KR100277954B1 - Discharge port opening and closing device of air conditioner - Google Patents

Abstract

The present invention relates to a switch opening and closing device of the air conditioner to smoothly open and close the cold air discharge port formed in the indoor unit of the air conditioner when the air conditioner is not used to close the cold air discharge port in the indoor unit of the air conditioner, such as dust or foreign matter It is to prevent the inflow and at the same time to smoothly discharge the discharged air discharged to the outside of the indoor unit.

To this end, the present invention is to install a vane for selectively opening and closing the cold air discharge port while the forward / reverse rotation by the drive means on the cold air discharge port, opening the cold air discharge port by the vane during operation, the cold air discharge port by the vane during operation stop Is to be closed.

Description

Discharge port opening and closing device of air conditioner

The present invention relates to an air conditioner, and more particularly, to a discharge opening and closing device of an air conditioner.

In general, an air conditioner inhales hot air in a room, exchanges the sucked hot air to cool air, and then discharges the cold air back into the room to cool the room to an appropriate temperature. An indoor unit 1 installed; An outdoor unit installed outdoors; The indoor unit 1 and an outdoor unit or a connecting pipe connecting the indoor unit 1 and the outdoor unit to allow the refrigerant to flow from the outdoor unit to the indoor unit 1.

Then, the configuration of the indoor unit for reference as follows.

The indoor unit (1) comprises a front panel (2); A rear panel 3 coupled to the rear of the front panel 2; A cross flow fan (4) installed on the rear panel (3) and rotated to suck hot air in the room into the indoor unit (1) and discharge the sucked air into the room; A suction port 5 installed at the front panel 2 to suck in hot air of the room; A heat exchanger (6) installed in the rear panel (3), in which cold refrigerant flows to heat exchange the air sucked through the inlet (5) by the rotation of the cross flow fan (4); A discharge port (7) formed in a grill shape on the front panel (2) so that air flowing by the rotational force of the cross flow fan (4) is discharged into the room; Up and down wind direction louvers 8 for adjusting the discharge direction of the air discharged through the discharge port 7 up and down; The left and right wind direction louvers 9 adjust the discharge direction of the air discharged through the discharge port 7 to the left and right.

In the air conditioner having such a structure, when the user selects the cooling operation mode while power is supplied to the air conditioner, the cross flow fan 4 installed in the rear panel 3 of the indoor unit 1 is rotated by receiving the driving force of the motor. The suction force is generated, and at this time, hot air in the room is sucked into the indoor unit 1 through the suction port 5 installed in the front panel 2 of the indoor unit 1.

The air sucked into the indoor unit (1) passes through the heat exchanger (6) in which cold refrigerant flows in the rear panel (3), resulting in heat exchange and cooling, and the cold air continues the rotation of the cross flow fan (4). The discharge is discharged to the outside of the indoor unit 1 through the discharge port 7 formed in the grill shape on the front panel (2).

The direction of air discharged to the outside of the indoor unit 1 is controlled by the up and down wind direction louver 8 installed in the discharge port 7, the air direction is adjusted up and down, left and right installed on the rear of the up and down wind direction louver 8 The wind direction is controlled by the wind direction louver 9 to the left and right.

At this time, the indoor hot air sucked into the indoor unit 1 is exchanged with cold refrigerant flowing through the heat exchanger 6 while passing through the heat exchanger 6 to generate condensate, and the condensate is installed in the indoor unit 1. It is accumulated on the drain plate and then drained to the outside of the indoor unit 1 through the drain hose coupled to the drain plate.

However, such a conventional air conditioner has a discharge port formed in a grill shape so that air is discharged to the outside of the rear panel and the indoor unit, respectively, it is not only difficult to combine the discharge port on the rear panel, but also a lot of coupling process, the shape of the discharge port There was also a problem that the production of the discharge port is difficult because of complexity.

In addition, when the air conditioner is not used, the air conditioner has to be covered with a cover, so it is inconvenient for storage, and when the cover is not covered, there is a problem in that dust or foreign matter is introduced into the indoor unit through the discharge port.

The present invention has been made in order to solve the above problems, it is to open and close the discharge port formed in the indoor unit smoothly when not using the air conditioner to close the discharge port when the dust or foreign matter and the like introduced into the indoor unit of the air conditioner The purpose is to prevent the discharge of the discharged air to be discharged to the outside of the indoor unit at the same time smoothly.

In order to achieve the above object, the present invention is to provide a vane for selectively opening and closing the cold air outlet while the forward / reverse rotation by the drive means on the cold air outlet, opening the cold air outlet by the vane during operation, during operation stop Provided is a discharge opening and closing device of an air conditioner in which a cold air discharge port is closed by vanes.

1 is a front view showing a general air conditioner,

2 is a cross-sectional view showing the structure of a general air conditioner,

Figure 3a is a state diagram showing a state in which the discharge opening is opened by the discharge opening and closing device of the present invention of the air conditioner,

Figure 3b is a state diagram showing a state in which the discharge port is closed by the discharge opening and closing device of the present invention of the air conditioner,

4 is a front view showing a state in which the step motor of the present invention is coupled to the air conditioner,

5 is a perspective view showing a vane (VANE) of the present invention of an air conditioner.

* Explanation of symbols for main parts of the drawings

101: vane 102: step motor

103: support 104: support shaft

105: protruding surface 106: recessed surface

107: step 108: rear guide

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 3A through 5.

Since the overall structure of the air conditioner has been mentioned in the conventional configuration, overlapping portions are omitted, and only the same structure is given the same reference numeral as in the prior art.

Figure 3a is a state diagram showing a state in which the discharge port is opened by the discharge opening and closing device of the present invention of the air conditioner, Figure 3b is a state diagram showing a state in which the discharge port is closed by the present invention opening and closing device of the air conditioner, Figure 4 Figure 5 is a front view showing a state in which the present invention step motor of the conditioner is coupled, Figure 5 is a perspective view showing the present invention vanes (VANE) of the air conditioner, the present invention is provided with a step motor 102 as a drive means, The vane (VANE) 101 coupled to the step motor 102 is rotated by the forward / reverse driving force of the step motor 102 and opens and closes the cold air discharge port 7 of the indoor unit main body 1.

Support vanes 103 are integrally formed on both side surfaces of the vanes 101, support shafts 104 are formed on the respective support supports 103, and the support blocks 103 formed on one side of the vanes 101. The support shaft 104 is coupled to the motor shaft of the step motor 102, the support shaft 104 of the support 103 formed on the other side of the vane 101 is coupled to the inner surface of the indoor unit (1). .

On the other hand, the inner surface of the vane 101 is formed in a bulging curved shape, so that the smooth air discharge is guided by the curved portion of the inner surface when the vane 101 opens the cold air discharge port (7).

In addition, both sides of the inner surface of the vane 101 have heights, such as the protruding surface 105 and the recessed surface 106, by the step 107, among which the cold air discharge port 7 is opened. When the cold air discharge side end portion of the rear guide 108 is in contact with each other, the height h of the step 107 is formed to be the same as the thickness t of the rear guide 108.

This is to make the shape of the step 107 of the inner surface of the vane flat when the recessed surface 106 of the vane 101 and the end of the rear guide 108 are in contact with each other.

The operation of the present invention configured as described above is as follows.

First, when operating the air conditioner, the cold air discharge port 7 of the indoor unit main body 1 is opened, and the air cooled by heat exchange in the indoor unit main body 10 through the cold air discharge port 7 smoothly to the outside of the indoor unit 1. When the air conditioner is not operated, the cold air outlet 7 is blocked to prevent dust or foreign matter from entering the indoor unit 1 through the cold air outlet 7.

Here, since the step motor 102 is rotated under the control of the controller when the air conditioner is operated, the vane 101 coupled to the step motor 102 is rotated to the right in the drawing as shown in FIG. 3A.

That is, the support shaft 104 formed on the support 103 of one side of the support 103 formed integrally on both sides of the vane 101 is coupled to the motor shaft of the step motor 102, the support shaft 103 to the other side Since the formed support shaft 104 is coupled to the inner surface of the indoor unit main body 1, the vane 101 is smoothly rotated according to the rotational direction of the step motor 102.

When the rotation of the vane 101 is completed, the recessed surface 106 formed on the vane 101 is in contact with one side of the front portion of the rear guide 108, and the recessed surface 106 of the vane 101 is a rear guide ( 108 is in contact with the end surface, wherein the height h of the step 107 and the thickness t of the rear guide 108 are the same so that the surface of the rear guide 108 and the flow path surface of the vane 101 are the same. Since the 105 is coincided, the air flowing under the guidance of the rear guide 108 in the indoor unit 1 flows on the inner surface of the vane 101 to the outside of the indoor main body 1 through the cold air outlet 7. It is discharged and the room is cooled to an appropriate temperature.

When the operation of the air conditioner is stopped, the step motor 102 is rotated under the control of the control unit. Therefore, the vane 101 is rotated to the left in the drawing according to the rotation direction of the step motor 102. As shown in FIG. By blocking the cold air discharge port 7 of (1), not only the air in the indoor unit main body 1 is prevented from being discharged to the outside of the indoor unit main body 1, but also dust or foreign matter is transferred through the cold air discharge port 7. (1) It is prevented from entering inside.

Here, the direction of the air discharged to the outside of the indoor unit main body 1 is controlled by the up and down wind direction louver 8 installed on the cold air discharge port 7 side, the air direction is adjusted up and down, the up and down wind direction louver (8) By the left and right wind direction louvers 9 installed in front of the air direction is adjusted to the left, right.

As described above, according to the present invention, the vane is opened and closed while the vane rotates while the air conditioner is operated. The vane is rotated when the air conditioner is operated to open the cold air discharge port to discharge cold air into the room, and when the air conditioner is not operated. The vane is rotated to block the cold air discharge port, thereby preventing dust or foreign matter from entering the indoor unit.

When the vanes are opened, the end portions of the rear guides come into contact with the recessed surfaces formed on the inner surface of the vanes, so that the stepped shape of the vane inner surfaces is flatly compensated, thereby smoothly guiding air.

In addition, since the vane is rotated to open and close the cold air discharge port, not only the shape of the cold air discharge port is simplified, but also the processing of the cold air discharge port is easy, and the configuration of the product is simplified, thereby improving reliability of the product.

Claims (4)

An air inlet and a cold air outlet formed in each of the indoor unit, guides the cold air heat exchanged inside the indoor unit to the cold air outlet, and an end portion of which is spaced apart from the inner surface of the indoor unit by a predetermined distance, and installed in the cold air discharge port; In the air conditioner including a vertical wind direction louver and the left and right wind direction louvers for adjusting the wind direction of the cold air is discharged, A vane disposed on the cold air discharge port side to selectively open and close the cold air discharge port; It comprises a drive means for forward and reverse rotation of the vane, During operation of the air conditioner, the vane moves into the cold air discharge port to open the cold air discharge port, and simultaneously forms a flow path of cold air discharged as part of the rear guide, and when the air conditioner stops operating. Discharge opening and closing device of the air conditioner, the vane closes the cold air discharge port. The method of claim 1, The inner surface of the vane is located in the space between the rear guide and the indoor unit main body when the cold air discharge port is opened, and a protruding surface that forms a flow path and is formed adjacent to the protruding surface and in close contact with a rear surface of the rear guide. It is configured to include a depression surface, the outlet opening and closing device of the air conditioner, characterized in that the cool air flows smoothly on the protruding surface of the rear guide and the vane. The method of claim 2, Steps are formed at the boundary between the protruding surface and the recessed surface of the vane, the protruding surface and the recessed surface have a predetermined step, and when the cold air discharge port is opened, the step is to be in contact with the end of the rear guide. Discharge port opening and closing device of the air conditioner characterized in that. The method of claim 3, The height (h) of the step of the vane is equal to the thickness (t) of the rear guide, and the step of the vane compensates for the step of the inner surface of the vane when the end of the rear guide is in contact. Discharge port opening and closing device of the conditioner.

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