KR19990033568A - Condensate drainage structure of indoor unit for air conditioner - Google Patents

Abstract

The present invention relates to a condensate drainage structure of an indoor unit for an air conditioner configured to smoothly discharge the condensate generated from an indoor unit of a separate air conditioner to the outside. It is to provide a condensate drainage structure of the indoor unit for the air conditioner can be improved.

In order to achieve the above object, the present invention is provided on the bottom surface of the evaporator 53, the reservoir 58 is formed so that the condensed water falls, and the drip tray 57 in which the discharge hole 60 is formed to discharge the condensed water to the outside. In the condensate drainage structure of the indoor unit for an air conditioner comprising: a distribution means formed in the storage unit 58 so that the condensate falling in the storage unit 58 flows in a state dispersed in several parts instead of concentrated in one part It is characterized by including.

Description

Condensate drainage structure of indoor unit for air conditioner

The present invention relates to a condensate drainage structure of an indoor unit for an air conditioner configured to smoothly discharge the condensate generated in the indoor unit of the separate air conditioner to the outside.

In general, air conditioners used in homes, such as air conditioners, refrigerators, etc. are operated in accordance with a closed cycle refrigeration cycle, the air conditioner is divided into one type, separate type, package type and the like.

The separate air conditioner has been developed for reducing the indoor occupancy area and noise reduction, which is divided into an indoor unit including an evaporator and a blower, and an outdoor unit including a condenser and a compressor.

As shown in FIG. 3, the indoor unit includes a front panel 51 installed to open and close the grill 50, a rear panel 52 coupled to form the box shape with the front panel 51, and the The evaporator 53 installed inside the front and rear surfaces 51 and 52, a blower 54 positioned on the rear surface of the evaporator 53, for sucking and discharging external air, and the bottom surface of the evaporator 53. In addition to the installation, the vertical and horizontal blades 55, 56 for adjusting the wind direction is composed of a drip tray 57 is installed.

In particular, the drip tray 57 is configured to receive the condensed water generated in the evaporator 53, which is formed on one side of the drip tray 57 as shown in Figure 4 is inclined to one side so that the condensate falls and flows A storage unit 58 and a partition wall 59 formed in the storage unit 58 to support the evaporator 53 at the bottom and to prevent the evaporator 53 and the storage unit 58 from contacting each other, It is composed of a drain hole 60 connected to the discharge hose (not shown) to discharge the condensate to the outside.

That is, when the condensed water falls from the evaporator 53 during the air conditioner operation, the condensed water drops to the storage unit 58 of the drip tray 57.

The condensed water dropped to the storage unit 58 flows in the storage unit 58 inclined in one direction, flows into the drain hole 60, and is discharged to the outside through the drain hose.

However, when the condensed water is discharged in a state in which the storage unit is divided into partitions to support the evaporator as described above, when the condensed water is concentrated in any part divided by the partitions, overflow or smooth discharge is difficult. .

Accordingly, an object of the present invention is to provide a condensate drainage structure of an indoor unit for an air conditioner which can improve the discharge efficiency of condensate by smoothly flowing the condensate in the reservoir of the drip tray.

In order to achieve the above object, the present invention provides a condensate drainage structure of an indoor unit for an air conditioner, including a drip tray having a reservoir formed at a bottom of the evaporator so that the condensate falls and a discharge hole discharged to the outside. And a dispersing means formed in the reservoir so that the condensed water falling into one reservoir flows in a state in which it is not concentrated in one portion but dispersed in several parts.

1 is a perspective view of the drip tray showing the condensate drainage structure of the indoor unit for an air conditioner according to the present invention;

2 is a cross-sectional view of FIG.

3 is a cross-sectional view showing a indoor unit for a general air conditioner,

4 is a perspective view of the drip tray in FIG.

* Explanation of symbols for main parts of the drawings

1: Euro 2: Barrier

3: opening 53: evaporator

57: drip tray 58: storage unit

1 and 2 are a perspective view and a cross-sectional view of the drip tray showing the condensate drainage structure of the indoor unit for the air conditioner according to the present invention, the condensed water falling to the storage unit 58 of the drip tray 57 is not concentrated in one part Dispersing means is formed in the storage unit 58 so as to flow in a dispersed state.

The dispersing means includes a plurality of blocking walls 2 formed at regular intervals in the storage unit 58 to form a plurality of flow paths 1 when the condensate flows, and the discharge hole 60 side of the blocking wall 2. It consists of an open portion (3) formed so that condensate flows through.

That is, when the blocking wall 2 divides the storage unit 58 into a plurality of flow paths 1, the condensed water is divided into each flow path 1 so as to prevent the condensate from stagnation and concentration. It can be done smoothly.

In particular, when the gap D between the blocking walls 2 is formed to be very narrow, a capillary phenomenon occurs between the blocking walls 2, that is, the flow path 1, thereby improving the flowability of the condensate. Due to this, the drainage efficiency is improved.

Referring to the operation and effect of the present invention as described above, if the heat exchange occurs in the evaporator 53 with the operation of the air conditioner condensed water is formed on the surface of the evaporator 53.

The condensed water flows down the surface of the evaporator 53, and the condensed water falls into the storage unit 58 of the drip tray 57.

The condensed water dropped to the storage 58 flows to the discharge hole 60 by the inclination of the storage 58.

At this time, the condensate is dispersed in the flow path 1 in which the plurality of blocking walls 2 are formed, and a very small amount flows in each flow path 1.

In particular, since the width D of the flow path 1, that is, the gap D between the blocking walls 2 is formed to be very narrow, the capillary phenomenon occurs in the flow path 1, and the flow of condensate is caused by the capillary phenomenon. It will be faster than this.

Here, even if the width D of each of the blocking walls 2 is formed to be narrow, it has a width such that the foreign matter contained in the condensed water is not blocked.

If the flow of the condensate is faster, even if a lot of condensate drops in each of the flow path (1) suddenly will not accumulate.

When condensate flows quickly in each flow path 1 and collects in the opening part 3, it is discharged to the outside through the discharge hole 60 located at the side of the opening part 3.

As described above, the present invention has an advantage of facilitating the discharge of the condensate by forming a plurality of blocking walls so as to form a plurality of flow paths in the storage portion in which the condensate falls.

Claims (3)

In the condensate drainage structure of the indoor unit for an air conditioner including a drip tray is formed on the bottom surface of the evaporator, the reservoir is formed so that the condensate falls, and the discharge hole is formed to discharge the condensate to the outside, wherein the condensed water dropped to the storage unit Condensate drainage structure of the indoor unit for an air conditioner, characterized in that it comprises a dispersing means formed in the storage unit to flow in a state dispersed in various parts without being concentrated. According to claim 1, wherein the dispersing means is composed of a plurality of blocking walls formed at regular intervals in the storage unit to form a plurality of flow paths when the condensate flows, and an open portion formed so that the condensed water flows in the discharge hole side of the blocking wall. Condensate drainage structure of the indoor unit for an air conditioner. The condensate drainage structure of an indoor unit for an air conditioner according to claim 2, wherein a capillary phenomenon is generated between the blocking walls by forming a narrow gap between the blocking walls.