KR20020076614A - One-unit type air-conditioner - Google Patents

Abstract

PURPOSE: A window type air conditioner is provided to improve heat-exchanging efficiency of a heat exchanger exchanging heat by airflow. CONSTITUTION: An air conditioner includes a heat exchanger(30) comprising a front part(31) and a side part(32) extending from the front part to bend and installed in a casing(90) thereof and an air flowing channel including an intake grill(92) formed on one side of the casing facing the side part of the heat exchanger for air to flow in and a shroud(100) placed between a fan(60) and the side part of the heat exchanger for air flowing in through the intake grill to pass the side part and flow toward the fan so that outside air is taken in through the side part of the heat exchanger by driving of the fan installed in the casing and discharged through the front part.

Description

Window-type air conditioner {ONE-UNIT TYPE AIR-CONDITIONER}

The present invention relates to a window type air conditioner, and more particularly, to a window type air conditioner to increase the heat exchange efficiency of the heat exchanger to form a heat exchange by the flow of air.

In general, an air conditioner (hereinafter, referred to as an air conditioner) is equipped with a refrigeration cycle device inside to maintain a comfortable state using the cold air and heat generated from the heat exchanger constituting the refrigeration cycle device. The refrigeration cycle apparatus includes a compressor for compressing a refrigerant at a high temperature and a high pressure state, a condenser for releasing latent heat to the outside while the refrigerant compressed in the compressor is condensed, and expansion means for lowering the pressure of the condensed refrigerant, and the pressure lowered refrigerant. It is composed of a condenser that absorbs external heat while being evaporated, and the condenser and the evaporator serve as a heat exchanger that exchanges heat with the outside.

The air conditioner is divided into a window-type air conditioner in which a refrigeration cycle apparatus is mounted in one casing and mounted on a window, and a separate air conditioner in which the components of the refrigeration cycle apparatus are separately mounted to an indoor unit and an outdoor unit and installed respectively inside and outside.

1 illustrates an example of the window type air conditioner. As shown in the drawing, a partition plate 11 is formed in a casing 10 formed in a hexahedral shape to form an inner space of the casing 10. The indoor side heat exchanger 20, which is divided into an indoor side space A and an outdoor side space B, and is an evaporator, is installed in the indoor side space A of the casing 10, and the outdoor side space of the casing 10 is provided. In (B), the outdoor heat exchanger 30 and the compressor 40, which are condensers, are respectively mounted, and the inside and outside fans 50 generating air flow beside the indoor and external heat exchangers 20 and 30. 60) and a motor 70 for driving the fan is installed.

The indoor heat exchanger 20 is formed in a straight shape and installed inside the front of the casing 10, and the indoor fan 50 introduces indoor air into the indoor space A of the casing 10. Blowing fan is used to generate a flow to be discharged into the room while passing through the indoor heat exchanger (20).

The outdoor heat exchanger (30) is a front portion (31) formed so as to be located inside the front side of the front side of the casing (10) and a side portion (32) extending bent perpendicularly to the front portion (31). An elliptical shape is formed such that the front portion 31 is located inside the front side of the outdoor space B of the casing 10 and the side portion 32 is positioned on one side of the outdoor space B, and the compressor 40 ) Is installed to be located opposite to the side portion 32 of the EL-shaped outdoor side heat exchanger (30).

The outdoor fan 60 is located between the side portion 32 of the EL type indoor side heat exchanger and the compressor 40, and is installed to face the front part 31 of the EL type outdoor side heat exchanger. An axial fan is used to generate a flow to flow into the interior space (A) of the casing through both side surfaces of the casing (10) to be discharged to the outside through the front portion 31 of the elliptical indoor heat exchanger. And the shroud 80 for guiding the flow of air is mounted on the axial flow fan side of the outdoor fan 60, the guide portion 81 formed on one side of the shroud 80 is the el-type outdoor heat exchanger The cover portion 82 positioned between one side of the front portion 31 of the 30 and the compressor 40 and the cover portion 82 formed on the other side of the shroud 80 is configured to provide a side portion 32 of the EL type outdoor heat exchanger. It will be positioned to wrap.

And the bottom of the casing (10) is provided with a drip tray (not shown) in which the condensed water accumulates, and a water splashing means (not shown) is provided in the axial flow fan which is the outdoor fan (60) so that the outdoor fan (60) rotates. As the condensed water accumulated in the drip tray by the splashing means is scattered by the EL type outdoor side heat exchanger 30, the EL type outdoor side heat exchanger 30 is cooled. On the other hand, the cover portion 82 of the shroud surrounding the side portion 32 of the L-shaped outdoor side heat exchanger is sealed to prevent the condensed water scattered to the outside.

The motor 70 is mounted in the outdoor space B of the casing 10 to be located between the indoor fan 50 and the outdoor fan 60.

The operation of the window air conditioner as described above is as follows.

First, when the operation is performed after operating the operation button in the state that the power is supplied, the room, the inner and outer fans 50, 60 operates simultaneously with the operation of the refrigeration cycle apparatus. As shown in FIG. 2, the indoor air is sucked through the suction grill 12 formed in the casing 10 by the operation of the indoor fan 50 and at the same time passes through the indoor heat exchanger 20. The heat exchanged air is introduced into the interior space A of the casing 10, and the heat-exchanged air flowing into the interior space A is discharged to the interior through the discharge grill 13 formed on the front surface of the casing 10. do.

At the same time, the outside air is rotated by the rotation of the outdoor fan 60 so that both sides of the casing 10, that is, between the partition plate 11 and the cover portion 82 of the shroud and the guide portion 81 of the shroud ) Flows into the outdoor space B of the casing 10 through the partition plate 11 and passes through the front portion 31 of the EL-type outdoor heat exchanger, respectively. It is discharged to the outside through the discharge grill 14 formed on the front surface to cool the heat generated in the compressor 40 and the el-type outdoor heat exchanger (30).

However, in the conventional structure as described above, the outside air flows into the outdoor space B of the casing 10 according to the rotation of the outdoor fan 60 to heat exchange, that is, cool the el-shaped outdoor heat exchanger. Outside air flows into the end surface side 32 of the EL type outdoor side heat exchanger, that is, between the cover portion 82 of the shroud and the partition plate 11, and opens the front portion 31 of the EL type outdoor side heat exchanger. By being discharged to the outside while passing through the side portion 32 of the EL outdoor heat exchanger is not made contact with the outside air, the heat exchange is not made well in the side portion 32 of the EL outdoor heat exchanger There was a problem in that the efficiency of the EL type outdoor side heat exchanger was lowered.

An object of the present invention devised in view of the above problems is to provide a window type air conditioner to increase the heat exchange efficiency of the heat exchanger to form a heat exchange by the flow of air.

1 is a plan sectional view showing an example of a conventional window type air conditioner,

Figure 2 is a plan sectional view showing an operating state of the window air conditioner,

3 is a plan sectional view of a window type air conditioner of the present invention;

Figure 4 is a plan sectional view showing an operating state of the window air conditioner of the present invention.

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

30; Heat exchanger 31; Front view

32; Side portion 50; Indoor fan

60; Outdoor fan 90; Casing

92,93; Suction grill 100; Shroud

F; Air flow path

In order to achieve the object of the present invention as described above, a heat exchanger comprising a front portion formed to have a predetermined area and a side portion bent extending to the front portion, and a blowing fan disposed adjacent to the heat exchanger to generate air flow; And a shroud extending from an inlet end of the blower fan to an intersection point of a front portion and a side portion of the heat exchanger to guide the flow of air, the heat exchanger and the blower fan facing the side portion of the heat exchanger. A window type air conditioner is provided, comprising a casing provided with a suction grill for allowing air to enter the portion.

Hereinafter, the heat exchanger of the window type air conditioner of the present invention will be described according to the embodiment shown in the accompanying drawings.

Figure 3 shows a window type air conditioner of the present invention, when described with reference to the window type air conditioner partition plate 91 is formed inside the casing 90 of the hexahedral shape by the partition plate 91 The inside of the casing 90 is partitioned into an indoor side space A and an outdoor side space B. As shown in FIG. An indoor heat exchanger 20, which is an evaporator, is installed in an indoor space A of the casing 90, and an outdoor heat exchanger 30 and a compressor, which are condensers, in an outdoor space B of the casing 90. 40 are respectively mounted, the chamber for generating a flow of air next to the indoor, the outer heat exchanger 20, 30, the inner and outer fans 50, 60 and the motor 70 for driving the fan, respectively. Is installed. The compressor 40, the outdoor heat exchanger 30, which is a condenser, and the indoor heat exchanger 20, which is an evaporator, constitute a refrigeration cycle apparatus.

The indoor heat exchanger 20 is formed in a straight shape and is installed inside the front surface of the casing 90, and the indoor fan 50 introduces indoor air into the indoor space A of the casing 90. Blowing fan is used to generate a flow to be discharged into the room while passing through the indoor heat exchanger (20).

The outdoor heat exchanger (30) is a front portion (31) formed so as to be located inside the front side of the front side of the casing (90) and a side portion (32) extending bent perpendicularly to the front portion (31). An elliptical shape is formed such that the front portion 31 is located inside the front side of the outdoor space B of the casing 90 and the side portion 32 is positioned on one side of the outdoor space B, and the compressor 40 ) Is installed so as to be located opposite to the side portion 32 of the EL type outdoor heat exchanger. The outdoor fan 60 is positioned between the side portion 32 of the EL type outdoor side heat exchanger and the compressor 40, and faces the front portion 31 of the EL type outdoor side heat exchanger. The outdoor fan 60 is configured as an axial fan. An air flow path F is formed such that external air is sucked through the side part 32 of the heat exchanger and discharged through the front part 31 by driving the axial fan, which is the outdoor fan 60.

The air flow path (F) is the first suction grill 92 and the first suction is formed so that air flows into one side of the casing 90 facing the side portion 32 of the el-shaped outdoor heat exchanger It is composed of a shroud 100 for guiding the air flowing into the grill 92 to enter the indoor fan (60) via the side portion 32 of the L-shaped outdoor heat exchanger. The shroud 100 is formed to extend to a predetermined area on one side of the annular portion 101 and the annular portion 101 surrounding the indoor fan 60, the side portion 32 of the L-shaped outdoor side heat exchanger A second guide extending from the side of the first guide portion 102 and the annular portion 101 positioned next to the front portion 31 of the EL-type outdoor heat exchanger and the compressor 40 ( 103) is provided.

The outer side of the casing 90 located between the end surface side 32 of the EL type outdoor heat exchanger and the partition plate 91 and the side of the casing 90 where the compressor 40 is located. A second suction grill 93 into which air is introduced is provided. In addition, the outdoor discharge grill 94 in which air introduced into the outdoor space B of the casing 90 is discharged to one surface of the casing 90 where the front portion 31 of the EL type outdoor heat exchanger is located. Is provided.

In addition, a water splashing means is provided in the axial flow fan, which is the outdoor fan 60, and a drip tray in which condensate accumulates on the lower surface of the casing is disposed between the indoor fan 50 and the outdoor fan 60. The motor 70 is mounted in the outdoor space B of the casing 90.

Hereinafter, the operational effects of the window type air conditioner of the present invention will be described.

First, when the operation is performed after operating the operation button in the power supply state, the room, the inner and outer fan 50, 60 operates simultaneously with the operation of the refrigeration cycle apparatus. As shown in FIG. 4, indoor air is sucked through the indoor suction grille 95 formed in the casing 90 by the operation of the indoor fan 50, and at the same time, the indoor heat exchanger 20 is provided. The heat exchanged air introduced into the interior space A of the casing 90 and introduced into the interior space A is indoors through the interior discharge grill 96 formed in the casing 90. Is discharged.

At the same time, external air is introduced through both sides of the casing 90, that is, the second suction grille 93, by the rotation of the outdoor fan 60, and the partition plate 91 and the elliptical outdoor heat exchanger. The outdoor space B of the casing 90 between the end faces of the side portions 32 and between the second guide portion 103 of the shroud of the portion where the compressor 40 is located and the partition plate 91, respectively. Inflow). In addition, outside air flows through the first suction grille 92 and passes through the side portion 32 of the el-shaped outdoor side heat exchanger, and is guided by the first guide portion 102 of the shroud to form a casing 90. Flows into the outdoor space (B). The air introduced into the outdoor space B of the casing 90 is discharged through the outdoor discharge grill 94 of the casing 90 while passing through the front portion 31 of the L-shaped outdoor heat exchanger. do.

The indoor air flows into the indoor space A of the casing 90 and is heat-exchanged through the indoor heat exchanger 20 to maintain the indoor air in a comfortable state while undergoing a circulation process discharged into the room. Outside air flows into the outdoor space B of the casing 90 through the first suction grille 92 and the second suction grille 93, and thus the front part 31 of the el-shaped outdoor heat exchanger 30. Cooling the el-type outdoor side heat exchanger (30) while undergoing a circulation process discharged to the outside through.

The present invention cools the side portion 32 of the EL type outdoor heat exchanger while the outside air flows into the outdoor space B while passing through the side portion 32 of the EL type outdoor heat exchanger. Since the outside air introduced into the outdoor space B of the casing 90 is discharged through the front portion 31 of the EL outdoor heat exchanger, the EL outdoor cooling unit 30 is cooled. Cooling efficiency is increased.

As described above, the window type air conditioner according to the present invention increases the cooling efficiency of the EL type outdoor side heat exchanger serving as a condenser, thereby improving the heat exchange performance of the EL type outdoor side heat exchanger, thereby improving the performance of the air conditioner. It works.

Claims (3)

A heat exchanger comprising a front part formed to have a predetermined area and a side part bent and extended to the front part thereof is mounted inside the casing of the air conditioner, and external air is supplied to the side part of the heat exchanger by driving of a fan mounted inside the casing. A window type air conditioner, characterized in that the air flow passage is provided to be sucked through and discharged through the front portion. According to claim 1, wherein the air flow flow path so that the air flowing into the suction grill and the suction grill is formed so that the air is introduced into one side of the casing facing the side portion of the heat exchanger to the fan side through the side portion. Window type air conditioner, characterized in that the shroud is provided between the fan and the side portion of the heat exchanger. A heat exchanger comprising a front portion formed to have a predetermined area and a side portion formed to be bent and extended at the front portion thereof, a blower fan disposed adjacent to the heat exchanger to generate air flow, and approximately from the inlet end of the blower fan; It is formed to extend to the intersection of the front and side portions of the shroud for guiding the flow of air, and the suction grill for accommodating the heat exchanger and the blowing fan to allow the air to flow into the portion facing the side of the heat exchanger A window type air conditioner comprising a casing.