KR20090003870A - Air condtioner - Google Patents

Abstract

An air-conditioner is provided to utilize indoor space effectively, and maintain humidity and temperature indoor at optimum condition. An air-conditioner comprises an air exhaust unit(54) in which air-conditioned air is drained; an air conditioning part(50) including a fan(62) ventilating air through the air exhaust unit; a humidifier(10) installed at the air conditioning part; and a water supply element(22) connected to the water supply source(20) in order to supply water into the humidifier. The humidifier comprises a water tank(12), a pump(14) which is installed in order to pump water inside the water tank; and a humidification panel(16) which is installed so that water pumped in the pump runs on.

Description

Air Conditioner {Air condtioner}

The present invention relates to an air conditioner, and more particularly, to an air conditioner air conditioner in which a humidifier is installed in an air conditioning unit, and a water supply mechanism connected to a water supply source is connected to the humidifier.

In general, an air conditioner is a device for cooling or heating a room using a refrigeration cycle including a compressor, a condenser, an expansion device, and an evaporator.

The air conditioner is always installed in an indoor room or a living room and occupies a space on one wall, and uses only cooling and heating as a main function in actual use. Therefore, the air conditioner is used for a limited period of time, compared to other household appliances. There is a short problem, there is a problem in that only the function of dehumidifying the indoor air during cooling does not humidify the room.

On the other hand, when the air conditioner and the conventional humidifier separately installed in the room, the utilization of the indoor space is not easy, and there is an inconvenience of filling the humidifier with water from time to time.

The present invention has been made in order to solve the above problems of the prior art, it is possible to humidify the room at the same time cooling and to improve the comfort of the room and to provide an air conditioner that can optimally maintain the humidity with the temperature of the room It is.

Another object of the present invention is to provide an air conditioner that does not require a water storage container for humidification, hygienic humidification, and ease of use.

Still another object of the present invention is to provide an air conditioner capable of discharging cold air containing moisture to provide cool and moist to the user.

An air conditioner according to the present invention for solving the above problems is an air conditioning unit including an air discharge unit for discharging air conditioning air, and a fan for blowing air through the air discharge unit; A humidifier installed in the air conditioning unit; And a water supply device connected to the water supply source to supply water to the humidifier.

Humidifier according to an embodiment of the present invention and the reservoir, a pump installed to pump the water of the reservoir; And a humidifying panel installed to flow water pumped from the pump.

The humidification panel is an indoor fountain installed in front of the air conditioning unit, or consists of a radiant heat panel.

 In the air discharge unit, a first air discharge port is formed on a surface facing the humidification panel, and a second air discharge port is formed on a surface other than the surface on which the first air discharge port is formed.

It is provided above the humidification panel, the first air outlet is formed on the lower surface of the air outlet unit, the second air outlet is formed on the front of the air outlet unit.

The air conditioner further includes a wind direction adjusting mechanism for adjusting the wind direction of the air discharged through the air discharge unit, wherein the wind direction adjusting mechanism opens and closes the first air discharge port and controls the wind direction. And a second wind direction adjusting mechanism for opening and closing the second air outlet and adjusting the wind direction.

Humidifier according to another embodiment of the present invention is a reservoir and a steam generator for heating the water of the reservoir; It includes a steam flow path for guiding the steam generated by the steam generator to the air conditioning flow path formed in the air conditioning unit.

The water supply source is a water pipe, and the water supply device includes a water supply hose having one end connected to the water pipe and the other end connected to the humidifier.

The water supply mechanism further includes a water filter installed in the water supply hose.

The water supply mechanism further includes a water supply valve for regulating water supplied through the water supply hose.

It further comprises a drainage mechanism for draining the water of the reservoir.

The air conditioning unit further includes an air suction unit through which indoor air is sucked, an air conditioning flow path for guiding air sucked into the air suction unit to the air discharge unit, and a heat exchanger for heat-exchanging air sucked into the air suction unit with the refrigerant. do.

In the air conditioner of the present invention configured as described above, since the humidifier is installed in the air conditioning unit and the humidifier and the air conditioning unit are integrally installed, the humidifier and the air conditioning unit can be utilized more efficiently when the indoor space is installed more efficiently. At the same time, the room can be humidified, which increases the comfort of the room, and has the advantage of maintaining the optimal humidity with the room temperature.The water supply unit connected to the water source is connected to the humidifier to keep the water necessary for humidification. Since it can be supplied, there is no need to fill the water with a humidifier at any time, there is an advantage that the ease of use is increased.

In addition, the air conditioner of the present invention includes an air-conditioning unit and a pump installed to pump the water of the reservoir and the reservoir; It consists of a humidification panel installed to flow the pumped water from the pump, there is an advantage that can be humidified in a simple and safe configuration.

In addition, the air conditioner of the present invention is composed of a humidification panel is an indoor fountain installed in front of the air conditioning unit, the humidification panel forms an aesthetics of the front part of the air conditioner, so that the decoration is improved and the air conditioner has the advantage of improving the interior interior. .

In addition, the air conditioner of the present invention has an advantage that the humidification panel is made of a radiant heat panel, which can directly cool the room even when the air conditioner is not operated.

In addition, since the air conditioner of the present invention has a first air discharge port formed on a surface of the air discharge unit facing the humidification panel, and can blow and humidify the room, the humidity of the room can be increased quickly and efficiently, and the first air discharge unit of the air conditioner The second air discharge port is formed on a surface other than the surface on which the air discharge port is formed, so that the air-conditioning air, that is, the cool air, can be discharged quickly into the room.

In addition, the air conditioner of the present invention includes a wind direction control mechanism for adjusting the wind direction of the air discharged through the air discharge unit, it is possible to concentrate the discharge of air toward any one of the front of the humidification panel and the air conditioner, the user There is an advantage that it can appropriately respond to the demands of the.

In addition, the air conditioner of the present invention includes a humidifier, a steam generator for heating the water of the reservoir, a steam flow path for guiding the steam generated by the steam generator to the air conditioning flow path formed in the air conditioning unit, There is an advantage that can quickly supply a large amount of moisture to the room than the blowing humidification.

In addition, the air conditioner of the present invention includes a water supply hose, one end is connected to the water supply pipe and the other end is connected to the humidifier, there is an advantage that can continuously humidify the room without a separate water reservoir.

In addition, the air conditioner of the present invention further comprises a water filter installed in the water supply hose, there is an advantage that can be hygienic humidification.

In addition, the air conditioner of the present invention further includes a water supply valve for intermitting the water supplied through the water supply hose, so that the user does not need to manually operate the water pipe, etc., so that the convenience of use is increased.

In addition, the air conditioner of the present invention further includes a drainage mechanism for draining the water of the reservoir, and can be emptied into the reservoir when the humidification function is not used, thereby preventing the growth of bacteria and the like that may occur when water remains in the reservoir for a long time. There is an advantage in that the hygiene can be improved.

In addition, the air conditioner of the present invention has the advantage of being able to conveniently dehumidify and humidify the interior of the room regardless of the season or climate, and to prevent cooling bottles and the like.

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

1 is a schematic diagram of an embodiment of an air conditioner according to the present invention, Figure 2 is a cross-sectional view of the air conditioner in one embodiment of the air conditioner according to the present invention, Figure 3 is a general view of an embodiment of an air conditioner according to the present invention 4 is a cross-sectional view of the air conditioner according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of the air conditioner according to an embodiment of the present invention. FIG.

1 to 5, the air conditioner according to the present embodiment, the humidifier 10 and the air conditioning unit 50 is integrally configured, and operates in a moisture blowing mode in which the room is humidified by the humidifier 10. Or, it is operated in the normal air conditioning mode in which the room is air-conditioned through the air conditioning unit 50, or is operated in the moisture air conditioning mode in which the room is humidified and simultaneously air-conditioned by the humidifier 10 and the air conditioning unit 50.

The humidifier 10 may be installed inside the air conditioner 50, or may be installed outside the air conditioner 50, and may be installed at the front of the air conditioner 50, and thus the front of the air conditioner. It demonstrates only to form the external part or whole part.

The humidifier 10 includes a reservoir 12 and a pump 14 installed to pump water of the reservoir 12; Humidification panel 16 is installed to flow the water pumped from the pump (14).

The reservoir 12 is formed in a box shape having an approximately upper surface open, and is installed to be located at the front lower portion of the air conditioning unit 50.

The pump 14 is provided at the rear, side, or bottom of the reservoir 12.

The humidification panel 16 is installed to be located above the reservoir 12 so that the water flowing down from the humidification panel 16 falls into the reservoir 12.

The humidification panel 16 may be made of an indoor fountain plate having a decorative beauty, or may be made of a radiant heat panel to be used for direct cooling when the air conditioner 50 is not operated.

On the other hand, the pump 14 is connected to the humidification hose 15 which is a flow path for guiding the pumped water to the upper portion of the humidification panel 16.

The humidifying hose 15 is disposed vertically long in the rear of the humidifying panel 16 so that the part which is not visible or visible from the outside is minimized.

One end of the humidifying hose 15 is connected to the pump 14, and passes through a hose through hole formed in the upper part of the humidifying panel 16 or over the upper part of the humidifying panel 16. It is installed to be disposed in front of the top.

  The humidifier 10 is connected to the water supply source 20 is connected to the water supply mechanism 22 for supplying water supplied from the water supply source 20 to the humidifier (10).

The water supply source 20 is a water pipe that is typically installed in a building such as a house and supplies water supplied from the outside to a house, and, in the case of a building such as an apartment, an interior I and a compartment in which an air conditioning unit 10 is installed. It is a water pipe provided in the attached porch B, and it demonstrates only to what is called water pipe installed in the veranda below.

The water supply device 22 includes a water supply hose 24 having one end connected to the water pipe and penetrating the wall between the room I and the veranda B, and the other end connected to the air conditioner, in particular the humidifier 10. .

  The water supply device 22 may further include a water filter 26 for purifying the water supplied through the water pipe and an aroma container in which the aroma liquid or the like is contained according to the preference of the consumer, in which case the water filter 26 ) Is preferably installed outside the humidifier 10 and the air conditioning unit 50 so as to replace / replenish the filter or the sealing liquid therein without disassembling the humidifier 10 and the air conditioning unit 50, Most preferably, the water supply hose 24 is provided at a portion located on the veranda.

 The water supply device 22 further includes a water supply valve 28 that intercepts the water supplied through the water supply hose 24. When the humidifier 10 is operated, the water supply device 22 supplies a water pipe in which the user or the like is a water supply source 20. When the humidifier 10 is not operated, the user or the like may lock the water supply pipe 20 as the water supply source 20, but the water supply valve 28 is included to supply water to the water supply valve 28 when the humidifier 10 is operated. It is preferable that the water supply valve 28 cuts off the water supply when the humidifier 10 is not operated.

  In addition, the air conditioner according to the present embodiment further includes a drain hole (30) for draining the water of the reservoir (12).

Drainage mechanism 30 is to prevent the harmful bacteria, such as harmful to the human body can be propagated in the water reservoir 12, if water remains in the reservoir 12 when not in use of the air conditioner, especially the humidifier 10, It includes a drain hose 32 for guiding the water of the reservoir 12 to the veranda (B) or the outdoor (O), and a drain valve 34 for controlling the water drained through the drain hose (32).

One end of the drain hose 32 is connected to the reservoir 12 and penetrates the wall between the interior I and the veranda B, and the other end may extend to the veranda B or the outdoor O. Here, the drain hose 32 may be connected to the drain pan 76 or the drain hose 78, the other end of which will be described later to allow the water to drain through the drain hose 78.

In addition, the humidifier 10 includes a water level sensor 36 for detecting the water level of the reservoir 12.

On the other hand, the air conditioning unit 50 is a part for cooling or heating the room using a refrigeration cycle, the indoor unit of the wall-mounted air conditioner, the indoor unit of the ceiling type air conditioner, or the indoor unit of the stand type air conditioner. It is also possible to include an integrated air conditioner, and will be described below by taking the indoor unit of the wall-mounted air conditioner as an example.

The air conditioning unit 50 includes an air suction unit 52 through which indoor air is sucked, and an air discharge unit 54 through which air conditioning air is discharged; A fan 62 which sucks air in the room through the air suction unit 52 and discharges it through the air discharge unit 54; The case 65 which forms the air-conditioning flow path 64 which guides the air sucked into the air suction unit 52 to the air discharge unit 54, and the air sucked through the air suction unit 52, the refrigerant and the heat exchanger And an indoor heat exchanger (68).

The air intake unit 52 is provided with an air intake port 51 through which the indoor air is sucked, and an air purification unit 53 such as a filter for purifying the air sucked from the room at the air intake port is installed.

The air suction unit 52 may be installed to be positioned below the humidifier 10, and may configure one side of the air conditioner 50 before, after, up, down, left, and right. The lower part of the air conditioner 50 will be described in such a way that the air discharged by the air discharge unit 54 is not diffused into the room I without being directly sucked into the air conditioner 50.

The air discharge unit 54 constitutes one side of the front, rear, top, bottom, left, and right sides of the air conditioner 50. When the humidifier 10 forms the appearance of the entire front part of the air conditioner, It is preferable to configure the upper side of the air conditioning unit 10, and when the humidifier 10 forms an external appearance of a part of the front part of the air conditioner, the air conditioning unit 10 is configured to discharge air toward the humidification panel 16. It is preferable to constitute the front upper part of the head).

In the air discharge unit 54, a first air discharge port 55 is formed on a surface facing the humidification panel 16, and a second air discharge port 56 is formed on a surface other than the surface on which the first air discharge port 55 is formed. do.

The air discharge unit 54 is formed such that the first air discharge port 55 is vertically opened at the front upper and upper positions of the humidifying panel, and the second air discharge port 56 is opened at the front and back.

The air conditioner further includes a wind direction adjusting mechanism for adjusting the wind direction of the air discharged through the air discharge unit 54. The wind direction adjusting mechanism may be formed of one wind direction adjusting mechanism for selectively opening and closing the first air outlet 55 and the second air outlet 56, and controlling the wind direction while opening and closing the first air outlet 55. It is also possible to include a first wind direction control mechanism (57) 58, and a second wind direction control mechanism (59) 60 for opening and closing the second air discharge port (56) and adjusting the wind direction. 10 and the first wind direction adjusting mechanism 57 and 58 and the second wind direction adjusting mechanism 59 to seal both the first air outlet 55 and the second air outlet 56 when not in use. It will be described as consisting of (60).

The first wind direction adjusting mechanisms 57 and 58 open and close the first air outlets 55 and first vanes 57 for adjusting the air direction of the air passing through the first air outlets 55 and the first vanes 57 and 58. And a first vane motor 58 provided on the bottom plate of the air discharge unit 54 to rotate the vanes 57.

The second wind direction adjusting mechanism (59) 60 opens and closes the second air outlet (56), and the second vane (59) for adjusting the wind direction of the air passing through the second air outlet (56), and the second A second vane motor 60 is installed on the front plate of the air discharge unit 54 to rotate the vanes 59.

The fan 62 is an indoor fan installed between the air intake unit 52 and the air discharge unit 54 and is connected to an indoor fan motor (not shown) installed in the air conditioner 50.

The case 65 is directly fixed to the wall by a fastening means with a screw or the like or mounted to an installation member such as a plate installed on the wall.

The case 65 may be formed in a box shape in which the front surface is open, and when the air suction unit 52 constitutes the lower side of the air conditioning unit 50, the front and bottom surfaces thereof are opened by the air suction unit 52. The bottom surface is covered.

That is, in the air conditioner according to the present embodiment, the remaining air conditioners 50 except for the air discharge unit 54 are disposed at the rear, and the water storage tank 12 is located at the front lower part among the front upper, lower, and middle parts of the air conditioner 50. ) Is disposed, the humidification panel 16 is located at the front center of the air conditioning unit 50, and the air discharge unit 54 is disposed at the front upper portion of the air conditioning unit 50.

The air conditioning unit 50 may be provided with a separate shielding panel that blocks the front of the case 65, but the reservoir 12 blocks the front lower portion of the case 65, the humidification panel 16 is the case 65 If the humidification panel 16 is formed to communicate with the front upper part of the case 65, a separate shielding panel becomes unnecessary structure.

On the other hand, the air conditioning unit 50 is connected to the outdoor unit 70 and the refrigerant pipe 71 installed in the outdoor (O) or veranda (B), hereinafter, the air conditioner to take the heat of the room and discharge it through the outdoor unit 70 It will be described as consisting of. The refrigerant pipe 71 is disposed through the wall between the room (I) and the veranda (R).

The outdoor unit 70 includes a compressor 72 for compressing a refrigerant, an outdoor heat exchanger 73 for condensing the refrigerant compressed by the compressor 72, and an expansion mechanism for expanding the refrigerant condensed in the outdoor heat exchanger 73 ( And an outdoor fan 74 and an outdoor fan motor 75 for blowing outdoor air to exchange heat with the outdoor heat exchanger 73.

In addition, the air conditioner according to the present embodiment is installed so that the water supply hose 24, the drain hose 32, and the like pass through the pipe through-holes formed in the wall to allow the refrigerant pipe 71 to pass therethrough.

2 to 5, reference numeral 76 denotes a drain pan receiving condensate dropped from the heat exchanger 68, and reference numeral 78 directs condensate dropped on the drain pan to the veranda (R) or the outdoor (O). It is a drain hose.

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

According to the present embodiment, the user inputs a mode such as a water blowing mode, a general air conditioning mode, and a water air conditioning mode, a pump 14 and a water supply valve 28 according to the input of the input unit 80; And a control unit 90 for controlling the drain valve 34, the first vane motor 58, the second vane motor 60, the indoor fan motor 63, the compressor 72, the outdoor fan motor 75, and the like. do.

When the water supply to the water reservoir 12 is required, such as in the initial stage of the water blowing mode or the initial air conditioning mode, the controller 90 may perform water supply to the water reservoir 12 only for a predetermined time and then cut water. And, of course, it is also possible to implement according to the water level detected by the water level sensor 36.

When the water supply to the reservoir 12 is required, such as when the control unit 90 is at the beginning of the water blowing mode, at the beginning of the water treatment air conditioning mode, or when the water of the reservoir 12 is lowered below the reference value, the water level sensor ( If the water level detected in the water level 36 is less than the set value, the water supply valve 28 controls the water supply valve 28 in the water supply mode so as to supply water, and if the water level detected by the water level sensor 36 is higher than the set value, the water supply valve 28 It is also possible to control the feed valve in the singular mode so that water stops feeding water.

Looking at the operation of one embodiment of the air conditioner according to the present invention configured as described above are as follows.

First, when the moisture blowing mode is input through the input unit 80, the controller 90 drives the indoor fan motor 63 and controls the first vane motor 58 in the open mode, as shown in FIG. 2. In addition, the second vane motor 60 is controlled in a hermetic mode, the water supply valve 34 is controlled in a water supply mode, and the pump 14 is driven.

In the water supply mode control of the water supply valve 34, the water in the water supply pipe 20 moves to the indoor side through the water supply hose 24 and is purified by passing through the water filter 26, and the water supply valve 34 is moved to the indoor side. Pass through) is put in the reservoir (12). The controller 90 controls the water supply valve 28 in the single water mode so that the water supply valve 28 stops supplying water when the water level detected by the water level sensor 36 is equal to or greater than a set value.

 Then, when the pump 14 is driven, the water in the reservoir 12 is pumped through the humidification hose 15 to the upper part of the front of the humidification panel 16 and flows along the front side of the humidification panel 16. Falling into the water, the water circulates through the front of the reservoir 12, the humidification hose 15, and the humidification panel 15.

In addition, in the open mode of the first vane motor 58, the first vane 57 is rotated to be disposed substantially vertically to open the first air outlet 55, and in the closed mode of the second vane motor 58. The two vanes 59 are arranged substantially vertically to close the second air outlets 56.

On the other hand, in the controlled state as described above, when the indoor fan motor 63 is driven, the indoor air is sucked into the air conditioning unit 50 through the air suction unit 52 of the air conditioning unit 50 and the indoor heat exchange. After passing through the group 68 without heat exchange, it is discharged through the first air outlet 55. The air discharged through the first air outlet 55 is in contact with water flowing along the front surface of the humidifying panel 16 while hitting the front surface of the humidifying panel 16 of the humidifier 10, and the moisture of the water is brought into the room I. In the room I, the air containing a large amount of moisture spreads widely, and the humidity of the room is increased.

On the other hand, when the stop of the moisture blowing mode is input through the input unit 80, the indoor fan motor 63 is driven to stop, the first vane motor 58 is controlled in a closed mode, and the drain valve 34 is drained. Control, and stops the pump (14).

In the control as described above, air containing a large amount of water is no longer discharged to the room I, and the water in the reservoir 12 is drained to the veranda R or the outside O through the drain hose 32.

On the other hand, when the general air conditioning mode is input through the input unit 80, the control unit 90 drives the indoor fan motor 63, as shown in Figure 3, the first vane motor 58 and the second vane At least one of the motors 60 is controlled in an open mode to drive the compressor 72 and to drive the outdoor fan motor 73.

Hereinafter, the control unit 90 controls the first vane motor 58 in the open mode in the normal air conditioning mode and also controls the second vane motor 60 in the closed mode so that the air conditioning air is rapidly spread to the lower part of the room. It is also possible to control the first vane motor 58 in a hermetic mode and to control the second vane motor 60 in an open mode so that the air conditioning air can quickly spread to the upper part of the room. The first vane motor 58 is controlled in a closed mode, and the second vane motor 60 is controlled in an open mode.

When the compressor 72 is driven, the refrigerant discharged from the compressor 72 is condensed while passing through the outdoor heat exchanger 73, and then expanded while passing through the expansion mechanism, and is moved to the indoor side through the refrigerant pipe 71. The refrigerant moved to the indoor side is evaporated while passing through the indoor heat exchanger 68 inside the air conditioner 50 and then moved to the outdoor side and circulated to the compressor 72.

Then, when the indoor fan motor 63 is driven, the indoor air passes through the air suction unit 52 of the air conditioning unit 50, is sucked into the air conditioning unit 50, and heat exchanged with the indoor heat exchanger 68 to cool. After passing through the second air discharge port 56 is discharged to the front of the air conditioner. At this time, the moisture in the air of the indoor (I) is condensed on the surface of the indoor heat exchanger (68) and then discharged to the veranda (B) or the outdoor (O) through the drain pan 76 and the drain hose 78, Humidity is lowered.

On the other hand, when the moisture air conditioning mode is input through the input unit 80, the control unit 90 controls the humidifier 10 as in the water blowing mode, as shown in Figure 4, and controls the air conditioning unit 50 in general Control as in the air conditioning mode.

That is, the controller 90 drives the indoor fan motor 63, drives the compressor 72, drives the outdoor fan motor 73, controls the water supply valve 34 to the water supply mode, and pumps 14. Drive.

In addition, the controller 90 may control only the first vane motor 58 in the open mode in the moisture air conditioning mode, and control the second vane motor 60 in the closed mode to discharge the high humidity cold air into the room. By controlling both the first vane motor 58 and the second vane motor 60 in the open mode, air conditioning air is rapidly spread to the upper part of the room while discharging air containing a large amount of water to the lower part of the room. It is also possible, and the following description will be limited to controlling both the first vane motor 58 and the second vane motor 60 in the open mode.

In the water supply mode control of the water supply valve 34, the water tank 12 contains water, and when the pump 14 is driven, the water in the water tank 12 is transferred to the front of the humidification hose 15 and the humidification panel 15 and the water tank. 12, the refrigerant when the compressor 72 is driven, the indoor heat exchanger 68 cools the surrounding air, and the first air outlet 55 is opened in the open mode of the first vane motor 58. In the open mode of the second vane motor 58, the second air outlet 56 is opened.

In addition, when the indoor fan motor 63 is driven, indoor air passes through the air suction unit 52 of the air conditioning unit 50, is sucked into the air conditioning unit 50, and is cooled by heat exchange with the indoor heat exchanger 68. After the discharge through the first air discharge port 55 and the second air discharge port 56. At this time, the air discharged through the first air outlet 55 is in contact with the water flowing along the front surface of the humidification panel 16 while hitting the front surface of the humidification panel 16 of the humidifier 10 to store the moisture of the room (I). The air spreads widely in the room I while being transported in the air, and the air discharged through the second air discharge port 56 is discharged in front of the air conditioner.

Figure 7 is a schematic diagram of another embodiment of the air conditioner according to the present invention, Figure 8 is a cross-sectional view of the air conditioner according to another embodiment of the air conditioner according to the present invention, Figure 9 is another embodiment of the air conditioner according to the present invention 10 is a cross-sectional view in a general air conditioning mode of the embodiment, FIG. 10 is a cross-sectional view in a moisture air conditioning mode of another embodiment according to the present invention, and FIG.

In the air conditioner according to the present embodiment, the humidifier 10 ′ generates steam with high humidity, that is, steam, and is discharged through the air discharge unit 54 of the air conditioning unit 50 ′. The basic configuration and operation of the water supply device 22 and the drainage device 30 are the same as or similar to those of the air conditioner according to the present invention, and thus the same reference numerals will be used, and detailed description thereof will be omitted.

In addition, the air conditioner 50 ′ includes an air intake unit 52, an air discharge unit 54, as in one embodiment of the air conditioner according to the present invention; A fan 62; Including the case 65 and the indoor heat exchanger 68, at least one position and the like may be different, the air intake unit 52 is disposed in front of the case 65, the case 65 Air discharge unit 55 is disposed on one side of the upper, lower, left, right.

The air discharge unit 54 may be formed separately from the air discharge port through which the air conditioning air is discharged, and the air discharge port through which the steam is discharged, respectively, and the air conditioning air and steam are discharged together through one air discharge port 55 '. In addition, it will be described below that at least one of air conditioning air and steam is discharged through one air outlet 55 '.

The air discharge unit 54 is provided with a vane 57 'that opens and closes the air discharge port 55' and controls the wind direction of the air discharged through the air discharge port, and a vane motor 58 'that rotates the vane. .

On the other hand, the humidifier (10 ') is a reservoir 112, a steam generator 114 for heating the water of the reservoir 112; It includes a steam flow path 115 for guiding the steam generated by the steam generator 114 to the air conditioning flow path formed in the air conditioner (50 ').

Reservoir 112 is formed in a box shape with an upper surface open, the reservoir 112 is coupled to the cover 116 covering the upper surface of the reservoir 112 so that steam generated therein flows out through the steam flow path 115. .

Here, the steam generator 114 is a heater for heating the water of the reservoir 112 above the temperature at which steam is generated, and is installed to be submerged in the water in the reservoir 112.

The steam flow path 115 is a flow path for guiding the water vapor generated in the reservoir 112 to the inside of the case 65 or to the air discharge unit 54, and is formed by a hose, a pipe, or the like, and an injection nozzle 116 at an end thereof. It is preferable that this be formed.

Reference numeral 52 'shown in Figs. 8 to 11 denotes an intake panel for opening and closing the air intake port 51.

12 is a control block diagram of another embodiment of an air conditioner according to the present invention.

In the air conditioner according to the present embodiment, the control unit 90 'is provided with an input unit 80 to supply a water supply valve 28, a drain valve 34, an indoor fan motor 63, a compressor 72, and an outdoor fan motor. 75 and the like, and the steam generator 114 and the vane motor 58 'are controlled.

Looking at the operation of another embodiment of the air conditioner according to the present invention configured as described above are as follows.

First, when the water blowing mode is input through the input unit 80, the controller 90 ′ controls the vane motor 58 ′ in the open mode, controls the water supply valve 34 in the water supply mode, and the steam generator 114. ) And the indoor fan motor (63).

In the open mode of the vane motor 58 ′, the vane 57 ′ opens the air discharge port 55, and when the water supply mode 34 controls the water supply mode, the water of the water supply pipe 20 is contained in the reservoir 12. In addition, power is applied to the steam generator 114 to heat water in the reservoir 112, and steam is generated in the reservoir 112 to be injected through the injection nozzle 116 of the steam passage 115.

When the indoor fan motor 63 is driven, indoor air passes through the air suction unit 52 of the air conditioning unit 50, is sucked into the air conditioning unit 50, and passes through the indoor heat exchanger 68 without heat exchange. After that, while being discharged through the air discharge port 55, the steam injected from the steam flow path 115 is carried to the room (I), the steam air is spread widely in the room (I), the humidity of the room is increased.

On the other hand, when the stop of the water blowing mode is input through the input unit 80, the control unit 90 'stops driving the indoor fan motor 63, controls the vane motor 58 in a sealed mode, drain valve 34 ) To control the drainage mode, and cuts off the power applied to the steam generator 114.

In the control as described above, air containing a large amount of water is no longer discharged to the room I, and the water in the reservoir 12 is drained to the veranda R or the outside O through the drain hose 32.

On the other hand, when the general air conditioning mode is input through the input unit 80, the controller 90 'drives the indoor fan motor 63, controls the vane motor 58' in the open mode, and controls the compressor 72. The outdoor fan motor 73 is driven.

In the open mode of the vane motor 58 ′, the vane 57 ′ opens the air discharge port 55, and the refrigerant discharged from the compressor 72 passes through the outdoor heat exchanger 73 when the compressor 72 is driven. It is condensed and then expanded while passing through the expansion mechanism, and is moved to the interior side through the refrigerant pipe (71). The refrigerant moved to the indoor side is evaporated while passing through the indoor heat exchanger 68 inside the air conditioner 50, and then moved to the outdoor side and circulated to the compressor 72.

Then, when the indoor fan motor 63 is driven, the indoor air passes through the air suction unit 52 of the air conditioning unit 50, is sucked into the air conditioning unit 50, and heat exchanged with the indoor heat exchanger 68 to cool. After that, it passes through the air discharge port 55 'and is discharged into the room. At this time, moisture in the air of the room I is condensed on the surface of the indoor heat exchanger 68, and the humidity of the room is lowered.

On the other hand, when the moisture air conditioning mode is input through the input unit 80, the control unit 90 'controls the humidifier 10' as in the water blowing mode, and controls the air conditioning unit 50 as in the normal air conditioning mode. But

That is, the controller 90 controls only the vane motor 58 in the open mode, drives the indoor fan motor 63, drives the compressor 72, drives the outdoor fan motor 73, and supplies a water supply valve ( 34 is controlled in the feed water mode, and the steam generator 114 is driven.

When the water supply mode 34 controls the water supply mode, water is contained in the reservoir 12, power is applied to the steam generator 114 to heat the water in the reservoir 112, and steam is generated in the reservoir 112. And is injected through the injection nozzle 116 of the steam flow path 115.

In addition, when the compressor 72 is driven, the refrigerant causes the indoor heat exchanger 68 to cool the surrounding air, and the air discharge port 55 'is opened in the open mode of the vane motor 58'.

In addition, when the indoor fan motor 63 is driven, indoor air passes through the air suction unit 52 of the air conditioning unit 50, is sucked into the air conditioning unit 50, and is cooled by heat exchange with the indoor heat exchanger 68. It is then discharged through the air discharge port 55 '. At this time, the cold air discharged through the air discharge port 55 carries the steam injected from the steam flow path 115 to the room (I) and the steam air is spread widely in the room (I), the room temperature is lowered and the humidity Is raised.

On the other hand, the present invention is not limited to the above embodiments, only the air discharge unit 54 of the air conditioning unit 50 is integrally configured with the humidifier 10 is installed in the room together with the humidifier 10, the air discharge In addition to the unit 54 and the humidifier 10 is installed in addition to the separate air conditioning unit is installed is also applicable when the air conditioning unit and the air discharge unit is connected to the duct, various implementations are possible within the technical scope of the present invention. Of course.

According to the present invention configured as described above, since the humidifier is installed in the air conditioning unit and the humidifier and the air conditioning unit are integrally installed, the humidifier and the air conditioning unit can be used more efficiently than when the air conditioner is separately installed in the room. It can increase the comfort of the room because it can be humidified, has the advantage of maintaining the optimal humidity with the temperature of the room, and the water supply equipment connected to the water source to the humidifier can continue to supply the water required for humidification Therefore, it is not necessary to fill the water with a humidifier at any time, it can be used in the air conditioner that the ease of use is increased.

1 is a schematic diagram of an embodiment of an air conditioner according to the present invention;

2 is a cross-sectional view of the air conditioner in one embodiment of the air conditioner according to the present invention;

3 is a cross-sectional view in a general air conditioning mode of an embodiment of an air conditioner according to the present invention;

4 is a cross-sectional view of the air conditioner in one embodiment of the air conditioner according to the present invention;

5 is a cross-sectional view at the time of operation stop of the air conditioner according to the present invention;

6 is a control block diagram of an embodiment of an air conditioner according to the present invention;

7 is a schematic view of another embodiment of an air conditioner according to the present invention;

8 is a cross-sectional view of another embodiment of an air conditioner according to the present invention;

9 is a cross-sectional view when the operation of the air conditioner according to another embodiment of the present invention,

10 is a control block diagram of another embodiment of an air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: humidifier 12: reservoir

14: pump 16: humidification panel

20: water supply source 22: water supply equipment

24: water supply hose 26: water filter

28: water supply valve 30: drainage mechanism

32: drain hose 34: drain valve

50: air conditioning unit 51: air intake

52: air intake unit 54: air discharge unit

55: first air discharge port 56: second air discharge port

57: first vane 58: first vane motor

59: second vane 60: second vane motor

62: indoor fan 63: indoor fan motor

64: air conditioning euro 65: case

68: indoor heat exchanger 70: outdoor unit

72: compressor 73: outdoor heat exchanger

74: outdoor fan 75: outdoor fan motor

80: input unit 90: control unit

112: reservoir 114: steam generator

115: steam flow path

Claims (14)

An air conditioning unit including an air discharge unit through which air conditioning air is discharged, and a fan for blowing air through the air discharge unit; A humidifier installed in the air conditioning unit; And a water supply device connected to a water supply source to supply water to the humidifier. The method of claim 1, The humidifier and the reservoir, A pump installed to pump water of the reservoir; And a humidification panel installed to flow water pumped from the pump. The method of claim 2, The humidification panel is an air conditioner is an indoor fountain installed in front of the air conditioning unit. The method of claim 2, The humidifying panel is an air conditioner panel. The method of claim 2, The air discharge unit has an air conditioner having a first air discharge port formed on a surface facing the humidifying panel, and a second air discharge port formed on a surface other than the surface on which the first air discharge port is formed. The method of claim 5, wherein The air discharge unit is installed above the humidification panel, the first air discharge port is formed on the lower surface of the air discharge port unit, the second air discharge port is formed on the front of the air discharge unit. The method of claim 5, wherein The air conditioner further comprises a wind direction control mechanism for adjusting the wind direction of the air discharged through the air discharge unit. The method of claim 7, wherein The air direction control mechanism includes an air conditioner including a first wind direction control mechanism for opening and closing the first air outlet and controlling the wind direction, and a second wind direction control mechanism for opening and closing the second air outlet and controlling the wind direction. group. The method of claim 1, The humidifier and the reservoir, A steam generator for heating the water in the reservoir; And a steam flow passage for guiding steam generated by the steam generator to an air conditioning flow path formed in the air conditioning unit. The method of claim 1, The water supply source is a water pipe, The water supply device is an air conditioner including a water supply hose connected to the water pipe one end and the other end is connected to the humidifier. The method of claim 10, The water supply mechanism further comprises a water filter installed in the water supply hose. The method of claim 10, The water supply device further comprises a water supply valve for regulating the water supplied through the water supply hose. The method of claim 1, Air conditioner further comprises a drain mechanism for draining the water of the reservoir. The method according to any one of claims 1 to 13, The air conditioner further includes an air suction unit through which indoor air is sucked, an air conditioning flow path for guiding air sucked into the air suction unit to the air discharge unit, and a heat exchanger for heat-exchanging air sucked into the air suction unit with a refrigerant. Air conditioning.

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