is stopped. In addition, the control unit sterilizes the indoor air sucked into the indoor main body 1 by driving the ultraviolet lamp 4 when a predetermined time elapses after the driving of the compressor is stopped.

However, in the sterilization apparatus of the air conditioner according to the prior art, when performing the cooling operation, the suction amount of the indoor air is appropriate and the sterilization operation by the ultraviolet lamp 4 is performed relatively well. As the rotation speed of the indoor fan increases, the suction amount of the indoor air increases relatively, and the air volume of the cold air discharged into the room increases, while the irradiation amount of the ultraviolet lamp 4 is kept constant so that the sterilization operation is insufficient. There was a drawback made.

In addition, the condensate collected in the water collecting unit 7 is separated from the ultraviolet lamp 4 so that a part of the ultraviolet light is not transmitted slightly, and the condensate collected in the water collecting unit 7 of the opaque material cannot be sterilized. there was.

An object of the present invention is to disperse the condensed water and the discharge air by passing the ultraviolet rays of the ultraviolet lamp installed between the collecting portion and the discharge port to sterilize condensed water and the discharge air, and to reflect the ultraviolet rays by the louver to discharge the blue discharge air into the room. It is to provide a sterilizer of the air conditioner to make it feel visually cool.

1 is a cross-sectional view of an indoor unit to which a sterilizer of an air conditioner according to the prior art is applied.

2 is a cross-sectional view of the indoor unit to which the sterilizer of the air conditioner according to the present invention is applied.

3 is a control block diagram for a sterilization apparatus of an air conditioner according to the present invention.

4 is a flowchart illustrating a control method in the sterilization apparatus of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

10: evaporator 20: indoor fan

30: catchment part 40: louver

41: discharge port 50: suction port

60,70 UV lamp 61,62 Transparent window

An object of the present invention as described above is installed in the interior of the main body and the heat exchanged by the heat absorbed by the indoor air sucked through the inlet and the endotherm, provided in the lower side of the evaporator for the indoor forced air blowing the heat exchanged by the evaporator to the room A fan, a first ultraviolet lamp installed at the rear of the evaporator to sterilize the airborne bacteria contained in the indoor air, and a louver for controlling the wind direction by guiding the discharged air forced by the indoor fan to the indoors; A sterilizing apparatus for an air conditioner, comprising: a collecting part supported by a bracket provided below the evaporator to collect condensed water formed by heat exchange in the evaporator; A first transparent window provided at a bottom of the collecting part so that ultraviolet rays emitted from below the collecting part can pass; A second transparent window provided near the louver and provided on the bracket facing the first transparent window to allow ultraviolet light to pass therethrough; And ultraviolet rays through the first transparent window to sterilize harmful bacteria remaining in the condensate collected in the water collecting unit, and sterilize the discharged air that is sterilized by the first ultraviolet lamp and forcedly blown by the indoor fan. It is achieved by a second ultraviolet lamp provided between the first transparent window and the second transparent window so as to irradiate ultraviolet rays through the second transparent window so that the ultraviolet light is reflected by the louver.

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

2 is a cross-sectional view of an indoor unit to which a sterilizer of an air conditioner according to the present invention is applied. As shown, the present invention is installed in the interior of the main body 11, the evaporator 10 and the endotherm by heat exchange with the indoor air sucked through the inlet 50, provided below the evaporator 10, the evaporator ( An indoor fan 20 forcibly blowing cold air heat-exchanged by 10) into the room, a first ultraviolet lamp 70 installed at the rear of the evaporator 10 and sterilizing airborne bacteria contained in the indoor air; Cooling by the temperature difference between the room temperature and the evaporator temperature in the process of heat exchange by the louver 40 and the evaporator 10 to guide the discharge air forcedly blown by the drive of the indoor fan to the room and the evaporator 10. A water collecting unit 30 for collecting condensate formed by condensation, a first transparent window 61 provided at a bottom of the water collecting unit 30 so as to transmit ultraviolet rays, and facing the first transparent window 61. The second transparent window 62 provided in the bracket 63 and the house Sterilizes the condensate collected in the unit 30, sterilizes the discharged air forcedly blown by the indoor fan 20, and the first transparent window 61 so that the ultraviolet rays are reflected by the louver 40. The second ultraviolet lamp 60 is provided between the second transparent window 62.

The water collecting part 30 is supported by a bracket 63 provided under the evaporator 10, and the first transparent window 61 and the second transparent window 62 are ultraviolet rays through which ultraviolet rays can pass. Permeate glass is used.

In addition, since the temperature difference between the room temperature and the set temperature is large, powerful cooling is performed to drive the indoor fan and the compressor to a set temperature within a short time by driving the indoor fan and the compressor at a higher rotation speed than the normal cooling operation. By opening the louver 40 at the time of forming the discharge port 41, blue ultraviolet light emitted from the ultraviolet lamp 60 is reflected by the louver 40 into the room to discharge the blue discharge air. do. Accordingly, the user in the room can immediately confirm that the strong cooling is performed, and can visually feel cool.

The first ultraviolet lamp 70 is suspended in the indoor air sucked into the interior of the main body 11 in conjunction with a compressor driven in a multi-step by the difference between the indoor sensing temperature and the indoor set temperature during the cooling operation and strong cooling Sterilize.

The second ultraviolet ray lamp 60 is driven during intense cooling with a large temperature difference between a room temperature and a set temperature than during normal cooling operation, and irradiates ultraviolet rays. The ultraviolet rays irradiated to the water collecting part 30 are the first transparent rays. It penetrates the window 61 to sterilize harmful bacteria remaining in the condensate collected in the water collecting unit 30. In addition, the ultraviolet rays irradiated to the louver 40 passes through the second transparent window 63 and sterilizes the airborne bacteria contained in the indoor air forcedly blown by the indoor fan 20 and at the same time the louver ( 40) is reflected into the room. Accordingly, the second ultraviolet ray may be forcedly blown by the indoor fan 20 without being completely sterilized by the first ultraviolet ray lamp 70 in the case of strong cooling with a large amount of suction of the indoor air than the normal cooling operation. Sterilization is again performed by ultraviolet rays emitted from the lamp 60.

The first and second ultraviolet lamps 70 and 60 irradiate the ultraviolet rays of the germicidal line and the ozone generating line by turning on the low-pressure mercury discharge tube. It destroys and sterilizes genes (DNA) in the cells of the included suspended bacteria (fungus spores, various bacteria, etc.). In addition, the ozone generating line of 185 nm ionizes oxygen (O ₂ ) in the air to generate ozone (O ₃ ). Deodorization takes place by disassembling.

3 is a control block diagram of a sterilizing apparatus of an air conditioner according to the present invention, an indoor temperature detecting unit 110 for detecting an indoor temperature, and an indoor temperature setting unit 120 for setting a desired indoor temperature of a user. And, a function selection unit 130 for setting the operation type and operating conditions of the air conditioner, an input power supply unit 140 for supplying power, and a compressor that forms a component of the refrigeration cycle and compresses the refrigerant at high temperature and high pressure. Compressor driving unit 170 to control the rotational speed of the indoor fan 20, the indoor fan driving unit 150 for adjusting the air flow rate, and to adjust the wind direction in accordance with the operating conditions set in the function selection unit 130 A louver driver 160 driving the louver 40, an ultraviolet lamp driver 180 driving the first ultraviolet lamp 70 and the second ultraviolet lamp 60 during a strong cooling operation, and the room temperature Room temperature and the room detected by the detection unit 110 The controller 100 controls the output of the compressor driver 170 and the indoor fan driver 150 and controls the driving of the ultraviolet lamp driver 180 by the temperature difference of the set temperature set in the internal temperature setting part 120. It is provided.

When performing the cooling operation, the control unit 100 drives the compressor and the indoor fan 20, which are not shown, to cool the air, and also drives the first ultraviolet lamp 70 to irradiate ultraviolet rays to be included in the indoor air. The suspended bacteria are sterilized. The indoor air sterilized by the first ultraviolet lamp 70 is forcibly blown by the driving of the indoor fan 20 and guided by the louver 40 to be discharged into the room. On the other hand, the control unit 100 to cool the indoor air by driving the compressor and the indoor fan 20 when the strong cooling is performed, the first ultraviolet lamp 70 and the second ultraviolet lamp 60 By driving all of them to sterilize the airborne bacteria contained in the indoor air as well as to sterilize the harmful bacteria remaining in the condensate collected in the water collecting unit 30 to discharge the blue discharge air into the room.

Hereinafter, the control method in the case where the sterilizing apparatus of the air conditioner according to the present invention performs the strong cooling will be described according to the operation flowchart of FIG.

4 is a flowchart illustrating a control method of the sterilization apparatus of the air conditioner according to the present invention. First, when power is applied in step S10, the operation type desired by the user is set according to the current air conditioning condition. When the strong cooling is set in step S15, the temperature difference between the room temperature and the set temperature set by the user is calculated to drive the compressor and the indoor fan 20 at a higher rotational speed than the normal cooling operation.

In addition, the indoor air sucked into the indoor main body 11 by the driving of the indoor fan 20 in step S20 is sterilized by the driving of the first ultraviolet lamp 70 and the second ultraviolet lamp 60. After sterilization again by the driving of the light guided by the louver 40 and discharged into the room, blue ultraviolet light emitted from the second ultraviolet lamp 60 passes through the first transparent window 61 to condense water. In addition to sterilization, the second transparent window 62 is penetrated by the louver 40 to the room, and the blue discharge air is discharged into the room, so that the user can confirm that the powerful cooling is performed and visually. You can feel cool.

When the strong cooling is not completed in step S25, the process returns to step 20 to continue driving the first ultraviolet lamp 70 and the second ultraviolet lamp 60, and when the strong cooling is completed, in step S30 The driving of the first ultraviolet lamp 70 and the second ultraviolet lamp 60 is turned off to stop the operation of sterilizing floating bacteria contained in the condensed water and the discharged indoor air.

As described above, the sterilizing apparatus of the air conditioner according to the present invention sterilizes the airborne bacteria contained in the indoor air by driving the second ultraviolet lamp 60 at the time of intense cooling and collects the condensate collected in the collecting part 30. By sterilizing the remaining harmful bacteria always keeps the air conditioning space comfortable, there is an effect that can prevent diseases caused by harmful bacteria and floating bacteria. In addition, when strong cooling, blue ultraviolet light emitted from the second ultraviolet ray lamp 60 is reflected by the louver 40 and discharges the blue discharge air into the room, the user can immediately confirm that the strong cooling is performed. There is an effect that can feel cool visually.

Claims (1)

The evaporator 10 installed inside the indoor main body 11 and heat-exchanging with the indoor air sucked through the suction port 50, and the cold air provided under the evaporator 10, the heat exchanged by the evaporator 10 Indoor fan 20 for forcibly blowing air into the room, a first ultraviolet lamp 70 installed at the rear of the evaporator 10 and sterilizing suspended bacteria contained in the indoor air, and driving of the indoor fan 20. In the sterilizing apparatus of the air conditioner having a louver 40 for guiding the discharged air forced by the air into the room to adjust the wind direction, the evaporator is supported by a bracket (63) provided below the evaporator (10) A collecting part 30 for collecting condensate formed by heat exchange at 10; A first transparent window 61 provided at a bottom of the collecting part 30 so that ultraviolet rays irradiated from below the collecting part 30 can pass; A second transparent window (62) provided near the louver (40) and provided in the bracket (63) facing the first transparent window (61) to allow ultraviolet light to pass therethrough; And ultraviolet rays through the first transparent window 61 to sterilize harmful bacteria remaining in the condensed water collected in the water collecting unit 30, and sterilized by the first ultraviolet lamp 70 to be sterilized by the indoor fan 20. The first transparent window 61 is irradiated with ultraviolet rays through the second transparent window 62 so as to sterilize the discharged air forcedly blown by the air), and the ultraviolet rays are reflected by the louver 40. And a second ultraviolet ray lamp (60) provided between the second transparent window (62).