KR200156408Y1 - Indoor unit of separating type airconditioner - Google Patents

Abstract

The present invention relates to an indoor unit of a separate air conditioner, the purpose of which is to improve the blower means to reduce the operating noise, improve the heat exchange efficiency and to be compact.

The indoor unit of the separate type air conditioner according to the present invention is discharged to the indoor side heat exchanged air through the propeller 53 and the discharge duct 55 and the discharge port 30 installed standing inside the main body 10, the main body 10 inside In the heat exchanged air is smoothly guided upward without changing the flow path, the heat exchange efficiency of the heat exchanger 40 is improved as well as the operation noise is reduced. In addition, the discharge duct 55 for guiding the air blowing toward the discharge port 30 can be made simple to reduce the overall size of the indoor unit.

Description

Indoor unit of separate air conditioner

The present invention relates to a split type air conditioner, and more particularly, to an indoor unit of a split type air conditioner having a blower unit installed therein to harmonize air.

In general, the air conditioner is a condition that harmonizes air using a refrigeration cycle, and is classified into an outdoor unit installed outdoors and an indoor unit installed indoors. The outdoor unit is provided with a compressor, a heat exchanger, a fan, and the like that constitute a refrigeration cycle. During cooling operation, the outdoor unit sucks the outdoor air using a fan and condenses the refrigerant by exchanging heat exchanger. In addition, the indoor unit is provided with a heat exchanger and a fan constituting the refrigeration cycle, the heat exchange while passing through the evaporator by the suction blowing power of the fan during the cooling operation, the cooling is performed by the heat-exchanged air is discharged to the room. 1 schematically shows an indoor unit of a separate air conditioner that performs this function.

As shown here, the indoor unit of the separate air conditioner forms an outer body and has a main body 1 having an inlet port 2 and an outlet port 3 formed therein, a heat exchanger 4 installed in the main body 1, and a cross flow fan ( 5) It is largely composed.

The main body 1 on the rectangular parallelepiped has a suction port 2 through which the indoor air is sucked in the lower part of the front side, and a discharge port 3 is formed in the upper part of the front part to discharge the heat-exchanged air into the room.

Fan motor (6), cross flow fan (5), cross flow fan (5) as a blowing means for sucking indoor air inside the main body (1) and forcibly blowing it back through the discharge port (3). The pan casing 7 which wraps around is provided in the vertical direction. At this time, the fan casing 7 performs a duct function of guiding the forced air to the discharge port (3) side. That is, due to the characteristics of the cross flow fan (5), the air is sucked in the rotation axis direction and blown perpendicular to the axial direction, the fan casing (7) is installed so as to surround the outside of the cross flow fan (5) the discharge port (3) Guided to the side.

And a heat exchanger (4) is configured between the intake port (2) and the cross-flow fan (5) inside the main body (1) so as to exchange heat with the indoor air sucked, so that the air sucked through the inlet (2) passes evenly It is installed inclined.

When the indoor unit of the split type air conditioner configured as described above is supplied with power, the cross flow fan 5 is rotated by the driving of the fan motor 6, and the indoor air is blown through the suction port 2 by the suction blower 2. 1) It is sucked into the inside.

Subsequently, the sucked air is heat-exchanged while passing through the heat exchanger (4), guided to the discharge port (3) side by the fan casing (7) and discharged back to the room through it, thereby harmonizing the indoor air. At this time, when the cooling operation is performed, the heat exchanger 4 of the indoor unit is used as the evaporator, and cold air is discharged. On the contrary, when the heating operation is performed, the heat exchanger 4 is used as the condenser and the warm air is discharged.

However, the indoor unit of such a separate air conditioner has the following problems, since the air flow path forcibly sucked by the cross flow fan (5) is sharply changed.

First, due to the characteristics of the cross flow fan 5, the heat exchanged through the heat exchanger 4 is sucked into the fan casing 7, and forced air is blown upward in a vertical direction perpendicular to the axial direction of the cross flow fan 5. Subsequently, such air is discharged into the room through the discharge port 3 while colliding with the upper surface of the main body 1. As the air flow inside the main body 1 is rapidly switched, a large operating noise is generated during the high speed rotation of the cross flow fan 5, and this noise is discharged into the room together with the air, causing severe noise pollution. .

In addition, since the fan casing 7 for guiding the air forcedly blown in the main body 1 toward the discharge port 3 is installed in the vertical direction, the indoor unit becomes unnecessarily large. This occurs and the air circulation is not made smoothly there is a problem that the cycle efficiency of the indoor unit is lowered.

The present invention is to solve this problem, the object is to improve the blower means installed in the main body to force the blown air exchanged to reduce the operating noise and at the same time to improve the heat exchange efficiency and to reduce the overall size of the miniaturization is possible It is to provide an indoor unit of a separate air conditioner.

Figure 1 is a schematic side cross-sectional view showing an indoor unit of a conventional split air conditioner.

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

Figure 3 is a schematic view showing a blowing means by cutting a part of the indoor unit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: main body case 10a: discharge chamber

10b: heat exchange chamber 20: suction port

30 discharge port 31 horizontal rib

40; Heat exchanger 50: blowing means

51: partition plate 52: ventilation guide

53: propeller 54: motor

55: discharge duct

The present invention for achieving this purpose, the discharge port is formed on the upper side of the front plate, the inlet is formed in the lower side, the heat exchanger, the heat exchanger is installed in the inner lower side of the main body and the air sucked through the inlet is exchanged between the heat exchanger and the discharge port In the indoor unit of a separate type air conditioner having a blowing means for blowing air exchanged through the discharge port into the room, the blowing means is divided into a heat exchange chamber in which a heat exchanger is installed and a discharge chamber for guiding discharge of heat exchanged air. And a blower guide provided in a bell-mouse shape so that the heat exchange chamber and the discharge chamber communicate with each other at the center of the partition plate, and a propeller and a motor installed in the blower guide to force the air in the heat exchange chamber to the discharge chamber side. It is done.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Figure 2 is a side cross-sectional view schematically showing an indoor unit of a separate air conditioner according to the present invention, Figure 3 is a schematic view showing the internal structure of the indoor unit cut.

The indoor unit of the separate type air conditioner according to the present invention, as shown in these, the main body 10 having an outer body and the air inlet 20 and the discharge port 30 is formed, and the heat exchanger 40 for heat exchange with the intake air And a blowing means 50 for forcibly blowing the heat-exchanged air to the indoor side.

The suction port 20 is formed at the lower side of the front plate 11 forming the main body 10, and the discharge port 30 is formed at the upper side of the front plate 11, so that the indoor air is lowered through the lower body 10. It is sucked and discharged again through the upper side. A plurality of vertical ribs 32 and horizontal ribs 31 are arranged in a discharge hole 30 in which air is discharged to the indoor side in a lattice shape and adjust a blowing direction, and the horizontal portion of the upper part 30a of the discharge hole 30 is disposed horizontally. Rib 31 is formed more densely than that located in the lower portion of the discharge port (30). This is because the gap between the upper portion 30 of the discharge port 30 is made fine, so that the rough air is strongly discharged through the upper portion 30a as compared with the lower portion.

The blowing means 50 built in the main body 10 blows the heat-exchanged air back into the room while passing through the heat exchanger 40, which is divided into a partition plate 51 which vertically partitions the inside of the main body 10. The propeller 53, the motor 54, the discharge duct 55, etc. are comprised.

The partition plate 51 is installed in the center of the body 10 in the horizontal direction, whereby the upper side where the air heat-exchanged with the lower heat exchange chamber 10b in which the heat exchanger 40 is installed is guided to the discharge port 30 side. The inside of the main body 10 is divided up and down by the seal 10a. Since the heat exchanger 40 is inclined in the heat exchange chamber 10b, the air sucked through the suction port 20 passes through the heat exchanger.

In addition, at the center of the partition plate 51, two air blowing guides 52 are formed side by side in a forward direction, which is formed in a bell-mouse shape in which the hollow part 52a is formed. Inside the blower guide 52, propellers 53 and motors 54 for forcibly blowing the heat-exchanged air to the discharge chamber 10a are provided. Therefore, when the propeller 53 is driven, air on the heat exchange chamber 10b side is blown to the discharge chamber 10a side through a bell mouth-shaped blow guide 52. At this time, the blowing direction of the heat-exchanged air in parallel with the rotation axis direction, due to the nature of the propeller 53, the air blowing is smoothly in the upward direction.

In addition, the discharge duct 55 is provided on the discharge chamber 10a side, and is composed of a front guide plate 55a and a rear guide plate 55b so that the flow path 55c is formed therein. The air blown in the direction is guided to the discharge port 30 side. For this purpose, one end of the front guide plate 55a is coupled to the front portion 52b of the air blowing guide 52 and the other end is bent at a predetermined curvature and coupled to the lower portion of the discharge port 30, and the rear guide plate 55b is One end is coupled to the rear portion 52c of the airflow guide 52 and the other end is bent at a predetermined curvature and coupled to the upper portion of the discharge port 30, thereby providing a flow path between the front guide plate 55a and the rear guide plate 55b. 55c) is formed.

Next will be described the operation and effect of the air conditioner according to the present invention configured as described above.

First, as power is applied to the motor 54 and the propeller 52 rotates, the indoor air is sucked into the heat exchange chamber 10b through the suction port 20 and heat exchanged while passing through the heat exchanger 40. The heat-exchanged air is blown to the discharge chamber 10a side by the forced blowing force of the propeller 53, and the air is smoothly guided upward through the blowing guide 52 made of a bell mouse shape. Subsequently, such air is guided toward the discharge port 30 along the flow path 55c of the discharge duct 55 including the front guide plate 55a and the rear guide plate 55b, and is discharged back to the room through the discharge port 30. By doing so, the interior is harmonized.

In this air circulation process, the heat exchanged air passing through the heat exchanger 40 is blown in the axial direction of the propeller 53, that is, the lower side and the upper side, in the characteristic of the propeller 53 installed upright, so that the flow path inside the main body 10 No change occurs, so the flow is smooth and operation noise is greatly reduced. In addition, the blowing force is added to the central portion of the flow path 55c of the discharge duct 55 by the two propellers 53, and air is rapidly flowed through the upper portion 30a of the discharge port 30 having a fine gap. By discharging, the heat exchanged air is blown to the far part of the room, and the indoor space is uniformly harmonized.

In addition, instead of a fan casing (see Fig. 1) installed vertically to surround the conventional cross-flow fan (see Fig. 1) in order to guide the air forced by the propeller 53 to the discharge port 30 side, a predetermined curvature The discharge duct 55 is bent to have a configuration, but simply reducing the size of the discharge duct 55 made can be miniaturized.

As described above in detail, the indoor unit of the split type air conditioner according to the present invention is discharged through the propeller and discharge duct and the discharge port installed in the main body to the indoor side, the air exchanged inside the main body without changing the flow path By smoothly guiding upward, the heat exchange efficiency of the heat exchanger is improved as well as the operation noise is reduced. In addition, the discharge duct for guiding the air blowing to the discharge port side can be made simple to reduce the overall size of the indoor unit.

Claims (3)

A main body 10 having a discharge port 30 formed on an upper side of the front plate 11 and a suction port 20 formed on a lower side thereof; A heat exchanger (40) installed at an inner lower side of the main body (10) and configured to heat exchange air sucked through the suction port (20); In the indoor unit of the separate air conditioner having a blower means for blowing the air heat exchanged between the heat exchanger 40 and the discharge port 30 to the room through the discharge port (30); The blowing means 50 is; The partition plate 51 which vertically partitions the inside of the main body 10 with the heat exchange chamber 10b in which the heat exchanger 40 is installed, and the discharge chamber 10a which guides discharge of the heat-exchanged air, and the said partition plate ( 5) a blow guide 52 provided in a bell mouse shape so that the heat exchange chamber 10b and the discharge chamber 10a communicate with each other, and are installed in the blow guide 52 and air in the heat exchange chamber 10b. An indoor unit of a separate air conditioner, comprising a propeller (53) and a motor (54) for forcibly blowing air toward the discharge chamber (10a). The discharge chamber (10) is provided with a discharge duct (55) having a flow path (55c) formed therein to guide the air forcedly blown by the propeller (53) toward the discharge port (30); The discharge duct 55 has a front guide plate 55a bent at a predetermined curvature so that one end is coupled to the front portion 52b of the blowing guide 52 and the other end is coupled to the lower portion of the discharge port 30; The flow path 55c is spaced apart from the front guide plate 55a to form a flow path 55c, one end of which is coupled to the rear portion 52c of the air blowing guide 52 and the other end of which is coupled to an upper portion of the discharge port 30. Indoor unit of a separate air conditioner, characterized in that it comprises a bent rear guide plate (55b). According to claim 2, wherein the discharge port 30 is provided with a plurality of vertical ribs 32 and the horizontal ribs 31 so as to partition the discharge port 30 in a grid shape, the horizontal rib 31 is the discharge hole ( 30) Separated air, characterized in that the gap between the upper portion 30a is finely arranged in the upper portion 30a of the discharge port 30 rather than disposed in the lower portion of the discharge port 30 so that the air is strongly discharged Indoor unit of the conditioner.