KR100784840B1 - Air conditioner with louver - Google Patents

Abstract

The present invention relates to an air conditioner having a louver, comprising: a blowing fan; An indoor unit main body including an intake unit through which indoor air is introduced by operation of the blower fan and a discharge unit configured to discharge cold air to the outside by operation of the blower fan; And an indoor side heat exchanger provided inside the indoor unit main body and heat-exchanging the indoor air introduced into the indoor unit main body by the blower fan with a plurality of coil parts inherent therein. The plurality of coils may further include adjusting means for adjusting the air direction and the air volume of the air provided to the indoor heat exchanger so that the heat exchange rate is in balance with each other. According to the present invention, by providing a louver in the air inlet, the heat exchange efficiency of each coil unit is adjusted according to the condensation pressure and the condition according to the change of the indoor air volume, so that the heat exchange rate of the entire indoor heat exchanger is in an equilibrium state. This is increased, and thus, the time for the air conditioner to be in an optimal operating state is shortened.

Air conditioner, louver, indoor unit

Description

Air conditioner with louver

1 is a cross-sectional view schematically showing the indoor unit main body of an air conditioner according to the prior art,

2 is a cross-sectional view schematically showing an indoor unit main body of an air conditioner having a louver according to the present invention;

 Figure 3 is a schematic diagram showing the electrical connection between the control unit and other elements of the air conditioner having a louver according to the present invention.

(Explanation of symbols for the main parts of the drawing)

31; Indoor unit main body 32; Suction

33; Discharge part 34; Blower fan

35; Indoor heat exchanger 36; First coil part

37; Second coil portion 38; First louver part

39; Second louver portion 40; Air inlet

41; A first motor part 42; 2nd motor part

45; A first sensor unit 46; Second sensor

47; Control unit 48: control means

The present invention relates to an air conditioner, and more particularly, to an air conditioner having a louver portion in an air inflow path of an indoor heat exchanger to maintain temperature equilibrium in a plurality of coil parts provided in an indoor heat exchanger. .

In general, an air conditioner includes a compressor for converting a refrigerant into a gas of high temperature and high pressure, an outdoor heat exchanger for liquefying a gas of high temperature and high pressure, an expansion valve for throttling and expanding the refrigerant at low temperature and low pressure to facilitate heat exchange, and a blower fan. It consists of an indoor heat exchanger and the like that exchanges heat with the indoor air introduced by the refrigerant on the pipe inherent in itself.

1 is a cross-sectional view showing the indoor unit main body of an air conditioner according to the prior art.

As shown in FIG. 1, the air conditioner according to the prior art is composed of an indoor unit body 1, a blowing fan 5, an indoor side heat exchanger 3, and the like.

First, the indoor unit main body 1 has a rectangular parallelepiped shape, and an inlet part 2 through which indoor air flows is formed at the front lower end of the indoor unit main body 1, and the indoor side heat exchanger 3 described below at the front upper end. The discharge part 4 which discharges the indoor air heat-exchanged by this is formed.

In addition, a button unit (not shown) is provided on the outer surface of the indoor unit main body 1 so that the user can control the air conditioner.

On the other hand, the blowing fan 5 is provided adjacent to the suction unit 2 at the lower end of the indoor unit main body 1, and sucks the indoor air from the suction unit 2 to discharge to the discharge unit (4).

On the other hand, the indoor heat exchanger (3) is located above the blowing fan (5) provided inside the indoor unit main body (1), and the indoor air sucked by the operation of the blowing fan (5) flows.

Specifically, the indoor side heat exchanger (3) heats the indoor air flowd by the blower fan (5) by heat exchange with the first and second coil parts (6, 7) in which the cool refrigerant flows. Create

On the other hand, the operation of the air conditioner according to the prior art is as shown in FIG.

First, when a user operates a button unit (not shown) or a remote control unit (not shown) provided on the outer surface of the indoor unit main body 1 to operate the air conditioner, the indoor air is provided through the suction unit 2. ) Is sucked into the interior.

The indoor air introduced into the indoor unit main body 1 is converted into cold air by heat exchange with the first and second coil parts 6 and 7, which are internal to the indoor side heat exchanger 3 and generate cold cold air. .

At the same time, the cool air generated by the indoor heat exchanger 3 is discharged to the discharge part 4 due to the continuous operation of the blowing fan 5.

However, in the conventional air conditioner, the first and second coil parts 6 and 7 inherent in the indoor heat exchanger 3 whose heat exchange action is promoted by the blower fan 5 are changed in condensing pressure and indoor air volume. As the heat exchange rates of the first and second coil parts 6 and 7 do not coincide with each other, heat exchange is concentrated only on one of the first and second coil parts 6 and 7, and thus the heat exchange efficiency does not increase. In this case, there is a problem that the heat exchange efficiency of the indoor heat exchanger (3) is reduced by about 10%.

The present invention has been made in order to solve the above problems, the plurality of coil portion heat exchange rate provided in the indoor heat exchanger is in equilibrium, respectively, and has a function of adjusting the air direction and air volume of the air provided to the indoor heat exchanger It is an object to provide an air conditioner having a louver.

According to an aspect of the present invention for achieving the above object, a blower fan; An indoor unit main body including an intake unit through which indoor air is introduced by operation of the blower fan and a discharge unit configured to discharge cold air to the outside by operation of the blower fan; And an indoor side heat exchanger provided inside the indoor unit main body and heat-exchanging the indoor air introduced into the indoor unit main body by the blower fan with a plurality of coil parts inherent therein. It provides a air conditioner having a louver portion, characterized in that the plurality of coil portion further comprises a control means for adjusting the wind direction and the amount of air provided to the indoor heat exchanger so that the heat exchange rate is balanced with each other.

The control unit may include a plurality of louver parts rotatably provided between the indoor side heat exchanger and the blower fan and provided to correspond to the plurality of coil parts; A plurality of motor units which are respectively provided in the plurality of louver portions to rotate the plurality of louver portions so as to adjust the wind direction and the amount of air supplied to the plurality of coil units; A plurality of sensor units each provided at an outlet side of the plurality of coil units to detect a temperature of a coolant from the plurality of coil units; And a controller electrically connected to the plurality of sensor units and receiving temperature information detected from the plurality of sensor units to compare temperature values, and controlling a rotation direction of each motor unit according to the comparison result. It features.

Hereinafter, with reference to the accompanying drawings illustrating a preferred embodiment of an air conditioner having a louver according to the present invention.

Figure 2 is a cross-sectional view schematically showing the indoor unit body of the air conditioner with a louver according to the present invention, Figure 3 is an electrical connection between the control unit and other elements of the air conditioner with a louver according to the present invention. It is a schematic block diagram.

2 to 3, the air conditioner having a louver according to the present invention includes an indoor unit body 31, a blowing fan 34, an indoor side heat exchanger 35 and an adjusting means 48. .

First, the indoor unit main body 31 has a rectangular parallelepiped shape, and an intake unit 32 through which air from the inside of the indoor unit main body 31 is introduced is formed at the bottom of one side of the indoor unit main body 31, and the indoor side heat exchanger described below is formed at the upper end of the other side. The discharge part 33 which discharges the indoor air heat-exchanged by 35 is formed.

In addition, the outer surface of the indoor unit main body 31 is provided with a button unit (not shown) so that the user can control the air conditioner.

On the other hand, the blower fan 34 is provided adjacent to the suction unit 32 at the lower end of the indoor unit main body 31, and sucks the indoor air from the suction unit 32 and discharges it to the discharge unit 33.

On the other hand, the indoor heat exchanger 35 is located above the blowing fan 34 provided in the indoor unit main body 31, and the indoor air sucked by the operation of the blowing fan 34 flows.

Specifically, the indoor heat exchanger 35 heats the indoor air flowd by the blowing fan 34 to the first and second coil parts 36 and 37 in which the cool refrigerant is circulated, thereby cooling the cold air. Create

On the other hand, the adjusting means 48 is the wind direction of the air provided to the indoor heat exchanger 35 so that the heat exchange rates of the first and second coil parts 36 and 37 of the indoor heat exchanger 35 are balanced with each other. And air volume.

In addition, the adjusting means 48 is again connected to the first and second louver parts 38 and 39, the first and second motor parts 41 and 42, the first and second sensor parts 45 and 46, and It consists of a control unit 47.

The first and second louver parts 38 and 39 are rotatably provided between the indoor side heat exchanger 35 and the blower fan 34 and correspond to the first and second coil parts 36 and 37. do.

Specifically, the first and second louver parts 38 and 39 are provided in the air inflow path 40 provided between the indoor heat exchanger 35 and the blower fan so as to be opened in such a manner that the indoor air flows. .

The first and second motor parts 41 and 42 are provided in the first and second louver parts 38 and 39 so as to adjust the wind direction and the air volume supplied to the first and second coil parts 36 and 37, respectively. The first and second louver portions 38 and 39 are rotated.

Specifically, one side of the first and second louver parts 38 and 39 is connected to one side of the first and second motor parts 41 and 42 at the lower part of the indoor unit main body 31. 2 The other side of the motor parts 41 and 42 is fixed to the lower side of the indoor unit main body 31 again, and the other side of the first and second louver units 38 and 39 are connected to the other side of the lower side of the indoor unit main body 31. .

The first and second sensor parts 45 and 46 are provided on the outlet side of the first and second coil parts 36 and 37 so as to detect the temperature of the refrigerant from the first and second coil parts 36 and 37, respectively. do.

In addition, the first and second sensor units 45 and 46 are electrically connected to the controller 47 described below.

The controller 47 receives signals from the first and second sensor units 45 and 46 provided at the outlet sides of the first and second coil units 36 and 37, respectively. 45 and 46) are compared respectively.

In addition, the controller 47 may allow the indoor air to flow to the second coil unit 37 when the temperature of the first sensor unit 45 exceeds the temperature of the second sensor unit 46. To rotate the first louver portion 38 toward the second coil portion 37 to tilt, and operate the second motor portion 42 to operate the second louver portion 39 to the second coil portion 37. To be fully open to the side.

On the contrary, the controller 47 controls the second motor unit 42 so that indoor air is guided to the first coil unit 36 when the temperature of the second sensor unit 46 exceeds the temperature of the first sensor unit 45. ) Is rotated to tilt the second louver portion 39 toward the first coil portion 36 side, and the first motor portion 41 is operated to operate the first louver portion 38 to the first coil portion 36. ) To be fully open.

In addition, the controller 47 maintains the opening degree of the first and second louver portions 39 when the temperatures of the first sensor portion 45 and the second sensor portion 46 are the same.

On the other hand, the operation of the air conditioner with a louver according to the present invention is as shown in Figs.

First, when a user operates a remote controller (not shown) or a button unit (not shown) provided on the outer surface of the indoor unit main body 31, the controller 47 rotates the first and second motor parts 41 and 42. .

Specifically, the controller 47 receives the temperature information detected by the first and second sensor units 46 and compares the temperature values of the first and second sensor units 45 and 46.

In addition, the controller 47 rotates the first and second motor parts 41 and 42 or maintains the rotation of the first and second motor parts 41 and 42 according to the comparison result.

In addition, the controller 47 may include the second sensor unit 46 having the temperature value of the first sensor unit 45 provided at the outlet side of the first coil unit 36 at the outlet side of the second coil unit 37. When the temperature value is exceeded, the first motor part 41 is operated so that the first louver part 38 is inclined toward the second coil part 37 so that the suction part 32 of the indoor unit main body 31 is moved. The indoor air introduced through the control is controlled to be guided to the second coil unit 37 and the second motor unit 42 is operated to guide the second air louver 39 to the second coil unit ( 37) to be fully open.

On the contrary, the controller 47 is configured such that the temperature value of the second sensor unit 46 provided at the outlet side of the second coil unit 37 is provided at the outlet side of the first coil unit 36. When the temperature value of 45 is exceeded, the second motor part 42 is operated to incline the second louver part 39 toward the first coil part 36 so that the suction part 32 of the indoor unit main body 31 is turned on. Control the indoor air introduced through the first coil unit 36, and operates the first motor unit 41 to guide the first louver portion 38 to guide the indoor air to the first coil unit (36). To be fully open.

In addition, the controller 47 stops the operation of the first and second motor parts 41 and 42 when the temperature values of the first and second sensor parts 45 and 46 are the same. Maintains the state of development of the parts 38 and 39.

Accordingly, the air conditioner having the louver portion according to the present invention may rotate the first and second louver portions 38 and 39 to maintain the temperature equilibrium of the entire indoor side heat exchanger 35.

The present invention relates to an air conditioner having a louver, and by providing a louver in the air inlet path, the heat exchange efficiency of each coil part is adjusted according to the condensation pressure and the condition according to the change in the indoor air volume. There is an advantage in that the heat exchange rate is in equilibrium to increase the heat exchange efficiency.

In addition, the present invention has the advantage that it is possible to adjust the air volume and the air direction of the air provided to the indoor side heat exchanger through the louver, the time for the air conditioner to be in an optimal operating state is shortened.

Claims (4)

Blower fan; An indoor unit main body including an intake unit through which indoor air is introduced by operation of the blower fan and a discharge unit configured to discharge cold air to the outside by operation of the blower fan; An indoor side heat exchanger provided inside the indoor unit main body and heat-exchanging the indoor air introduced into the indoor unit main body by the blower fan with refrigerants of a plurality of coils embedded therein; And At least two louver parts rotatably provided corresponding to the plurality of coil parts so that the plurality of coil parts may be in equilibrium with each other in the indoor heat exchanger, and at least two motor parts for rotating the louver parts; And at least two sensor units respectively provided at an outlet side of the plurality of coil units to detect a temperature of the refrigerant, and a control unit controlling a rotation direction of the motor unit according to temperature values detected from the sensor units. Air conditioner having a louver portion comprising an adjusting means for adjusting the wind direction and the amount of air provided to the side heat exchanger. delete In the control method of the air conditioner of Claim 1, a) comparing, by the controller, temperature values of the sensor unit; And b) when the temperature values are different, as a result of the comparison of the temperature values, the air conditioner having a louver unit including the step of controlling the motor unit to allow the indoor air to flow to the coil unit with the low temperature value; Control method. The method of claim 3, wherein And comparing the temperature values with each other so that the temperature values are not different from each other. The control unit may further include maintaining an open state of the louver portion.

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