KR0182566B1 - Control method for outdoor wind volume of airconditioner - Google Patents

Abstract

According to the present invention, a method for selecting an optimal outdoor air volume of an outdoor unit for an air conditioner includes bending a discharge port having a constant bell mouse height A to the rear of the front cover, and installing a fan at a predetermined distance C from the bell mouse end. In an indoor unit for an air conditioner, the bell mouse height B is set to A- (A / 2-5) to increase the outdoor wind direction and reduce the outdoor noise while maintaining the same distance C between the bell mouth end of the discharge port and the fan. Since the outdoor air volume is increased, the outdoor noise generated when the suction air hits the edge of the bell mouse and vortex can be reduced, and the bell mouse shape is molded at a low height to prevent bursting. Not only that, but also mass production and quality improvement.

Description

How to select the optimal location for the outdoor air volume of the outdoor unit for the air conditioner

1 is a perspective view showing the appearance of a conventional outdoor unit.

2 is a cross-sectional view showing a plane of a conventional outdoor unit.

3 is a longitudinal sectional view showing a lateral outside of a conventional outdoor unit.

4 is a longitudinal sectional view showing the outer side of the outdoor unit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: Fan 20: Moto

30: front cover 31: discharge port

B: Bell Mouse Height C: Distance

The present invention relates to a method for selecting an optimal outdoor air volume position of an outdoor unit for an air conditioner, and more particularly, an optimum outdoor air volume position of an outdoor unit for an air conditioner, in which an outdoor unit structure is changed to improve the air volume and to significantly reduce noise. It is about selection method.

The outdoor unit of the conventional air conditioner includes a front cover 30 which forms a front appearance of the product such that the fan 10 and the motor 20 are installed as shown in FIGS. Upper and lower portions of the front cover 30, the rear cover 40 and both side cover 50 to form the top and bottom of the back cover 40 and both side cover 50, and to form the top and bottom appearance of the product A top plate 60 and a bottom plate 70 attached to the top plate, a condenser 80 installed inside thereof along the rear cover 40 and one side cover 50, and an upper portion of the bottom plate 70. Compressor 90 is provided on the surface, and the compressor 90 and the condenser 80 is composed of a partition member 100 for partitioning the space so as to be located in different spaces.

That is, the front cover 30 is formed with a bell mouth (Bell Mouth) discharge port 31 is bent at right angles inward on the one side, the safety net 32 in the discharge port 31 with respect to one side front Is attached.

At this time, when the bell mouth height of the discharge port 31 has the A dimension from the front cover 30 as shown in FIG. 3, the fan 10 and the front cover inserted from the rear side of the discharge port 31 are inserted. The separation distance from (30) is located at the A / 2 position.

A plurality of suction ports 41 and 51 are formed at the rear cover 40 and one side cover 50 to allow convective air to be sucked.

The condenser 80 has an area covering the left and right and rear sides of the fan 10 and an area having a length from the position of the upper plate 60 to the position placed on the upper surface of the dividing member 100. It is installed.

The partition member 100 is fixed to the front and rear ends in contact with the inner wall of the front cover 30 and the rear cover 40, respectively, and serves as a barrier for dividing the space between the compressor 90 and the condenser 80. And a low pressure refrigerant pipe 110 protruding from one end of the condenser 80 at the rear side thereof passes through the compressor 90 and at the same time protrudes to the outside through one side of the side cover 50. Through-holes (not shown) are formed by the grains, and one side of the through-holes has a portion such that the high-pressure refrigerant pipe 120 protruding from the other side of the condenser 80 protrudes through one side of the side cover 50. Through holes (not shown) are formed by notching.

In the drawing, reference numeral 130 denotes a refrigerant pipe connection port, 140 denotes an electric component box having a handle function, and 150 denotes a fan motor support.

However, the outdoor unit for a conventional air conditioner configured as described above has a large cooling angle θ ₁ of the outdoor air, as shown in FIG. As outdoor air sucked into the product is not naturally discharged through the discharge port 31 of the front cover 30, the outdoor air volume decreases, and some outdoor air is shown in FIG. 1 and FIG. The problem arises in the part D, which causes the vortex phenomenon and causes the outdoor noise severely.

In addition, when the bell mouth height (A) of the discharge port 31 is increased by mold processing, the problem of not only mass production is difficult but also the quality cannot be improved due to the bursting of the drawing part.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to increase the outdoor air volume by reducing the bell mouth height of the discharge port to increase the outdoor air volume and at the same time reduce the outdoor noise To provide an optimal location selection method for outdoor airflow.

In addition, another object of the present invention is to provide a method for optimally selecting an outdoor air volume of an outdoor unit for an air conditioner to prevent the occurrence of bursting of the bell mouse drawing during mold processing, thereby improving mass production and improving quality. .

In order to achieve the above object, the method for advancing the outdoor position optimum position of the outdoor unit according to the present invention is formed by bending a discharge port having a constant bell mouse height A to the rear of the front cover, and having a constant distance from the bell mouse end. In the indoor unit for an air conditioner in which a fan is installed with a C, the bell mouse height B is set to A- (to increase outdoor wind direction and reduce outdoor noise while maintaining the same distance C between the bell mouth of the discharge port and the fan. A / 2-5) characterized in that.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings, the same components as those in the related art are denoted by the same name and the same reference numerals, and detailed description thereof will be omitted.

According to the method of selecting the optimum outdoor air volume of the outdoor unit of the present invention, the bell mouth height B of the discharge port 31 is reduced to a height smaller than the conventional bell mouse height A, as shown in FIG. Moves the coupling of the fan 10 and the motor 20 to the bell mouse side as the bell mouse height B is reduced so that the separation distance C between the fan and the fan 10 can be maintained the same as before. .

At this time, the bell mouse height (B) can be expressed as follows.

B = A- (A / 2-5)

In the present invention configured as described above, when the fan 10 is rotated, the outside air is sucked into the product and the rear cover at the same time through the plurality of suction ports 41 and 51 formed on the rear cover 40 and one side cover 50. By passing through the condenser 80 bent along the inner surface of the 40 and one side cover 50, the outside air is exchanged with hot air by condensation by the temperature difference between the surface temperature of the condenser 80 and the outside temperature. The hot air is repeated in the cooling cycle discharged to the outside through the discharge port 31 bent in a bell mouse shape on the front cover 30 by the blowing pressure.

At this time, the air suctioned by the operation of the fan 10 is discharged in which the air suction angle θ ₂ is increased as the bell mouth height B of the discharge port 31 is reduced as shown in FIG. By 31, the outdoor wind direction is increased, and the outdoor noise can be significantly reduced by minimizing the vortex caused by the intake air colliding around the bell mouse.

In addition, since the bell mouth height A is mold-formed, it is possible to prevent the occurrence of bursting of the drawing part, to facilitate mass production, and to further improve the quality.

On the other hand, the wind tunnel test results for the outdoor unit and the conventional outdoor unit of the present invention is shown in Table 1.

As shown in Table 1, the outdoor wind tunnel of the present invention is 25.1㎥ / min at 220V 745rpm, compared to the conventional outdoor wind tunnel shown at 22.1m3 / min at 210V 754rpm. It can be seen that this is improved.

The noise test results for the outdoor unit and the conventional outdoor unit of the present invention are shown in Table 2.

As shown in Table 2, the outdoor noise of the present invention is 47.7dB even when operating at 220V at 744rpm, compared to the conventional outdoor noise of 50.5dB at 220V 711rpm. It can be seen that the noise is generated, it can be seen that the 4dB is reduced when converting the present invention by operating at the same rpm as in the prior art.

As described above, the method for selecting the optimum position of the outdoor weight of the outdoor unit for an air conditioner according to the present invention has a structure in which the air mouth angle is increased by reducing the height of the bell mouth of the discharge port, thereby increasing the outdoor air volume and reducing the suction air. It can reduce the outdoor noise generated by vortex hitting the edge of the mouse and reduce the bursting effect by mold processing the bilmouth shape at low height, and also can increase the mass production and quality improvement. .

Claims (1)

In the indoor unit for an air conditioner in which a discharge port having a constant bell mouse height A is bent to the rear of the front cover and a fan is installed at a predetermined distance C from the bell mouse end, the bell mouth end of the discharge port and the fan A method for selecting an optimal outdoor air volume position of an outdoor unit for an air conditioner, wherein the bell mouse height B is given as A- (A / 2-5) to increase the outdoor wind direction and reduce outdoor noise while maintaining the same separation distance C.