KR20100082626A - Indoor unit of air conditioner - Google Patents

Abstract

PURPOSE: An indoor unit of an air-conditioner is provided to minimize a turbulence generation at the center of a suction unit or the center of a suction panel by inhaling indoor air to the inside of a cabinet along an intake flow path divided with a guide unit. CONSTITUTION: An indoor unit(10) of an air-conditioner comprises a cabinet(11), a fan assembly which is installed in the cabinet and compulsively flows air, a front panel(12) which includes a suction unit(121) for inhaling air into the cabinet, a suction panel(13) which selectively opens and closes the suction unit, and a guide unit which divides the suction unit into intake flow paths and comprises guide units which is capable of a relative motion.

Description

Indoor unit of air conditioner

This embodiment relates to an indoor unit of an air conditioner.

In general, an air conditioner is a device for heating or cooling air by using a refrigerant cycle, which is roughly classified into a domestic air conditioner and an industrial air conditioner.

In detail, the home air conditioner may be divided into a separate air conditioner divided into an indoor unit and an outdoor unit, and an integrated air conditioner in which the indoor unit and the outdoor unit are integrally formed.

In addition, the indoor unit of the separate air conditioner may be divided into a wall-mounted type attached to a wall, an upper-type type installed on a floor, and a ceiling-type (or cassette type) indoor type attached to a ceiling.

In such an indoor unit, noise may be generated by the operation and air flow of various components provided therein. Therefore, efforts have been made to reduce the noise generated in the indoor unit.

An object of the present embodiment is to propose an indoor unit of an air conditioner so that noise generated in the intake process of air is minimized.

The indoor unit of the air conditioner according to one aspect, the cabinet; A fan assembly provided inside the cabinet to generate forced flow of air; A front panel on which a suction unit for suctioning air into the cabinet is formed; A suction panel for selectively opening and closing the suction unit; And a guide unit for partitioning the suction part into a plurality of suction flow paths.

According to another aspect, an indoor unit of an air conditioner includes a cabinet; A fan assembly provided inside the cabinet to force flow of air; A front panel on which a suction unit for suctioning air into the cabinet is formed; A suction panel movably provided at the front panel to allow air to flow between the front panel; A guide unit which is movable by the movement of the suction panel and prevents mixing of air flowing between the suction panel and the front panel is included.

According to the proposed embodiment, since indoor air is sucked into the cabinet along the suction flow path partitioned by the guide unit, the generation of turbulence in the center of the suction part or the center of the suction panel can be minimized.

In addition, as the occurrence of turbulence is minimized, the flow rate of air can be increased, and the air flow noise can be reduced.

In addition, since a plurality of guide units constituting the guide unit are provided to be capable of relative movement, the entire height of the guide unit is maximized while the suction panel is open to the suction port, thereby maximizing the flow path length of the flowed air. The first guide part can be prevented from interfering with the filter while the suction panel is closed with the suction port.

Hereinafter, exemplary embodiments will be described in detail with reference to the accompanying drawings.

1 is an external perspective view of an indoor unit of an air conditioner according to a first embodiment.

1 shows a ceiling air conditioner as an example of a type of air conditioner.

Referring to FIG. 1, the indoor unit 10 of the air conditioner according to the present embodiment includes a cabinet 11 having an exterior and an opening at a lower side thereof, coupled to a lower side of the cabinet 11, and a suction unit 121. The front panel 12 is formed, and the suction panel 13 is coupled to the front panel 12 so as to be liftable to open and close the suction unit 121.

In detail, a plurality of discharge ports 122 are formed at edge portions of the front panel 12. Discharge vanes 123 are rotatably provided on the front panel 12. Therefore, the direction of the discharged air is adjusted according to the rotation angle of the discharge vane 123.

When the indoor unit 10 is turned on, the suction panel 13 opens the suction unit 121, and when the indoor unit 10 is turned off, the suction panel 13 opens the suction unit 121. To close it.

2 and 3 are vertical cross-sectional views schematically showing the internal structure of the indoor unit, and FIG. 2 shows a state where the suction panel is opened and FIG. 3 shows a state where the suction panel is closed. 4 is a perspective view for showing the structure of the guide unit according to the first embodiment.

2 to 3, the inside of the cabinet 11 includes a heat exchanger 17, a fan assembly 14 provided in an inner space of the heat exchanger 17, and an air flow. The shroud 16 is provided on the upstream side of the fan assembly 14 to guide the flow of the sucked air, and the filter 15 is disposed upstream of the fan assembly 14 to purify the sucked air. do.

An orifice 124 is formed around the suction part 121 to guide air flow, and the filter 15 is installed above the orifice 124. The orifice 124 extends roundly from the front panel 12 toward the fan assembly 14.

In addition, a rack 18 is provided on an upper side of the suction panel 13, and a pinion (not shown) coupled to the rack 18 and a driving motor to rotate the pinion on an upper side of the front panel 12. (Not shown) may be provided.

Therefore, the suction panel 13 moves up and down by the operation of the driving motor, and the suction part 121 is selectively opened and closed by the movement of the suction panel 13. At this time, while the suction panel 13 moves downward to open the suction part 121, the suction panel 13 moves the suction part 121 at a position spaced apart from the suction part 121. Since it covers, the exposure of the suction part 121 is minimized by the suction panel 13.

Note that the lifting means of the suction panel 13 in this embodiment is not limited to the rack / pinion structure presented above.

In addition, the air sucked through the suction part 121 flows to the fan assembly 14 after the foreign matter is filtered while passing through the filter 15. In detail, the fan assembly 14 includes a centrifugal fan 142 having an axial suction / radial discharge method and a fan motor 141 driving the centrifugal fan 142. In addition, the air flowing by the fan assembly 14 passes through the heat exchanger 17 and then is discharged back into the room through the discharge port 122.

On the other hand, between the suction panel 13 and the filter 15 is provided with a guide unit 19 for guiding the flow of air sucked. The guide unit 19 extends from the suction panel 13 toward the suction part 121 or from the suction part 121 toward the suction panel 13.

At least a portion of the guide unit 19 is located in the suction part 121, and the suction part 121 is provided with a plurality of suction flow paths in order to reduce the flow noise of air sucked through the suction part 121. It divides into (SP).

The guide unit 19 has a first guide part 191 placed on an upper surface of the suction panel (a surface facing the suction part) and a relative movement with the first guide part 191, and the front panel ( And a second guide part 195 integrally formed with 12).

For example, the first guide part 191 has a cross section cut in a direction perpendicular to the flow of air, for example, and has an insertion part 192 into which at least a portion of the second guide part 195 is inserted. . The inserting portion 192 is formed in a shape corresponding to the horizontal cross-sectional shape of the second guide portion 195.

In addition, the first guide part 191 moves up and down together with the suction panel 13 while being placed on the upper surface of the suction panel 13. That is, when the suction panel 13 is lowered, the first guide part 191 is lowered by its own weight, and when the suction panel 13 is raised, the suction panel 13 is the first guide part 191. Lift up.

Alternatively, the first guide part 191 may be integrally formed on the suction panel 13.

The second guide portion 195 is integrally formed on the inner circumferential surface of the orifice 124. That is, the second guide part 195 is located on the suction part 121. In addition, the second guide portion 195 may have, for example, a cross section cut in a direction perpendicular to the flow of air.

Therefore, in this embodiment, for example, the suction part 121 is divided into four suction flow paths SP.

In addition, the end portion 196 of the second guide portion 195 forms a sharp point. That is, the end 196 of the second guide portion 195 is formed to decrease in width toward the upper side in order to smooth the flow of air.

In the present exemplary embodiment, the first guide part 191 and the second guide part 195 have cross-sections cut in a direction perpendicular to the flow direction of air, but the shape of each guide part is not limited. Reveal it. That is, each of the guide parts 191 and 195 may be formed in any shape for dividing the suction part 121 into a plurality of suction paths.

The operation of the guide unit 19 will be described.

When the ON signal of the indoor unit 10 is input, the suction panel 13 is lowered by the driving motor, and the centrifugal fan 142 is rotated.

When the suction panel 13 descends, the first guide part 191 descends together with the suction panel 13 while the first guide part 191 is placed on the upper surface of the suction panel 13. That is, the first guide part 191 and the second guide part 195 are relative to each other. In other words, the first guide part 191 slides downward along the outer surface of the second guide part 195.

As the first guide part 191 descends, the overall height of the guide unit 19 increases.

When the suction panel 13 is lowered, a space S is formed between the upper surface of the suction panel 13 and the lower surface of the front panel 12, and indoor air flows through the space S. do. The air flowing through the space S is sucked into the cabinet 11 through the suction part 121 in a state in which the flow direction is changed.

At this time, since the upper surface of the suction panel 13 and the bottom surface of the front panel 12 are substantially horizontal, indoor air flows in the space S in a substantially horizontal direction.

If the guide unit 19 is not provided, the air flowing in the space S is changed in the flow direction in the state where the air flows in the center of the upper surface of the suction panel 13, and thus the upper surface of the suction panel 13. Turbulence occurs in the center. When turbulence is generated in this manner, the intake of air is not smoothed, and the noise of air flow is generated.

However, when the guide unit 19 is provided between the suction panel 13 and the filter 15 as in the present embodiment, the air flowing through the space S is partitioned from each other by the guide unit 19. Since it flows along each suction flow path SP, turbulence generation in the central portion of the suction part 121 or the suction panel 13 is minimized. And, as the occurrence of turbulence is minimized, the flow rate of air can be increased, and the air flow noise can be reduced.

That is, since the air flowing through the space S at the central portion side of the suction panel 13 is prevented from being collected by the guide unit 19, the formation of turbulence at the central portion side of the suction panel 13 can be minimized. It is.

Since the flow of air is substantially guided to the end of the second guide portion 195, the air does not collect until the air flows to the upper end of the second guide portion 195.

On the other hand, when the off signal of the indoor unit 10 is input, the suction panel 13 is raised by the drive motor. When the suction panel 13 is raised, the first guide portion 191 rises along the outside of the second guide portion 195 and is positioned inside the orifice 124.

Therefore, the volume of the second guide portion 195 introduced into the insertion portion 192 of the first guide portion 191 increases, so that the first guide portion 191 and the filter 15 Interference is prevented.

That is, as the first guide part 191 and the second guide part 195 become relative to each other, the guide unit 19 is opened while the suction panel 13 opens the suction part 121. The overall height of the can be maximized, and the first guide part 191 can be prevented from interfering with the filter 15 while the suction panel 13 is closed with the suction part 121.

Increasing the overall height of the guide unit 19 means that the distance between the air flowing in the compartments increases, so that the turbulence may be reduced as the total height of the guide unit 19 increases.

5 is a perspective view illustrating the structure of a guide unit according to a second embodiment.

This embodiment is the same as the first embodiment in other parts, but is characterized in that there is a difference in the size of each guide part. Therefore, hereinafter, only characteristic parts of the present embodiment will be described.

Referring to FIG. 5, in the guide unit 13 according to the present embodiment, a first guide part 291 placed on an upper surface of the suction panel 13 and at least a part of the first guide part 291 are inserted into the guide unit 13. And a second guide part 295 integrally formed on the front panel 12.

An insertion part 296 for inserting the first guide part 291 is formed in the second guide part 295. In addition, in the lifting and lowering of the suction panel 13, the second guide part 295 moves up and down while at least a part of the suction panel 13 is inserted into the insertion part 296.

In the above-described embodiment, it will be described that the guide unit is composed of two guide parts. Alternatively, the guide unit may be configured to be capable of relative movement by being configured by three or more guide parts.

1 is an external perspective view of an indoor unit of an air conditioner according to a first embodiment.

2 and 3 are vertical cross-sectional views schematically showing the internal structure of the indoor unit, and FIG. 2 shows a state where the suction panel is opened and FIG. 3 shows a state where the suction panel is closed.

4 is a perspective view for showing the structure of a guide unit according to the first embodiment;

5 is a perspective view for showing the structure of a guide unit according to the second embodiment;

Claims (10)

cabinet; A fan assembly provided inside the cabinet to generate forced flow of air; A front panel on which a suction unit for suctioning air into the cabinet is formed; A suction panel for selectively opening and closing the suction unit; And An indoor unit of an air conditioner, comprising a guide unit for partitioning the suction part into a plurality of suction flow paths. The method of claim 1, The indoor unit of the air conditioner, the guide unit includes a plurality of guide parts capable of relative movement. The method of claim 2, In the plurality of guides, A first guide part supported by the suction panel; The indoor unit of the air conditioner is located in the suction unit, and includes a second guide portion relative to the first guide portion. The method of claim 3, wherein The indoor unit of the air conditioner, wherein the second guide portion is formed integrally with the front panel. The method of claim 3, wherein The indoor unit of the air conditioner, any one of the first guide portion and the second guide portion is inserted into the other. The method of claim 3, wherein The indoor unit of the air conditioner, wherein the first guide portion is placed on one surface of the suction panel facing the suction unit, or integrally formed with the suction panel. The method of claim 3, wherein An indoor unit of the air conditioner, the end of the second guide portion forms a point. cabinet; A fan assembly provided inside the cabinet to force flow of air; A front panel on which a suction unit for suctioning air into the cabinet is formed; A suction panel movably provided at the front panel to allow air to flow between the front panel; The indoor unit of the air conditioner, which is movable by the movement of the suction panel, includes a guide unit for preventing the mixing of air flowing between the suction panel and the front panel. The method of claim 8, And the guide unit extends from the suction panel toward the suction unit. The method of claim 8, The guide unit includes a plurality of guide parts for relative movement, Any one of said plurality of guide units is an indoor unit of an air conditioner that divides the suction unit into a plurality of suction passages.

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