KR100556951B1 - Slinger ring structure for window type air-conditioner - Google Patents

Abstract

The present invention relates to a condensate scattering device of a window air conditioner, the present invention is formed by partitioning the outdoor side and the indoor side and the outdoor side to form the outdoor air intake and air outlet while the indoor side to form the indoor air intake and air outlet Casing; An outdoor heat exchanger installed at an outdoor side of the casing to heat exchange with outdoor air, and an outdoor heat exchanger including an outdoor fan for sucking outdoor air to the outdoor heat exchanger; In the window-type air conditioner comprising an indoor heat exchanger installed on the indoor side of the casing to heat exchange the indoor air, and an indoor heat exchanger including an indoor fan that sucks the indoor air with the indoor heat exchanger. By separately installing a plurality of scattering rings for condensate accumulated on the casing outside the casing at predetermined intervals in the axial direction, thereby increasing the amount of scattered condensate and thereby increasing the performance of the condensate heat exchanger. Lower power consumption and improved comfort.

Description

Condensate splash unit of window type air conditioner {SLINGER RING STRUCTURE FOR WINDOW TYPE AIR-CONDITIONER}

1 is a cross-sectional view showing an example of a conventional window air conditioner,

Figure 2 is a side view showing an example of an axial fan with a scattering ring in a conventional window air conditioner,

Figure 3 is a cross-sectional view showing an example of the present invention window air conditioner,

Figure 4 is a side view showing an example of the axial fan with a scattering ring in the window air conditioner of the present invention.

** Description of the symbols for the main parts of the drawings **

10 casing 11: outdoor air inlet

12: outdoor air outlet 13: indoor air intake

14: indoor air outlet 15: diaphragm

20: outdoor side heat exchanger 21: compressor

22: heat exchanger for condensation 24: outdoor shroud

30: indoor heat exchanger 31: heat exchanger for evaporation

32: indoor fan (centrifugal fan) 34: air guide board

40: fan motor 100: outdoor fan (axial fan)

110,120: scattering ring

The present invention relates to an outdoor fan of a window type air conditioner, and more particularly, to a condensate scattering device of a window type air conditioner having a plurality of scattering rings in an outdoor fan to enhance the scattering effect of condensate.

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 indoor atmosphere pleasant by exporting it properly.

Air conditioners can be divided into window type air conditioners and separate type air conditioners according to the installation method. In the window air conditioner, all the refrigeration cycle devices are installed in one casing and installed in a window. In addition, separate type air conditioner is divided into indoor unit and outdoor unit, and indoor unit heat exchanger is installed in the indoor unit, and outdoor side heat exchanger and compressor are installed in the outdoor unit, respectively.

1 is a cross-sectional view showing an example of a conventional window air conditioner, Figure 2 is a side view showing an example of an axial flow fan having a scattering ring in a conventional window air conditioner.

As shown in the drawing, the conventional window type air conditioner has a casing 10 formed to have a predetermined internal space, a chamber outer heat exchanger 20 installed at one side of the casing 10 to exchange heat 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).

Moreover, between the condensation heat exchanger 22 and the axial flow fan 23, the above-described axial flow fan 23 is enclosed so as to guide outdoor air sucked by the axial flow fan 23 to the condensation heat exchanger 22. Install the outdoor shroud 24. On the introduction side of the outdoor shroud 24, the outdoor side orifice 25 protrudes to a predetermined length so as to cancel the radial velocity vector of the outdoor air when the outdoor air is inhaled due to the characteristics of the axial fan 23. Forming.

The outdoor shroud 24 is formed to couple the heat exchanger 22 for condensation therein, and the outer diameter of the axial fan (or orifice) 23 is almost the width of the outdoor shroud 24. Similarly, it is formed in the shape of a hexahedron with both front and back sides opened substantially.

The outdoor orifice 25 is formed in an annular shape so as to surround the outer circumferential surface of the outdoor fan 23, which is an axial fan, and is integrally formed with the outdoor shroud 24.

A wing ring of the outdoor fan 23 is formed in an annular shape as shown in FIG. 2 to sprinkle condensate accumulated on the outdoor side of the casing 10 and scattered by the heat exchanger 22 for condensation (slinger ring) ( 26) is integrally formed.

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. The inner fan 32 is formed of a centrifugal fan installed inside the machine 31 to suck air in the room and discharge the air to the indoor air outlet 14.

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 33 denotes an indoor orifice, and 34 denotes 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 to the heat exchanger 22 for condensation and the heat exchanger 31 for evaporation, and the fan motor 40 is driven together to provide outdoor air and indoors. After each air is sucked to the outdoor side and the indoor side of the casing 10, the outdoor air is heat-exchanged with the condensation heat exchanger 22 which is an outdoor heat exchanger, and the indoor air is respectively exchanged with the evaporation heat exchanger 31 which is an indoor heat exchanger. The refrigerant of each heat exchanger (22) (31) is phase-changed and in this process, the outdoor air is hot air, and the indoor air is discharged to the outdoor and indoor air as cold air, respectively.

At this time, frost due to temperature difference is generated on the outer surface of the evaporative heat exchanger 31 provided on the indoor side of the casing 10, and this castle melts during defrosting operation to generate condensed water, which is the bottom of the casing 10. Flow along the surface and collect on the outside. When the condensate is rotated, the condensate is splashed or scattered by the scattering ring 26 provided at the wing end to the condensing heat exchanger 22 to help heat exchange of the refrigerant, or partially through the drain pipe. Was to remove.

However, in the conventional window type air conditioner as described above, there is a limit to sprinkling condensate water by installing one scattering ring 26 on the outer circumferential surface of the outdoor fan 23 which is an axial fan.

The present invention has been made in view of the problems of the conventional window air conditioner as described above, by providing a plurality of scattering rings in the outdoor fan to provide a condensate scattering device of the window air conditioner to increase the scattering capacity of the condensate water object of the present invention There is this.

In order to achieve the object of the present invention, the casing is formed by partitioning the outdoor side and the indoor side and the outdoor side to form an outdoor air inlet and an air outlet while the indoor side forms an indoor air inlet and an air outlet; An outdoor heat exchanger installed at an outdoor side of the casing to heat exchange with outdoor air, and an outdoor heat exchanger including an outdoor fan for sucking outdoor air to the outdoor heat exchanger; In the window-type air conditioner comprising an indoor heat exchanger installed on the indoor side of the casing to heat exchange the indoor air, and an indoor heat exchanger including an indoor fan that sucks the indoor air with the indoor heat exchanger. It provides a condensate scattering device of a window type air conditioner, characterized in that each of the plurality of scattering ring for condensing in the air to spread the condensate accumulated on the outdoor bottom surface of the casing at predetermined intervals in the axial direction.

Hereinafter, the condensate scattering device of the window type air conditioner according to the present invention will be described in detail with reference to the embodiment shown in the accompanying drawings.

Figure 3 is a cross-sectional view showing an example of the present invention window air conditioner, Figure 4 is a side view showing an example of an axial flow fan having a scattering ring in the present invention window air conditioner.

As shown in the figure, the window-type air conditioner according to the present invention has a casing 10 partitioning a predetermined internal space into an outdoor side and an indoor side, and an outdoor side heat exchanger installed on one side of the casing 10 to exchange heat with outdoor air. 20) and an indoor heat exchanger (30) installed on the other side of the casing (10) to heat exchange the indoor air.

The casing 10 forms outdoor air intakes 11 on both sides of the outdoor side perpendicular to the wall surface of the building, and forms an outdoor air outlet 12 on the front side of the outdoor side parallel to the wall of the building. .

In addition, the casing 10 forms an indoor air intake port 13 in the lower half of the front face on the indoor side, and an indoor air discharge port 14 in the upper half of the front face on the interior side.

The outdoor heat exchanger 20 is installed at one side to compress the refrigerant into a gas refrigerant having a high temperature and high pressure, and is connected to the compressor 21 by a refrigerant pipe to heat exchange with the outdoor air while the gas refrigerant is liquid refrigerant. A heat exchanger 22 for condensation and an outdoor fan 100 installed inside the condensation heat exchanger 22 to suck outside air and discharge the air to the condensation heat exchanger 22.

The heat exchanger 22 for condensation is formed in a substantially rectangular parallelepiped shape so as to accommodate most of the front surface of the outdoor heat exchanger 20 and positioned between the outdoor air intake port 11 and the air discharge port 12. 100 sucks air from the both sides of the casing 10 to the rear side of the fan through the outdoor air intakes 11 provided on both sides of the casing 10, and the casing 10 of the casing 10 through the air outlet 12. It consists of an axial flow fan to discharge to the front side.

In addition, the outdoor fan 100 is introduced between the heat exchanger 22 for condensation and the outdoor fan 100, which is an axial fan, to guide outdoor air sucked by the outdoor fan 100 to the heat exchanger 22 for condensation. ), Install the outdoor shroud (24) surrounding. On the introduction side of the outdoor shroud 24, the outdoor side orifice 25 protrudes to a predetermined height so as to cancel the radial velocity vector of the outdoor air when the outdoor air is inhaled due to the characteristics of the axial fan.

The outdoor fan 100 is composed of an axial fan to suck and discharge air in the axial direction, and has an annular shape at the end of the wing to pump up condensate accumulated on the outdoor side of the casing 10 as described above. A plurality of slinger rings (110, 120) to be scattered to (22) is integrally formed.

The scattering rings 110 and 120 are formed in an annular shape at each wing end of the outdoor fan 100 as shown in FIGS. 3 and 4, and each scattering ring 110 and 120 is formed in the axial direction of the outdoor fan. It is preferable to reduce the natural fall to the minimum by forming the condensed water scattered from the rear side by hitting the front side scattering ring 110 formed at a predetermined interval.

In addition, each scattering ring (110) 120 may be formed to have the same diameter, but in some cases may be formed differently from each other.

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. Installed in the inside of the machine 31 consists of an indoor fan 32 made of a centrifugal fan that sucks the air in the room and discharges it toward the indoor air outlet 14.

The evaporation heat exchanger 31 is formed in a substantially rectangular parallelepiped shape so as to be positioned between the indoor air suction port 13 and the air discharge port 14 by receiving most of the front vertical surface of the indoor heat exchanger 30. 32 is a centrifugal fan to suck air from the front side through the indoor air suction port 13 provided in the lower half of the front face of the casing 10 and discharge the air toward the air outlet 14 provided in the upper half of the front face. Is done.

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. Both sides of the rotation shaft are coupled to the 100 and the indoor fan 32 to install a fan motor 40 to transmit the rotational force.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

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

The window air conditioner of the present invention as described above has the following effects.

That is, when power is supplied to the air conditioner, the compressor 21 is driven to circulate the refrigerant to the heat exchanger 22 for condensation and the heat exchanger 31 for evaporation, and the fan motor 40 is driven together to provide outdoor air and indoors. After each air is sucked to the outdoor side and the indoor side of the casing 10, the outdoor air is heat-exchanged with the condensation heat exchanger 22 which is an outdoor heat exchanger, and the indoor air is respectively exchanged with the evaporation heat exchanger 31 which is an indoor heat exchanger. The refrigerant of each heat exchanger (22) (31) is phase-changed, and in this process, the outdoor air is hot air, and the indoor air is discharged to the outdoor and indoor air as cold air, respectively.

Here, the air sucked into the outdoor heat exchange part 20 of the casing 10 is sucked in substantially parallel with the installation wall through the outdoor air inlet 11 provided at both sides of the casing 10 and then the outdoor fan 100 Is discharged toward the front surface perpendicular to the installation wall by the axial flow fan. In this process, a plurality of scattering rings 110 and 120 installed at the wing ends of the outdoor fan 100 are disposed on the inner side of the casing 10. The condensed water flows to the outside in the air and the condensate is scattered in the condensation heat exchanger 22 while being scattered axially by the flow of air.

At this time, as the plurality of scattering rings 110 and 120 are installed at predetermined intervals in the axial direction, more condensate is pumped out to prepare for the same rotation of the outdoor fan 100. Can be scattered with a heat exchanger.

Thus, by forming a plurality of scattering rings in the outdoor fan to increase the amount of scattering of condensate can increase the condensation efficiency of the refrigerant in the heat exchanger for condensation, thereby increasing the performance of the air conditioner to lower the power consumption and improve the comfort.

Condensate scattering device of the window air conditioner according to the present invention, by installing a plurality of scattering ring in the axial direction on the outer periphery of the outdoor fan, increases the amount of scattering condensate, thereby increasing the performance of the heat exchanger for condensation to reduce power consumption and comfort Can be improved.

Claims (2)

delete A casing which partitions the outdoor side and the indoor side and forms an outdoor air inlet and an air outlet on the outdoor side while an indoor air inlet and an air outlet on the indoor side; An outdoor heat exchanger installed at an outdoor side of the casing to heat exchange with outdoor air, and an outdoor heat exchanger including an outdoor fan for sucking outdoor air to the outdoor heat exchanger; In the window air conditioner consisting of an indoor heat exchanger installed on the indoor side of the casing to heat exchange the indoor air, and an indoor heat exchanger including an indoor fan that sucks the indoor air with the indoor heat exchanger. A condensate scattering device of a window type air conditioner, in which an outdoor fan is provided with a plurality of scattering rings, each condensing in an indoor heat exchanger and pumping condensate accumulated on an outdoor bottom of the casing at predetermined intervals in an axial direction. .

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