KR100564464B1 - Indoor unit of air-conditioner - Google Patents

Abstract

The present invention relates to an air conditioner indoor unit, and more particularly, to a structure of the air outlet indoor unit for maintaining the performance of the indoor unit in the best state by optimizing the discharge port of the air conditioner indoor unit, the indoor unit according to the present invention, the front of the case Intake of the indoor air through the inlet formed in the center, and the discharge port is formed in the upper / lower side and the left / right side to discharge the cold air formed through heat exchange between the refrigerant of the indoor air and the evaporator sucked into the case back to the interior In the air conditioner indoor unit, the ratio of the width of the discharge port on the wider side to the discharge port on the narrower side among the discharge ports formed in the case is in the range of 2.1 ± 0.3.

In addition, the indoor unit according to the present invention, the angle formed by the shortest distance between the wide discharge port and the fan of the discharge port formed in the case falls within the range of 125 ± 10 degrees, the narrow width of the discharge port and the fan Another feature is that the angle formed by the shortest distance is in the range of 55 ± 10 degrees.

The indoor unit according to the present invention has the effect of maintaining the performance of the indoor unit in the best state by optimizing the discharge port of the air conditioner indoor unit.

Another effect according to the present invention, by optimizing the discharge port of the air conditioner indoor unit, not only can reduce the power consumption according to the operation of the air conditioner, there is an effect that can keep the indoor noise to a minimum.

Air conditioner, indoor unit, discharge port, width ratio

Description

Indoor unit of air-conditioner

1 is a front sectional view showing a general air conditioner indoor unit.

Figure 2 is a state diagram showing the operation of the conventional indoor air conditioner indoor unit.

Figure 3 is a front sectional view showing an indoor unit of the air conditioner according to the present invention.

Figure 4a is a graph showing the relationship between the noise according to the discharge port width ratio of the indoor unit of the air conditioner according to the present invention.

Figure 4b is a graph showing the relationship between the power consumption according to the discharge port width ratio of the air conditioner indoor unit according to the present invention.

<Description of Symbols for Major Parts of Drawings>

W1: Distance between both outlets on the narrow side.
W2: Distance between both outlets of the wide side.

θ1: The angle formed between the center of the discharge port at both ends of W1 and the center of the fan.

θ2: The angle formed by the center of the discharge port at both ends of W2 and the center of the fan.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor unit of an air conditioner, and more particularly, to a structure of an outlet of an air conditioner indoor unit for maintaining the best performance of an indoor unit by optimizing an outlet of an air conditioner indoor unit. The present invention relates to an air conditioner indoor unit capable of maintaining performance at the highest level, reducing power consumption due to the operation of the air conditioner, and keeping the indoor noise at a minimum.

In general, an air-conditioner has a refrigeration cycle device composed of a compressor, a condenser, a capillary tube, and a heat exchanger. It is a device that keeps the atmosphere of the room comfortable.

The air conditioner is classified into a window type air conditioner in which a refrigeration cycle device is mounted in one body and installed in a window, and a separate type air conditioner which separates an indoor unit and an outdoor unit and installs each in the indoor and outdoor areas. Therefore, it is divided into a wall-mounted type, an upper-mounted type (including package air conditioner), a ceiling-mounted type, and a ceiling-mounted type.In particular, an indoor unit having a structure that can be used as a wall-mounted or upper-mounted type and can be utilized as a ceiling-mounted type according to the user's needs. Is called a convertible indoor unit.

Here, the outdoor unit usually includes a compressor, a condenser, a cooling fan, etc., which generate a lot of noise, and the indoor unit includes an evaporator and a blower fan.

1 is a front sectional view showing a general air conditioner indoor unit, Figure 2 is a state diagram showing the operation of the conventional air conditioner indoor unit.

According to these drawings, the air conditioner indoor unit 1 according to the related art includes a case 10 having a rectangular shape, a suction port 12 formed at the center of the front surface of the case 10 so that indoor air can be sucked; And a blowing fan 14 installed in the case 10 to suck the indoor air into the case through rotation, and installed between the indoor air suction port 12 and the blowing fan 14. Evaporator 16 to form the cold air through heat exchange between the refrigerant and the indoor air sucked into the case 10 through the suction action of, and the cold air formed through the evaporation of the evaporator 16 blower fan 14 It is composed of a discharge port 18 formed in the front edge of the case 10, or the upper and lower portions of the case 10 to be discharged back to the room through the blowing action of.

Referring to the operation of the conventional indoor air conditioner configured as described above are as follows.

The refrigerant expanded from the outdoor unit (not shown) to a liquid state of low temperature and low pressure flows into the evaporator 16 inside the indoor unit 1, and as the air blower 14 rotates, the indoor air flows in front of the indoor unit 1. The inside is sucked into the indoor unit 1 through the inlet 12 formed in the center, the indoor air sucked as described above is cooled by heat exchange with the refrigerant passing through the tube of the evaporator 16, and then the blowing air As shown in FIG. 2A by the fan 14, the discharge port 18 formed on the same plane as the suction port 12, that is, the discharge port 18 formed on the front edge of the case 10, or As shown in (b) of FIG. 2, the cooling of the room is achieved while repeating a process such as being discharged into the room through the discharge holes 18 formed in the upper and lower parts of the case 10.

However, the air sucked into the air conditioner indoor unit as described above is discharged back to the room through the flow path formed inside the indoor unit, wherein the size and shape of the discharge port of the indoor unit not only controls the direction of the discharge air flow, but also the noise of the indoor unit This will affect performance.

Therefore, the air flow generated from the blower fan must be discharged while maintaining an appropriate distribution ratio to each discharge port, so that the optimum cooling performance through the indoor unit can be realized.

The present invention has been made in order to solve the above requirements for improving the performance, by optimizing the discharge port of the air conditioner indoor unit to keep the cooling performance of the indoor unit in the best state, the operation of the air conditioner by optimizing the discharge port of the air conditioner indoor unit The purpose of the present invention is not only to reduce power consumption, but also to provide an indoor air conditioner that can keep indoor noise to a minimum.

The indoor unit according to the present invention, the upper and lower case to suck the indoor air through the suction port formed in the center of the front of the case, and discharge the cold air formed through heat exchange between the refrigerant of the evaporator and the indoor air sucked into the case An air conditioner indoor unit in which discharge ports are formed on the side and left / right sides, wherein a ratio of the widths of the discharge ports on the wider side to the discharge ports on the narrow side of the discharge ports formed in the case falls within a range of 2.1 ± 0.3. .

In addition, the indoor unit according to the present invention, the angle formed by the center of the discharge port and the center of the both ends of the wider discharge port formed in the case falls within the range of 125 ± 10 degrees, the width of both ends of the narrow Another feature is that the angle formed by the center of the discharge port and the center of the fan is in the range of 55 ± 10 degrees.

Hereinafter, with reference to the accompanying drawings will be described in detail the indoor unit according to the present invention.

The indoor unit according to the present invention relates to the optimization of the discharge port of the air conditioner indoor unit, which is derived based on the results obtained through many experiments with different conditions. The indoor unit sucks indoor air through an inlet formed in the center of the front surface of the case, and the case An air conditioner indoor unit having a discharge port formed in upper / lower side and left / right side of the case to discharge the cool air formed by heat exchange between the indoor air sucked into the refrigerant of the evaporator and the inside of the case. Angle formed by the ratio of the width of the discharge port on the one side to the discharge port on the narrow side, and the shortest distance between the discharge port on the wider side and the fan among the discharge ports formed on the case, and the shortest distance between the discharge port on the narrow side and the fan Many experiments were performed in which the conditions were different with respect to the angle formed by.

Figure 3 is a front sectional view showing the air conditioner indoor unit according to the present invention, Figure 4a is a graph showing the relationship between the noise according to the discharge port width ratio of the air conditioner indoor unit according to the present invention, Figure 4b is a discharge port of the air conditioner indoor unit according to the present invention This graph shows the relationship between power consumption and width ratio.

Referring to these drawings, W1 is a distance between both discharge ports of the narrower discharge ports formed in the case, and W2 is a distance between both discharge ports of the wider discharge ports formed in the case. Further, θ1 is an angle formed by the center of the discharge port at both ends of the narrower side of the discharge port formed in the case and the center of the fan, and θ2 is formed by the center of the discharge port at both ends of the wider side and the center of the fan. Angle.

Then, the test was performed on the ratios W2 / W1 of the widths of the discharge ports and various angles θ1 and θ2 as described above, but first, many experiments were performed in which the conditions were different for the ratios of the widths of the discharge holes.

First, as shown in FIG. 4A, the ratio of the widths of the discharge ports of the wider side and the discharge ports of the narrower side of the discharge ports formed in the case is variably set from 0.8 to 3.2, and noise tests are performed according to the ratio of the respective widths. The degree of noise generated from the indoor unit at the width ratio W2 / W1 of the discharge port at 1.0 was measured as 90 (this is a percentage value of 100 at the maximum value, not an absolute value), and the width of the discharge port width was measured. When the ratio (W2 / W1) is 1.2, the ratio decreases to 70. When the ratio of the width of the discharge port (W2 / W1) is 2.2, the minimum value is 38. When the ratio of the width of the discharge port (W2 / W1) is 3.0, The noise increased to 60. As a result of numerous experiments on the ratio (W2 / W1) of the width of the discharge port, a convex graph as shown in the drawing was obtained. Therefore, when the degree of noise generated from the indoor unit is to be controlled to 40 or less, it can be seen that the ratio (W2 / W1) of the width of the discharge port is in the range of 1.8 to 2.4.

That is, it can be seen that the optimum ratio (W2 / W1) of the width of the discharge port of the indoor unit of the air conditioner falls within the range of 2.1 ± 0.3.

Then, as shown in FIG. 4B, the ratio of the widths of the wider and the narrower outlets of the outlets formed in the case is variably set from 0.8 to 3.2 to test the power consumption according to the ratio of the respective widths. As a result, the power consumption at the ratio of the width of the discharge port (W2 / W1) to 1.0 was measured as 91 (this is a percentage of the maximum value of 100, not the absolute value), and the ratio of the width of the discharge port (W2 / W1) When W1) was 1.2, it decreased to 83, and when the ratio of the width of the discharge port (W2 / W1) was 2.3, the lowest value was 17. When the ratio of the width of the discharge port (W2 / W1) was 2.5, the value increased to 33. When the width ratio (W2 / W1) of the discharge port was 3.0, the power consumption increased to 58.

As a result of numerous experiments on the ratio (W2 / W1) of the width of the discharge port, a convex graph as shown in the drawing was obtained. Therefore, when the degree of noise generated from the indoor unit is to be controlled to 40 or less, it can be seen that the ratio (W2 / W1) of the width of the discharge port is in the range of 1.8 to 2.4.

That is, it can be seen that the optimum ratio (W2 / W1) of the width of the discharge port falls within the range of 2.1 ± 0.3.

In addition, as shown in FIG. 4B, the angle formed by the shortest distance between the wider discharge port and the fan among the discharge ports formed in the case is variably set to perform noise test and power consumption according to each angle. As a result of testing with different conditions in the same manner as the test according to the result, the angle formed by the center of the discharge port at both ends of the wide side and the center of the fan among the discharge ports formed in the case is in the range of 125 ± 10 degrees, the width When the angle formed by the centers of the discharge ports at both ends of this narrow end and the center of the fan falls within the range of 55 ± 10 degrees, it was found that the air conditioner indoor unit is maintained in the optimum operating state.

The indoor unit according to the present invention has an effect of maintaining the cooling performance of the indoor unit in the best state by optimizing the discharge port of the air conditioner indoor unit.

Another effect according to the present invention, by optimizing the discharge port of the air conditioner indoor unit, not only can reduce the power consumption according to the operation of the air conditioner, there is an effect that can keep the indoor noise to a minimum.

Claims (2)

The upper / lower side and the left / right of the case are sucked into the indoor air through the suction port formed at the center of the front of the case, and the cold air formed by heat exchange between the indoor air sucked into the case by the fan and the refrigerant of the evaporator is discharged back into the room. In the air conditioner indoor unit having the discharge port formed on the right side, The ratio of the width | variety of the width | variety discharge port and the width | variety discharge port among the discharge ports formed in the said case falls in the range of 2.1 +/- 0.3. The upper / lower side and the left / right of the case are sucked into the indoor air through the suction port formed at the center of the front of the case, and the cold air formed by heat exchange between the indoor air sucked into the case by the fan and the refrigerant of the evaporator is discharged back into the room. In the air conditioner indoor unit having the discharge port formed on the right side, The angle formed by the centers of both the discharge ports and the fan of the wider side of the discharge ports formed in the case falls within the range of 125 ± 10 degrees, and the angle formed by the centers of both the discharge ports of the narrow side and the center of the fan. The indoor unit of the air conditioner, characterized in that it falls in the range of 55 ± 10 degrees.

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