KR200165379Y1 - Airconditioner - Google Patents

Abstract

The present invention is a bottom plate provided with a positioning groove for positioning the evaporator and the condenser opposite to each other, and the evaporator fan receiving portion and the condenser formed integrally with the bottom plate and spaced apart at predetermined intervals A lower frame portion having a fan receiving portion; An air conditioner having a main body frame including an upper frame portion having an integrally formed evaporator fan receiving portion and an condenser fan receiving portion coupled to an upper portion of the lower frame portion and the evaporator fan receiving portion and the condenser fan receiving portion. A guide wall is formed on the bottom surface of the condenser to guide the condensed water from the evaporator to the condenser, one side wall of the evaporator fan receiving portion and the condenser fan receiving portion. Thereby, condensed water can be efficiently utilized for cooling of a condenser, and condensation efficiency can be improved.

Description

Air Conditioning Equipment

The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of improving condensation efficiency by efficiently using condensed water from an evaporator for cooling a condenser.

As shown in FIG. 3, the integrated air conditioner installed for air conditioning of a relatively narrow space among the air conditioners has a front cover 52 having a suction port 57 and a discharge port 58 for suction and discharge of indoor air. And a main body 51 including an outer casing 53 coupled to the rear of the front cover 52 to form an exterior, and a bottom plate 54 coupled to the bottom of the outer casing 53 and the front cover 52. Has Here, the front cover 52 is formed to be larger in the longitudinal direction than the outer casing 53 in order to secure the discharge area due to the characteristics of the main body 51 formed to be relatively small.

On the other hand, the main body 51 is separated into the indoor side and the outdoor side by the separating plate 70, the separating plate 70 is formed in the longitudinal length longer than the outer casing 53 is a predetermined length of the front cover 52 It will block the top. One side portion of the separation plate 70 protrudes toward the indoor side, and a compressor 56 is installed on the surface of the separation plate 70 toward the outdoor side. On the indoor side, the evaporator 61 is standing upright in front of the main body 51, and the evaporator fan 65 which blows indoor air to the evaporator 61 is fixed to the evaporator 61 at the rear of the evaporator 61. An evaporator fan support plate 63 is formed which forms an air passage. In the outdoor side, a condenser 62 is standing upright at the rear of the main body 51, and a condenser fan support plate 64 having a condenser fan 66 for cooling the condenser 62 is provided at the front of the condenser 62. It is installed.

When power is applied to the air conditioning apparatus and the cooling stroke is started, the compressor compresses the refrigerant at a high temperature and high pressure. The compressed refrigerant passes through the condenser and is cooled to enter the evaporator 61 to exchange heat with indoor air. At this time, the relative humidity of the evaporator 61 decreases due to the temperature difference between the refrigerant flowing in the evaporator 61 and the ambient air, and the moisture in the air condenses on the outer surface of the evaporator 61 to cause dew or frost. The dew or frost melts and flows down to form condensate. Accordingly, a condensate tray 59 for collecting condensate is provided below the evaporator 61, and the condensate collected in the condensate tray is spread over the entire area of the bottom plate 54 so that the condenser 62 is installed. Will be moved to. The condensed water moved to the condenser 62 region is dispersed toward the condenser 62 by the driving of the condenser fan to cool the condenser 62.

However, in the conventional air conditioner, since the condensate flows over the entire area of the bottom plate 54 and moves to the condenser 62 region, there is a problem that the condensate cannot be collected in the condenser 62 region. In addition, as the condensate moves in a relatively large area, the temperature of the condensate rises, causing a problem that cooling of the condenser 62 is not efficiently performed.

Accordingly, an object of the present invention is to provide an air conditioner that can efficiently use condensed water for cooling a condenser.

1 is an exploded perspective view of an air conditioner according to the present invention,

Figure 2 is a perspective view of the bottom plate of Figure 1,

3 is an exploded perspective view of a conventional air conditioner.

<Description of the code | symbol about the principal part of drawing>

1 body 2 bottom cover

3: outer casing 4: bottom plate

6: compressor 11: evaporator

12 condenser 13 evaporator fan housing

14: condenser fan accommodating part 20: lower frame part

29: condensate tray 30: upper frame portion

31: discharge hole 35: guide wall

The object is, according to the present invention, the bottom plate is provided on the bottom surface with a positioning groove for positioning the evaporator and the condenser opposite to each other, and the evaporator formed integrally with the bottom plate and spaced at a predetermined interval and partially integrally formed A lower frame portion having a fan receiving portion and a condenser fan receiving portion; In the air conditioner having a main body frame including an upper frame portion having an integrally formed evaporator fan receiving portion and a condenser fan receiving portion coupled to the upper portion of the evaporator fan receiving portion and the condenser fan receiving portion,

And a guide wall connecting the evaporator fan receiving portion and one side wall of the condenser fan receiving portion to guide the condensed water from the evaporator to the condenser on the bottom surface of the bottom plate.

Here, it is preferable that a discharge hole for discharging the condensate guided by the guide wall is formed through the evaporator fan accommodating part under one side of the evaporator fan accommodating part. The bottom plate of the region where the condenser is installed is recessed with a predetermined step, and the region where the condenser is installed forms a slope in which the condensed water from the evaporator is deeper from one side into which the condenser is introduced toward the other side of the condenser. It is efficient for the collection of condensate.

Hereinafter, the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 and 2, the main body of the air conditioner includes a front cover 2 having an inlet 7 and an outlet 8, and an outer casing 3 coupled to the rear of the front cover 2. And a bottom plate 4 coupled to the bottom of the outer casing 3 and the front cover 2. The main body 1 is separated into an indoor side and an outdoor side, and an evaporator 11 and an evaporator fan 15 for guiding indoor air to the evaporator 11 are provided on the indoor side facing the front cover 2. An evaporator fan accommodating portion 13 is formed at the rear of the evaporator 11 and accommodates the evaporator fan 15 and has a circular opening toward the evaporator. On the other hand, a compressor 6 for compressing the refrigerant at high temperature and high pressure and a condenser 12 for condensing the refrigerant from the compressor 6 are provided on the outdoor side, and the condenser 12 is cooled in the front region of the condenser 12. The condenser fan accommodating portion 14 is formed to support the condenser fan 16. Meanwhile, a drive motor bracket 17 is formed between the evaporator fan accommodating part 13 and the condenser fan accommodating part 14 in which a driving motor for driving the evaporator fan 15 and the condenser fan 16 is supported and fixed. .

Here, the evaporator fan accommodating part 13 and the condenser fan accommodating part 14 are integrally formed by injection molding, and the center region is cut and separated up and down for ease of molding so that the upper frame part 30 and the lower part are separated. It is formed of the frame portion 20, the lower frame portion 20 is injection molded integrally with the bottom plate (4). Here, the mutual coupling of the lower frame portion 20 and the upper frame portion 30, first, in the fixing groove 32 provided at predetermined intervals along the upper edge of the lower frame portion 20, that is, the incision surface. The lower edge of the upper frame portion 30, that is, by receiving and fixing the fixing projections 33 provided along the incision surface, it is made by fastening the coupling ribs (not shown) respectively provided on both sides as a fastening member to each other.

A condensate tray 9 for temporarily receiving condensate from the evaporator 11 is formed in front of the lower frame part 20 of the bottom plate 4, and the condensate tray 9 is a condensate tray 9. Towards one side of the horizontal direction of the predetermined slope to be lowered so that the condensate is easily discharged. On the other hand, the lower frame portion 20 is formed with a guide wall 35 connecting one side wall of the evaporator fan receiving portion 13 and the condenser fan receiving portion 14, the guide wall 35 is formed from the condensate tray The condensate is formed in the outlet region through which the condensate is discharged so as to form a guide flow path of the condensate so that the condensate from the evaporator 11 does not spread to the entire area of the bottom plate 4. Here, the discharge hole 31 is formed in the lower portion of the evaporator fan accommodating part 13 so that the condensed water from the condensate tray 9 flows out into the guide passage.

On the other hand, the condenser 12 installation area in which the condenser 12 is installed is formed recessed with a predetermined step, and is formed lower than another area of the bottom plate 4, and the condenser 12 is introduced in the inflow area into which the condensate is introduced. It has an inclined surface to be lowered toward the other side in the horizontal direction.

By this configuration, the condensed water generated from the evaporator 11 is temporarily accommodated in the condensate tray 9 under the evaporator 11, and then discharged to the guide passage through the discharge hole 31. The condensed water discharged to the guide passage is guided to the condenser 12 installation area. At this time, since the condenser 12 installation area is formed in a predetermined depression than other areas of the bottom plate 4, the condenser 12 is always recessed. Condensate can be accommodated to a certain depth. In addition, since the bottom plate 4 of the condenser 12 installation region forms an inclined surface that is lowered from one side into which the condenser 12 is introduced to the other side of the condenser 12 in the horizontal direction, the condenser 12 is installed. It can be distributed evenly in the area.

Accordingly, the condensed water moves to the condenser 12 installation area along the guide passage, so that the flow path is relatively shorter than in the related art, thereby preventing the temperature of the condensed water from rising. As the condensed water is evenly distributed in the condenser 12 installation region, the condensed water can be efficiently scattered by the condenser fan.

As described above, according to the present invention, the condensate can be efficiently used for cooling the condenser, thereby improving condensation efficiency.

Claims (3)

A bottom plate having a positioning groove for positioning the evaporator and the condenser opposite to each other is provided on the bottom surface, and has an evaporator fan accommodating portion and a condenser fan accommodating portion which are integrally formed with the bottom plate and spaced apart at predetermined intervals. A lower frame portion; In the air conditioner having a main body frame including an upper frame portion having an integrally formed evaporator fan receiving portion and a condenser fan receiving portion coupled to the upper portion of the evaporator fan receiving portion and the condenser fan receiving portion, And a guide wall connected to one side wall of the condenser fan accommodating part and the condenser fan accommodating part to guide the condensed water from the evaporator to the condenser on the bottom surface of the bottom plate. The method of claim 1, And an outlet hole for discharging the condensate guided by the guide wall is formed through one of the lower parts of the evaporator fan accommodating part. The method of claim 1, The bottom plate of the region in which the condenser is installed is recessed and formed with a predetermined step, and the air conditioner, characterized in that the inclined surface is formed deeper from one side to the other side of the condenser from the inflow of the condensate.