KR20000055584A - device for preventing condensate from being splashed in the window type air conditioner - Google Patents

Abstract

PURPOSE: An apparatus for preventing condensed water from splashing of a window air conditioner is provided to maintain clean external appearance of the window air conditioner and improve the efficiency of the window air conditioner. CONSTITUTION: In a window air conditioner having a base fan(17) installed in the low bottom part of a cabinet divided into indoor part and outdoor part for supporting respective part with receiving condensed water, an outdoor heat exchanger(15) installed in the outdoor and combined with an end plate(15a) at both sides for exchanging heat in the external air absorbed into the outdoor, a wing(101) is formed in the outside part of an upper surface of the base fan for flowing condensed water dispersed to the outdoor heat exchanger and flowing downward following the respective end plate into the base fan without splashing to the outside of the base fan.

Description

Device for preventing condensate from being splashed in the window type air conditioner}

The present invention relates to a window type air conditioner, and more particularly, to a condensate splash prevention device of a window type air conditioner.

In general, an air conditioner inhales hot air in a room, exchanges the sucked hot air with cold air, and then discharges the cold air back into the room to cool the room to an appropriate temperature.

Then, the configuration of the window type air conditioner for reference as follows.

As shown in FIGS. 1A to 3, the window type air conditioner is divided into a cabinet 1 installed at the outside of the window type air conditioner and the inside of the cabinet 1.

The front panel 2 is coupled to the front side of the cabinet 1 on the indoor side, and the upper and lower plates 8-1 and 8-2 are guided to the rear of the front panel 2 to guide the flow direction of air. Separated air guide 8 is provided.

The air guide 8 is provided with a blower 6 which rotates to suck in the hot air in the room and discharge the sucked air into the room, and the blower 6 is rotated so as to rotate the blower 6. The motor 7 generating the driving force is axially coupled.

The front panel 2 is provided with an indoor suction port 3 through which the hot air of the room is sucked into the indoor side by the rotational force of the blower 6, and a suction grill 3a is provided on the front surface of the indoor suction port 3. Is coupled, the front side of the air guide (8) is coupled to the indoor heat exchanger (5) in which cold refrigerant flows so that the air sucked through the indoor suction port (3).

The front panel 2 has an interior discharge port 4 for discharging the air discharged in the air guide 8 to the room, and the discharge port 4 side controls the direction of discharge air. A wind direction control louver 9 is installed, and a control box 10 for generating a control signal to control a window type air conditioner is installed at one side of the front panel 2.

The outdoor side is provided with a plurality of outdoor suction grilles 11 on the outer circumferential surface of the cabinet 1, and the outdoor side suction grills are axially coupled with the motor 7 in the outdoor side according to the driving force of the motor 7. Blowing fan 13 is installed to suck the outside air to the outside through the (11) and discharge the sucked air to the outside, and protect the blowing fan 13 on the outside of the blowing fan (13) In addition, a shroud 14 for guiding the air sucked through the outdoor suction grille 11 is installed.

The outdoor side heat exchanger 15 is installed at the rear of the blower fan 13 to heat the outside air which is sucked through the outdoor side suction grill 11 and guided by the shroud 14. 15 is an end plate 15a coupled to both sides of the outdoor heat exchanger 15 to fix the plurality of heat dissipation fins 15b for smoothly heat-exchanging external air and the outdoor heat exchanger 15. consist of.

In the outdoor side, a compressor 16 which flows inside the indoor side heat exchanger 5 and rises in temperature, and compresses the refrigerant at high temperature and high pressure is installed, and the outdoor side heat exchanger 15 is installed. An outdoor side discharge grill 12 is provided through which heat-exchanged air is discharged to the outside while passing therethrough.

A base fan 17 supporting each component is installed at the bottom of the cabinet 1, and one side of the lower plate 8-2 of the air guide 8 drains condensate accumulated at the indoor side to the outdoor side. The condensate flow path 18 is formed.

When the user selects the cooling operation mode formed in the control box 10 while the power is supplied to the window type air conditioner, a driving force is generated from the motor 7 installed in the cabinet 1, and the driving force is transmitted to the room. The blower 6 on the side and the blower fan 13 on the outdoor side are rotated.

The hot air in the room passes through the indoor suction grille 3a coupled to the front surface of the indoor suction port 3 formed in the front panel 2 by the rotational force of the blower 6 which is rotated. In the process of passing through the indoor heat exchanger (5) coupled to the front of the air guide 8 is located in the rear of the front panel (2) is sucked into the room through the indoor side) Cold refrigerant flowing in the indoor heat exchanger (5) and heat exchange take place to cool.

The cold air flows through the air guide 8 to which the upper and lower plates 8-1 and 8-2 are coupled according to the rotational force of the blower 6 which is continuously rotated. Is discharged to the indoor discharge port 4 formed in the front panel 2, and the guided air is adjusted to the left and right according to the rotation angle of the wind direction control louver 9 installed at the indoor discharge port 4 side. While being discharged into the room through the indoor side discharge port 4, the room is cooled to an appropriate temperature.

At this time, when the hot air in the room passing through the indoor heat exchanger 5 and the cold refrigerant flowing through the indoor heat exchanger 5 exchange heat, condensed water is generated on the surface of the indoor heat exchanger 5. The condensate is accumulated in the lower plate 8-2 of the air guide 8 while flowing down to the lower portion of the indoor heat exchanger 5, and the condensate accumulated in the lower plate 8-2 of the air guide 8 The water is drained from the indoor side to the outdoor side while flowing along the condensate flow path 18 formed on one side of the lower plate 8-2.

In addition, the refrigerant that is heated in the indoor heat exchanger 5 and heat exchanged with the hot air in the room to increase the temperature is introduced into the compressor 16 installed at the outdoor side, and the introduced refrigerant is heated at a high temperature and high pressure in the compressor 16. It is compressed into a refrigerant of the refrigerant and then discharged into the outdoor heat exchanger (15).

Here, the suction power is generated while the blowing fan 13 is rotated by receiving the driving force of the motor 7, and the outside air is sucked to the outside through the outdoor suction grill 11 by the rotational force of the blowing fan 13. The sucked outside air passes through the outdoor side heat exchanger (15), thereby performing heat exchange.

That is, since the heat of the refrigerant flowing in the outdoor heat exchanger 15 is discharged to the outside air, the temperature of the refrigerant is reduced while passing through a capillary tube (not shown) in a lowered state, and then the indoor heat exchanger of the indoor side. (5) flows into the outside, and the outside air is discharged to the outside of the window type air conditioner through the outdoor discharge grill 12 by the rotational force of the blower fan 13 which is continuously rotated while the temperature is raised.

On the other hand, the condensate drained to the outdoor side along the condensate flow path 18 formed on one side of the lower plate 8-2 of the air guide 8 is scattered to the outdoor heat exchanger 15 by the rotational force of the blower fan 13. Then, the scattered condensate is evaporated by heat exchange in the outdoor heat exchanger (15) through which a high temperature refrigerant flows.

However, the conventional window type air conditioner is drained from the indoor side to the outdoor side and condensed water scattered to each end plate 15a of the outdoor heat exchanger 15 by the rotational force of the blower fan 13 does not evaporate. It flows down into the lower part of the outdoor side heat exchanger 15 by 15a.

Since the upper surface of the outer side of the base fan 17 is formed at a right angle to the condensate flowing down to the lower side of the outdoor heat exchanger 15, as shown in FIG. 3, the base fan 17 hits the upper surface of the base fan 17. As it splashes out of the outside of the window type air conditioner, the outside of the window type air conditioner is not clean to the outside of the window type air conditioner, thereby reducing the consumer's reliability of the product.

As the condensed water is discharged to the outside of the window type air conditioner, the heat exchange efficiency of the outdoor side heat exchanger 15 is lowered because a sufficient amount of the condensate is not scattered by the outdoor side heat exchanger 15. The overall performance of the is lowered.

The present invention has been made in order to solve the above problems, by forming a structure for receiving the condensate flowing down from the outdoor heat exchanger in the base fan on the outdoor side to prevent the condensed water to fry outside of the base pan Since the condensed water is introduced into the base fan, the purpose of the air conditioner is improved while improving the appearance of the window type air conditioner.

In order to achieve the above object, the present invention is installed in the bottom portion of the cabinet divided into the indoor side and the outdoor side to support each component and receiving the condensate and the base fan, which is installed on the outdoor side and sucked to the outdoor side In a window type air conditioner having an outdoor heat exchanger having an end plate coupled to both sides to heat external air, the outside of the base fan upper surface of the outdoor side is formed with wings in an outward direction to be scattered by the outdoor heat exchanger, The condensate splash prevention device of the window type air conditioner is provided, characterized in that the condensate flowing down the plate is introduced into the base pan without splashing out of the base pan by the wing.

Figure 1a is an exploded perspective view showing a typical window air conditioner.

Figure 1b is a sectional view showing a window air conditioner.

Figure 2 is an exploded perspective view showing a state in which the outdoor heat exchanger is coupled to a conventional base fan of the window type air conditioner.

Figure 3 is a cross-sectional view showing a state in which the outdoor side heat exchanger is coupled to the conventional base fan.

Figure 4 is an exploded perspective view showing a state in which the outdoor heat exchanger is coupled to the present invention base fan of the window type air conditioner.

Figure 5 is a cross-sectional view showing a state in which the outdoor side heat exchanger coupled to the base fan of the present invention.

Figure 6 is another embodiment showing a state in which wings are formed in the base fan of the present invention.

Explanation of symbols for main parts of the drawings

15: outdoor side heat exchanger 17: base fan

101: wings

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 4 and 5.

Since the structure of the window type air conditioner has been mentioned in the conventional configuration, overlapping parts are omitted, and the same structure is given the same reference numeral as in the prior art.

Figure 4 is an exploded perspective view showing a state in which the outdoor heat exchanger is coupled to the base fan of the present invention of the window air conditioner, Figure 5 is a cross-sectional view showing a state in which the outdoor heat exchanger is coupled to the base fan of the present invention.

According to the present invention, in the window type air conditioner in which the indoor side and the outdoor side are integrally formed, each end plate of the outdoor heat exchanger 15 is formed on the outside of the upper surface of the base fan 17 on the outdoor side by the rotational force of the blower fan 13. 15a) and wings that are scattered by the heat dissipation fins 15b to prevent condensate flowing into the lower portion of the outdoor heat exchanger 15 from splashing to the outside of the base fan 17 and to flow into the base fan 17 at the same time. The base 101 is formed, and the wing 101 is formed to face the outward direction of the base fan 17 and the condensate falling into the base fan 17 flows smoothly into the base fan 17. The inclined downward from the outside of the fan 17 toward the inward direction.

In another embodiment of the present invention, as shown in Figure 6, by the rotational force of the blower fan 13 is scattered to each end plate (15a) of the outdoor side heat exchanger (15) to the lower along the respective end plate (15a) The condensate flowing out of the base pan 17 is prevented from flowing out, and condensate flows into the base pan 17, and material loss can be reduced to reduce manufacturing costs. The blade 101 is formed only at each end plate 15a side of the outdoor heat exchanger 15.

The operation of the present invention configured as described above is as follows.

First, when the user selects the cooling operation mode while power is supplied to the window type air conditioner, the blower 6 is rotated according to the driving force of the motor 7 installed in the cabinet 1 so that the hot air in the room is sucked in the room. (3) is sucked into the indoor side, the hot air in the sucked room passes through the indoor side heat exchanger (5), the heat exchange takes place to cool, the air is cooled by the blower (6) that is continuously rotated Since the inside of the guide 8 flows, it is sent to the indoor discharge port 4 and discharged into the room through the indoor discharge port 4, so that the room is cooled to an appropriate temperature.

In addition, since the blower fan 13 which is axially coupled to the motor 7 and receives the driving force of the motor 7 is rotated on the outdoor side, the outside air is outdoor through the outdoor suction grill 11 formed in the cabinet 1. The suctioned outside air passes through the shroud 14 and passes through the outdoor side heat exchanger 15 by the rotational force of the blower fan 13 which is continuously rotated, thereby raising the temperature. Is discharged to the outside of the cabinet (1).

On the other hand, the condensate generated on the surface of the indoor heat exchanger 5 due to the temperature difference between the refrigerant flowing in the indoor heat exchanger 5 and the hot air of the room passing through the indoor heat exchanger 5 is It flows down the surface of the indoor heat exchanger (5) to the lower side and is drained from the indoor side to the outdoor side along the condensate flow path 18 formed on one side of the air guide (8), the condensate drained to the outdoor side is a blower fan ( As the hot refrigerant is scattered and contacted by the high temperature refrigerant flowing through the heat exchanger 15, the heat exchanger evaporates while the heat exchanger 15 performs heat exchange.

At this time, the condensate splashed to each of the end plates 15a from the condensate splashed to the outdoor heat exchanger 15 and each end plate 15a by the rotational force of the blower fan 13 does not completely evaporate. It flows down to the lower part of the outdoor side heat exchanger 15 along the plate 15a.

As described above, the condensed water flowing down to the lower side of the outdoor heat exchanger 15 is formed to face the outward direction of the base fan 17 on the outer surface of the upper surface of the base fan 17 and the outside of the base fan 17. In the inner direction toward the inclined downward wing 101 is prevented from being splashed to the outside of the base fan 17, that is, the window type air conditioner by the wing 101 and at the same time the outdoor heat exchanger Condensate flowing down each end plate 15a to the lower part of 15 flows into the base pan 17 while flowing along the downwardly inclined blade 101.

The condensed water introduced into the base fan 17 is scattered back to the outdoor heat exchanger 15 by the rotational force of the blower fan 13 and evaporated.

Here, as shown in FIG. 6, only the portion where the end plate 15a of the outdoor side heat exchanger 15 is positioned is wing 101 on the upper surface of the base fan 17 so as to slope downward from the outside of the base fan 17 to the inside. The condensate flowing along each end plate 15a is prevented from being splashed to the outside of the window type air conditioner by the wing 101, and condensed water is introduced into the base fan 17.

As described above, the present invention by forming a wing inclined downward from the outside of the base fan toward the inner side of the base fan upper surface outer side of the outdoor side, drained from the indoor side to the outdoor side by the rotational force of the blower fan and each side Condensate, which is scattered by the end plate and flows down to the bottom of the outdoor heat exchanger, is prevented from being splashed by the wing to the outside of the base fan, that is, to the outside of the window type air conditioner, and flows into the base pan by the wing. As a result, the appearance of the window type air conditioner is clean, thereby improving consumer reliability of the product.

In addition, the condensed water introduced into the base fan is scattered back to the outdoor heat exchanger by the rotational force of the blower fan, and thus the heat exchange efficiency of the outdoor heat exchanger is increased as the heat exchange is performed, thereby improving the overall performance of the window type air conditioner. have.

Claims (3)

A base fan installed at the bottom of the cabinet divided into an indoor side and an outdoor side to support each component and receive condensate, and an end plate at both sides to heat exchange the external air installed at the outdoor side and sucked to the outdoor side. In a window air conditioner with a combined outdoor heat exchanger, The outer surface of the base fan upper surface of the outdoor side to form a wing in the outward direction so that the condensate flows down to the outdoor heat exchanger and flows down along each end plate to flow into the base fan without splashing out of the base fan by the wing. Condensate splash prevention device of a window type air conditioner, characterized in that. The method of claim 1, The wing is formed to be inclined downward toward the inner side from the outside of the base pan condensate splash prevention device of the air conditioner, characterized in that the condensed water smoothly flows into the base pan. The method of claim 1, The wing is formed on only the end plate side coupled to the outdoor heat exchanger of the upper side of the base fan condensate splash prevention device of the window air conditioner, characterized in that.