KR100360254B1 - Drain structure for ceiling type air conditioner - Google Patents

Abstract

The drain structure of the indoor air conditioner indoor unit of the present invention forms the front and rear side auxiliary support portions 33 to be integrally inclined so as to protrude forward and rearward at both ends of the lower water receiver 31, and crosses the front side auxiliary support portions 33. By installing the upper trough 34 so that the air passage 32 is formed at a predetermined portion of the drain, the condensate 26 falling from the heat exchanger 24 can be collected and the size of the inlet 21a can be obtained. The air volume can be increased by increasing.

Description

Drain structure of ceiling type indoor unit indoor unit {DRAIN STRUCTURE FOR CEILING TYPE AIR CONDITIONER}

The present invention relates to a drain structure of a ceiling type air conditioner indoor unit, and more particularly, to a drain structure of a ceiling type air conditioner indoor unit suitable for increasing the size of a suction port to increase the air volume.

An example of an indoor unit of a ceiling type air conditioner, in which an indoor unit of an air conditioner is installed on a ceiling of an indoor, is illustrated in FIG. 1. (3) The cross flow fan 4 is rotatably provided inside, and the heat exchanger 6 for heat-exchanging the air 5 sucked in the rear of the cross flow fan 4 is fixed, and in the upper side The rear guide 7 for guiding the discharged air 5 to the discharge port 1 is fixedly installed, and a drain 9 for receiving the condensed water 8 falling from the heat exchanger 6 is provided at the lower portion of the heat exchanger. It is provided over the whole projection surface of (6).

When the indoor unit of the ceiling type air conditioner configured as described above rotates the cross flow fan 4, the air 5 sucked into the case 3 through the intake port 2 passes through the heat exchanger 6, and heat exchange is performed. , The cold air (5) heat exchanged as described above is guided by the rear guide (7) and discharged into the room through the discharge port (1), wherein the condensed water (8) falling on the heat exchanger (6) is drained (9) Will be processed by.

Figure 2 shows another example of the indoor unit of the conventional ceiling-type air conditioner, as shown, the sirocco fan (the inside of the case 13, the discharge port 11 is formed in the front and the suction port 12 is formed in the lower side ( 14 is rotatably fixed, and a heat exchanger 15 is fixed to the front of the sirocco fan 14 for heat-exchanging the sucked air 15, and at the rear, a heat-exchanging air 15 is sucked. The rear guide 16 for guiding to the side of the machine 15 is fixed, and the drain 18 for receiving condensate 17 is fixed to the lower part of the heat exchanger 15.

When the indoor unit of the ceiling type air conditioner is configured as described above, when the sirocco fan 14 rotates, the air 15 flows into the case 13 through the inlet 12, and the air 15 introduced as described above is Guided by the rear guide 16 passes through the heat exchanger 15 and cooled to be discharged through the discharge port 11, the condensate 17 falling from the heat exchanger 15 falls to the drain (18) to receive do.

However, the indoor unit of the conventional ceiling air conditioner, as in the example of FIG. 1 or the other example of FIG. 2, is provided with drains 9 and 18 throughout the lower projection surface of the heat exchanger 15 so that sufficient air can be sucked in. It was not possible to design a larger size of the suction ports (2) (12). Therefore, increasing the rotational speed of the fan to increase the air volume in the state in which the inlet (2) 12 of the limited size is formed, there is a problem that the noise increases and the power consumption increases.

The object of the present invention devised in view of the above problems is that the ceiling air conditioner indoor unit suitable for increasing the discharge air volume according to the intake of sufficient air by designing the inlet large so that the design of the inlet is not restricted by the drain. To provide a drain structure of.

1 is a side cross-sectional view showing an example of an indoor unit of a conventional ceiling air conditioner.

Figure 2 is a side cross-sectional view showing another example of the indoor unit of the conventional ceiling-type airer.

Figure 3 is a side cross-sectional view showing the structure of a indoor air conditioner indoor unit with a drain of the present invention.

4 is a perspective view showing a drain structure according to the present invention.

5 is a plan view showing a drain structure according to the present invention.

6 is a cross-sectional view taken along the line AA ′ of FIG. 5;

Explanation of symbols on the main parts of the drawings

21 case 21a inlet

21b: outlet 22: air

23: cross flow fan 24: heat exchanger

24a: heat exchanger fin 25: rear guide

26: condensate 27: drain

28,28 ': Upper and lower connections 31: Lower drip tray

31a: projection 32: air passage

33: front and rear side auxiliary receiver 34: upper drip

In order to achieve the object of the present invention as described above, a cross flow fan is rotatably installed inside the case of the box body, and a rear guide is installed at the upper portion of the cross flow fan to guide the air sucked into the intake port to the discharge port. Of the ceiling type air conditioner in which the three heat exchangers for heat exchange of the air sucked into the lower part are fixedly installed in a state of being bent twice so as to be connected to the upper and the lower connection parts, and a drain is installed at the lower side of the heat exchanger to receive the condensate. In the indoor unit, the drain is protruded to the front and rear of both ends to form a lower drip tray for collecting condensed water falling from the lower connection portion of the heat exchanger, and the front and rear sides of the lower drip tray to form a heat exchanger fin. Front and rear side receiving part for collecting the condensate falling from the upper part and the upper connection part of the heat exchanger The drain structure of the standing ceiling air conditioner indoor unit being configured hayeoseo comprising a drip tray that is installed across the upper front side parts of the auxiliary drip tray to collect the falling condensed water is provided.

Hereinafter, with reference to an embodiment of the accompanying drawings, the drain structure of the indoor air conditioner indoor air conditioner of the present invention configured as described above will be described in detail.

3 is a side cross-sectional view showing the structure of the indoor air conditioner indoor unit with a drain of the present invention. As shown in the drawing, the ceiling air conditioner having the drain structure of the present invention sucks air 22 into the box chain case 21. The horizontal flow fan 23 for discharging is rotatably installed, and a heat exchanger 24 for heat-exchanging the intake air 22 is fixed to the lower side of the horizontal flow fan 23 and discharged above. A rear guide 25 for guiding air is fixedly installed, and a drain 27 for receiving condensate falling from the heat exchanger 24 is provided below the heat exchanger 24.

The case 21 has a suction port 21a for sucking air 22 into the case 21 on the lower surface thereof, and the sucked air 22 is heat-exchanged in the heat exchanger 24. The discharge port 21b discharged is formed in front.

The heat exchanger 24 is connected in a form in which two parts are bent, connected by upper and lower connecting portions, and is fixedly installed to surround the cross flow fan 23.

4, 5, and 6 show the structure of the drain, as shown in the drawing, the drain structure of the present invention includes a lower sump part 31 for collecting condensate falling from the connection portion of the lower part of the heat exchanger 24. Before and after collecting the condensed water falling from the heat exchanger fins (24a) by protruding to the front and rear of both ends so that the passage 32 of the air 22 sucked into the front and rear of the lower sump (31) is formed. The rear side receiving part 33 and the upper receiving part 34 which is installed across the front side receiving part 33 to collect the condensed water falling from the upper connection part of the heat exchanger 24 are included. have.

On the upper surface of the lower sump part 31, a pair of protrusions 31a for protruding the surface tension of the condensate flowing down to the connection part of the lower part of the heat exchanger 24 is formed to protrude in parallel in the longitudinal direction, and the protrusions ( The discharge holes 31b for discharging the condensed water 26 collected on the upper surface are formed at both sides of the 31a), and the discharge pipe 31c communicating with the discharge hole 31b is formed on the lower surface thereof.

The front and rear side auxiliary receiver 33 is formed integrally with the lower receiver 31 and is bent upwardly inclined to collect the condensed water collected on the upper surface of the lower receiver 31.

The indoor air conditioner indoor unit having the drain structure of the present invention configured as described above, when the cross flow fan 23 rotates, the air 22 is sucked into the case 21 through the intake port 21a. The air 22 passes through the heat exchanger 24 and is cooled by heat exchange. The cooled air 22 is guided by the rear guide 25 and discharged through the discharge port 21b.

Then, the condensed water generated in the heat exchanger 24 flows down to the lower connection part and falls to the upper surface of the lower water collecting part 31, and the condensed water falling from the upper connection part 28 is collected from the upper water collecting part 34 and is inclined. And flows down to the upper surface of the lower water collecting portion 31, and the condensate falling from the evaporator pin 24a is collected at the front and rear auxiliary water receiving portions 33 and flows down the upper surface of the lower water collecting portion 31 along the inclined surface. The condensed water introduced into the discharge hole 31b and thus introduced into the discharge hole 31b is discharged to the outside through the discharge pipe 31c.

As described in detail above, the drain structure of the indoor air conditioner indoor unit of the present invention is composed of a lower drip tray part, an upper drip tray part, a front and rear auxiliary drip trays to collect the condensed water falling from the heat exchanger, and collect the condensed water falling from the heat exchanger. In addition, the air passage is formed at a predetermined portion of the lower projection surface of the heat exchanger, so that an air inlet of a sufficient size can be formed, thereby increasing the amount of air.

Claims (3)

The cross flow fan is rotatably installed inside the case of the box body, and a rear guide for guiding the air sucked into the inlet port to the discharge port is installed in the upper portion of the cross flow fan, and 3 In an indoor unit of a ceiling type air conditioner, in which a heat exchanger is fixed in a double bent state so as to be connected to an upper and a lower connection part, and a drain for catching condensed water is installed at a lower side of the heat exchanger. Front and rear sides for collecting condensate falling from the heat exchanger fins by protruding to the front and rear sides of the lower drip tray for collecting condensate falling from the lower connection part and the air passage in front and rear of the lower drip tray. Auxiliary receiver and front side to collect the condensate falling from the upper connection of the heat exchanger A top structure having an upper drip tray installed across the auxiliary drip tray, wherein the front and rear auxiliary drip trays are formed to be inclined upwardly integrally with the lower drip tray. The drain of the indoor air conditioner indoor unit of claim 1, wherein a pair of protrusions for breaking the surface tension of the condensate flowing down to the lower connection portion of the heat exchanger is formed to protrude in parallel in the longitudinal direction. rescue. delete