KR20090051600A - Fan and air conditioner having the same - Google Patents

Abstract

The present invention relates to a blower and an air conditioner including the same, wherein the blower includes: a casing body having an inlet opening formed in a central region and a discharge opening formed at one side region; A centrifugal fan accommodated in the casing body and rotating; A guide feather disposed at the discharge opening and guiding a flow direction of air discharged to the discharge opening to the discharge unit; At least one of the front region and the rear region of the guide feather along the flow direction of the air discharged to the discharge opening includes an air collision portion provided adjacent to the guide feather and collides with the air discharged to the discharge portion. As a result, a blower capable of reducing noise and an air conditioner including the same are provided.

Blower, air conditioner, noise

Description

Blower and air conditioner including same {Fan and air conditioner having the same}

The present invention relates to a blower and an air conditioner including the same, and more particularly, to a blower and an air conditioner capable of reducing noise.

Generally, a blower is a device that is mounted on a pump, an air conditioner, or the like to generate a flow of air.

1 is a blower 130 disclosed in Korean Utility Model Application No. 1996-066040. The blower 130 has a centrifugal fan 140 and a centrifugal fan casing 150 for receiving the centrifugal fan 140. The centrifugal fan casing 150 has a casing body 151 accommodating the centrifugal fan 140 and a discharge part 153 through which air is discharged from the casing body 151. An inlet opening (not shown) in which air is introduced is formed in the central region of the casing main body 151, and in one side, the outlet opening 151b is configured such that air introduced into the inlet opening is discharged to the outside by the centrifugal fan 140. Is formed. The discharge portion 153 extends from the discharge opening 151b in the shape of opening expansion. On the other hand, the discharge opening 151b is provided with a guide feather 160 for guiding the flow direction of the air blown from the centrifugal fan 140 to the discharge unit 153. The guide vane 160 serves to guide the air having complex flow characteristics blown from the centrifugal fan, and is generally installed in the form of an airfoil, and to create the same flow rate at the end of the discharge part 153. Purpose.

The conventional blower 130, as the centrifugal fan 140 rotates to form an inlet angle in the wings of various directions, thereby causing loss and pressure fluctuations. The air flow in this structure causes an increase in the noise as the pressure rises and the pressure rises after the pressure drop occurs instantaneously. In addition, there is a problem that secondary noise is generated by peeling and vortex after passing through the guide feather 160 due to the inflow angle in various directions in the fluid side.

An object of the present invention is to provide a blower that can reduce the noise caused by the flow of air by breaking the vortex of the air blown from the centrifugal fan.

On the other hand, another object of the present invention is to provide an air conditioner including a blower that can reduce the noise caused by the flow of air by breaking the vortex of the air blown from the centrifugal fan.

The object is, according to the present invention, a casing body having an inlet opening formed in the central region and a discharge opening formed in one side region and a winsim fan casing having an outlet portion extending from the discharge opening, and is accommodated in the casing body to rotate A blower comprising a centrifugal fan, comprising: a guide feather disposed at the discharge opening and guiding a flow direction of air discharged to the discharge opening to the discharge portion; It is achieved by including an air collision portion provided adjacent to the guide feather in at least one of the front region and the rear region of the guide feather along the flow direction of the air discharged to the discharge opening to collide with the air discharged to the discharge portion .

A plurality of guide feathers are disposed along the discharge opening; The air collision unit is preferably provided in a plurality of rows in parallel with the guide feather.

Preferably, the plurality of rows of air collisions are arranged in a zigzag along the flow direction of the air.

The air collision unit is preferably provided with a plurality of rows of pipes having a small cross-sectional area along the flow direction of the air.

The air collision unit is preferably arranged at a narrow interval compared to the plurality of guide feathers.

Meanwhile, another object of the present invention is to provide an air conditioner according to the present invention comprising: a main cabinet having an air inlet and an air outlet; A heat exchanger accommodated in the main cabinet; It is achieved by including a blower for blowing air around the heat exchanger to the air inlet.

According to the present invention, it is possible to provide a blower and an air conditioner including the same that can reduce the noise caused by the flow of air by breaking the vortex of the air blown from the centrifugal fan.

Hereinafter, preferred embodiments of the blower 30 and the air conditioner 1 according to the present invention will be described in detail with reference to FIGS. 2 and 3.

The air conditioner 1 according to the present invention includes a main cabinet 10 in which an air inlet 13 and an air outlet 15 are formed, a heat exchanger 20 accommodated in the main cabinet 10, and a heat exchanger. And a blower 30 for blowing air around the air to the air inlet 13.

An air outlet 15 is formed in the front upper region of the main body cabinet 10, and an air inlet 13 is formed in the lower region. The grille 17 which divides the air outlet 15 in the up-down direction is attached to the air outlet 15 of the main body cabinet 10. The grill 17 is rotatably mounted to the main cabinet 10 so as to adjust the discharge direction of the cold air. On the other hand, the heat exchanger 20 is accommodated in the internal space of the main cabinet 10.

The heat exchanger 20 exchanges heat with air introduced into the main body cabinet 10 through the air inlet 13. The heat exchanger 20 may be arranged to diagonally divide the internal space of the main cabinet 10 in order to enlarge the contact area with the surrounding air. The air heat exchanged with the heat exchanger 20 is discharged to the outside through the air outlet 15 by the blower 30.

The blower 30 is disposed in the lower region of the main cabinet 10 and blows upward toward the heat exchanger 20. Accordingly, the outside air is introduced into the air inlet 13, and after passing through the heat exchanger 20, may be discharged to the air outlet 15.

The blower 30 has a centrifugal fan 40 and a centrifugal fan casing 50 for accommodating the centrifugal fan 40. The centrifugal fan casing 50 has a casing body 51 and a discharge part 53. In this embodiment, the centrifugal fan 40 is provided with a general sirocco fan. Centrifugal fan 40 is a known technique, so detailed description thereof will be omitted.

The casing body 51 may be provided in various shapes known in the art, but in this embodiment, it is provided in a shape as shown in FIG. An inlet opening (not shown) through which air is introduced into the upper plate surface of the casing body 51 is formed. However, the inlet opening may be formed on the lower plate surface of the casing body 51, or may be formed on both the upper and lower plate surfaces. Here, the inlet opening is preferably formed in the central region. The centrifugal fan 40 is accommodated in the casing main body 51. Thus, after the outside air flows into the inlet opening by the rotation of the centrifugal fan 40, it can be discharged to the discharge opening (51b). On the other hand, a discharge opening 51b through which air inside the centrifugal fan casing 50 is discharged to the outside is formed in one side area of the centrifugal fan casing 50. The discharge part 53 is extended in the discharge opening 51b, and the guide feather 60 is provided.

The discharge part 53 extends in the shape of opening expansion from the discharge opening 51b. The discharge part 53 is disposed to discharge air toward the heat exchanger 20. In the present embodiment, as shown in FIG. 3, the discharge part 53 has a cross section whose left side is formed in a straight line, and the right side region extends with a right upward slope to extend the discharge opening 51b. Here, the region where the right upward inclination starts from the discharge opening 51b is referred to as tongue (C) cut-off.

The guide feather 60 is disposed at the discharge opening 51b and guides the flow direction of the air discharged through the discharge opening 51b to the discharge unit 53. The guide feather 60 is provided in plurality along the discharge opening 51b. The plurality of guide feathers 60 are arranged inclined along the discharge opening 51b. The guide feather 60 is provided in a plate shape for connecting the upper and lower plate surfaces of the casing body 51. An air collision part 70 is provided in the front region of the guide feather 60.

The air collision part 70 is provided in the front area of the guide feather 60 along the flow direction of the air discharged to the discharge opening 51b. The air collision part 70 is provided adjacent to the guide feather 60 and collides with the air discharged to the discharge part 53 to crush the flow of air. As in the present embodiment, when the air impact portion 70 is provided in the front region of the guide feather 60, it collides with the air passing through the guide feather 60 serves to break the vortex.

Air impact unit 70 is provided in plurality and arranged in parallel with the guide feather (60). Air impact portion 70 is preferably arranged with a narrow gap compared to the interval between the plurality of guide feathers (60). Here, the air collision unit 70 is preferably provided in a plurality of rows. In addition, the plurality of rows of air colliding parts 70 may be provided as a pipe having a small cross-sectional area along the flow direction of air. That is, the air blown from the centrifugal fan 40 is changed in the flow direction by the guide feather 60, and after passing through the guide feather 60, collides with the first air impact portion 70a having a first large cross-sectional area to be crushed. And then collide with the second air impact portion 70b having a cross-sectional area of medium size to be pulverized into smaller flows, and finally collide with the third air impact portion 70c having the smallest cross-sectional area to be crushed into a uniform flow. It can be discharged through the discharge unit 53 to. Here, the cross section of the air collision unit 70 is preferably provided in a circular shape, may be provided in an elliptical shape, may be a quadrangle. Thus, it is possible to break the vortex of the air flow and discharge the air in a uniform flow, it is possible to reduce the noise.

On the other hand, it is preferable not to install the air collision unit 70 in the area adjacent to the above-described tongue (C). This is because the noise generated by the rotation of the centrifugal fan 40 near the tongue C may be amplified by the air collision unit 70.

Here, as shown in the enlarged portion of FIG. 3, the air collisions 70 in each row are preferably arranged in a zigzag manner so as to deviate from each other along the longitudinal direction of the discharge portion 53, that is, the air flow direction. Thus, the flow of air can be effectively crushed, and the vortex can be broken more effectively.

In the present embodiment, the air collision part 70 is provided in the front region of the guide feather 60 along the flow direction of the air discharged to the discharge opening 51b, but is not limited thereto, as shown in FIG. 4. It may be provided in the rear region of the guide feather (60). In this case, the air blown from the centrifugal fan 40 can be pulverized in advance through the guide feather 60 and then pulverized that the complicated flow occurs in the air impact unit 70 in advance.

In the present exemplary embodiment, the air collision part 70 is described and illustrated as being provided in three rows, but the air collision part 70 may be provided in one or two rows, and may be provided in four or more rows.

In the present description, only the air conditioner 1 is described as a device to which the blower 30 is applied, but may be applied to various devices such as a pump having the blower 30.

As described above, the blower 30 according to the present invention provides an air collision part 70 that collides with the air discharged to the discharge part 53 in a region adjacent to the guide feather 60, thereby reducing noise. It becomes possible.

1 is a schematic view showing a conventional blower,

2 is a schematic view showing an air conditioner having a blower according to the present invention;

3 is a schematic view showing a preferred embodiment of the blower according to the present invention,

4 is a schematic view showing another embodiment of the blower according to the present invention.

Explanation of symbols on the main parts of the drawings

1: air conditioner 10: main cabinet

20: heat exchanger 30: blower

40: centrifugal fan 50: centrifugal fan casing

60: guide feather 70: air collision

Claims (6)

In the blower comprising a casing body having an inlet opening formed in the central region and a discharge opening formed in one side region, a winssim fan casing having an outlet portion extending from the discharge opening, and a centrifugal fan accommodated in the casing body to rotate, A guide feather disposed at the discharge opening and guiding a flow direction of air discharged to the discharge opening to the discharge unit; And at least one of a front region and a rear region of the guide feather along the flow direction of the air discharged through the discharge opening, adjacent to the guide feather and including an air collision portion colliding with the air discharged to the discharge portion. air blower. The method of claim 1, A plurality of guide feathers are disposed along the discharge opening; The blower, characterized in that the air collision is provided in a plurality of rows in parallel with the guide feather. The method of claim 2, The air blower of the plurality of rows is arranged in a zigzag along the flow direction of the air blower. The method of claim 3, The air blower is characterized in that the blower is provided with a plurality of rows of pipes having a small cross-sectional area along the flow direction of the air. The method of claim 2, The blower, characterized in that the air collision portion is arranged at a narrow interval compared to the plurality of guide feathers. In air conditioners, A main cabinet having an air inlet and an air outlet; A heat exchanger accommodated in the main cabinet; An air conditioner according to any one of claims 1 to 5, wherein the air around the heat exchanger is blown to the air inlet.

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