KR20030000209A - Saturation water drain structure for air conditioner - Google Patents

Abstract

PURPOSE: A condensed water drain structure of air conditioner is provided to drain condensed water of the integral type air conditioner more smoothly. CONSTITUTION: A structure includes an air guide(60) installed on a base pan(1) and having a drain(65) draining condensed water generated in a heat exchanger on a bottom thereof where the heat exchanger is mounted; an auxiliary drain outlet(50) placed between a lower part of the air guide and an upper side of the base pan and having an auxiliary drain(52) draining condensed water generated in the heat exchanger and overflowing from the air guide; and a connecting drainage part(68) connecting the drain of the air guide and the auxiliary drain of the auxiliary drain outlet.

Description

Saturation water drain structure for air conditioner

The present invention relates to an air conditioner, and more particularly to a condensate discharge structure of the air conditioner for draining the condensate generated in the heat exchanger inside the air conditioner.

1 is an exploded perspective view showing a main configuration of an integrated air conditioner according to the prior art. Looking at the internal structure of the integrated air conditioner with reference to this, the base fan (1) forms the bottom of the air conditioner. The side wall 2 is formed to be upright at a predetermined height surrounding the edge of the base fan 1, and a handle portion 2 ′ is formed at one side of the side wall 2 corresponding to the front end of the base fan 1. Formed.

The front grill 3 is installed on the indoor front surface of the base fan 1. The front grill 3 forms a front appearance of the air conditioner and is mounted on the front of the cabinet 30 which will be described below substantially. On one side of the front grill (3) is formed a suction portion (3i) is the air of the space for air conditioning is sucked into the interior of the air conditioner, the other side is discharged back to the room heat exchanged air from the air conditioner The discharge part 3e to be formed is formed. On the other hand, a suction grill 4 is provided in the suction part 3i. A control panel portion 3c for manipulating the operation of the air conditioner is provided below the discharge portion 3e.

An indoor heat exchanger 7 is installed inside the front grill 3. The indoor heat exchanger (7) is for heat exchange between the air sucked through the suction part (3i) of the front grill (3) and the working fluid of the air conditioning cycle, more precisely the air guide (9) It is installed in).

Referring to the configuration of the air guide (9) in which the indoor heat exchanger (7) is installed, the air guide (9) is provided with an orifice (10) for guiding air passing through the indoor heat exchanger (7), A discharge guide 9e is formed at a position corresponding to the discharge portion 3e of the front grill 3. The bottom surface of the air guide (9) is formed with a drainage structure (9 ') for draining the condensate generated in the indoor heat exchanger (7).

In combination with the air guide 9, a scroll 11 is installed. A flow guide surface 12 is formed on the inner surface of the scroll 11 to guide the air flow formed by the indoor side blower fan 19 to be described below. On the base fan 1 corresponding to the control panel part 3c of the front grill 3, a control box 14 having various electric components for controlling the air conditioner is provided.

Next, in close contact with the rear surface of the scroll 11, a barrier 15 is formed to partition the indoor side and the outdoor side of the air conditioner. The barrier 15 serves to partition the indoor side and the outdoor side of the air conditioner.

On the other hand, at the rear end of the barrier 15, that is, the outdoor side, the motor mount 18 is mounted on the base fan 1, and the motor 17 is installed thereon. The motor 17 is formed such that its shaft protrudes to the indoor side and the outdoor side, respectively, and one side shaft penetrates the barrier 15 and the scroll 11 to protrude into the interior scroll 11. An indoor side blowing fan 19 is installed on the shaft protruding toward the indoor side. The indoor side blowing fan 19 sucks air in a space for air conditioning to pass the indoor heat exchanger 7 and guides the discharge guide 9e to be discharged back into the room.

The outdoor side blowing fan 21 is installed on the outdoor side shaft of the motor 17. The outdoor side blower fan 21 sucks outdoor air to pass through the outdoor heat exchanger 27 outside the air conditioner.

On the other hand, the outdoor side is provided with a shroud 23 for guiding the air flow formed by the outdoor side blowing fan 22. The shroud 23 serves to evenly deliver the air sucked from the outside to the outdoor heat exchanger (27). The shroud 23 is formed with a through hole 23 ′ in which the outdoor side blowing fan 21 is installed. Reference numeral 24 denotes a cover forming the upper surface of the shroud 23. And reference numeral 25 is a brace that connects the upper end of the air guide 9 and the shroud 23 to secure the installation state.

Next, the outdoor heat exchanger 27 is installed on the base fan 1 and installed at the outermost side of the outdoor side. The outdoor heat exchanger (27) is to allow heat exchange between the air sucked outdoors and the working fluid.

As described above, the cabinet 30 is provided to shield various components installed on the base fan 1. The cabinet 30 is installed to be fastened with the base fan 1 to shield both sides and the top of the air conditioner.

Although not shown in the drawings, the outdoor side includes a compressor, an expansion valve, and the like, which are components of an air conditioning cycle.

An air conditioner having such a configuration is used in such a way that a portion corresponding to the indoor side is spaced for air conditioning and a portion corresponding to the outdoor side faces the outdoor side.

That is, when the air conditioner is driven, the air conditioning cycle is operated and the motor 17 rotates the indoor side blowing fan 19 and the outdoor side blowing fan 21. Therefore, in the indoor side, air in the space for air conditioning is sucked through the suction part 3i of the front grill 3 and transferred to the indoor heat exchanger 7. The air passes through the indoor heat exchanger 7 and exchanges heat with the working fluid to a relatively low temperature.

In addition, the heat-exchanged air is sucked into the indoor side blower fan 19 through the orifice 10 of the air guide 9 by the rotation of the indoor side blower fan 19. And discharged from the indoor side blowing fan 19 is guided along the inside of the scroll 11 is delivered to the discharge guide (9e). The air delivered to the discharge guide 9e is discharged to the space for air conditioning through the discharge portion 3e of the front grill 3.

On the other hand, the outdoor side is the operation of discharging the heat received by the working fluid from the indoor heat exchanger (7) to the outside. That is, the outside air is sucked into the outdoor side of the air conditioner by the outdoor side blower fan 21, guided by the shroud 23, and exchanges heat with the working fluid while passing through the outdoor heat exchanger 27. Will release heat.

In addition, the indoor heat exchanger (7) condenses the water contained in the air sucked in the space for air conditioning in the heat exchange process to generate condensate, the condensate is discharged through the drainage structure (9 ').

However, the integrated air conditioner according to the prior art as described above has the following problems.

When the air conditioner is operated in the cooling mode, the indoor heat exchanger 7 is at a relatively low temperature so that the moisture contained in the air sucked in the space for air conditioning is condensed. The condensed water condensed as described above is transferred downward along the indoor heat exchanger 7 and drained through the drainage structure 9 ′. However, since the indoor heat exchanger 7 is maintained at a very low temperature, the condensed water freezes frequently.

Such freezing of the condensate is severe enough to hinder the drainage of the condensate through the drainage structure 9 ′. In this case, the drainage structure 9 'is blocked and condensate is not discharged and overflows from the air guide 9 onto the base fan 1, or worse, beyond the side wall 2 of the base fan 1. It can also be delivered as a space for people.

Therefore, an object of the present invention is to solve the problems of the prior art as described above, and to allow the condensed water of the integrated air conditioner to be discharged more smoothly.

1 is an exploded perspective view showing the main configuration of the integrated air conditioner according to the prior art.

Figure 2 is an exploded perspective view showing the configuration of a preferred embodiment of the condensate discharge structure of the air conditioner according to the present invention.

Figure 3 is a partial perspective view showing the main configuration of the air conditioner with a condensate discharge structure of the embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: base pan 2: side wall

2 ': handle portion 50: auxiliary drain

52: auxiliary drainage 54: protrusion

55: drop groove 60: air guide

62: orifice 64: discharge guide

65: drainage 66: side wall

68: connection drain

According to a feature of the present invention for achieving the above object, the present invention is installed on the base fan and the air guide is provided with a drain passage for draining the condensed water generated in the heat exchanger on the bottom surface of the heat exchanger, and Located between the lower side of the air guide and the upper surface of the base fan and the auxiliary drain that is formed in the heat exchanger and provided with an auxiliary drain for draining the condensate overflowed from the air guide, connecting the drain of the air guide and the auxiliary drain of the auxiliary drain It is configured to include a connection drainage.

The connection drainage part is provided at a position corresponding to the handle part of the base pan, and the side wall forming the periphery of the drainage path is formed to be lower than the periphery.

A drop groove is formed in the auxiliary drainage path so as to receive condensed water that is located in the handle portion of the base pan and is transferred through the connection drainage part, and the drop groove is connected to the auxiliary drainage path.

According to the condensate discharge structure of the air conditioner according to the present invention having such a configuration there is an advantage that the discharge of the condensate formed during the operation of the air conditioner is always made smoothly.

Hereinafter, a preferred embodiment of the condensate discharge structure of the air conditioner according to the present invention having the configuration as described above will be described with reference to the accompanying drawings. The same as in the prior art will be described using the symbols in the prior art drawings.

2 and 3, various parts of the air conditioner are seated in the base fan 1 which forms the bottom surface of the air conditioner. The side wall 2 is formed to be upright on the upper surface of the base pan 1 surrounding the edge of the base pan 1. At the front end of the base pan 1, the side wall 2 protrudes forward to form a handle portion 2 '. The handle portion 2 'is for facilitating the handling of the air conditioner.

And the auxiliary drain port 50 is seated on the front end surface of the base fan (1). The auxiliary drain 50 is formed of a good heat insulating material and also serves to prevent the formation of water droplets on the lower surface of the base fan (1).

An auxiliary drainage passage 52 is formed in the auxiliary drainer 50. The auxiliary drainage passage 52 is formed in a path corresponding to the drainage passage 65 formed in the air guide 60 to be described below. That is, it is formed to be inclined toward the other end from one end of the indoor heat exchanger (7) to be seated in the air guide 60, to guide the delivered condensate to the outdoor side of the base fan (1).

On the other hand, a projection 54 is formed at the tip of the auxiliary drain 50, that is, the position corresponding to the handle portion 2 'of the base fan 1, and the projection 54 is provided with a drop groove to open upward. 55 is provided with a predetermined area. The drop groove 55 is connected to the auxiliary drainage passage 52 and transfers the condensed water dropped to the auxiliary drainage passage 52.

Next, the air guide 60 is seated on the base fan 1. At this time, the auxiliary drain 50 is located between the lower portion of the air guide 60 and the base fan (1). The air guide 60 is formed with an orifice 62 for guiding the air sucked in the space for air conditioning and passing through the heat exchanger 7, and the discharge guide 64 on one side of the orifice 62 Is formed. The discharge guide 64 serves to guide the heat exchanged air inside the air conditioner to be discharged back to the space for air conditioning.

The drainage passage 65 is formed on the bottom surface of the air guide 60. An indoor heat exchanger 7 is seated on the bottom surface of the air guide 60, and the drainage passage 65 is for draining condensate generated in the indoor heat exchanger 7 to the outdoor side of the base fan 1. .

On the other hand, the side wall 66 is provided to form the drainage path 65 surrounding the edge of the bottom surface of the air guide 60, the connection drain portion 68 is formed on one side of the side wall 66. The connection drainage portion 68 is formed at a position corresponding to the handle portion 2 'of the base pan 1, and when the drainage of condensate is not smooth through the drainage passage 65, the auxiliary drainage passage ( 52) to deliver condensate.

The connection drainage portion 68 is formed by forming a relatively low height of the side wall 66. The connection drainage portion 68 is located at a position corresponding to the drop groove 55 so that the condensate passing through the connection drainage portion 68 falls into the drop groove 55.

Hereinafter, the operation of the condensate discharge structure of the air conditioner according to the present invention having the configuration as described above will be described.

When the air conditioner is operated, air in the space for air conditioning is sucked into the indoor side of the air conditioner. The sucked air is heat-exchanged while passing through the indoor heat exchanger (7), and is guided by the scroll (11) through the orifice (62) and delivered to the discharge guide (64). The heat exchanged air transferred to the discharge guide 64 is transferred to the space for air conditioning through the discharge grill.

On the other hand, when the heat exchange in the indoor heat exchanger (7), moisture contained in the air sucked in the space for air conditioning is condensed. The condensed water condensed as described above flows along the indoor heat exchanger 7 and is delivered to the drain passage 65. Then, the condensed water flows along the slope of the drainage path 65 and is delivered to the outdoor side of the base pan 1.

Next, when the condensate generated in the indoor heat exchanger 7 is large or the drainage passage 65 is blocked by freezing or the like, the condensate is guided to the drop groove 55 through the connection drainage 68.

That is, the drop groove 55 is formed on the protrusion 54 formed to protrude toward the handle portion 2 'of the base fan 1, so that when the condensed water falls from the connection drainage portion 68, the drop groove Delivered to 55. The condensed water delivered to the drop groove 55 flows along the auxiliary drainage path 52 and is also delivered to the outdoor side of the base fan 1.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

In the condensate discharge structure of the air conditioner according to the present invention as described in detail above, the secondary condensate is provided separately from the drainage path for draining the condensate, and the condensate is discharged through the auxiliary drainage in an emergency. Therefore, the drainage of the condensate is always smooth, thereby improving the reliability of the product.

Claims (3)

An air guide installed on the base pan and provided with a drain passage for draining the condensed water generated in the heat exchanger on a bottom surface of the heat exchanger; An auxiliary drain hole disposed between the lower part of the air guide and the upper surface of the base fan and provided with an auxiliary drainage path generated by the heat exchanger to drain the condensed water overflowed from the air guide; Condensate discharge structure of the air conditioner, characterized in that it comprises a connection drainage portion for connecting the drainage of the air guide and the auxiliary drainage of the auxiliary drain. The condensate discharge structure of claim 1, wherein the connection drainage part is provided at a position corresponding to a handle part of the base pan, and the side wall forming the periphery of the drainage path is formed lower than the periphery. The air conditioner according to claim 2, wherein a drop groove is formed in the auxiliary drain passage so as to receive condensed water which is located at a handle of the base pan and is received through the connection drainage portion, and the drop groove is connected to the auxiliary drain passage. Condensate outlet structure.