KR100657528B1 - Centrifugal fan for ventilating apparatus - Google Patents

Abstract

The present invention relates to a centrifugal fan for a ventilator, and more particularly, to a centrifugal fan for a ventilator to prevent a sudden pressure change of the air at the time of discharge while the flow velocity of the air discharged through the discharge port is relatively uniform. In the centrifugal fan to be installed in the ventilator; A fan driven by a motor; A scroll housing surrounding the fan and having a suction port formed at a front surface on which the motor is mounted, and a discharge hole formed at one side thereof; A discharge guide installed in the scroll housing at the discharge port to divide the air discharged through the discharge port; It is configured to include.

Ventilation, Fan, Centrifugal Fan, Flow, Noise

Description

Centrifugal fan for ventilating apparatus

1 is a schematic plan view showing a conventional ventilation apparatus,

Figure 2 is a perspective view of a conventional centrifugal fan,

3 is a partially exploded perspective view showing a first embodiment of the present invention;

4 is a perspective view illustrating main parts of a second embodiment of the present invention;

5 is a perspective view illustrating main parts of a third embodiment of the present invention;

6 is a perspective view illustrating main parts of a fourth embodiment of the present invention;

7 is a perspective view illustrating main parts of a fifth embodiment of the present invention;

8 is a perspective view illustrating main parts of a sixth embodiment of the present invention;

9 is a perspective view illustrating main parts of a seventh embodiment of the present invention;

10 is a perspective view illustrating main parts of an eighth embodiment of the present invention;

* Explanation of symbols for the main parts of the drawings

10: fan

   11: motor

20: scroll housing

   21: suction port 22: discharge port

30: discharge guide

   31: horizontal guide vane 32: vertical guide vane

   33: first slope guide vane 34: second slope guide vane

The present invention relates to a centrifugal fan for a ventilator, and more particularly, to a centrifugal fan for a ventilator to prevent a sudden pressure change of the air at the time of discharge while the flow velocity of the air discharged through the discharge port is relatively uniform. will be.

In general, the ventilation device serves to discharge the indoor air to the outside and to supply the outdoor air to the room, as shown in FIG. 1, the configuration of which is provided by the heat exchanger 2 at the center of the main body 1. The indoor air intake port 3 and the outdoor air supply device 4 are formed on one side of the main body 1 based on the heat exchanger 2, and the indoor air exhaust port on the other side of the main body 1. (5) and the outdoor air intake vent (6) are formed, and the centrifugal fan (7) is installed inside the main body (1) corresponding to the outdoor air supply (4) and the indoor air exhaust (5). .

Ventilation device configured as described above is a centrifugal fan (7) through the indoor air exhaust pipe (5) through the heat exchanger (2) after the indoor air is introduced into the main body (1) through the indoor air intake port (3) Is discharged to the outside, and the outdoor air is introduced into the main body 1 through the outdoor air intake 6 by the other centrifugal fan 7, and then heat exchanged through the heat exchanger 2, It is fed into the room through (4).

In addition, the centrifugal fan 7 installed in the ventilation apparatus as shown in FIG. 2 includes a fan 100 driven by the motor 101; The suction port 201 is formed on the front surface surrounding the fan 100, and the motor 101 is mounted, and the scroll housing 200 has a discharge port 202 formed on one side thereof.

The centrifugal fan 7 is sucked by the fan 100 after sucking the air into the scroll housing 200 through the inlet 201 while the fan 100 is rotated by the driving of the motor 101. Air is discharged to the outside through the discharge port 202.

However, the above conventional technologies have the following problems.

The air sucked while the fan is rotated is discharged through the discharge port after being pressurized or concentrated along the inner outer surface of the scroll housing, ie, the inner outer surface of the scroll housing, and is discharged through the discharge port, thereby discharging up and down the inside of the discharge port. As the flow velocity of air becomes relatively uneven, there is a problem that a sudden pressure change occurs.

In addition, the nonuniformity of the flow velocity of the discharged air and the sudden change in pressure have been a major cause of increasing the noise while inhibiting the stable and smooth discharge of the air through the discharge port.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of the present invention is to prevent the sudden pressure change of the air during the discharge while the flow rate of the air discharged through the discharge port becomes relatively uniform It's about doing it.

In addition, another object of the present invention is to simplify the division of the air discharged through the discharge guide of various forms while being a simple structure.

In order to achieve the object of the present invention as described above, in the centrifugal fan installed in the ventilation device; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide is characterized in that the centrifugal fan for the ventilation device is composed of a vertical guide vane vertically installed in the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided left and right.
Also in the centrifugal fan installed in the ventilation device; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include a horizontal guide vane installed inside the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into upper, lower, left and right cross shapes, and a tip of the discharge port intersected with the horizontal guide vane. Characterized in that the centrifugal fan for the ventilation device consisting of a vertical guide vane installed in the scroll housing.
In the centrifugal fan provided in the ventilation device; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include a first inclined guide vane disposed to be inclined inside the scroll housing at a distal end of the discharge port so that air discharged through the discharge port is divided into upper, lower, left, and right X-shaped shapes; Characterized in that the centrifugal fan for the ventilation device is composed of a second inclined guide vane installed in the scroll housing at the tip of the discharge port to cross.
In the centrifugal fan provided in the ventilation device; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide is provided with at least two vertical guide vanes spaced apart from each other while being installed vertically inside the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into the left and right multiple times. A centrifugal fan for the device is featured.
In the centrifugal fan provided in the ventilation device; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include at least two horizontal guide vanes installed in the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into upper, lower, left, and right grids, and intersect with the horizontal guide vane. Characterized in that the centrifugal fan for the ventilation device consisting of at least two vertical guide vanes installed in the scroll housing at the tip of the discharge port.
In the centrifugal fan provided in the ventilation device; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include a horizontal guide vane installed inside the scroll housing at the distal end of the discharge port so that the air discharged through the discharge port is divided into upper, lower, left, and right cross shapes and X-shaped shapes. A vertical guide vane installed in the scroll housing at the tip of the discharge port, a first slope guide vane inclined at the inside of the scroll housing at the tip of the discharge port, and the discharge port intersecting the first slope guide vane; Characterized in that the centrifugal fan for the ventilation device consisting of a second inclined guide vane installed in the scroll housing at the tip of the.

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Hereinafter, a centrifugal fan for a ventilation device according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a partially exploded perspective view showing a first embodiment of the present invention.

As shown in FIG. 3, the centrifugal fan for the ventilation device includes a fan 10 driven by a motor 11, a scroll housing 20 surrounding the fan 10 and having an inlet 21 and an outlet 22. ) And a discharge guide 30 installed in the scroll housing 20 at the discharge port 22.

The discharge guide 30 is a horizontal guide vane 31 installed horizontally inside the scroll housing 20 at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided up and down. It is composed.

The centrifugal fan is the fan 10 is rotated in accordance with the drive of the motor 11 and the air is sucked into the fan 10 through the suction port 21 into the inside of the snail-shaped scroll housing 20 The fan 10 serves to discharge through the discharge port 22 while flowing around the inner and outer circumference of the scroll housing 20.

In addition, the discharge guide 30 divides the air flowing in the pressurized state from the inside of the scroll housing 20 to the outside by the horizontal guide vane (31) up and down, thereby the air discharged through the discharge port (22). The flow rate is made relatively uniform while preventing sudden changes in pressure of the air at the time of discharge.

In other words, the horizontal guide vane 31 divides the air flowing upward and downward along the inner outer surface of the scroll housing 20 by the rotation of the fan 10 up and down, thereby discharging the discharge port 22. Air is discharged stably without being drawn outward, that is, the air discharged through the discharge port 22 has a uniform flow rate, thereby preventing a sudden change in pressure, which is caused by a sudden pressure difference. Turbulence and therefore noise are reduced.

In addition, the horizontal guide vanes 31 are formed in accordance with the curvature of the scroll housing 20 so as to have the same curved surface as the inner outer surface of the scroll housing 20, thereby more stably dividing and guiding the discharged air.

4 is a perspective view illustrating main parts of a second embodiment of the present invention.

As shown in FIG. 4, the discharge guide 30 of the centrifugal fan for the ventilator is disposed inside the scroll housing 20 at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided left and right. It consists of a vertical guide vane 32 is installed vertically.

The discharge guide 30 divides the air flowing in the pressurized state from the inside of the scroll housing 20 to the left and right by the vertical guide vane 32, so that the flow rate of the air discharged through the discharge port 22 is increased. It is intended to prevent a sudden pressure change of air at the time of discharge while making it relatively uniform.

In other words, the vertical guide vane 32 divides the air flowing toward the discharge port 22 along the inner outer surface of the scroll housing 20 by the rotation of the fan 10 from side to side, thereby discharging the discharge port 22. The air discharged through the air is stably discharged without having to be mixed with each other and has a uniform flow rate, and thus a sudden change in pressure is prevented when the air is discharged through the discharge port 22, thereby causing turbulence generated by a sudden pressure difference. And the resulting noise is reduced.

In addition, the vertical guide vane 32 is formed between the inside of the scroll housing 20 and the outer circumferential surface of the fan 10 so as to gradually become wider toward the discharge port 22 side, thereby dividing and guiding the discharged air. It is made more stable.

5 is a perspective view illustrating main parts of a third embodiment of the present invention.

As shown in FIG. 5, the discharge guide 30 of the centrifugal fan for the ventilation device has a scroll housing 20 at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided into upper, lower, left and right cross shapes. Horizontal guide vane 31 is installed inside the vertical guide vane 32, which is installed inside the scroll housing 20 at the tip of the discharge port 22 to cross the horizontal guide vane 31. It is composed.

The discharge guide 30 divides the air flowing in the state pressurized outward from the inside of the scroll housing 20 by the horizontal guide vane 31 up and down, and simultaneously the scroll housing by the vertical guide vane 32. By dividing the air flowing in the state pressurized outward from the inside 20 to the left and right, the flow rate of the air discharged through the discharge port 22 is made relatively uniform to prevent a sudden pressure change of the air at the time of discharge will be.

In other words, the horizontal guide vanes 31 and the vertical guide vanes 32 move the air flowing toward the discharge port 22 along the inner outer surface of the scroll housing 20 by the rotation of the fan 10 up, down, left, and right. By dividing, the air discharged from the discharge port 22 is stably discharged without being squeezed outward, that is, outward, thereby preventing the sudden change in pressure while the air discharged through the discharge port 22 has a uniform flow velocity. As a result, turbulence caused by a sudden pressure difference and thus noise are reduced.

In addition, the horizontal guide vanes 31 are formed in accordance with the curvature of the scroll housing 20 so as to have the same curved surface as the inner outer surface of the scroll housing 20, thereby more stably dividing and guiding the discharged air.

In addition, the vertical guide vane 32 is formed between the inside of the scroll housing 20 and the outer circumferential surface of the fan 10 in a form that gradually widens toward the discharge port 22 side, thereby dividing and guiding the discharged air. It is made more stable.

6 is a perspective view illustrating main parts of a fourth embodiment of the present invention.

As shown in FIG. 6, the discharge guide 30 of the centrifugal fan for the ventilation device has a scroll housing at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided into upper, lower, left, and right X-shaped shapes. A first inclined guide vane 33 installed to be inclined in the interior of the 20 and the first inclined guide vane 33 to be installed inside the scroll housing 20 at the distal end of the discharge port 22; It consists of two inclined guide vanes 34.

The discharge guide 30 is an X-shaped upper, lower, left, and right sides of the air flowing in the pressurized state from the inside of the scroll housing 20 by the first inclined guide vane 33 and the second inclined guide vane 34. By dividing, the flow rate of the air discharged through the discharge port 22 is made relatively uniform, and a sudden pressure change of the air at the time of discharge is prevented.

In other words, the first slope guide vane 33 and the second slope guide vane 34 are air flowing toward the discharge port 22 along the inner outer surface of the scroll housing 20 by the rotation of the fan 10. By dividing the up, down, left, and right, the air discharged from the discharge port 22 is stably discharged without being squeezed outward, that is, the air discharged through the discharge port 22 has a rapid flow rate with a uniform flow rate. This prevents the change of the turbulence caused by the sudden pressure difference and thus the noise.

The first inclined guide vane 33 and the second inclined guide vane 34 are installed in an X-shape at an inner edge of the scroll housing 20 corresponding to the ejection, and the inner surface of the scroll housing 20 is formed. It is formed between the outer circumferential surface of the fan 10 in a form that gradually widens from the tip toward the discharge port 22 side, thereby more stably dividing and guiding the discharged air.

7 is a perspective view illustrating main parts of a fifth embodiment of the present invention.

As shown in FIG. 7, the discharge guide 30 of the centrifugal fan for the ventilator has a scroll housing 20 at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided up and down a plurality of times. At least two horizontal guide vanes 31 spaced apart from each other vertically while being installed horizontally therein.

The discharge guide 30 is discharged through the discharge port 22 by dividing the air flowing in the state pressed outward from the inside of the scroll housing 20 by a plurality of horizontal guide vanes 31 up and down a number of times. The flow rate of the air is made to be relatively uniform while preventing a sudden pressure change of the air at the time of discharge.

In other words, the plurality of horizontal guide vanes 31 are installed above and below the ejection opening 22 so that a plurality of the horizontal guide vanes 31 are spaced apart from each other, and the ejection opening 22 is opened along the inner outer surface of the scroll housing 20 by the rotation of the fan 10. By dividing the air flowing upward and downward a number of times, the air discharged from the discharge port 22 is stably discharged without squeezing outward, that is, the air discharged through the discharge port 22 is uniform. The rapid change of pressure is prevented while the turbulence and the noise caused by the rapid pressure difference are reduced.

In addition, the horizontal guide vanes 31 are formed in accordance with the curvature of the scroll housing 20 so as to have the same curved surface as the inner outer surface of the scroll housing 20, thereby more stably dividing and guiding the discharged air.

8 is a perspective view illustrating main parts of a sixth embodiment of the present invention.

As shown in FIG. 8, the discharge guide 30 of the centrifugal fan for the ventilator has a scroll housing 20 at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided into the left and right a plurality of times. It is composed of at least two or more vertical guide vanes 32 which are spaced apart from right to left while being installed vertically therein.

The discharge guide 30 is discharged through the discharge port 22 by dividing the air flowing in the state pressed outward from the inside of the scroll housing 20 by a plurality of vertical guide vanes 32 to the left and right a plurality of times. The flow rate of the air is made to be relatively uniform while preventing a sudden pressure change of the air at the time of discharge.

In other words, the plurality of vertical guide vanes 32 are installed in a state in which a plurality of the vertical guide vanes 32 are spaced from the left and the right side so that the discharge holes are formed along the inner outer surface of the scroll housing 20 by the rotation of the fan 10. By dividing the air flowing toward the right and left a plurality of times, the air discharged through the discharge port 22 is stably discharged with a uniform flow rate without being mixed with each other, and accordingly through the discharge port 22 When the air is discharged, a sudden change in pressure is prevented, so that turbulence generated by the sudden pressure difference and thus noise are reduced.

In addition, the vertical guide vane 32 is formed between the inside of the scroll housing 20 and the outer circumferential surface of the fan 10 so as to gradually become wider toward the discharge port 22 side, thereby dividing and guiding the discharged air. It is made more stable.

9 is a perspective view illustrating main parts of a seventh embodiment of the present invention.

As shown in FIG. 9, the discharge guide 30 of the centrifugal fan for the ventilation device has a scroll housing 20 at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided into upper, lower, left, and right grids. At least two horizontal guide vanes (31) installed inside the) and at least two installed inside the scroll housing (20) at the tip of the discharge port 22 to intersect the horizontal guide vanes (31) The vertical guide vane 32 is configured as described above.

The discharge guide 30 divides the air flowing in the pressurized state from the inside of the scroll housing 20 to the outside by the plurality of horizontal guide vanes 31 up and down a plurality of vertical guide vanes 32 at the same time. By dividing the air flowing in the pressurized state from the inside of the scroll housing 20 to the left and right a plurality of times, the flow rate of the air discharged through the discharge port 22 becomes relatively uniform, To prevent sudden pressure changes.

In other words, the horizontal guide vanes 31 and the vertical guide vanes 32 are installed in a grid shape such that a plurality of the horizontal guide vanes 32 cross each other inside the discharge port 22, and the inside of the scroll housing 20 by the rotation of the fan 10. By dividing the air flowing toward the discharge port 22 along the outer surface up, down, left and right a plurality of times, the air discharged from the discharge port 22 is stably discharged without being directed outward, that is, the discharge port ( The air discharged through 22) has a uniform flow rate, and a sudden change in pressure is prevented, thereby reducing turbulence and noise caused by a sudden pressure difference.

In addition, the horizontal guide vanes 31 are formed in accordance with the curvature of the scroll housing 20 so as to have the same curved surface as the inner outer surface of the scroll housing 20, thereby more stably dividing and guiding the discharged air.

In addition, the vertical guide vane 32 is formed between the inside of the scroll housing 20 and the outer circumferential surface of the fan 10 in a form that gradually widens toward the discharge port 22 side, thereby dividing and guiding the discharged air. It is made more stable.

10 is a perspective view illustrating main parts of an eighth embodiment of the present invention.

As shown in FIG. 10, the discharge guide 30 of the centrifugal fan for the ventilation device is disposed at the tip of the discharge port 22 so that the air discharged through the discharge port 22 is divided into upper, lower, left and right cross shapes and X-shaped shapes. Horizontal guide vanes 31 installed inside the scroll housing 20 and vertical guide vanes installed inside the scroll housing 20 at the distal end of the discharge port 22 to intersect the horizontal guide vanes 31. (32), a first inclined guide vane 33 which is inclined in the scroll housing 20 at an end of the outlet 22, and the first inclined guide vane 33 so as to intersect with the first inclined guide vane 33; 22, the second inclined guide vane 34 is installed in the scroll housing 20.

The discharge guide 30 is crosswise and X inside the discharge port 22 by a horizontal guide vane 31, a vertical guide vane 32, a first slope guide vane 33, and a second slope guide vane 34. The radial flow of the air discharged through the discharge port 22 is relatively relatively divided by radially dividing the air flowing in a state in which the magnetic shape is coupled to the radially pressurized state inside the scroll housing 20. It is intended to prevent a sudden pressure change of the air at the time of discharge while being uniform.

In other words, the horizontal guide vane 31, the vertical guide vane 32, the first inclined guide vane 33, and the second inclined guide vane 34 are rotated by the fan 10 of the scroll housing 20. By radially dividing the air flowing toward the discharge port 22 along the inner outer surface, the air discharged from the discharge port 22 is stably discharged without squeezing outward, that is, the discharge port 22 accordingly. The air discharged through) has a uniform flow rate, and a sudden change in pressure is prevented, thereby reducing turbulence and noise caused by a sudden pressure difference.

In addition, the horizontal guide vanes 31 are formed in accordance with the curvature of the scroll housing 20 so as to have the same curved surface as the inner outer surface of the scroll housing 20, thereby more stably dividing and guiding the discharged air.

In addition, the vertical guide vane 32 is formed between the inside of the scroll housing 20 and the outer circumferential surface of the fan 10 in a form that gradually widens toward the discharge port 22 side, thereby dividing and guiding the discharged air. It is made more stable.

The first inclined guide vane 33 and the second inclined guide vane 34 are installed in an X-shape at an inner edge of the scroll housing 20 corresponding to the ejection, and the inner surface of the scroll housing 20 is formed. It is formed between the outer circumferential surface of the fan 10 in a form that gradually widens from the tip toward the discharge port 22 side, thereby more stably dividing and guiding the discharged air.

As described above, the present invention allows the flow rate of the air discharged through the discharge port to be relatively uniform and prevents rapid pressure change of the air at the time of discharge, thereby smoothing the flow of air through the discharge port and allowing the air to flow at a positive pressure and It is made at constant speed and has the effect of significantly reducing noise.

In addition, the present invention has a simple structure and the division of the air discharged through the discharge guide of various forms is made more smoothly, there is an effect that the sudden pressure change of the air at the discharge port is more smoothly prevented.

Claims (9)

delete delete In the centrifugal fan installed in the ventilator; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide is a centrifugal fan for a ventilation device, characterized in that the discharge guide is composed of a vertical guide vane installed vertically inside the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into left and right. In the centrifugal fan installed in the ventilator; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include a horizontal guide vane installed inside the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into upper, lower, left and right cross shapes, and a tip of the discharge port intersected with the horizontal guide vane. The centrifugal fan for the ventilation device, characterized in that consisting of a vertical guide vane installed in the scroll housing. In the centrifugal fan installed in the ventilator; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include a first inclined guide vane disposed to be inclined inside the scroll housing at a distal end of the discharge port so that air discharged through the discharge port is divided into upper, lower, left, and right X-shaped shapes; And a second inclined guide vane installed inside the scroll housing at the distal end of the discharge port so as to intersect. delete In the centrifugal fan installed in the ventilator; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include at least two vertical guide vanes spaced apart from each other while being vertically installed inside the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into the left and right multiple times. Centrifugal fan for ventilation equipment characterized in that. In the centrifugal fan installed in the ventilator; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include at least two horizontal guide vanes installed in the scroll housing at the tip of the discharge port so that the air discharged through the discharge port is divided into upper, lower, left, and right grids, and intersect with the horizontal guide vane. A centrifugal fan for a ventilation device, characterized in that it comprises at least two vertical guide vanes installed in the scroll housing at the tip of the discharge port. In the centrifugal fan installed in the ventilator; A fan driven by a motor, a suction port is formed on the front surface surrounding the fan, and the motor is mounted, a scroll housing having a discharge port formed at one side thereof, and the air discharged through the discharge port is divided at the discharge port. A discharge guide installed into the scroll housing; The discharge guide may include a horizontal guide vane installed inside the scroll housing at the distal end of the discharge port so that the air discharged through the discharge port is divided into upper, lower, left, and right cross shapes and X-shaped shapes. A vertical guide vane installed in the scroll housing at the tip of the discharge port, a first slope guide vane inclined at the inside of the scroll housing at the tip of the discharge port, and the discharge port intersecting the first slope guide vane; Centrifugal fan for the ventilation device, characterized in that consisting of a second inclined guide vane installed in the scroll housing at the front end of the.

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