KR20000033188A - Intake guide of indoor unit of air conditioner - Google Patents

Abstract

PURPOSE: An intake guide of indoor unit of air conditioner is provided to improve the cooling capacity by uniformly maintaining the flow of air introduced in the indoor unit, reduce the noise and increase the flow by restraining the generation of vortex flow in the absorption shutter part. CONSTITUTION: An intake guide of an indoor unit including a heat exchanger for performing heat exchange between air introduced by rotation of a fan and refrigerant, and an absorption shutter part(50) mounted at an air introduction part for opening/closing an absorption surface, includes a flow control guide(51) mounted in the absorption shutter part for controlling the air flow introduced through a grill in a predetermined direction, and having a section of n polygon (n is an integer equal to or more than 3), wherein the flow control guide has a start line for changing the flow direction on a structural surface and an end line with a predetermined distance from the start line, and a vertex flow control guide(52) is mounted in the absorption shutter part to shut off the flow toward in any other direction rather than the predetermined direction.

Description

Suction Guide of Air Conditioner Indoor Unit

The present invention relates to an indoor unit of an air conditioner that cools a room by inhaling, cooling, and then discharging hot air in the room, and in particular, induces a flow of air into the indoor unit to suppress eddy currents generated in the suction shutter, thereby making noise. The present invention relates to a suction guide of an indoor unit of an air conditioner, which reduces airflow, increases air volume, and improves cooling ability by uniformly flowing air flowing into an evaporator.

The conventional air conditioner indoor unit has a cross flow fan (11) that sucks external air by rotation as shown in FIG. 1, and an air and refrigerant acting as an evaporator and introduced by the rotation of the fan (11). A heat exchanger 12 performing heat exchange therebetween, a rear guide 13 for smoothly discharging the flow passing through the heat exchanger 12, a stabilizer 14 for stabilizing the flow while determining a discharge area, and The suction inlet part 15 is installed at the air inlet and opens and closes the suction surface.

As shown in FIG. 2, the suction shutter unit 15 includes a grill 15a through which air is introduced, a shutter 15b to block inflow of air, and a rear surface of the grill 15a to be included in the air. It consists of the air filter 15c and the dust collecting filter 15d which remove foreign substances, such as a dust.

In addition, the flow of air introduced by the fan 11 is provided through the front suction sucked through the grille 15a of the suction shutter unit 15 and the side grille 10 'formed on the upper surface of the case 10. Inhalation is divided into upper inhalation.

3 is a view showing the operation of the suction shutter 15, Figure 3a is a state in which the air inlet is blocked by the shutter 15b, Figure 3b is an intermediate state in which the suction shutter 15 is opened. 3C illustrates a state in which air is introduced through the grille 15a after the rotation of the suction shutter unit 15 is completed.

That is, when the air conditioner is operated, the suction shutter unit 15 is rotated clockwise around the rotation center 15e, and the grille 15a of the suction shutter unit 15 is connected to the chassis structure as shown in FIG. Allow air to enter. When the air conditioner is stopped, the suction shutter unit 15 is rotated in a counterclockwise direction so that the grille 15a enters the interior of the indoor unit as shown in FIG. 3a, and the shutter 15b is connected to and closed by the chassis structure.

However, the conventional air conditioner indoor unit configured as described above divides the flow of the suction of the suction chute into the heat exchanger into an upper part and a middle part of the lower part and causes the speed unevenness, and the flow through the front grill flows directly into the middle of the heat exchanger. At the lower end, the flow rate is almost zero, so that heat exchange does not occur and eddy currents are generated due to speed unevenness, which causes noise and decreases cooling capacity.

In addition, since the flow of air introduced through the front grill collides with the shutt, causing severe flow separation and vortex, there is another problem of increased noise and lowered air volume.

Here, look at the flow phenomenon generated in the conventional indoor air conditioner as shown in FIG. FIG. 4A illustrates that a heavy vortex is generated in the heat exchanger lower end 12c due to uneven flow of the suction to the heat exchanger, and FIG. 4B partially illustrates a severe vortex phenomenon in the shutter 15b of the suction seat 15. It shows the occurrence.

The flow of air sucked into the heat exchanger 12 is completely separated into two parts due to the shutter 15b of the suction shutter unit 15. Therefore, the air introduced into the side grill 10 'does not descend below the heat exchanger middle portion 12b due to the shutter 15b, and passes through only the upper end portion 12a that is a part of the heat exchanger 12 to perform heat exchange. The front suction introduced through the front grill 15a passes only through the middle portion 12b of the heat exchanger due to the speed unevenness in the heat exchanger 12. Therefore, in the heat exchanger lower end part 12c, since the flow velocity of air is almost zero, heat exchange does not occur at all, and the cooling capacity of an indoor unit is reduced. In addition, severe vortex phenomena at the lower end of the heat exchanger 12c may cause the front chassis to vibrate to cause structural vibration sounds.

In addition, the flow sucked through the front grill (15a) hits the shutter (15b) is generated flow separation phenomenon and severe vortex phenomenon occurs in the left and right directions, resulting in increased noise and reduced air volume.

The present invention has been made in order to solve the above problems of the prior art, by inducing the flow of air flowing into the indoor unit to suppress the generation of vortex generated in the suction seat to reduce the noise, increase the air volume and enter the evaporator It is an object of the present invention to provide a suction guide of an indoor unit of an air conditioner capable of improving the cooling capacity by making the flow of air uniform.

1 is a configuration diagram showing a conventional air conditioner indoor unit,

2 is a detailed view of a suction shutter which is a main component of an indoor unit of an air conditioner;

3a to 3c is an operating state diagram of the indoor unit of the air conditioner,

4A and 4B are views illustrating a flow rate distribution of a conventional air conditioner indoor unit;

5 is a view showing a suction guide of the air conditioner indoor unit according to the present invention;

6A is a shape diagram of a flow control guide that is a main configuration of the present invention;

6B is a shape diagram of a vortex control guide which is a main component of the present invention;

7 is a flow rate distribution diagram of the indoor unit of the air conditioner in which the suction guide of the present invention is installed.

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

50: shutter 51: flow control guide

52: Vortex Control Guide 53: Evaporator

55: grill 57: side grill

The present invention for achieving the above object is an air conditioner indoor unit comprising a heat exchanger for performing a heat exchange between the air and the refrigerant introduced by the rotation of the fan, and a suction shutter installed on the air inlet portion to open and close the suction surface, It is characterized in that the flow control guide is installed in the suction shutter to control the flow direction of some of the air flowing through the grill in an arbitrary direction.

In addition, the air conditioner indoor unit including a heat exchanger for performing heat exchange between the air introduced by the rotation of the fan and the refrigerant, and a suction shutter which is provided in the air inlet portion to open and close the suction surface, it is installed in the suction shutter portion and grill It is characterized in that the vortex control guide is provided to block the flow in the direction different from the flow direction of the air flowing through.

In addition, the air conditioner indoor unit including a heat exchanger for performing heat exchange between the air introduced by the rotation of the fan and the refrigerant, and the suction shutter unit is provided in the air inlet portion to open and close the suction surface, it is installed in the suction shutter unit grill Flow control guide for controlling the flow direction of some of the air flowing through the flow in any direction, and vortex control guide is installed in the suction shutter portion to block the air flowing through the grill in a direction different from the flow direction Characterized in that both are provided.

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

As shown in FIG. 5, the suction guide of the indoor unit of the air conditioner is attached to the bottom surface of the shutter 50 of the suction shutter unit 60 to change the flow direction of some of the air flowing through the grille 55 in an arbitrary direction. Flow control guide 51 for controlling, and vortex control guide 52 for blocking the air flowing through the grill 55 flows in a direction different from the flow direction.

The flow control guide 51 has a quadrangular cross section as shown in FIG. 6A, and a start line of a plane for changing a flow direction in contact with air flow is on a structure plane and an end line is at a constant distance from the structure plane. At this time, the line connecting the start line and the end line is a curve having an arbitrary curvature. Of course, the line connecting the start line and the end line does not necessarily have to be a curve, but may be a straight line.

As shown in FIG. 6B, the vortex control guide 52 is a plurality of ribs attached to the lower portion of the shutter 50 of the suction shutter unit 60 and installed in the same direction as the flow direction of air. It has a dimensional cross section. In addition, the flow control guide 51 and the vortex control guide 52 are used in combination by arbitrary numbers, respectively.

In the suction guide of the indoor unit of the air conditioner of the present invention configured as described above, the flow control guide eliminates the velocity unevenness of the flow, and the vortex control guide prevents the vortex generated at the bottom of the shutter.

The flow control guide 51 is installed at the bottom of the shutter 50 so that a part of the sucked air is bent toward the heat exchanger lower end 53c to move away. Therefore, a part of the air introduced through the grill 55 flows directly to the middle portion 53b of the heat exchanger 53 in a short-range flow along the shutter 50, and part of the air is exchanged through the flow control guide 51. Long distance flows to the bottom 53c.

That is, the flow control guide 51 induces a part of the sucked air to reach the lower end 53c of the heat exchanger 53, thereby speeding up the speed between the middle 53b and the lower end 53c of the heat exchanger 53. Do not create any unevenness. Accordingly, the cooling capacity of the heat exchanger is improved, and the generation of vortex is suppressed at the lower end portion 53c of the heat exchanger 53, so that the air volume is increased and the noise is reduced.

The vortex control guide 52 is a rib installed to match the flow direction of the sucked air, and suppresses the vortices generated at the bottom of the shutter 50 so that the sucked air can flow smoothly into the heat exchanger 53 in a streamlined manner. do. That is, the rib-shaped vortex control guide 52 suppresses the generation of vortices by blocking the flow different from the main flow direction at the lower end of the shutter 50 when the sucked air is moved along the shutter 50. . Therefore, problems such as air volume reduction and noise generation due to vortex generation at the lower end of the shutter 50 are solved.

7 is a view illustrating a flow rate distribution of an indoor unit with a suction guide according to the present invention, in which the flow rate distribution in the heat exchanger 53 of the indoor unit is very uniform, and no vortex is generated between the heat exchanger lower end 53c and the chassis. It is not shown. The suction guide may be composed of a combination of several flow control guides 51 and several vortex control guides 52 to be attached to the shutter 50 as necessary, and the guide may be detachable or integrated. Do.

As such, the suction guide of the indoor unit of the air conditioner of the present invention induces the flow of air introduced into the indoor unit to suppress the generation of vortices generated in the suction shutter to reduce noise, increase the air volume, and improve the flow of air introduced into the evaporator. The uniformity has the advantage of improving the cooling capacity.

Claims (9)

In the air conditioner indoor unit including a heat exchanger for performing heat exchange between the air introduced by the rotation of the fan and the refrigerant, and a suction shutter portion installed on the air inlet portion to open and close the suction surface, The suction guide of the indoor unit of the air conditioner, characterized in that the flow control guide is installed in the suction shutter to control the flow direction of some of the air flowing through the grill in any direction. The method of claim 1, The flow control guide is a suction guide of the indoor unit of the air conditioner, characterized in that the cross section has a shape of n-square (n = 3 or more integer). The method of claim 1, The flow control guide is a suction guide of the indoor unit of the air conditioner, characterized in that the start line of the surface to change the flow direction in contact with the air flow is on the structural surface and the end line is a constant distance from the structural surface. The method of claim 3, wherein The line connecting the start line and the end line is a straight line or a curve having an arbitrary curvature. In the air conditioner indoor unit including a heat exchanger for performing heat exchange between the air introduced by the rotation of the fan and the refrigerant, and a suction shutter portion installed on the air inlet portion to open and close the suction surface, The suction guide of the indoor unit of the air conditioner is installed in the suction shutter unit is provided with a vortex control guide to block the flow of air flowing through the grill in a direction different from the flow direction. The method of claim 5, The vortex control guide is a suction guide of the indoor unit of the air conditioner, characterized in that a plurality of ribs are attached to the lower portion of the chute of the suction chute portion, installed in the same direction as the flow direction of air. The method of claim 5, The vortex control guide is a suction guide of an indoor unit of an air conditioner, characterized in that the thickness has a constant two-dimensional cross section. In the air conditioner indoor unit including a heat exchanger for performing heat exchange between the air introduced by the rotation of the fan and the refrigerant, and a suction shutter portion installed on the air inlet portion to open and close the suction surface, A flow control guide installed in the suction shutter part to control a flow direction of some of the air flowing through the grill in an arbitrary direction, and air installed in the suction shutter part and introduced into the grill in a direction different from the flow direction Suction guide of the indoor unit of the air conditioner, characterized in that all the vortex control guide to block the flow. The method of claim 8, And the flow control guide and the vortex control guide are combined in arbitrary numbers, respectively, and attached to the lower part of the shutter.