KR100399323B1 - Window type Air conditioner - Google Patents

Abstract

The present invention relates to a window type air conditioner, which includes a case divided into an outdoor side and an indoor side; A compressor installed in the case and configured to pressurize a low temperature low pressure refrigerant to a high temperature high pressure state; An outdoor fan installed at an outdoor side of the case and rotated to suck the outdoor air to the outdoor heat exchange side; A condenser that is bent to surround the outdoor fan and is condensed with the refrigerant through heat exchange with outdoor air pressurized by the outdoor fan and discharged to the upper side and both sides of the fan; An evaporator installed at an indoor side of the case and configured to evaporate refrigerant through heat exchange with indoor air introduced into the indoor side; An indoor fan that blows cold air formed through the evaporation of the evaporator into the room; When the outdoor fan is rotated, the outdoor air sucked into the outdoor side of the case is discharged to the upper side and both sides of the fan together with the pressurizing action by the outdoor fan to form heat exchange with the condenser, and then the top and both sides of the case are An air passage configured to be discharged to the outside through the air; Slinger ring formed in the outdoor fan to increase the cooling performance of the condenser by scattering the condensed water flowing from the evaporator in the outer circumferential direction, which is sucked into the outdoor heat exchange side is discharged to the outside after heat exchange In addition to the excellent effect that the flow resistance of the outdoor air is greatly reduced, there is no fear that hot air discharged to the outside by heat exchange with the condenser is re-inhaled into the outdoor heat exchange side again by the outdoor fan drive. In addition to the noise reduction of the air flow of the air conditioner, the refrigerating cycle efficiency of the air conditioner has an excellent effect. The condensed water introduced from the evaporator to the outdoor fan side through the sealer ring provided in the outdoor fan. This results in the condenser being scattered to match the fan blowing direction. There is also an excellent effect to be presented also improves operating efficiency of the condenser.

Description

Window type air conditioner

The present invention relates to a window type air conditioner, and more particularly, to an outdoor fan and a condenser of a window type air conditioner.

In general, a window type air conditioner includes a compressor 12 for pressurizing a refrigerant in one case 10 as shown in FIG. 1, a condenser 14 for condensing the refrigerant pressurized by the compressor 12, and lowering the temperature thereof. In addition, the condenser 14 has a structure in which the evaporator 16 is configured to exchange heat by using a refrigerant having a lower temperature, and the inner space of the case 10 is based on the diaphragm panel 18. It is divided into outdoor parts.

The indoor unit has a centrifugal fan type indoor fan 20 for circulating the evaporator 16 and the indoor air through the evaporator 16, and the compressor 12, the condenser 14 and the outdoor air in the outdoor unit. The outdoor fan 30 of the axial flow fan type is used to achieve the cooling action of the condenser 14.

Here, the indoor fan 20 and the outdoor fan 30 is configured to be operated together by one drive motor 40 for cost reduction and miniaturization of the air conditioner.

As described above, the window type air conditioner is generally installed such that the indoor part is located in the interior of the building and the outdoor part is located outside the center of the diaphragm panel 18.

According to the window-type air conditioner, the indoor air 20 is rotated by the rotational operation of the indoor fan 20 and is cooled while being sucked through the evaporator 16 in the case 10, and the sucked air is pressurized to be discharged out of the case 10. The refrigerant is appropriately cooled and cooled in contact with the hot air in the evaporator 16, and the refrigerant is cooled again by the outdoor air introduced into the outdoor unit by the operation of the outdoor fan 30 in the course of passing through the condenser 14 and circulated. It continues to work.

Here, the blowing action by the outdoor fan 30 is air blown into the case 10 through the ventilation holes formed on the left and right sides of the case 10 (when a thick arrow in the drawing) is pressurized and blown by the outdoor fan 30. As a result, it passes through the condenser 14 and is discharged out of the case 10.

In addition, the window air conditioner is composed of a condenser cooling structure for increasing the cooling efficiency of the condenser by using the condensate formed in the evaporator 16, the condenser cooling structure is an air guide (19) connecting the evaporator 16 and the outdoor part of the indoor unit; The slinger ring 32 is attached to the outdoor fan 30 and rotates together with the outdoor fan 30.

According to the condenser cooling structure as described above, the condensed water formed in the evaporator 16 is introduced into the outdoor portion through the air guide 19, and the introduced condensed water is splashed by the slinger ring 32 which is rotated together with the outdoor fan 30. Since it is scattered and evaporated while absorbing the heat of the condenser 14, the cooling operation of the condenser 14 proceeds more efficiently.

However, according to the conventional window type air conditioner as described above, the condenser 14 of the structure in which the refrigerant pipe and the cooling fins are densely arranged is blown on the characteristics (low static pressure) of the outdoor fan 30 made of the axial fan type. If the resistance is large, the blowing amount is greatly reduced. In addition, if a fan having a large outer diameter is used to increase the air volume, or if the fan's rotational speed is increased, the air conditioner's volume or power consumption increases, thereby degrading the commercialization and economic efficiency of the air conditioner.

In addition, according to the related art, the condenser 14 using the condensate because the condensed water (shown as thin arrows in the drawing) scattered by the outdoor fan 30 is directed toward the edge of the fan instead of the condenser 14 according to the rotation direction of the fan. The cooling action of the is not made efficiently.

The present invention devised to solve the above-described problems, after the centrifugal operation of the outdoor fan made of a turbo fan, the outdoor air sucked into the outdoor heat exchange side through the case back is pressurized by the outdoor fan, After the heat exchange with the condenser while being discharged to the upper side and both sides, it is formed in the form of air flow path is discharged to the outside through the upper surface and both sides of the case, accordingly, is sucked into the outdoor heat exchange side to the outside after heat exchange The flow resistance of the discharged outdoor air can be reduced, and in particular, since there is no fear that hot air discharged to the outside by heat exchange with the condenser is re-inhaled into the outdoor heat exchange side again by the outdoor fan driving, the air flow accordingly In addition to reducing the noise, the purpose of the refrigeration cycle efficiency of the window type air conditioner is greatly improved. In addition, by dispersing the condensed water introduced from the evaporator to the outdoor fan side through the sealer ring provided in the outdoor fan to the condenser side corresponding to the blowing direction of the fan, thereby improving the operating efficiency of the condenser. There is another purpose.

1 is a schematic cross-sectional view showing the structure of a general window type air conditioner.

2 is a schematic cross-sectional view showing the structure of a window type air conditioner according to an embodiment of the present invention.

Figure 3 is a schematic diagram showing the structure of the condenser applied to the window air conditioner according to an embodiment of the present invention and the blowing characteristics by the standing outdoor fan.

<Explanation of symbols for the main parts of the drawings>

10: case 12: compressor

14: Condenser 16: Evaporator

18: diaphragm panel 20: indoor fan

30: Outdoor fan 32: Slinger ring

40: drive motor 50: outdoor fan

52: slinger ring 60: condenser

Window-type air conditioner provided to achieve the above object, and the case is divided into the outdoor side and the indoor side; A compressor installed in the case and configured to pressurize a low temperature low pressure refrigerant to a high temperature high pressure state; An outdoor fan installed at an outdoor side of the case and rotated to suck the outdoor air to the outdoor heat exchange side; A condenser that is bent to surround the outdoor fan and is condensed with the refrigerant through heat exchange with outdoor air pressurized by the outdoor fan and discharged to the upper side and both sides of the fan; An evaporator installed at an indoor side of the case and configured to evaporate refrigerant through heat exchange with indoor air introduced into the indoor side; An indoor fan that blows cold air formed through the evaporation of the evaporator into the room; When the outdoor fan is rotated, the outdoor air sucked into the outdoor side of the case is discharged to the upper side and both sides of the fan together with the pressurizing action by the outdoor fan to form heat exchange with the condenser, and then the top and both sides of the case are An air passage configured to be discharged to the outside through the air; And a slinger ring formed in the outdoor fan to increase the cooling performance of the condenser by scattering the condensed water introduced from the evaporator in an outer circumferential direction.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIG. 2 and FIG.

First, the window-type air conditioner according to the embodiment of the present invention comprises a centrifugal fan type outdoor fan 50 and a condenser 60 that surrounds the outer circumferential surface of the outdoor fan 50 as shown in FIG. 2. As shown in FIG. 3, the condenser 60 has a bent shape that extends to the top and left and right surfaces of the outdoor fan 50.

Here, the outdoor fan 50 is preferably composed of a turbo fan type having the highest blowing efficiency among centrifugal fans, and the outdoor fan 50 scatters condensed water introduced from the evaporator 16 in the circumferential direction during rotation operation. As a result, a slinger ring 52 is provided to increase the cooling performance of the condenser 60.

According to the embodiment of the present invention as described above on the characteristics (centrifugal fan) of the outdoor fan 50, the outdoor air is introduced into the interior through the back of the case 10, and then pressurized by the outdoor fan 50 While passing in the outer circumferential direction of the fan passes through the condenser 60, it is discharged through both sides and the upper surface of the case 10. According to the characteristics of the outdoor fan 50, even if the condenser is made of a compact space between the refrigerant pipe and the cooling fins, it is possible to prevent the air flow amount from being reduced by slightly increasing the rotation speed of the fan.

In addition, since the condensed water introduced from the evaporator 16 to the outdoor fan 50 is scattered by the slinger ring 52 which works together with the outdoor fan 50 to coincide with the blowing direction, most of the condenser is directed toward the condenser 60. 60) the working efficiency is improved.

The present invention, when the centrifugal drive of the outdoor fan made of a turbo fan, after the outdoor air sucked into the outdoor heat exchange side through the case back is pressurized by the outdoor fan, the condenser is discharged to the upper side and both sides of the fan After the heat exchange with the air flow path is discharged to the outside through the upper surface and both sides of the case immediately, the flow resistance of the outdoor air is sucked into the outdoor heat exchange side and discharged outside after heat exchange With the excellent effect of being reduced, there is no fear that the hot air heat exchanged with the condenser and discharged to the outside is not sucked back into the outdoor heat exchange side by the outdoor fan drive, and thus the noise of the air flow of the window air conditioner accordingly. As well as the reduction, there is an excellent effect that the refrigeration cycle efficiency of the air conditioner is greatly improved. Since the condensed water introduced from the evaporator to the outdoor fan side through the sealer ring provided in the outdoor fan is scattered to the condenser side that matches the blowing direction of the fan, there is also an excellent effect of improving the operating efficiency of the condenser.

Claims (2)

A case divided into an outdoor side and an indoor side; A compressor installed in the case and configured to pressurize a low temperature low pressure refrigerant to a high temperature high pressure state; An outdoor fan installed at an outdoor side of the case and rotated to suck the outdoor air to the outdoor heat exchange side; A condenser that is bent to surround the outdoor fan and is condensed with the refrigerant through heat exchange with outdoor air pressurized by the outdoor fan and discharged to the upper side and both sides of the fan; An evaporator installed at an indoor side of the case and configured to evaporate refrigerant through heat exchange with indoor air introduced into the indoor side; An indoor fan that blows cold air formed through the evaporation of the evaporator into the room; When the outdoor fan is rotated, the outdoor air sucked into the outdoor side of the case is discharged to the upper side and both sides of the fan together with the pressurizing action by the outdoor fan to form heat exchange with the condenser, and then the top and both sides of the case are An air passage configured to be discharged to the outside through the air; And a slinger ring formed in the outdoor fan to increase the cooling performance of the condenser by scattering the condensed water introduced from the evaporator in an outer circumferential direction. delete