KR20080081759A - Air-conditioner - Google Patents

Abstract

An air conditioner is provided to form a step in a guide unit to enlarge an air discharging path. An air conditioner includes a discharge port(10) and a guide unit(20). The guide unit includes a discharge passage in order to guide air to the discharge port. The guide unit is stepped so that the discharge passage is widened. The guide unit includes a first guide unit(21) and a second guide unit(22). The first guide unit has the discharge passage. The second guide unit has a step unit. The step unit is interposed between the first and second guide units. The second guide unit is inclined from a central axis(24) of the discharge passage at a first angle. The guide unit is connected to the second guide unit and inclined from the central axis of the discharge passage at a second angle.

Description

Air Conditioner {Air-Conditioner}

1 is a cross-sectional view showing a discharge port of a conventional air conditioner.

2 is a perspective view showing an air conditioner according to the present invention.

3 is a partial cross-sectional view showing the discharge port side of the air conditioner according to the present invention.

4 is a cross-sectional view illustrating a portion A of FIG. 3.

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

10: discharge port 20: guide part

21: first guide portion 22: second guide portion

23: slope 24: central axis

30: discharge boundary surface θ1: angle of inclination of the second guide portion

θ2: angle at which the inclined portion is inclined

The present invention relates to an air conditioner, and more particularly, to an air conditioner for providing a device having an improved structure of a discharge port to prevent dew condensation occurring at the discharge port.

In general, an air conditioner for air conditioning the room in the air conditioner includes a heat exchanger and a blowing means in the air conditioner main body, and has a discharge port on the upper front side of the main body configured as described above, and a suction inlet on the lower side of the front side of the air conditioner. Convection of the air to achieve air conditioning.

1 is a cross-sectional view showing a discharge port of a conventional air conditioner.

Referring to FIG. 1, a conventional air conditioner is provided with a discharge port 1 for discharging air conditioned air, and is provided inside the discharge port 1 and blower fan 5 for blowing air conditioned to the discharge port 1. And a blade 6 for adjusting the direction of air discharged by the blowing fan 5.

As disclosed in the air conditioner for preventing dew condensation corresponding to the Republic of Korea Utility Model Registration No. 20-0258640, the conventional air conditioner includes a guide part 2 for forming a discharge path to guide air to the discharge port 1 side; And an discharge boundary surface 3 adjacent to the discharge port 1 and facing indoor air, and an arc-shaped curved portion 4 having a constant curvature between the guide portion 2 and the discharge boundary surface 3. Equipped.

Through such a configuration, the low temperature discharged air discharged by the blowing fan 5 flows to the discharge boundary surface 3 along the curved portion 4 after passing through the guide portion 2, thereby providing the curved portion. When low temperature discharge air is continuously supplied to (4), the curved portion 4 does not mix low temperature discharge air with high temperature and high humidity ambient air, thereby preventing dew from forming on the curved portion 4.

However, in the discharge boundary surface 3, the low temperature discharge air flowing while surrounding the curved portion 4 is mixed with high temperature and humid ambient air, thereby causing dew condensation. As such, the discharge boundary surface 3 corresponds to a portion in contact with the indoor air, and dew condensation still occurs on the discharge boundary surface 3, so that the user has to remove the dew generated on the discharge boundary surface 3. There is a problem that the customer satisfaction is reduced by increasing.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an apparatus for preventing dew condensation on the discharge boundary surface by reducing the cold air delivered to the discharge boundary surface.

In order to achieve the above object, the air conditioner according to the present invention comprises a discharge port for discharging air, and a guide unit for forming a discharge flow path for guiding air to the discharge port side, the guide portion discharge path Characterized in that formed stepped to widen.

The guide part may include a first guide part forming a discharge flow path and a second guide part connected to the first guide part and having a stepped portion stepped to widen the discharge flow path.

In addition, the step portion is characterized in that formed between the first guide portion and the second guide portion.

The second guide part may be inclined at a predetermined angle θ1 from the central axis of the discharge passage.

The guide unit may include an inclined portion connected to the second guide portion and inclined at a predetermined angle θ2 from the central axis of the discharge passage.

In the air conditioner according to the present invention, the air conditioner includes a guide portion for forming air and guiding air, a discharge port for discharging air passing through the guide part, and a discharge boundary surface adjacent to the discharge hole and contacting indoor air. In order to prevent dew from forming on the discharge boundary surface, the guide part may be formed stepped to widen the discharge path.

The guide part may include a first guide part forming a discharge flow path and a second guide part connected to the first guide part and having a stepped portion stepped to widen the discharge flow path.

The guide portion may include an inclined portion inclined at a predetermined angle θ2 from the center axis of the discharge passage, and the second guide portion may be inclined at a constant angle θ1 from the central axis of the discharge passage.

In addition, the inclination angle θ1 of the second guide portion is smaller than the inclination angle θ2.

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

2 is a perspective view showing an air conditioner according to the present invention.

Referring to FIG. 2, an air conditioner is formed at an upper portion of the main body 50, and discharges 10 and discharges air-conditioned air that is cooled or heated while passing through the inside of the main body 50, and the discharge port 10. And a guide portion 20 having wind direction control means (not shown) installed in the air conditioner to adjust the wind direction of the air-conditioned air, and forming a discharge flow path for flowing air to the discharge port 10 side. The guide part 20 is formed stepwise in the direction of extending the discharge path toward the discharge port 10 side.

The discharge port 10 is formed at the upper end of the front panel 51 installed on the upper front of the main body 50. The discharge port 10 is provided at an end portion of the guide part 20 that forms the discharge flow path so that the air conditioned air flows to the indoor side. In addition, the discharge boundary surface 30 formed adjacent to the discharge port 10 is provided.

The wind direction control means (without reference numerals) is provided on the discharge port 10 side, a plurality of horizontal blades 56 for adjusting the up and down direction of the air-conditioning air, and installed in the rear of the horizontal blades 56 air conditioning A plurality of vertical blades (not shown) for adjusting the wind direction in the left and right directions of the air, and a drive motor (not shown) for operating the horizontal blade 56 and the vertical blades (not shown), respectively.

3 is a partial cross-sectional view showing the discharge port side of the air conditioner according to the present invention.

Referring to FIG. 3, the guide part 20 may be provided in parallel with the central axis 24 of the discharge port 10, and may be provided with a first guide part 21 for guiding air-conditioned air to an indoor side while contacting the air-conditioned air. And a second guide part 22 which is connected to the first guide part 21 and is stepped in a stepped cross section to enlarge the discharge flow path. The second guide part 22 is provided to be inclined at a predetermined angle θ1 from the central axis 24 of the discharge port 10. In addition, the guide part 20 includes an inclined part 23 connected to the second guide part 22 and inclined at a predetermined angle θ2.

Hereinafter, the operation and operation effects of the air conditioner according to the present invention will be described.

Referring to FIG. 2, the air conditioner according to the present invention having the above configuration applies power to the air conditioner by operating an operation button of the control panel 52 installed in the front panel 51. At this time, the blowing fan 53 is rotated so that indoor air is introduced into the main body 50 through the suction port 54 by the rotational force of the blowing fan 53. The air introduced through the suction port 54 is cooled by heat exchange with the refrigerant flowing through the heat exchanger 55 while passing through the heat exchanger 55. The air conditioned by the heat exchanger 55 is sucked to the blower fan 53 and then discharged to the discharge port 10 formed on the upper portion of the main body 50.

4 is a cross-sectional view showing the flow of the discharge air and the indoor air at the discharge port side of the air conditioner according to the present invention.

Referring to FIG. 4, since the first guide part 21 forms a discharge flow path in parallel with the central axis 24 of the discharge port 10, the air-conditioned air is in contact with the first guide part 21. It flows indoors. Stepped cross-sections are formed between the first guide portion 21 and the second guide portion 22 to widen the discharge passage. Therefore, when the air is passed through the second guide portion 22 in the first guide portion 21, the air is formed in the stepped cross section vortex.

In addition, the second guide portion 22 is formed to be stepped while being connected to the first guide portion 21 to widen the discharge flow path and at an angle from the central axis of the discharge port 10 by a predetermined angle θ1. It is. The inclined portion 23 is connected to the second guide portion 22 and is formed to be inclined by a predetermined angle θ2 from the central axis 24 of the discharge port 10.

Thus, when comparing the amount of air per unit time for the discharged air to contact the first guide portion 21 and the amount of air per unit time for contacting the inclined portion 23, the amount of air per unit time for contacting the inclined portion 23. This decrease is very difficult to cool the inclined portion 23 by the discharged air. In addition, when the inclination portion 23 is formed at an angle θ2 greater than the inclination angle θ1 at which the second guide portion 22 is formed, cooling is performed by using the air discharged from the inclination portion 23. It is even harder to make.

In addition, since the air discharge rate is higher than the speed at which the indoor air moves freely, the pressure of the discharged air is lower than the pressure of the indoor air so that the indoor air flows toward the discharge flow path of the discharged air. As a result, the indoor air flows between the inclined portion 23 and the discharge air moving through the discharge passage, and enters the second guide portion 22.

As a result, the air that is coldly air-conditioned has a very small amount of air per unit time in contact with the inclined portion 23, and a large amount of air does not flow to the discharge boundary surface 30 so that the air that is air-conditioned at the discharge boundary surface 30 Since mixing of indoor air does not occur, dew condensation may be prevented on the discharge boundary surface 30.

However, due to the vortex of air-conditioned air generated by forming the first guide part 21 and the second guide part 22 stepwise and the indoor air entering the second guide part 22, Dew condensation occurs due to mixed air and indoor air, but there is no very small amount, so there is no scattering phenomenon due to air falling or being discharged to the floor.

Through the configuration as described above, the present invention is to prevent the dew condensation phenomenon occurs in the discharge port has an effect that can increase the satisfaction with the product because the user does not need to remove the dew separately.

In addition, there is an effect that can be prevented in advance, such as contamination by various dust generated by the dew generated in the discharge port.

Claims (9)

In the air conditioner comprising a discharge port for discharging air and a guide portion for forming a discharge flow path for guiding air to the discharge port side, And the guide part is formed stepped so as to widen the discharge flow path. The method of claim 1, And the guide part includes a first guide part forming a discharge flow path, and a second guide part connected to the first guide part and having a stepped portion formed to be widened to widen the discharge flow path. The method of claim 2, And the step portion is formed between the first guide portion and the second guide portion. The method of claim 2, And the second guide portion is inclined at a predetermined angle (θ1) from the central axis of the discharge passage. The method of claim 2, The guide unit is connected to the second guide portion air conditioner, characterized in that it comprises an inclined portion inclined at a predetermined angle (θ2) from the central axis of the discharge passage. In the air conditioner including a guide portion for forming the discharge flow path to guide the air, a discharge port for discharging the air passing through the guide portion, and a discharge boundary surface adjacent to the discharge port and in contact with the indoor air, And the guide part is formed stepped so as to widen the discharge path in order to prevent dew from forming on the discharge boundary surface. The method of claim 6, And the guide part includes a first guide part forming a discharge flow path, and a second guide part connected to the first guide part and having a stepped portion formed to be widened to widen the discharge flow path. The method of claim 7, wherein The guide portion includes an inclined portion inclined at a predetermined angle θ2 from the central axis of the discharge passage, And the second guide portion is inclined at a predetermined angle (θ1) from the central axis of the discharge passage. The method of claim 8, And an inclination angle θ1 of the second guide portion is smaller than the inclination angle θ2.

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