KR0111192Y1 - Indoor unit of airconditioner - Google Patents

Abstract

The indoor unit of the air conditioner according to the present invention, the EVA casing 55 mounted in the indoor unit 50 to guide the flow of air to be sucked and discharged, so that the contact rate with the air is high when heat-exchanging the sucked air with cold air The evaporator 56 bent and mounted at a predetermined angle in the indoor unit 50 and the air in the room passes through the upper side of the evaporator 56 to allow the first heat exchange, and the heat exchanged air is evacuated (55). The first blower fan 58 mounted on the upper rear side of the evaporator 56 and the air in the room are connected to the lower side of the evaporator 56 so as to pass through the lower side of the evaporator 56 again with the guidance of A second blower fan 59 mounted below the rear side of the evaporator 56 to discharge the secondary heat-exchanged air together with the heat-exchanged air to the outside of the indoor unit 50 while passing through the primary heat exchanger. Made up of Therefore, the contact ratio between the indoor air sucked by the rotational force of the first and second blower fans 58 and 59 and the evaporator 56 can be increased, and at the same time, the evaporator (the first heat exchanger at the upper side of the evaporator 56) 56) Since the second side heat exchange can be performed at the lower side, there is an effect of increasing the cooling efficiency.

Description

Air conditioner indoor unit

1 is a schematic cross-sectional view showing the indoor unit structure of an air conditioner according to the prior art.

2 is a schematic cross-sectional view showing the indoor unit structure of the air conditioner according to the present invention.

* Explanation of symbols for the main parts of the drawings

50: indoor unit 55: eva casing

55a: curved portion 55b: inclined portion

55c: private sector 56: evaporator

58, 59: first and second blower fan

The present invention relates to an indoor unit of a separate air conditioner, and more particularly, to a separate air conditioner to increase the cooling efficiency by the heat exchanged again by the evaporator indoor air.

Conventionally, the indoor unit 10 of the air conditioner includes a suction port 11 formed in the upper front portion to suck indoor air as shown in FIG. 1, and foreign matter floating in the indoor air sucked through the suction port 11. The air filter 12 mounted on the rear side of the inlet port 11 so as to clean the filter, the outlet port 13 formed in the lower part of the front side so that the sucked air is discharged back into the room, and the air discharged through the outlet port 13 are placed up and down. And blade means 14 mounted on the rear side of the discharge port 13 to adjust the wind direction in the left and right directions, and mounted therein to guide the flow of indoor air discharged to the discharge port 13 through the suction port 11. Evacuation (15), the evaporator (16) mounted on the rear side of the inlet port (11) so as to heat exchange the indoor air sucked through the inlet port 11 with cold air, and the evaporated water generated in the evaporator (16) In one place The discharge port receives the evaporated water receiver 17 mounted at the lower part of the evaporator 16 and collects the cold air heat exchanged by the evaporator 16 while simultaneously sucking the indoor air through the suction port 11 so as to collect and drain it to the outside. And a blower fan 18 mounted to the lower rear side of the evaporator 16 to discharge the room through the chamber 13.

However, the conventional indoor unit of the air conditioner configured as described above is mounted with the linear evaporator 16 inclined at a predetermined angle in the indoor unit 10, and one blower fan 18 is located at the rear lower portion of the evaporator 16. ) Is rotatably mounted so that the indoor air sucked through the inlet 11 during the rotation of the blower fan 18 passes a lot to the lower side of the evaporator 16 adjacent to the blower fan 18 and cool air. Furnace heat exchange is made, and the upper side of the evaporator 16 away from the blower fan 18 has a problem that the heat exchange efficiency is lowered as a whole, as well as the cooling efficiency is lowered as the heat exchange is made to pass relatively little indoor air.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to install a blower fan on the upper and lower sides of the evaporator to increase the contact ratio between the indoor air and the evaporator, and at the same time the first heat exchanger at the upper side of the evaporator. It is to provide an indoor unit of the air conditioner so that the air is heat-exchanged at the lower side of the evaporator to increase the cooling efficiency.

The indoor unit of the air conditioner according to the present invention made to achieve the above object, in the indoor unit of the air conditioner, the eva casing mounted in the indoor unit so as to guide the flow of air to be sucked and discharged, and when the heat exchanged intake air with cold air The evaporator is bent and mounted at a predetermined angle in the indoor unit so as to have high contact rate with air, and the air in the room passes through the upper side of the evaporator to undergo first heat exchange, and the heat exchanged air is guided by the evacasing. With a first blower fan mounted on the rear upper part of the evaporator for the second heat exchange while passing again through the lower side of the evaporator, and the air in the room passes through the lower side of the evaporator for the first heat exchange, A second blower fan mounted to the rear upper part of the evaporator to discharge the second heat-exchanged air to the outside of the indoor unit; Characterized in that consisting of.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the indoor unit 50 of the air conditioner according to the present invention includes a suction port 51 formed in the upper front side to suck the indoor air, and foreign matter floating in the indoor air sucked through the suction port 51. Air filter 52 mounted on the rear side of the inlet port 51 so as to clean the filter, a discharge port 53 formed in the lower part of the front surface to discharge the sucked air back into the room, and the air discharged through the discharge port 53. Blade means 54 mounted on the rear side of the discharge port 53 to adjust the direction of the wind in the vertical direction and the left and right directions, and mounted therein to guide the flow of the indoor air discharged to the discharge port 53 through the suction port 51 The evaporator 56 which is bent and mounted at a predetermined angle on the rear side of the inlet port 51 so as to heat-exchange the indoor air sucked through the inlet port 51 with cold air, and the evaporator 56 In The evaporated water receiver 57 mounted on the lower part of the evaporator 56 to collect the generated evaporated water in one place and drain it to the outside, and sucks the indoor air through the suction port 51 and at the same time to the evaporator 56 It consists of first and second blower fans (58, 59) mounted on the upper and lower rear sides of the evaporator (56) to discharge the cold air heat exchanged by the discharge port (53) to the room.

At this time, the eva casing 55 passes the first heat exchanged cold air to the lower side of the evaporator 56 again while passing through the upper side of the evaporator 56 by the rotational force of the first blower fan 58. The curved portion 55a having its upper end bent inwardly so as to be heat-exchanged, and the curved portion together with the cold air primarily heat-exchanged while passing through the lower side of the evaporator 56 by the rotational force of the second blower fan 59 ( The inclined portion 5b having the lower end bent outward so as to discharge the second heat exchanged cold air into the room through the discharge port 53 while passing through the lower side of the evaporator 56 with the guidance of 55a); It consists of a private part 55c formed perpendicularly between the curved part 55a and the inclination part 55b.

The evaporator 56 is bent at its center such that its upper and lower ends are inclined at a predetermined angle toward the suction port 51.

The first blower fan 58 and the second blower fan 59 are provided on the upper and lower sides with respect to the inside of the ecasing 55 so as to rotate in directions opposite to each other.

Next, the operation and effects of the present invention configured as described above will be described.

When the first and second blower fans 58 and 59 mounted in the indoor unit 50 are operated under the ON operation of the indoor unit 50, the rotational force of these first and second blower fans 58 is applied. By the indoor air is sucked into the indoor unit 50 through the suction port 51 formed on the upper front of the indoor unit 50 and at the same time passes through the air filter 52 mounted close to the rear side of the suction port 51 51, the foreign matter floating in the air is filtered while passing through the air filter 52 mounted close to the rear side, and the indoor air passing through the air filter 52 passes evenly to the upper and lower sides of the evaporator 56. In contact with the evaporator 56, the heat exchanged with cold air and under the guidance of the eva casing 55 is dispersed up and down.

That is, the cold air guided through the upper side of the evaporator 56 by the rotational force of the first blower fan 58 and heat-directed at the same time as the upper side in the evacasing 55 is indicated by the dotted arrows shown in FIG. The gap G between the end of the curved portion 55a and the upper surface of the upper side of the evaporator 56 is sharply turned under the guidance of the curved portion 55a formed at the upper end of the evacasing 55 as in the direction Pa. Is guided to the lower front side of the evaporator 56 and secondary heat exchanged while passing through the lower side of the evaporator 56 and discharged through the discharge port 53 by the rotational force of the second blower fan 59. To cool the air.

In addition, the cool air guided to the lower side of the evaporator 55 while being heat-exchanged through the lower side of the evaporator 56 by the rotational force of the second blower fan 59 is indicated by the dotted arrow direction pb shown in FIG. By joining with the cold air in the direction of the arrow (Pa) while flowing as shown in FIG.), The cold air of low temperature is formed within a short time and discharged through the discharge port 53 to cool the indoor air.

As described above, the indoor unit of the air conditioner according to the present invention is mounted on the evaporator, which is bent at the center so that the upper and lower sides are inclined at opposite angles to each other in the indoor unit, and the blower fan is rotatably mounted on the rear upper and lower portions of the evaporator, respectively. Because of this structure, it is possible to increase the contact ratio between the indoor air and the evaporator, which is sucked by the rotational force of the blower fan, and at the same time, the secondary heat exchanged air at the upper side of the evaporator can be secondary heat exchanged at the lower side of the evaporator. There is an effect that can increase the cooling efficiency.

Claims (4)

In the indoor unit of the air conditioner, the evacasing 55 mounted in the indoor unit 50 to guide the flow of air to be sucked and discharged, and the indoor unit 50 to have a high contact rate with air when heat-exchanging the sucked air with cold air. The evaporator 56 bent and mounted at a predetermined angle in the e) and the air in the room passes through the upper side of the evaporator 56 to allow first heat exchange, and the heat exchanged air is guided by the evacasing 55. The first blower fan 58 mounted on the rear upper part of the evaporator 56 and the air in the room pass through the lower side of the evaporator 56 so as to pass through the lower side of the evaporator 56 again and receive a second heat exchange. And a second blower fan 59 mounted on the lower rear side of the evaporator 56 to discharge the secondary heat-exchanged air to the outside of the indoor unit 50 together with the primary heat-exchange and the heat-exchanged air. Air features Of the indoor unit. The evacuator 55 passes the first heat exchanged air to the lower side of the evaporator 56 while passing through the upper side of the evaporator 56 by the rotational force of the first blower fan 58. The upper end is bent inwardly so that the second heat exchange is performed, and the air is first heat-exchanged while passing through the lower side of the evaporator 56 by the rotational force of the second blower fan 59. An inclined portion 55b having a lower end bent outward and vertically formed between the curved portion 55a and the inclined portion 55b so that cold air heat-exchanged is discharged to the outside of the indoor unit 50. An indoor unit of an air conditioner, characterized in that the unit (55c). The indoor unit of the air conditioner according to claim 2, wherein the evaporator (56) is bent at its center such that its upper and lower ends are inclined at a predetermined angle opposite to each other. The air conditioner according to claim 1, wherein the first blower fan 58 and the second blower fan 59 are respectively installed on the upper and lower sides with respect to the inside of the evacasing 55 so as to rotate in directions opposite to each other. Indoor unit.