KR100408234B1 - Structure for exchanging condenser in air-conditioner - Google Patents

Abstract

The present invention relates to a heat exchanger heat exchange structure of the window type air conditioner, the present invention comprises a heat exchanger is installed in the casing of the air conditioner consisting of a front portion formed to have a predetermined area and the side portion is formed to be extended to the front portion, the heat exchanger A fan that is mounted inside the casing to generate a flow to be located at a side of the casing, and external air flows through a suction grill formed in the casing by the rotation of the fan to pass through the front and side surfaces of the heat exchanger. Condenser is configured to include a guide shroud, and a discharge grill which is formed on the front and side of the casing facing the front and side portions of the heat exchanger, respectively, and the air passing through the front and side portions of the heat exchanger is discharged to the outside. In addition to increasing the cooling efficiency of the El-shaped outdoor side heat exchanger, By preventing the condensate scattered to promote the heat exchange of the outdoor side heat exchanger to the outside of the casing, it prevents the corrosion and passerby of the parts caused by the external discharge of the condensate and the unpleasant feeling of the elliptical outdoor side It is to reduce the power consumption by increasing the heat exchange performance of the heat exchanger.

Description

Heat exchanger heat exchange structure of window type air conditioner {STRUCTURE FOR EXCHANGING CONDENSER IN AIR-CONDITIONER}

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

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 by using cold air and heat generated from a 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 type 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 indoors and outdoors.

FIG. 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 indoor side space A and an outdoor side. The space B is partitioned. An indoor heat exchanger 20, which is an evaporator, is installed in an indoor space A of the casing 10, and an outdoor heat exchanger 30 and a compressor, which are condensers, in an outdoor space B of the casing 10. 40 are respectively mounted.

Next, the indoor fan 50 and the outdoor fan 60 which generate a flow of air next to the indoor heat exchanger 20 and the outdoor heat exchanger 30 are respectively installed, and the indoor fan 50 is provided. Between the fan and the outdoor fan 60, a motor 70 for driving the fans is installed.

The indoor heat exchanger 20 is formed in a straight shape and is installed in the front inner side of the casing 10, that is, in the indoor space A, and the indoor fan 50 supplies indoor air to the casing 10. Blowing fan is used to flow into the indoor space (A) of the) 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 positioned 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 so as to be located opposite the side portion 32 of the el-shaped outdoor 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 portion 31 of the EL type outdoor side heat exchanger. An axial fan is used to generate air so that the air flows into the interior space A of the casing through both side surfaces of the casing 10 and is discharged to the outside through the front portion 31 of the L-shaped indoor heat exchanger. do.

And the shroud 80 for guiding the flow of air is mounted on the outdoor fan (60) side. The shroud 80 is formed in an annular shape having a predetermined width and is formed to extend to have a predetermined area on one side of the annular portion 81 and the annular portion 81 positioned to surround the axial fan. The cover portion 83 is formed on the other side of the guide portion 82 and the annular portion 81 which is located at the side of the 40 and extends in the shape of a circumference to surround the side portion 32 of the L-shaped outdoor heat exchanger. Is done.

The bottom of the casing 10 is provided with a drip tray (not shown) in which condensed water accumulates, and water splashing means (not shown) are provided in the axial flow fan, which is the outdoor fan 60.

An indoor suction grill 12 into which indoor air flows is formed in front of the indoor space A of the casing, and an indoor discharge grill 13 is formed at a side thereof, and is external to both sides of the outdoor space B. Outdoor suction grills 14 through which air is introduced are formed, and the outdoor discharge grills 15 are provided in front of the outdoor space B.

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

First, when the operation button is turned on (ON) and the motor is operated simultaneously with the operation of the refrigeration cycle apparatus to rotate the indoor fan 50 and the outdoor fan 60, respectively, as shown in Figure 2, By the operation of the indoor fan 50, the air in the room is sucked through the indoor suction grille 12 of the casing 10, and at the same time, the heat exchanges through the indoor heat exchanger 20, whereby the indoor space ( Air introduced into A) and introduced into the interior space A is discharged into the interior through the interior discharge grill 13 of the casing. At the same time, the external air is sucked into the outdoor space B of the casing through the outdoor suction grille 14 formed on both sides of the casing 10 by the rotation of the outdoor fan 60. Heat generated through the front part 31 of the female outdoor side heat exchanger and discharged to the outside through the outdoor side discharge grill 15, and is generated by the compressor 40 and the EL outdoor heat exchanger 30. To cool.

In addition, the condensed water accumulated in the drip tray provided on the bottom surface of the casing 10 by the water splashing means provided in the outdoor fan 60 in accordance with the rotation of the outdoor fan 60 is the el-type outdoor heat exchanger ( The elliptical outdoor side heat exchanger 30 is cooled while being scattered to 30, and the cover portion 83 of the shroud seals the side portion 32 of the el-shaped outdoor side heat exchanger to form condensed water. Will be prevented.

However, in the conventional structure as described above, as the outdoor fan 60 rotates, external air flows into the outdoor space B through the outdoor suction grille 14 of the casing 10, and the el-shaped outdoor. In the process of exchanging, ie, cooling the side heat exchanger 30, external air flows into an end surface of the side portion 32 of the L-shaped outdoor side heat exchanger, that is, between the cover portion 83 of the shroud and the partition plate 11. Since the discharged to the outside while passing through the front portion 31 of the el-shaped outdoor side heat exchanger, the side portion 32 of the el-shaped outdoor side heat exchanger does not come into contact with the outside air. There was a problem that the heat exchange is not made well in the side portion 32 of the lowering the efficiency of the el-type outdoor side heat exchanger (30).

The object of the present invention devised in view of the above problems is to provide a heat exchanger heat exchange structure of a window type air conditioner to increase the heat exchange efficiency of the heat exchanger constituting the air conditioner.

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 having a heat exchanger structure of a window type air conditioner of the present invention;

4 is a cross-sectional view showing a cover plate constituting the window air conditioner heat exchanger heat exchange structure of the present invention;

5 is a cross-sectional view showing another modification of the cover plate constituting the window air conditioner heat exchanger heat exchange structure of the present invention;

Figure 6 is a plan sectional view showing an operating state of the window air conditioner with a heat exchanger structure of a window air conditioner heat exchanger of the present invention.

(Explanation of symbols for the main parts of the drawing)

30; Heat exchanger 31; Front view

32; Side portions 50,60; Pan

90; Casing 94; Discharge grill

95; Suction grill 100; Shroud

131; Cover plate 132; Through

133; Blocked

In order to achieve the object of the present invention as described above, an el-shaped outdoor side heat exchanger, which is formed inside a casing of an air conditioner, is formed of a front portion formed to have a predetermined area and an extended portion formed at the front portion thereof, and the el-shaped outdoor A fan installed inside the casing to be positioned at the side of the side heat exchanger to generate flow, and formed at the front and side surfaces of the casing facing the front and side surfaces of the EL outdoor heat exchanger, respectively, A front discharge grille through which air passing through the front side of the side heat exchanger is discharged to the outside, and a side discharge grille through which air passing through the side portion of the el-shaped outdoor side heat exchanger is discharged to the outside; Flow through the suction grill formed in the casing to pass through the front and side portions of the el-shaped outdoor heat exchanger A cover plate having a predetermined area is provided between the side portion of the el-shaped outdoor heat exchanger and the discharge grill of the casing facing the side portion, and a plurality of cover plates are provided to allow air to flow through the cover plate and prevent discharge of condensate. A through hole is formed in the cover plate, and the through hole formed in the cover plate is provided with a heat exchanger heat exchange structure of a window type air conditioner, wherein the EL type outdoor side heat exchanger side is formed to be inclined higher than the discharge grill side of the casing.

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

3 is a view illustrating a window type air conditioner equipped with an embodiment of a heat exchanger heat exchange structure according to the present invention. First, the window type air conditioner includes a partition plate 91 in a casing 90 having a hexahedron shape. The inside of the casing 90 is partitioned into an interior side space A and an exterior side space B by the partition plate 91. 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. Next, the indoor fan 50 and the outdoor fan 60, which generate a flow of air, are installed next to the indoor heat exchanger 20 and the outdoor heat exchanger 30, respectively. The motor 70 for driving) is installed between the fans 50 and 60. 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 installed inside the front surface of the casing 90, and the indoor side discharge grill 92 is disposed on the front surface of the casing 90 facing the indoor heat exchanger 20. Is formed, and an indoor suction grill 93 is formed at the side of the indoor discharge grill 92.

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. The compressor 40 is installed to be opposite to the side portion 32 of the EL type outdoor heat exchanger. The outdoor fan 60 is located between the side portion 32 of the EL type outdoor heat exchanger and the compressor 40 and faces the front part 31 of the EL type outdoor heat exchanger. .

An outdoor front discharge grill 94a and an outdoor side discharge grill 94b are respectively disposed on the front and side surfaces of the casing 90 facing the front portion 31 and the side portion 32 of the EL type outdoor heat exchanger, respectively. And an outdoor suction grille 95 is formed on a side surface of the casing 90 between the partition plate 91 and an end surface of the side surface 32 of the EL type outdoor heat exchanger. The outdoor suction grille 95 is formed on the side of the casing 90 to face.

And by the rotation of the outdoor fan 60, the outside air is introduced through the outdoor suction grill 95 of the casing through the front portion 31 and the side portion 32 of the L-shaped outdoor heat exchanger The shroud 100 is installed to guide the casing through the outdoor front discharge grill 94a and the outdoor side discharge grill 94b.

The shroud 100 is formed in an annular shape having a predetermined width to extend to have a predetermined area on one side of the annular portion 110 and the annular portion 110 positioned to surround the outdoor fan 60. And having a predetermined area on the other side of the guide part 120 and the annular part 110 positioned at the side of the compressor 40 and having a cross section extending in the form of a depression, so that the side part of the el-shaped outdoor heat exchanger ( 32 is provided to cover the cover 130 is provided. The outermost plate 131 of the shroud cover portion 130 is located between the outdoor side side discharge grill 94b of the casing and the side portion 32 of the L-shaped outdoor side heat exchanger, and the cover portion 130 The outer plate 131 of the) forms a cover plate and a plurality of through holes 132 through which air passes through the cover plate 131 to prevent discharge of condensate.

As shown in FIG. 4, the through hole 132 formed in the cover plate 131 has a side portion 32 side of the L-shaped outdoor side heat exchanger higher than an outdoor side side discharge grill 94b side of the casing. It is formed to be inclined so as to. The through hole 132 is formed to have a predetermined inner diameter and may be formed in a slit form having a predetermined width and length as another variation of the through hole 132.

And around the through hole 132, as shown in Figure 5, the blocking shade 133 is provided to prevent the outflow of condensate. In this case, the through hole may be formed in a parallel state and may be formed to be inclined.

The through hole 132 formed in the cover plate 131 is preferably formed to be inclined so as to be opposite to the rotational direction of the outdoor fan 60, and the blocking shade 133 is the outdoor fan 60. Rotation of the water is formed in a direction to close the splash.

In addition, a water frying means (not shown) is provided in the outdoor fan 60, and a drip tray (not shown) in which condensate accumulates on the bottom surface of the casing 90 is provided.

Hereinafter, the operation and effect of the window air conditioner heat exchanger heat exchange structure of the present invention will be described.

First, when the operation button is turned on (ON) and the motor is operated simultaneously with the operation of the refrigeration cycle apparatus to operate the indoor fan 50 and the outdoor fan 60, respectively, as shown in Figure 6, The indoor air is sucked through the indoor suction grill 93 formed in the casing 90 by the operation of the indoor fan 50, and at the same time, the air is heat-exchanged while passing through the indoor heat exchanger 20. The air introduced into the indoor space A of the air) and introduced into the indoor space A is discharged into the room through the indoor discharge grill 92 of the casing 90. At the same time, outside air is introduced into the outdoor space B of the casing through the outdoor suction grille 95 formed on both sides of the casing 90 by the rotation of the outdoor fan 60. In this case, the air sucked into the outdoor space B through the outdoor suction grill 95 is introduced into the outdoor fan 60 through the partition plate 91 and the cover 130 of the shroud. At the same time, the compressor 40 is introduced into the outdoor fan 60 while cooling the compressor 40 through the partition plate 91 and the guide part 120 of the shroud. The outside air flowing into the outdoor space B of the casing flows through the annular portion 110 of the shroud, and a part thereof passes through the front portion 31 of the EL outdoor heat exchanger. Part of the air flowing through the annular portion 110 of the shroud while being discharged to the outside through the outdoor-side front discharge grill 94a formed on the front surface of the side portion 32 of the EL type outdoor side heat exchanger. While passing through the cover plate through the hole 132 of the cover 130 is discharged to the outside through the outdoor side discharge grill 94b of the casing.

In the above process, the indoor air is introduced into the indoor space A of the casing 90 and heat-exchanged through the indoor heat exchanger 20, and the indoor air is maintained in a comfortable state while undergoing a circulation process discharged into the indoor air. do.

The outside air flows into the outdoor space B of the casing 90 through the outdoor suction grille 95 of the casing, so that the front part 31 and the side part 32 of the L-shaped outdoor heat exchanger. The front part 31 of the EL type outdoor side heat exchanger 30 is repeated while repeating the circulation process discharged to the outside through the outdoor side discharge grill 94a and the outdoor side discharge grill 94b of the casing. In addition to cooling the entire el-shaped outdoor side heat exchanger (30) including the side portion (32).

In addition, the condensed water accumulated in the drip tray provided on the bottom surface of the casing 90 by the water splashing means provided in the outdoor fan 60 in accordance with the rotation of the outdoor fan 60, the el-type outdoor heat exchanger While scattering to the 30 to promote the cooling of the el-shaped outdoor side heat exchanger 30, at this time, between the outer side side discharge grill 94b of the casing and the side portion 32 of the el-shaped outdoor side heat exchanger The through hole 132 formed in the cover plate 131 is formed in a direction opposite to the rotational direction of the outdoor fan 60, that is, in a direction opposite to the water splashing direction, so that the condensed water scattered by the water splashing means is disposed in the casing. The outside side of the discharge grill (94b) is prevented or prevented from being discharged to the outside.

According to the present invention, since the outside air introduced into the outdoor space B of the casing is exchanged through the front portion 31 and the side portion 32 of the EL outdoor heat exchanger, the EL outdoor type The heat exchange is performed through the entire surface of the heat exchanger 30 to increase the heat exchange efficiency, and to prevent the condensed water scattered to promote the heat exchange of the EL type outdoor side heat exchanger 30 to be discharged to the outside.

As described above, the heat exchanger heat exchange structure of the window type air conditioner according to the present invention not only increases the cooling efficiency of the EL type outdoor side heat exchanger serving as a condenser, but also scatters to promote heat exchange of the EL type outdoor side heat exchanger. By preventing the discharge of condensed water to the outside of the casing, it is possible to prevent the discomfort and passerby of the parts caused by the external discharge of the condensate to be uncomfortable, and also to increase the heat exchange performance of the EL type outdoor heat exchanger to increase the power consumption. There is an effect to reduce.

Claims (5)

delete delete An el-shaped outdoor heat exchanger having a front part formed to have a predetermined area and a side part formed to be bent and extended at the front part thereof and mounted inside the casing of the air conditioner; A fan mounted inside the casing to generate a flow so as to be positioned at a side of the el-shaped outdoor heat exchanger; A front discharge grille and an elbow type outdoor side, each of which is formed at the front and side surfaces of the casing facing the front and side surfaces of the EL type outdoor heat exchanger, and the air passing through the front part of the EL type outdoor heat exchanger is discharged to the outside; A side discharge grill through which air passing through the side of the heat exchanger is discharged to the outside; The outside air is introduced through the suction grille formed in the casing by the rotation of the fan to guide the front and side portions of the EL type outdoor side heat exchanger, and the side portion and the side portion of the EL type outdoor side heat exchanger. A cover plate having a predetermined area is installed between the discharge grill of the casing facing the air, and the cover plate includes a shroud having a plurality of through-holes through which air flows but prevents discharge of condensate. The through hole formed in the cover plate is the heat exchanger heat exchange structure of the window air conditioner, characterized in that the elliptical outdoor heat exchanger side is formed to be inclined higher than the discharge grill side of the casing. The air conditioner of claim 3, wherein the inner side of the cover plate is formed with a blocking shade formed at a lower end thereof fixed to a lower end of the through hole, and an upper end thereof located at an inner side of the cover plate. Heat exchanger, heat exchanger structure. delete