KR20000032364A - Blowing duct of air conditioner - Google Patents

Abstract

PURPOSE: A blowing duct of air conditioner is provided to improve the blowing efficiency by providing a suction hole to the blowing fan coaxially and a plurality of auxiliary suction holes having different diameters at a surface facing to the blowing fan. CONSTITUTION: A blowing duct of air conditioner includes a cabinet(10) formed with a suction grill and a discharge grill, an indoor heat exchanger(13) mounted between the suction grill and the discharge grill in the cabinet, a blowing fan(20) of annular flow mounted between the indoor heat exchanger and the discharge grill for guiding the air flow toward the discharge grill from the indoor heat exchanger, a suction hole(31) formed at one side in the axial direction of the blowing fan for guiding air flow from the blowing fan, and a discharge hole(32) formed at one side in the radial direction of the blowing fan to discharge the air from the suction hole, wherein a plurality of auxiliary suction holes(50) are provided at a surface facing to the suction hole of the blowing fan and has a different diameter for the suction of air of which flowing direction is changed according to the intake angle of the suction hole, the discharge hole is provided at a right upper part of the suction hole, the blowing fan rotates counterclockwise, and an uppermost auxiliary suction hole has a largest diameter.

Description

Blowing duct of air conditioner

The present invention relates to an air conditioner, and more particularly, to a blower duct of an air conditioner that improves the blower efficiency by improving a structure of a blower duct for guiding a flow of air forcibly sucked by a blower fan to a heat exchanger. will be.

An air conditioner is a device for heating or cooling a predetermined space. The air conditioner is generally classified into an integrated air conditioner provided in one case and a separate air conditioner in which the indoor unit and the outdoor unit are separately formed. The separate type air conditioner includes an outdoor unit by including a compressor that causes noise and vibration among the components together with an outdoor heat exchanger, and forms an indoor unit with components including an indoor heat exchanger and a blower. The indoor unit is an air conditioner that can reduce cooling efficiency and noise by installing the indoor unit. Such an air conditioner realizes air conditioning by inhaling indoor air, conditioning the air, and then discharging it back into the room.

1 is a front view partially cut-out the front of a conventional air conditioner. 2 is a perspective view of a blower duct having a one-way inlet of a conventional air conditioner, and FIG. 3 is a perspective view of a blower duct having a two-way inlet of a conventional air conditioner. As shown in the drawing, the cabinet 1 constituting the exterior of the indoor unit is provided so as to be formed to stand upright in the vertical direction. The cabinet 1 is provided with a suction grill 2 at the lower front side and a discharge grill 3 at the upper front side so as to suck air into the lower side and discharge the air upward. In addition, an inner side heat exchanger 4 is installed at an inner lower side of the cabinet 1 to be inclined at the rear of the suction grill 2 to exchange heat with indoor air, and the upper side of the indoor side heat exchanger 4 is installed in the cabinet 1. Located to the front side of the lower side will be located to the rear side. In addition, a blowing duct 5 for forcibly blowing the air in the room is provided above the indoor heat exchanger 4.

The blowing duct 5 is a scroll-shaped cylinder that guides the blowing fan 6 installed therein to suck and discharge air, and the blowing fan 6 installed inside the blowing duct 5 is a cross flow type. The fan is provided in a circular shape and opened to suck air at the center side, and a plurality of blades 6a are inclined in one direction on the outside to discharge air sucked at the center side to the circumferential side. will be. The blower duct 5 in which the blower fan 6 is installed is rounded to surround the blower fan 6, and the center of the blower fan 6 is opened so that air passing through the indoor heat exchanger 4 installed in the lower side is sucked in. 5a is formed, and this suction port 5a is provided so as to face the front of the cabinet 1. Further, the discharge port 5b is formed in the upper right direction so that the air sucked through the suction port 5a can be discharged upward. The discharge port 5b is formed in the rotational direction of the blower fan 6 and is rounded upwardly so that the air discharged from the crossflow blower fan 6 moves upward without large resistance.

The blower duct 5 is provided so that the air passing through the indoor heat exchanger 4 is moved at a predetermined distance from the front side of the cabinet 1 in which the inlet 5a is formed, and the cabinets are moved to the left and right sides and the rear sides. It is installed in close contact with (1). In the upper side, a separation membrane 7 is formed outside the discharge port 5b. The separation membrane 7 includes a space in which an indoor heat exchanger 4, a blower duct 5, and a suction grill 2 are installed, and an upper side thereof. The outer circumferential side is provided in the cabinet 1 so as to separate the space communicating with the discharge grill 3 of the discharge grill 3, and is coupled to the discharge port 5b of the blower duct 5 inside.

In the conventional air conditioner configured as described above, the air in the room is sucked into the cabinet 1 through the suction grill 2 by the operation of the blower fan 6, and the sucked air passes through the indoor heat exchanger 4. As it passes through, it is converted to heat exchanged air. Then, the air is discharged into the room through the discharge grill 3 through the suction port 5a and the discharge port 5b of the blower duct 5.

However, the blower duct of the air conditioner has a drawback of low air intake efficiency of the blower fan because the inlet is formed only in one direction on the outside of the blower fan so as to suck air in both directions. there was.

In order to solve this disadvantage, as shown in FIG. 3, a blower duct 9 for improving suction efficiency by forming suction holes 9a and 9b of the same size in both sides of both sides of the blower duct 9 is presented. It became. A blowing fan (not shown) provided inside the blowing duct 9 is a cross flow fan. The blower duct 9 is rounded to surround the blower fan (not shown), and the front suction hole 9a installed at the front surface and the rear suction hole 9b disposed at the rear surface of the blower duct 9 are the same. It is formed in a circular shape, and the rear suction opening 9b is spaced apart from the inner rear of the cabinet (not shown), and the front suction opening 9a is installed to be spaced apart from the inner front of the cabinet (not shown). Further, a discharge port 9c is formed in the upper right direction so that air sucked through the front suction port 9a and the rear suction port 9b can be discharged upward.

However, the blowing duct having the front inlet and the rear inlet has a disadvantage in that the air intake efficiency is not greatly improved and noise is generated. That is, as a result of experimenting with smoke to check the air sucked into one side of the inlet, it can be seen that the amount of inhaled air is different according to the angle of the inlet. On the contrary, there was a shallow part. In other words, the part where the smoke goes deep is where the amount of inhalation is high, and the part which is shallow is the place where the amount of inhalation is small. When this phenomenon is applied to the ventilation duct provided with the front inlet and the rear inlet, the air is sucked smoothly in both directions when the air intake is small, but the air sucked deeply into the blower fan is overlapped with each other when the air intake is high. Turbulence is formed due to the impact of the noise generated, there was a problem affecting the rotation of the blowing fan.

The present invention is to solve such a problem, an object of the present invention is provided concentrically with the blower fan on one side of the blower duct so that the air sucked in both directions of the blower duct installed inside the blower fan does not collide with each other. It is to provide a blower duct of the air conditioner provided with a suction inlet similar to the inner diameter of the blower fan and a plurality of auxiliary suction inlets of different sizes depending on the amount of air sucked into each part of the inlet.

1 is a front view partially cut-out the front of a conventional air conditioner.

2 is a perspective view of a blower duct having a one-way inlet of a conventional air conditioner.

3 is a perspective view of a blower duct having a bidirectional inlet of a conventional air conditioner.

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

5 is an exploded perspective view of the ventilation duct according to the present invention.

6 is a rear view showing the rear surface of the ventilation duct according to the present invention.

Explanation of symbols on the main parts of the drawings

10: cabinet 13: heat exchanger

20: blower fan 30: blower duct

31: inlet 32: discharge outlet

50: secondary intake

In order to achieve the above object, the present invention provides a cabinet in which a suction grill and a discharge grill are formed, an indoor heat exchanger installed inside the cabinet so as to be positioned between the suction grill and the discharge grill, and air of the indoor heat exchanger. A horizontal flow fan installed between the indoor heat exchanger and the discharge grill to flow to the discharge grill side, and formed on one side of the blower fan in an axial direction to guide the air flowed by the blower fan; In the air duct of the air conditioner having an air inlet and a blower duct having a discharge port formed on one side in the radial direction of the blower fan to discharge the air sucked into the inlet, the face facing the inlet of the blower duct The air is complementary to each other without colliding with the inhaled air by changing deeply or shallowly according to the suction angle of the intake port. That help to make the magnitude of the suction diameter provided with a plurality of other secondary inlet characterized.

Hereinafter, with reference to the accompanying drawings will be described in detail one preferred embodiment according to the present invention.

Figure 4 is a side cross-sectional view of the air conditioner according to the present invention, Figure 5 is an exploded perspective view of the air blowing duct according to the present invention. 6 is a rear view showing the rear surface of the ventilation duct according to the present invention. As shown in the drawing, the air-conditioning duct of the air conditioner of the present invention is installed in the indoor unit, and the indoor unit is installed with the cabinet 10 constituting the exterior formed to be formed long in the vertical direction. The cabinet 10 is provided with a suction grill 11 at the lower front side and a discharge grill 12 at the upper front side so as to suck air into the lower side and discharge the air upward. In addition, an inner side heat exchanger 13 is installed at an inner lower side of the cabinet 10 to be inclined at the rear of the suction grill 11 to exchange heat with indoor air. Located to the front side of the lower side will be located to the rear side. In addition, an upper side of the indoor heat exchanger 13 is provided with a blowing fan 20 for forcibly blowing indoor air.

The blower fan 20 forcibly sucks air in the room, passes through the indoor heat exchanger 13 to make the rough air, and then forcibly discharges it to the air conditioner, and is installed above the indoor heat exchanger 13. In this embodiment, the blowing fan 20 is a low noise, cross flow fan having a strong blowing capability, the overall shape is circular, and is opened to suck air to the center side, the outside The plurality of braids 21 are inclined in one direction to discharge air sucked toward the center side to the circumferential side. Moreover, the rotating member 22 is provided in the middle of the front-back front at the center side of the blowing fan 20 opened. The rotating member 22 is provided to connect the circular rib and its center side as a plurality of ribs so that air can flow freely, and is connected to the motor 23 on the center side. As a result, the blower fan 20 rotates due to the operation of the motor 23, and the blower fan 20 sucks air toward the center and discharges it to the circumferential side.

On the other hand, the blowing fan 20 is provided with a blowing duct 30 is provided in the scroll-shaped cylinder to guide the blowing fan 20 to suck and discharge the air. The blower duct 30 is rounded to wrap the blower fan 20 which is built in, and a suction port 31 and an auxiliary suction port 50 are formed on the front and rear surfaces of the center. In addition, the air duct 30 provided with the suction port 31 and the auxiliary suction port 50 is installed to be spaced apart from the front and rear of the cabinet 10 to suck the air passing through the indoor heat exchanger 13 back and forth. . In addition, the discharge port 32 is formed in the upper right direction so that the air sucked through the suction port 31 can be discharged upward, and the discharge port 32 is formed in the rotational direction of the blower fan 20. The air discharged from the cross flow type blower fan 20 is rounded upwardly and expanded to move upward without large resistance. In the upper side, a separation membrane 14 is formed outside the discharge port 32. The separation membrane 14 includes a space in which an indoor heat exchanger 13, a blower duct 30, and a suction grill 11 are installed. The outer circumferential side is installed in the cabinet 10 so as to separate the space communicating with the upper discharge grill 12, the inner side is coupled to the discharge port 32 of the blower duct 30. The inlet 31 and the auxiliary suction port 50 in the blower duct 30 will be described in detail as follows.

The inlet 31 is installed to the front side of the blowing duct 30, and is provided in a circular shape so as to correspond to the shape of the blowing fan 20, the center of which is the same, the diameter of the inside of the opening of the blowing fan 20 It is prepared to be similar in diameter. The inlet 31 has a different amount of air is inhaled for each part, and as a result of experimenting with smoke so as to visually confirm this, it can be seen that the amount of air sucked in accordance with the angle of the inlet 31 is different. . In other words, there was a part where the smoke went deep inside, and a part where the smoke entered shallowly. In other words, the part where the smoke goes deep is where the amount of inhalation is high, and the part which is shallow is the place where the amount of inhalation is small. As an experimental value, when the discharge port 32 is located on the upper right side, the upper side of the inlet port 31 is viewed as 0 ° and the right side of the inlet port 31 is viewed as 90 °, the lower side is 180 °, and the left side is 270 °. At 30 °, smoke entered the shallowest, and at 180 °, moderate smoke intake was achieved. And the smoke was the most inhalation at 240 °.

This will be described in the counterclockwise direction from the upper side to distinguish the upper, lower, left, right of the present embodiment as follows. The upper side of the suction port 31 is where the smoke enters shallowly, and the right side enters the smoke a little deeper than the upper side. In addition, the lower side enters a little deeper than the right side, the left side of the upper, lower, left, right is the most deep smoke. Accordingly, the auxiliary suction port 50 formed on the opposite side of the suction port 31 is formed, which will be described by dividing the upper side 51, the lower side 53, the left side 54, and the right side 52. The auxiliary suction port 50 of the upper side 51 is formed with a large diameter so as to correspond to the upper side of the suction port 31 side because the suction amount is small. As a result, the amount of air entering the inlet 31 and the amount of air sucked into the upper inlet 51 of the auxiliary inlet 50 are discharged to the outlet 32 without colliding with each other. And the right side (52, the direction seen from the inlet side) of the auxiliary inlet port 50 facing the right side of the inlet port 31 is provided slightly smaller than the auxiliary inlet port 50 of the upper side 51, the lower side 53 is slightly more than this. It is provided small. In addition, the left side (54, the direction seen from the inlet side) of the inlet 31 is the upper inlet 51, the lower side 53, the left side 54, the right side 52 is the place where the smoke enters deeply corresponding to the auxiliary inlet ( 50) is the smallest.

Referring to the operation of the blowing duct 30 of the air conditioner of the present invention configured as described above is as follows. When the blower fan 20 is operated, the air in the room is sucked into the cabinet 10 through the suction grill 11, and is converted into air that is heat-exchanged while passing through the indoor heat exchanger 13. The air is sucked into the suction port 31 and the auxiliary suction port 50 of the blower duct 30 and discharged to the discharge port 32 and discharged into the room through the discharge grill 12. At this time, the auxiliary suction port 50 facing the side where the air is sucked a lot of the suction port 31 has a small diameter, on the contrary, the auxiliary suction port 50 facing the side where the air is sucked less has a larger diameter, The air sucked into the 31 and the auxiliary suction port 50 does not collide with each other, and smooth air is sucked in. This improves the blowing amount and blowing efficiency of the blowing fan 20, it is possible to reduce the turbulence formation and noise caused by the collision of air.

As described in detail above, the air conditioner according to the present invention is provided concentrically with the blower fan on one side of the blower duct so that the air sucked in both directions of the blower duct in which the blower fan is installed therein does not collide with each other. By providing an inlet similar to the inner diameter of the blower fan and providing a plurality of auxiliary inlets of different sizes depending on the amount of air sucked into each part of the inlet, the auxiliary inlet corresponding to the side where a large amount of air enters the inlet is provided. A small amount of air is sucked in, and a large amount of air is sucked into the auxiliary inlet corresponding to the side where the small air enters into the inlet.

That is, since the intake of air is complementary, the collision and turbulence of the air sucked into the inlet and the auxiliary intake can be prevented, which can smoothly inhale air and reduce noise, and reduce the rotational force of the blower fan. There is an advantage that the blowing amount and the blowing efficiency of the blowing fan is improved by preventing.

Claims (2)

A cabinet in which a suction grill and a discharge grill are formed, an indoor heat exchanger installed inside the cabinet so as to be positioned between the suction grill and the discharge grill, and the indoor side to flow air from the indoor heat exchanger to the discharge grill side A horizontal flow blower installed between the heat exchanger and the discharge grill, an inlet formed on one side of the blower fan in the axial direction so as to guide the air flowing by the blower fan, and the air sucked into the inlet. In the blower duct of the air conditioner having a blower duct having a discharge port formed on one radial side of the blower fan, A plurality of auxiliary suction holes having different diameters are formed on the surface facing the intake port of the blower duct so as to be made deeper or shallower according to the intake angle of the intake port so as to complement the air suction without colliding with the intake air. Blowing duct of the air conditioner, characterized in that provided. The method of claim 1, The discharge port is provided on the upper right side of the suction port, the blowing fan is rotated in the counterclockwise direction, the auxiliary suction port is provided with the largest diameter on the upper side and the air conditioning, characterized in that the diameter is reduced toward the clockwise direction Blowing duct of the flag.