KR100493296B1 - out door unit of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly, to an outdoor unit of an air conditioner that increases air flow performance and reduces noise.

To this end, the present invention and the outdoor heat exchanger 52 is installed near the air discharge portion (51b) of the case (51); A blowing fan (53) installed at an air intake side of the outdoor heat exchanger (52) for blowing air to the outdoor heat exchanger (52); It is installed in the air intake portion (51a) of the case 51, is installed to surround a predetermined portion of the blowing fan 53, the length (L) of the flow direction of the air is the axial length of the blowing fan 53 An outdoor unit of an air conditioner including: a duct type shroud 54 which is formed to have a relation of 3W / 5 <L <W with respect to the phosphorus fan width W and forms an intake flow path of air.

Description

Outdoor unit of air conditioner

The present invention relates to an air conditioner, and more particularly, to an outdoor unit of an air conditioner.

A general air conditioner is classified into a separate type air conditioner in which the indoor unit and the outdoor unit are separated, and an integrated air conditioner in which the indoor unit and the outdoor unit are integrally formed.

The separate air conditioner is provided with a compressor and an indoor heat exchanger in the outdoor unit, and an expansion device and an indoor heat exchanger are generally installed in the indoor unit.

Hereinafter, the outdoor unit of the conventional split air conditioner will be described with reference to FIG. 1.

1 is a block diagram illustrating an outdoor unit of a general air conditioner, the outdoor unit 10 includes a case 11 forming an exterior, an outdoor heat exchanger 12 installed in the case, and a compressor (not shown). , A motor (not shown), a blowing fan 13, and the like.

In such an outdoor unit, the case 11 is installed in a veranda or wall to discharge the air heat exchanged in the outdoor heat exchanger 12 to the outside.

The case 11 is provided with an air suction part 11a and an air discharge part 11b, and the suction part and the discharge part are generally formed in a grill shape to ensure air flowability.

An outdoor heat exchanger 12 is installed near the air intake part 11a of the case 11 as shown in FIG. 1, and a motor and a blower fan are disposed between the outdoor heat exchanger 12 and the air discharge part 11b. 13) is installed.

In addition, a shroud 14 is installed at the air discharge part 11b formed at the air discharge side of the blower fan 13, and a compressor (not shown) is installed at one side of the blower fan 13. Accordingly, the outdoor air in the outdoor unit sequentially flows the outdoor heat exchanger 12), the blowing fan 13, and the shroud 14.

The outdoor unit is called an intake type outdoor unit because the outdoor heat exchanger is installed at the outside air suction side and the shroud is installed at the outside air discharge side to exchange heat while sucking the outside air.

Referring to the operation of the suction type outdoor unit having the structure as described above is as follows.

When power is supplied to the air conditioner and the user inputs a predetermined option, the refrigerant compressed in the compressor performs a cooling cycle which is introduced into the compressor again through the outdoor heat exchanger 12, the expansion device, and the indoor heat exchanger sequentially. .

At this time, in the outdoor unit 10, the blowing fan 13 is rotated by the driving force of the motor. The outdoor air sucked by the blower fan 13 through the air suction unit 11a by the suction force performs a heat exchange effect with the outdoor heat exchanger 12 installed near the air suction unit 11a.

The heat exchanged air is guided to the shroud 14, which forms a discharge flow path of the air so as to smoothly flow the heat exchanged air in the outdoor heat exchanger 12 to the air discharge part (11b). It performs the function.

However, since the shroud 14 is located at the discharge side of the blower fan 13, when a heat exchanged air is discharged to the outside through the shroud 14, a certain amount of air collides with the side part of the shroud 14. There is a problem that the discharge performance of air is reduced.

Accordingly, the shroud has a problem of inhibiting the fluidity of air, generating noise, and consequently increasing the power consumption of the air conditioner.

In order to solve the above problems, an object of the present invention is to apply a duct-type shroud to the air intake to improve the blowing performance of the air and to reduce the noise.

In order to achieve the above object, the present invention is an outdoor heat exchanger installed near the air discharge portion of the case; A blowing fan installed at an air intake side of the outdoor heat exchanger to blow air to the outdoor heat exchanger; It is installed in the air intake part of the case, is installed to surround a predetermined portion of the blowing fan, the length (L) in the flow direction of the air is 3W / 5 < Provided is an outdoor unit of an air conditioner including: a duct type shroud formed to have a relationship of L &lt; W to form an air inlet flow path.

Hereinafter, the outdoor unit of the air conditioner according to the present invention will be described with reference to FIGS. 2 and 3.

Figure 2 is a block diagram showing the outdoor unit of the air conditioner according to the present invention, Figure 3a is a graph showing the noise reduction of the outdoor unit, Figure 3b is a graph showing the power consumption reduction of the outdoor unit.

Referring to FIG. 2, the outdoor unit 50 includes a case 51 forming an appearance, an outdoor heat exchanger 52 installed in the case 51, a compressor (not shown), a motor (not shown), and a blowing fan. 53 and the like.

The case 51 is installed on a porch or wall to discharge the air heat-exchanged in the outdoor heat exchanger 52 to the outside. In this case, the air intake portion 51a and the air discharge portion 51b are formed.

An outdoor heat exchanger 52 is installed near the air discharge part 51b of the case 51, and a duct type shroud 54 is installed in the air suction part 51a.

The outdoor unit is called a discharge type outdoor unit because the air introduced through the duct-type shroud exchanges heat while passing through the outdoor heat exchanger.

The outdoor heat exchanger 52 is bent to form an approximately "b" shape or approximately "c" shape. As such, the outdoor heat exchanger may be bent to increase the amount of heat exchanged in the same space. Of course, it is also understood that the outdoor heat exchanger 52 can be formed in a flat or other modified shape.

In this discharge type outdoor unit, when the outdoor heat exchanger 52 having a substantially “b” shape is installed in the outdoor unit 50 as shown in FIG. 2, the air discharge unit 51b is formed on the outer surface of the case 51. And is formed on one side. In addition, when the outdoor heat exchanger 52 having a substantially "C" shape is installed in the outdoor unit 50, the air discharge part 51b is formed on the outer side and both sides of the case 51.

The blower fan 53 is installed on the air suction side of the outdoor heat exchanger 52. An axial flow fan for sucking and discharging air in the axial direction is applied to the blowing fan 53. In addition, a compressor is installed at one side of the axial fan.

Next, the air inlet 51a of the case 51 is provided with a duct type shroud 54. The duct shroud 54 is installed to surround a predetermined portion of the blowing fan 53, the length L of the air flow direction of the duct shroud 54 (hereinafter referred to as "shroud width") It is formed to have a relationship of 3W / 5 <L <W with respect to the fan width W which is the axial length of the blowing fan 53, and forms the suction flow path of air.

Thus, the shroud width (L) is formed longer than the conventional length of 60% or more of the fan width (W). Therefore, since the low pressure of a sufficient magnitude is formed in the space surrounded by the duct type shroud 54 when the blowing fan 53 rotates, a sufficient amount of outside air can be sucked.

In addition, since the duct-type shroud is installed to be connected to the air intake, it is not necessary to form a separate curved portion to improve air intake at one end of the air intake side as in the conventional shroud shown in FIG.

And, the shroud width (L) should be determined in consideration of the installation position and size of the outdoor heat exchanger (52). For example, when the outdoor unit 50 is provided with an “b” shaped outdoor heat exchanger 52 as shown in FIG. 2, the shroud width ( W) should not be made larger than the distance between the air intake side end of the outdoor heat exchanger 52 and the air intake portion 51a of the case.

The function of the outdoor unit which comprises the air conditioner comprised in this way is demonstrated.

When power is supplied to the air conditioner and the user inputs a predetermined option, the refrigerant compressed in the compressor performs a cooling cycle which is introduced into the compressor again through the outdoor heat exchanger 52, the expansion device, and the indoor heat exchanger in sequence. .

At this time, in the discharge type outdoor unit 50, as the blowing fan 53 is rotated by the driving force of the motor, a low pressure is formed in the air suction unit 51a, and between the blowing fan 53 and the outdoor heat exchanger 52. There is a high pressure.

In addition, since the duct-type shroud 54 is formed longer than the conventional one to form a wider suction space, the duct-type shroud 54 is surrounded by the duct-type shroud 54 even when the blower fan 53 is rotated at the same rotational speed as the prior art. A lower pressure is formed in the suction space than in the prior art. Therefore, when the duct-type shroud 54 is applied to the outdoor unit 50, the suction performance of the air is significantly improved.

In the discharge type outdoor unit 50, the experimental results for the noise reduction amount and the power consumption reduction amount for the shroud width will be described.

Referring to FIG. 3A, when the shroud width L corresponds to 31% of the fan width W, the noise reduction amount is -1.0 dB. The shroud width L is 63 times the fan width W. Referring to FIG. In the case of%, the noise reduction is -7.0dB.

Therefore, it can be seen that the induction performance of the air is improved and the noise is reduced by increasing the shroud width (L).

Referring to FIG. 3B, when the shroud width L corresponds to 31% of the fan width W, the power consumption reduction is about -40.0 watts. The shroud width L is the fan width W. Referring to FIG. In case of 63% of power consumption, it can be seen that the reduction of power is approximately -80watt.

Therefore, by increasing the shroud width (L) it is possible to improve the flow performance of air to reduce the power consumption used to obtain the same blowing performance.

As described above, the present invention has the following effects.

First, even if a blowing fan having the same rotation speed and power consumption is applied by increasing the blowing amount of the blowing fan, there is an effect that can improve the cooling performance of the outdoor heat exchanger than conventional.

Second, by smoothing the air flow there is an effect that can reduce the noise generated by the air flow and the noise generated by the fan.

Third, the blowing power consumption is reduced by improving the blowing performance and ensuring the air flow.

1 is a configuration diagram showing an outdoor unit of a general air conditioner.

2 is a block diagram showing an outdoor unit of the air conditioner according to the present invention.

Figure 3a is a graph showing the noise reduction of the outdoor unit.

Figure 3b is a graph showing the power consumption reduction of the outdoor unit.

Explanation of symbols on main parts of the drawing

50: outdoor unit 51: case

51a: air intake part 51b: air discharge part

52: outdoor heat exchanger 53: blowing fan

54: duct shroud W: fan width

L: Shroud Width

Claims (1)

An outdoor heat exchanger installed near the air discharge part of the case; A blowing fan installed at an air intake side of the outdoor heat exchanger to blow air to the outdoor heat exchanger; It is installed in the air intake part of the case, is installed to surround a predetermined portion of the blowing fan, the length (L) in the flow direction of the air is 3W / 5 < An outdoor unit of an air conditioner, comprising: a duct type shroud formed to have a relationship of L &lt; W to form an air inlet flow path.