KR20090018266A - Apparatus for removing condensed water of air conditioner - Google Patents

Abstract

A condensed water removing device of an air conditioner is provided to resolve the troubles caused by condensed water such as overflowing or periodical removing work thereof and prevent dry room conditions by humidification during cooling operation. A housing(110) is opened at a side and formed with air inlets(112) and air outlets(114). A condensed water case(120) is mounted in the housing for storing condensed water transferred from an indoor unit via a drain hose. An evaporating element(130) is detachably mounted in the case for absorbing the condensed water stored in the case. A fan(140) blows atmospheric air introduced via the air inlets to the evaporating element and discharges the same via the air outlets. A cover(150) covers the opened side of the housing.

Description

Condensate treatment unit for air conditioners {APPARATUS FOR REMOVING CONDENSED WATER OF AIR CONDITIONER}

The present invention relates to a condensate treatment apparatus of an air conditioner, and more particularly, to condense the condensate through the condensate evaporation member to absorb the condensate and easily evaporate it when blowing, so that the wet air is discharged to the room. By eliminating the hassle of having to empty the bucket in which the user stores the condensate water periodically, as in the prior art, it avoids the damage caused by overflowing the condensate water, and the room is dried by the humidification action during cooling. It relates to a condensate treatment device of an air conditioner to prevent that.

In general, the air conditioner (Air Conditioner) is to create a more comfortable indoor environment by cooling / heating the room, it is divided into two types and integrated type.

The integrated type and the separate type described above are functionally the same, but in the case of the integrated type, the function of cooling heat dissipation is integrated and a hole is installed in the wall of the house or a device is mounted on the window. The heat dissipation and compression device was installed on the side to connect the two separated devices with refrigerant pipes.

Among the air conditioners as described above, the separate type includes an indoor unit having an indoor heat exchanger to perform a large cooling function, an outdoor heat exchanger that performs heat dissipation and compression, an outdoor unit with a compressor, an expander, and the indoor unit and the outdoor unit. It consists of a refrigerant pipe to be connected.

1 is a schematic configuration diagram of an air conditioner according to the prior art, and FIG. 2 is a cross-sectional view schematically showing the configuration of the indoor unit shown in FIG. 1.

1 and 2, the air conditioner according to the prior art is largely divided into an indoor unit 10 is installed indoors to supply cold air to the room, and an outdoor unit installed outdoors to perform the heat dissipation and compression function of the refrigerant And a refrigerant pipe (30) connecting the indoor unit (10) and the outdoor unit (20), and drain hoses (40, 40 ') for discharging and treating the condensed water formed in the indoor unit (10); Buckets 50 and 50 'are provided separately.

Meanwhile, a schematic configuration of the indoor unit 10 and a process of forming condensate in the indoor unit 10 will be described with reference to FIG. 2. The indoor unit 10 is largely divided into a housing 11 in which each component is mounted, a heat exchanger 14 through which a refrigerant circulates, and a drain pan 18 provided below the heat exchanger 14. , And a blowing fan 16. The blower fan 16 introduces air into the housing 11 through an air inlet 12 formed in the housing 11, and cools the inlet air through a heat exchanger 14 to cool the air. The room is cooled by discharge through the air discharge port 19 formed in the housing (11). At this time, moisture in the air is condensed on the surface of the heat exchanger 14 while the inlet air is cooled through the heat exchanger 14, and the condensed water rides on the surface of the heat exchanger 14. As it flows, it collects on the drain pan 18 to form condensate. Such condensed water is discharged to the outside through the above-described drain hose 40 and stored in the bucket 50.

However, in the air conditioner according to the related art as described above, the condensed water formed in the heat exchanger 14 of the indoor unit 10 is stored in the buckets 50 and 50 'disposed indoors or outdoors, and the user periodically It is very cumbersome because it has to be emptied, and if it is neglected, condensation water stored in the buckets 50 and 50 'overflows, causing damage to furniture or electronics provided in the room, or causing damage to the outdoor periphery. In particular, when discharging condensate by placing the bucket 50 'outdoors, the length of the drain hose 40 which transfers the condensed water to the bucket 50' is increased, thereby increasing the installation cost and installing the house. There is a problem of having to pierce the wall.

In addition, the indoor air is dried during the air-conditioning operation using the air conditioner may cause respiratory diseases, etc. In order to prevent this, there is a need to provide a separate humidifier to perform a humidification function in some cases.

The present invention has been made in order to overcome the disadvantages of the prior art as described above, by evaporating the condensate water through the condensate evaporation member to absorb the condensate to easily evaporate it when blowing, so that the wet air is discharged to the room By eliminating the hassle of having to empty the bucket in which the user stores the condensate water periodically, as in the prior art, it avoids the damage caused by overflowing the condensate water, and the room is dried by the humidification action during cooling. The technical problem is to provide a condensate treatment device for an air conditioner that prevents this from happening.

Condensate treatment apparatus of the air conditioner according to the present invention for achieving the technical problem as described above is a housing in which one side is opened and the air inlet and the air outlet is formed, and the condensate is delivered from the drain hose provided inside the housing connected to the indoor unit A condensate reservoir for storing, a condensate evaporation member for absorbing condensate stored in the condensate reservoir, and an air provided in the housing to blow air into the condensate evaporation member to be discharged through the air outlet. And a cover having a fan and an air inlet and covering an open side of the housing.

In one embodiment of the invention preferably the housing and the cover is provided with an air filter for purifying the outside air introduced through the air inlet provided in each.

In one embodiment of the present invention preferably the drain hose is provided with a condensate filter for purifying the condensate delivered to the condensate reservoir.

In one embodiment of the invention preferably the cover is rotatably coupled to one side wall of the housing via a hinge axis.

In one embodiment of the present invention, a condensate level sensor is provided in the condensate reservoir to detect whether the condensate stored in the condensate reservoir reaches a preset limit level.

In one embodiment of the present invention preferably the fan is controlled to increase the rotational speed in accordance with the signal of the control unit when the condensate water level is reached by the condensate level sensor.

In one embodiment of the present invention, the drain hose is preferably provided with an on-off valve for opening and closing the flow path.

In one embodiment of the present invention preferably the on-off valve is controlled to close the flow path of the drain hose in accordance with the closing signal of the control unit when the limit level of the condensate is detected by the condensate level sensor.

In one embodiment of the present invention preferably when the condensate water level is reached by the condensate water level detection sensor, the opening and closing valve is controlled to close the flow path of the drain hose in accordance with the closing signal of the control unit, the fan Is controlled to increase the rotational speed according to the signal of the controller.

According to the condensate treatment apparatus of the air conditioner according to the present invention having the configuration as described above, the condensate is evaporated through the condensate evaporation member to absorb the condensate and to easily evaporate it when the blowing operation, the wet air is indoors By discharging to the user, as in the prior art, the user has to eliminate the inconvenience of having to periodically empty the bucket in which the condensed water is stored, and has the advantage of avoiding the damage caused by overflowing the condensed water.

In addition, there is an advantage that can be prevented from drying the room through a humidification action during cooling.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the condensate treatment apparatus of the air conditioner according to the present invention.

Figure 3 is a schematic cross-sectional view of the condensate treatment apparatus of the air conditioner according to an embodiment of the present invention.

Condensate treatment apparatus 100 of the air conditioner according to an embodiment of the present invention, as shown in Figure 3, divided into a housing 110, a condensate reservoir 120, a condensate evaporation member 130, a fan ( fan 140 and a cover 150.

The housing 110 has an approximately one box shape having an upper side open, a plurality of air inlets 112 formed on an upper surface thereof, and a plurality of air outlets 114 formed on a front surface thereof. Meanwhile, one open side of the housing 110 is covered by a cover 150 having a plurality of air inlets 152. The cover 150 is rotatably coupled to the open side wall of the housing 110 via a hinge shaft 154 so that the condensate evaporation member 130 for cleaning and replacing the condensate evaporation member 130 to be described later. ) So that entry and withdrawal can be made easily. In addition to the above-described coupling structure, the coupling structure of the housing 110 and the cover 150 may apply various known types.

The condensate reservoir 120 is formed in the heat exchanger 14 of the indoor unit 10 (see FIG. 1) to store the condensate discharged through the drain hose 40.

The condensate evaporation member 130 is a member that can easily absorb condensate, such as a sponge, the shape of the condensate absorbed by the condensate can be easily evaporated and the condensed water can be easily evaporated. The condensate reservoir 120 is installed in a replaceable manner so as to absorb the condensate stored in the condensate reservoir 120, so that the condensate absorbed during the blowing operation through a fan (140) to be described later evaporated by the wind To treat the condensate.

The fan 140 flows the outside air through the air inlets 112 and 152 formed in the housing 110 and the cover 150 through the rotational action thereof, and blows it to the condensate evaporation member 130. The condensed water absorbed by the condensate evaporation member 130 is allowed to evaporate, and the wet air evaporated as described above is discharged into the room through the air outlet 114 of the housing 110.

On the other hand, the wet air as described above is made of the air introduced through the inlet 112, 152 and the water vapor of the condensate evaporated from the condensate evaporation member 130, such wet air to perform the indoor humidification action Because it has a direct impact on the health of the user. Therefore, air filters 116 and 156 for purifying the outside air introduced through the inlets 112 and 152 are provided in the housing 110 and the cover 150, respectively, and are transferred to the condensate reservoir 120. A condensate filter 160 for purifying the condensed water is installed in the drain hose 40.

According to the condensate treatment apparatus 100 of the air conditioner according to an embodiment of the present invention described so far, the user periodically empty the bucket (50, 50 ', see FIG. 1) in which the condensate is stored as in the prior art Eliminates the hassle of giving, and avoids the damage caused by overflowing condensate by neglecting it, and can prevent the room from drying through the humidification action during cooling.

On the other hand, Figure 4 is a cross-sectional view schematically showing the condensate treatment apparatus of the air conditioner according to another embodiment of the present invention, Figure 5 is a block diagram showing the control relationship between the fan and the opening and closing valve shown in FIG.

The condensate treatment apparatus 100 ′ of the air conditioner according to another embodiment of the present invention further includes the following components in the basic configuration described with reference to FIG. 3. That is, as shown in FIG. 4, a condensate level sensor 124 for detecting whether the condensate stored in the condensate reservoir 120 reaches a preset limit level is additionally provided in the condensate reservoir 120. . In addition, the drain hose 40 is further provided with an on-off valve 170 for opening and closing the flow path.

Evaporation capacity of the condensate water through the condensate evaporation member 130 may be out of the processing limit according to the degree of cooling action of the air conditioner (not shown), in which case the condensate stored in the condensate reservoir 120 Can overflow. Therefore, the above-described problem can be prevented by controlling the fan 140 and the opening / closing valve 170 as follows by detecting whether the condensate level sensor reaches the condensate limit level.

That is, when the condensate water level is reached by the condensate water level sensor 124, the fan 140 increases its rotation speed according to the signal of the controller 180, as shown in FIG. 5. Controlled to. Therefore, the fan 140 blows a larger amount of air to the condensate evaporation member 130 to increase the throughput of the condensate by causing the evaporation to occur more actively. Accordingly, the condensate stored in the condensate reservoir 120 may be prevented from overflowing.

On the other hand, when the on-off valve 170 reaches the limit level of the condensate by the condensate level sensor 124, as shown in Figure 5, the drain hose (according to the closing signal of the controller 180) By controlling to close the flow path of 40, the condensate stored in the condensate reservoir 120 may be prevented from overflowing by blocking an additional supply of condensate delivered to the condensate reservoir 120 through the drain hose 40.

In some cases, when reaching the limit level of the condensate is detected by the condensate level sensor 124, as described above, the flow path of the drain hose 40 is closed in accordance with the closing signal of the controller 180. By controlling to increase the rotational speed of the fan 140 at the same time as the signal from the control unit 180 can be prevented from overflowing the condensate stored in the condensate reservoir 120 more efficiently.

As described above, in the detailed description of the present invention, a preferred embodiment of the present invention has been described, but those skilled in the art to which the present invention pertains various modifications can be made without departing from the scope of the present invention. Of course. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below, but also by the equivalents of the claims.

1 is a schematic configuration diagram of an air conditioner according to the prior art.

2 is a cross-sectional view schematically showing the configuration of the indoor unit shown in FIG.

Figure 3 is a schematic cross-sectional view of the condensate treatment apparatus of the air conditioner according to an embodiment of the present invention.

4 is a cross-sectional view schematically showing a condensate treatment apparatus of an air conditioner according to another embodiment of the present invention.

5 is a block diagram illustrating a control relationship between the fan and the on / off valve shown in FIG. 4.

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

10: indoor unit 40: drain hose

110: housing 112: air inlet

116: air filter 120: condensate reservoir

122: heat generating member 124: condensate level sensor

130: condensate evaporation member 140: fan

150: cover 152: air inlet

156: air filter 160: condensate filter

170: on-off valve 180: control unit

Claims (9)

A housing having one side open and having an air inlet and an air outlet; A condensate reservoir provided in the housing to store condensate delivered from a drain hose connected to an indoor unit; A condensate evaporation member for absorbing the condensate stored in the condensate reservoir; A fan provided inside the housing to blow outside air introduced through the air inlet to the condensate evaporation member and be discharged through the air outlet; And Condensate treatment apparatus of the air conditioner having an air inlet, and comprises a cover for covering the open one side of the housing. The method of claim 1, The housing and the cover are each provided with an air filter for purifying the outside air flowing through the air inlet provided in each of the condensate treatment device of the air conditioner. The method of claim 1, Condensate treatment apparatus of the air conditioner, characterized in that the drain hose is further provided with a condensate filter for purifying the condensate delivered to the condensate reservoir. The method of claim 1, The cover is condensate treatment apparatus of the air conditioner, characterized in that rotatably coupled to the side wall of the housing via a hinge axis. The method according to any one of claims 1 to 4, And a condensate level sensor configured to detect whether the condensate stored in the condensate reservoir reaches a preset limit level, in addition to the condensate reservoir. The method of claim 5, wherein And the fan is controlled to increase the rotational speed according to a signal from the controller when the condensed water level is reached by the condensed water level sensor. The method of claim 5, wherein Condensate treatment device of the air conditioner, characterized in that the drain hose is further provided with an on-off valve for opening and closing the flow path. The method of claim 7, wherein And the on / off valve is controlled to close the flow path of the drain hose according to a closing signal of a control unit when the limit level of condensate is detected by the condensate level sensor. The method of claim 7, wherein When the condensate water level is reached by the condensate water level sensor, the on / off valve is controlled to close the flow path of the drain hose according to the closing signal of the control unit, and the fan rotates in accordance with the signal of the control unit. A condensate treatment apparatus for an air conditioner, characterized in that it is controlled to increase.

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