KR100556948B1 - Window air conditioner - Google Patents

Abstract

The present invention relates to a window-type air conditioner, the present invention is formed by partitioning the outdoor side and the indoor side and the outer side to form an outdoor air inlet and air outlet, while the indoor side of the casing for forming an indoor air inlet and air outlet; It consists of an outdoor heat exchanger installed inside the air inlet of the casing to exchange heat with outdoor air, and an outdoor crossflow fan installed inside the outdoor heat exchanger to suck outdoor air in the circumferential direction and discharge it in the circumferential direction. An indoor heat exchanger installed inside the indoor heat exchanger of the casing and an indoor air inlet of the casing, and an indoor heat exchanger installed inside the indoor heat exchanger to suck the indoor air in the circumferential direction and discharge the air in the circumferential direction. The indoor side heat exchanger made of side crossflow fan Reduce the sound to increase the flow resistance compared to the same air volume and can be achieved the miniaturization by reducing the height and length of the air-conditioning and to scatter the condensed water to the outdoor fan easily improve air conditioning efficiency. In addition, by providing a heat exchanger for condensation inside the air outlet of the outdoor side, the heat exchange area can be further increased, and the air conditioner efficiency can be remarkably improved.

Description

Window Air Conditioner {WINDOW TYPE AIR CONDITIONER}

1 is an exploded perspective view showing an example of a conventional window type air conditioner,

2 is a cross-sectional view of a conventional window air conditioner,

3 is an exploded perspective view showing an example of the present invention window air conditioner,

Figure 4 is a longitudinal cross-sectional view of the present invention window air conditioner,

5 is a schematic view illustrating a mounting position of an outdoor fan and an indoor fan in the window type air conditioner of the present invention;

Figure 6 is a longitudinal sectional view showing the outdoor side of the present invention window air conditioner.

* Description of the main parts of the drawings *

110: casing 111: outdoor air intake

112: outdoor air outlet 113: indoor air intake

114: indoor air outlet 120: outdoor side heat exchanger

121: compressor 122: heat exchanger for first condensation

123: second heat exchanger for condensation 124: outdoor fan (crossflow fan)

125: outdoor side stabilizer 126: outdoor side rear guide

127: outdoor fan motor 130: indoor side heat exchanger

131: heat exchanger for evaporation 132: indoor fan (crossflow fan)

133: indoor stabilizer 134: indoor rear guide

135: indoor fan motor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a window type air conditioner, and more particularly, to a window type air conditioner that can install both an outdoor fan and an indoor fan as a cross flow fan to reduce noise, increase air volume, and reduce size.

In general, an air conditioner (also called an air conditioner) includes a refrigeration cycle device including a compressor, a condenser, a capillary tube, a heat exchanger, and the like. It is a device that keeps the atmosphere of the room comfortable by properly discharging.

Air conditioners can be divided into window type air conditioners and separate type air conditioners according to the installation method. Window-type air conditioners are installed in windows by installing all refrigeration cycle devices in one casing, while separate type air conditioners are divided into indoor units and outdoor units. To install on.

1 is an exploded perspective view showing an example of a conventional window air conditioner, Figure 2 is a cross-sectional view showing a conventional window air conditioner.

As shown in the drawing, a conventional window air conditioner has a casing 10 formed to have a predetermined internal space, an outdoor side heat exchanger 20 installed at one side of the casing 10 to heat-exchange with outdoor air, and a casing ( 10) is installed on the other side in the interior heat exchanger 30 to heat the indoor air.

The casing 10 forms the outdoor air intakes 11 on both sides of the outdoor side, and the outdoor air discharge ports 12 on the front side of the outdoor side.

In addition, the casing 10 forms an indoor air inlet 13 on the front face of the interior side, and an indoor air outlet 14 on the upper half of the front side of the interior, that is, above the indoor air inlet 13. Forming.

The outdoor side heat exchanger 20 is a compressor 21, a condensation heat exchanger 22 that converts the gas refrigerant into a liquid refrigerant while exchanging heat with the outdoor air by connecting the compressor 21 with a refrigerant pipe, and a heat exchanger for condensation. It is composed of an outdoor fan (23) made of an axial fan installed inside the machine (22) to suck the outdoor air and discharge it toward the condensation heat exchanger (22).

The indoor heat exchanger 30 is connected to the heat exchanger 22 for condensation of the outdoor heat exchanger 20 to convert the liquid refrigerant into a low-temperature low-pressure gas refrigerant, and an evaporation heat exchanger 31. Is installed inside the machine 31 and consists of an indoor fan 32 made of a turbo fan, which is a kind of centrifugal fan that sucks indoor air and discharges it toward the evaporation heat exchanger 31. have.

On the other hand, between the outdoor heat exchanger 20 and the indoor heat exchanger 30 is provided a diaphragm 15 for dividing the inside of the casing 10 into an outdoor side and an indoor side, and the diaphragm 15 is the outdoor fan described above. The fan motor 40 is coupled to the 23 and the indoor fan 32 to transmit rotational force, respectively.

In the drawings, reference numeral 24 denotes an outdoor shroud, 25 an outdoor orifice, 33 an indoor orifice, and 34 an indoor air guide plate.

The conventional window air conditioner as described above operates as follows.

That is, when power is supplied to the air conditioner, the compressor 21 is driven to circulate the refrigerant, and the fan motor 40 is driven to suck outdoor air and indoor air to the outdoor side and the indoor side, respectively. 22) and heat is exchanged with (31) to discharge.

Looking at this in more detail as follows.

As shown in FIG. 2, the outdoor air is sucked through the outdoor air inlets 11 and 11 provided at both sides of the casing 10 as the axial fan is installed at the outdoor side. With respect to the rear surface, that is to discharge again to the outdoor through the outdoor air discharge port 12 provided forward toward the outdoor. At this time, the outdoor air comes into contact with the heat exchanger 22 for condensation, which is an outdoor heat exchanger, and is discharged as hot air while condensing the refrigerant inside the heat exchanger.

On the other hand, as the centrifugal fan is installed as the indoor fan 32 on the indoor side, the indoor air is sucked through the indoor air suction opening 13 provided in the lower half of the casing 10, and the upper upper half of the casing 10 is provided. It is discharged back to the room through the indoor air discharge port 14 provided perpendicular to the. At this time, the indoor air was in contact with the evaporation heat exchanger 31, which is an indoor heat exchanger, and evaporated the refrigerant inside the heat exchanger to discharge cold air.

However, in the conventional window type air conditioner as described above, as the axial fan is applied to the outdoor fan 23, the noise is increased and the flow rate may be reduced due to the characteristics of the axial fan. In view of this, in order to lower the flow resistance, the distance between the diaphragm 15 and the outdoor fan should be increased, which is disadvantageous in miniaturizing the product due to the long length of the air conditioner.

In addition, the heat exchanger 22 for condensation is provided only at the outlet side of the outdoor fan 23, so that the heat exchange area of the refrigerant is narrow, thereby limiting the capability of the heat exchanger.

The present invention has been made in view of the problems of the conventional window air conditioner as described above, it is an object of the present invention to provide a window air conditioner that can reduce the noise, increase the air flow rate for the same flow path resistance and can be miniaturized.

Another object of the present invention is to provide a window type air conditioner capable of improving the heat exchange capacity of the heat exchanger for condensation.

In order to achieve the object of the present invention, the casing which is formed by partitioning the outdoor side and the indoor side and the outdoor side to form the outdoor air inlet and the air outlet while the indoor side to form the indoor air inlet and the air outlet, and the casing outdoor An outdoor heat exchanger configured of a first outdoor heat exchanger installed inside the side air inlet and a second outdoor heat exchanger connected to the first outdoor heat exchanger via a refrigerant pipe and installed inside the outdoor air discharge port to exchange heat with outdoor air. And an outdoor heat exchanger, which is installed inside the outdoor heat exchanger and sucks outdoor air in the circumferential direction and discharges it in the circumferential direction, and is installed inside the indoor air intake of the casing. Indoor heat exchanger to exchange heat and inside the indoor heat exchanger By inhalation in the main direction provides changmunhyeong air conditioning portion including an indoor heat exchanger consisting of a cross-flow fan of the indoor unit discharging in the circumferential direction.

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Hereinafter, the window type air conditioner according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 3 is an exploded perspective view showing an example of the window air conditioner of the present invention, Figure 4 is a longitudinal sectional view of the window air conditioner of the present invention, Figure 5 is a schematic view shown to explain the mounting position of the outdoor fan and the indoor fan in the window air conditioner of the present invention. 6 is a longitudinal sectional view showing the outdoor side of the window-type air conditioner of the present invention.

As shown in the figure, the window-type air conditioner according to the present invention has a predetermined internal space and has a casing 110 partitioned into an outdoor side and an indoor side, and an outdoor heat exchanger installed on one side of the casing 110 to exchange heat with outdoor air. 120 and the indoor heat exchanger 130 installed at the other side in the casing 110 to heat-exchange the indoor air.

The casing 110 forms an outdoor air inlet 111 on the front side of the outdoor side parallel to the wall of the building, and forms an outdoor air outlet 112 on the top surface of the outdoor side perpendicular to the wall of the building.

In addition, the casing 110 forms an indoor air intake 113 on the front surface of the indoor side parallel to the wall surface of the building, and forms an indoor air outlet 114 on the upper surface of the indoor side perpendicular to the wall surface of the building. do.

The outdoor heat exchanger 120 is installed at one side of the casing 110 to compress the refrigerant into a gas refrigerant of high temperature and high pressure, and is connected to the compressor 121 by a refrigerant pipe, and the outdoor air suction port ( 111 is installed inside and connected to the first condensation heat exchanger 122 for converting the gas refrigerant into liquid refrigerant while heat-exchanging with the outdoor air, and the refrigerant pipe of the first condensation heat exchanger 122 and the outdoor air outlet ( A second condensation heat exchanger 123 for converting a gas refrigerant into a liquid refrigerant together with the first condensation heat exchanger 122 while heat-exchanging with the discharged air installed inside the 112, and a first condensation heat exchanger ( 122 and an outdoor fan 124 installed inside the second heat exchanger 123 to circulate outdoor air.

The compressor 121 has a suction side connected to an outlet of the evaporation heat exchanger 131 which will be described later, while the discharge side thereof is connected to an inlet of the second heat exchanger 123 for condensation. It is preferable to install 121 in the lateral direction, that is, in the axial direction of the outdoor fan 124 or the indoor fan 132.

The first heat exchanger 122 for condensation is formed in a substantially rectangular parallelepiped shape to accommodate most of the front surface of the outdoor heat exchanger 120 so as to face the inside of the outdoor air intake 111, and the second heat exchanger 123 for condensation. ) Is bent substantially perpendicularly to the first condensation heat exchanger 122 to form a rectangular parallelepiped shape to accommodate most of the upper surface of the outdoor air outlet 112.

Between the first condensation heat exchanger 122 and the second condensation heat exchanger 123, the outdoor side stabilizer 125 is approximately 45 ° to allow the outdoor intake air to flow smoothly along the outdoor fan 124. Install about.

The outdoor fan 124 sucks air in the circumferential direction of the fan 124 from the front of the casing 110 through the outdoor air inlet 111 provided on the front surface of the casing 110, and again the fan 124. It consists of a cross flow fan which is formed in the axial direction (both sides of the casing) in a plurality of long and narrow wings curved in the rotational direction so as to discharge in the circumferential direction.

The rear side of the outdoor fan 124, that is, the middle portion of the casing 110 is provided with an outdoor side rear guide 126 for guiding the outdoor air sucked into the outdoor fan 124 to the outdoor side air outlet (112).

The casing is installed below the outdoor fan 124 near the lowest point of the outdoor rear guide 126, that is, to a position lower by a predetermined height h than the center of the indoor fan 132, which will be described later, as shown in FIG. Preferably, the outdoor fan 124 scatters condensed water accumulated on the outdoor side of the 110 to be scattered by the second heat exchanger 123.

The indoor heat exchanger 130 is connected to the second condensation heat exchanger 123 of the outdoor heat exchanger 120 to convert the liquid refrigerant into a low temperature low pressure gas refrigerant and an evaporation heat exchanger 131. Installed in the inside of the heat exchanger 131 for suctioning the indoor air is composed of an indoor fan 132 for discharging toward the evaporation heat exchanger (131).

The heat exchanger 131 for evaporation is formed in a substantially rectangular parallelepiped shape so as to be positioned between the indoor side air inlet 113 and the air outlet 114 by accommodating most of the interior front vertical surface of the casing 110.

The indoor fan 132 sucks the indoor air in the circumferential direction from the front side through the indoor air suction port 113 provided on the front vertical surface of the casing 110 and discharges it toward the indoor air discharge port 114 provided on the upper surface. It consists of a crossflow fan to make it possible.

In addition, between the evaporation heat exchanger 131 and the indoor air outlet 114, an indoor stabilizer 133 is installed at about 45 ° so that indoor intake air can flow smoothly along the indoor fan 132. do.

In addition, the rear side of the indoor fan 132, that is, the middle portion of the casing 110 is installed at a predetermined distance from the outdoor side rear guide 126, the indoor air sucked into the indoor fan 132, the indoor air discharge port An indoor rear guide 134 is provided to guide 114.

In the drawings, reference numeral 127 denotes an outdoor fan motor and 135 an indoor fan motor.

Window-type air conditioner according to the present invention as described above has the following effects.

That is, when power is supplied to the air conditioner, the compressor 121 is driven to circulate the refrigerant to the first condensation heat exchanger 122, the second condensation heat exchanger 123, and the evaporation heat exchanger 131, and also outdoors. The side fan motor 127 and the indoor fan motor 135 are driven together to suck outdoor air and indoor air into the outdoor side and the indoor side of the casing 110, respectively, and then the outdoor air is the first heat exchanger 122 for condensation. The outdoor air is discharged to the hot air while passing through the second condensation heat exchanger 123, while the indoor air is discharged to the cold air while passing through the heat exchanger 131 for evaporation.

Here, when the outdoor fan 124 is driven by installing the crossflow fan as the outdoor fan 124 as shown in FIG. 5, the outdoor side opens the outdoor air intake 111 provided at the front side of the casing 110. The outdoor air is sucked along the outer circumferential surface of the outdoor fan 124 from the front surface and flows in a circular shape along the outdoor rear guide 126 through the outdoor air outlet 112 provided on the upper surface of the casing 110. In this case, when the outdoor air is sucked by installing the first condensation heat exchanger 122 and the second condensation heat exchanger 123 in the air inlet 111 and the air outlet 112, respectively, The heat exchanger was first heat exchanged through the condensation heat exchanger 122 and then heat exchanged again through the second condensation heat exchanger 123 to increase the heat exchange area on the outdoor side, thereby condensing the refrigerant gas. Overall as you get better The efficiency of eokeon can be significantly improved.

In addition, by installing a crossflow fan with less noise as compared to wind pressure as the outdoor fan 124, the overall air conditioner can be expected to prevent noise, and the high flow rate can be expected as the same flow resistance, thereby improving the cooling performance of the air conditioner. have.

In addition, the crossflow fan, which is the outdoor fan 124, has a smaller fan diameter compared to the axial fan compared to the same air flow, so that the height of the air conditioner can be lowered and the air flow can be maintained even when the air flow path is narrowed. By mounting it on the side of the air conditioner, the length of the air conditioner can be shortened and the overall air conditioner can be miniaturized.

In addition, by installing the compressor horizontally, this can also be reduced in size by lowering the height of the air conditioner.

In addition, by installing the outdoor fan 124 low, the condensate that accumulates to the outdoor side of the casing 110 can be spun up while the outdoor fan 124 rotates and scattered to the second heat exchanger 123 for condensate. The air conditioner efficiency can be increased by increasing the performance of the heat exchanger for condensation without providing scattering means.

In the window air conditioner according to the present invention, by applying both the outdoor fan and the indoor fan as a crossflow fan, it is possible to reduce the noise of the air conditioner and increase the air volume compared to the same flow path resistance, and to achieve a miniaturization by reducing the height and length of the air conditioner. By condensing the condensed water it can be easily improved the air conditioning efficiency.

In addition, by providing a heat exchanger for condensation inside the air outlet of the outdoor side, the heat exchange area can be further increased, and the air conditioner efficiency can be remarkably improved.

Claims (8)

delete A casing which forms the outdoor side and the indoor side and forms the outdoor air inlet and the air outlet on the outdoor side while the indoor side forms the indoor air inlet and the air outlet; A first outdoor heat exchanger installed inside the air inlet of the casing and a second outdoor heat exchanger connected to the first outdoor heat exchanger by a refrigerant pipe and installed inside the air outlet of the outdoor air to exchange heat with outdoor air. An outdoor heat exchanger comprising an outdoor heat exchanger and an outdoor crossflow fan installed inside the outdoor heat exchanger to suck outdoor air in the circumferential direction and discharge the air in the circumferential direction; It consists of an indoor heat exchanger installed inside the air intake of the casing to heat the indoor air, and an indoor crossflow fan installed inside the indoor heat exchanger to suck the indoor air in the circumferential direction and discharge it in the circumferential direction. Window type air conditioner with indoor heat exchanger. The method of claim 2, An outdoor air inlet is formed on the front side of the casing while the outdoor air outlet is formed on the upper surface of the casing. The method of claim 2, An indoor air inlet is formed in the front side of the interior of the casing while the indoor air outlet is formed in the upper surface of the interior of the casing window air conditioner. The method of claim 2, And a compressor for compressing and circulating refrigerant between the outdoor heat exchanger and the indoor heat exchanger in a horizontal manner along the axial direction of the outdoor crossflow fan and the indoor crossflow fan. delete delete The method according to any one of claims 2 to 5, A window type air conditioner, wherein the center of the outdoor crossflow fan is positioned lower than the center of the indoor crossflow fan.

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