KR100598564B1 - Indoor unit of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to provide an air conditioner for preventing dew condensation formed at the discharge port of the indoor unit in the silent mode in which the noise of the cross flow fan is lowered in the indoor unit of the air conditioner. .

An air conditioner according to the present invention includes a front panel having a suction grill, a stabilizer coupled to the front panel to separate intake air and discharge air, a discharge port formed adjacent to the stabilizer, and the stabilizer In the air conditioner is provided spaced apart from the air conditioner comprising a cross-flow fan for discharging air to the discharge port,

It is formed to extend from the lower surface of the stabilizer, characterized in that it comprises a plurality of flow rate increasing member for increasing the flow rate on both sides of the discharge port to prevent dew condensation in the discharge port.

Description

Indoor unit of air conditioner

1 is a side cross-sectional view of an indoor unit of an air conditioner according to the present invention.

Figure 2 (a) is a perspective view of a stabilizer installed in the indoor unit of the air conditioner according to the present invention.

Figure 2 (b) is a bottom plan view of the stabilizer installed in the indoor unit of the air conditioner according to the present invention.

FIG. 3 (a) is a bottom plan view showing the flow rate distribution of the discharged air when the flow rate increasing member is not installed in the stabilizer of the indoor unit.

Figure 3 (b) is a bottom plan view showing the flow rate distribution of the discharged air when the flow rate increasing member is installed in the stabilizer according to the present invention.

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

10: front panel 21: rear panel

27: crossflow fan 30: stabilizer

33: velocity increasing member 35: coupling portion

36: bent portion 48: discharge port

The present invention relates to an indoor unit of an air conditioner, and more particularly, to an indoor unit of an air conditioner capable of increasing a flow rate of discharged air so as to prevent dew condensation at a discharge port of an indoor unit during operation of a separate air conditioner.

In general, an air conditioner is a device that maintains indoor air at a desired temperature in association with a refrigeration cycle while circulating air. The air conditioner is divided into an integrated air conditioner separately separated from an integrated air conditioner installed in one body.

Particularly, the present invention is an indoor unit of a separate air conditioner installed on an indoor wall. The indoor unit of such an air conditioner is disclosed in Korean Utility Model Publication No. 2001-1482.

The indoor unit of the air conditioner includes a main body fixed to a wall and a front panel coupled to the front surface of the main body, and an indoor heat exchanger for heat-exchanging air, and a heat-exchanged heat exchanger for suctioning heat exchanger air inside the main body. A crossflow fan is installed to discharge air into the room.

In addition, a suction grill for sucking air is formed on the front panel, and a discharge port is formed below the suction grill, and the front panel is disposed above the discharge port and spaced apart from the cross flow fan to discharge the air. A stabilizer that separates air from intake air is combined.

Here, the stabilizer has a shape in which one side is bent to face the crossflow fan.

Such an air conditioner is a process in which the indoor air is introduced through the suction grill by the rotation of the cross flow fan, and the inflowed air is heat-exchanged by passing through the heat exchanger and then discharged back into the room by the rotation of the cross flow fan. By performing repeatedly, the indoor air is kept in a comfortable state.

However, in such an air conditioner, in order to lower the flow noise of the crossflow fan, the rotational speed of the crossflow fan is lowered to rotate at 50 to 60% of the normal operation speed. At this time, the amount of air discharged from the discharge port is reduced. In addition, a situation in which the flow velocity distribution in the entire discharge port becomes very nonuniform as the air velocity decreases.

If this situation persists, both sides of the discharge port are reversed inflow of the high temperature and high humidity indoor air toward the discharge port, and in the part of the discharge port where the high temperature and high humidity air is introduced, dew formation occurs when the high temperature indoor air and the low temperature discharge air meet. There was a problem that occurred.

The present invention is to solve such a problem, while the low air flow rate of the indoor unit of the air conditioner, low flow rate during the low noise operation in the discharge port side and the high temperature indoor air due to the flow rate decrease phenomenon is introduced into the discharge port in the reverse direction The purpose is to provide an indoor unit of an air conditioner to prevent dew condensation.

The indoor unit of the air conditioner according to the present invention includes a front panel on which an intake grill is formed, a stabilizer coupled to the front panel to separate intake air and discharge air, and a discharge port formed adjacent to the stabilizer. In the indoor unit of the air conditioner,

It is formed in the discharge port, characterized in that it comprises a plurality of flow rate increasing member for increasing the flow rate of the discharge air passing through the discharge port in order to prevent dew condensation in the discharge port.

In addition, the flow rate increasing member is formed on both sides of the lower surface of the stabilizer, it is characterized in that it extends from the lower surface of the stabilizer has a constant thickness and width.

       In addition, a cross flow fan for suctioning and discharging air is provided at a portion adjacent to the stabilizer, and a width of a flow path formed between the flow rate increasing member is narrower than the width of the cross flow fan.

       In addition, the portion of the flow rate increasing member portion close to the crossflow fan is characterized in that the rounded processing so that the flow of air can be made smoothly.

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

As shown in FIG. 1, the indoor unit 1 of the air conditioner has a long left and right box shape in which its exterior is formed by combining the front panel 10 and the rear panel 21, and the front panel 10 includes: A plurality of ventilation holes are formed on the front suction grille 13 and the upper suction grille 16, which are air intake passages, and a discharge hole 48 is located at the lower portion thereof.

In addition, the rear panel 21 is formed on the rear surface of the structure that can be fixed to the wall, the inside is provided with a rear guide 24 for guiding the discharged air toward the discharge port 48. .

A suction filter 19 is disposed at a portion adjacent to the front suction grill 13 and the top suction grill 16 of the front panel 10 to filter foreign substances from the suction air, and a suction part is provided at the rear of the suction filter 19. The heat exchanger 18 is disposed to be horizontally long so as to exchange heat with the indoor air. The rear flow fan 27 discharges the heat exchanged by the heat exchanger 18 into the room at the rear of the heat exchanger 18. ) Is mounted.

In addition, a lower part of the front panel 10 is provided with a stabilizer 30 which separates the intake air and the discharged air and receives condensed water generated from the heat exchanger 18. On both sides of the lower surface of the 30, a flow rate increasing member 33 for increasing the flow rate of the air discharged by the cross flow fan 27 is formed.

A discharge opening 48 is provided between the lower portion of the front panel 10 and the rear guide 24 of the rear panel 21 to discharge heat-exchanged air into the room, and the discharge opening 48 has a direction of discharge air. Vertical vanes 42 which can be adjusted to the left and right and horizontal vanes 39 which are horizontally installed to adjust the discharge air in the vertical direction are installed to be rotatable.

As shown in Fig. 2 (a) (b), the stabilizer 30 has a bent portion 36 bent at one side so that the discharge air and the intake air can be separated, the bent portion 36 ), The bent portion is rounded so as not to disturb the air flow.

On the opposite side of the bent portion 36 is formed a coupling portion 35 is coupled to the lower portion of the front panel (not shown).

In addition, both sides of the lower surface of the stabilizer 30 is formed with a flow rate increasing member 33, the longitudinal length of the flow rate increasing member 33 is longer than the vertical width of the stabilizer 30, the flow rate The portion where the increasing member 33 is adjacent to the cross flow fan (not shown) is rounded so that the discharge air flows smoothly.

Hereinafter, with reference to Figure 1 will be described the overall operation of the indoor unit of the air conditioner according to the present invention.

When the crossflow fan 27 is driven, indoor air is sucked into the indoor unit 1 through the front suction grill 13 and the top suction grill 16 of the front panel 10. At this time, the suctioned air is filtered while the foreign matter such as dust is filtered while passing through the filter 19, and is cooled while passing through the heat exchanger 18, and then flows into the crossflow fan 27.

This air is discharged toward the discharge port 48 through the cross flow fan 27.

At this time, the flow rate increasing member 33 is installed on both sides of the lower surface of the stabilizer 30 constituting a part of the discharge port 48 so that the area of the entire flow path becomes relatively narrow. The flow rate of the discharged air passing through, in particular, the flow rate of air passing near the flow rate increasing member 33 is relatively increased compared to the case where the flow rate increasing member 33 is absent.

Referring to Figure 3 (a) (b), it will be described in the flow rate distribution according to the presence or absence of the flow rate increasing member (33).

Figure 3 (a) shows the flow rate distribution of the discharge air of the indoor unit of the conventional air conditioner without the flow rate increasing member 33, Figure 3 (b) is a flow rate distribution when the flow rate increasing member 33 is installed As shown in FIG. 3 (b), when the air cooled by the cross flow fan 27 is discharged toward the discharge port, the flow path area of the discharge port is due to the flow rate increasing member 33 installed on both sides of the stabilizer 30. This relatively narrowing result occurs.

In addition, since the horizontal width of the flow path formed between the flow rate increasing member 33 has a shape narrower than the horizontal width of the crossflow fan 27, and thus passes through the discharge port due to the operation of the crossflow fan 27 While the overall velocity of the air increases, the overall distribution of the velocity is relatively even.

In particular, a phenomenon in which the flow rate of air passing near the flow rate increasing member 33 increases than the conventional case occurs.

This phenomenon is evident in the silent mode operation, in which the noise and the air volume of the fan are reduced by rotating the crossflow fan at between 50 and 60% of the normal rotation speed, since the flow rate of air passing near the flow increasing member 33 is increased. Therefore, it is possible to prevent the high temperature and high humidity air from flowing into the vicinity thereof, and also to prevent the dew formation on the discharge port side caused by the inflow of the high temperature and high humidity air.

As described above in detail, the indoor unit of the air conditioner according to the present invention is installed in both sides of the stabilizer forming a part of the discharge port by installing a flow rate increasing member to relatively reduce the area of the discharge port, silent mode operation This contributes to improving the non-uniform distribution of the flow velocity generated and, in particular, to increasing the flow velocity of the exhaust air at both sides of the discharge port.

This function prevents the inflow of indoor air at high temperature and high humidity generated at both sides of the discharge port, and also prevents dew condensation at the discharge port caused by such inflow.

Claims (4)

An indoor unit of an air conditioner including a front panel having a suction grill, a stabilizer coupled to the front panel to separate suction air and discharge air, and a discharge port formed adjacent to the stabilizer, The indoor unit of the air conditioner, which is formed inside the discharge port and includes a plurality of flow rate increasing members for increasing the flow rate of the discharge air passing through the discharge port in order to prevent dew condensation at the discharge port. The method of claim 1, The flow rate increasing member is formed on both sides of the lower surface of the stabilizer, extending from the lower surface of the stabilizer, the indoor unit of the air conditioner, characterized in that it has a constant thickness and width. The method of claim 2, An indoor unit of the air conditioner, wherein a cross flow fan for sucking and discharging air is installed at a portion adjacent to the stabilizer, and a width of a flow path formed between the flow increase member is narrower than the width of the cross flow fan. The method of claim 3, wherein The indoor unit of the air conditioner, the portion of the flow increasing member portion close to the crossflow fan is rounded so that the air flows smoothly.

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