KR100474339B1 - Noise reduce structure of sirocco fan - Google Patents

Abstract

In the noise reduction structure of the centrifugal fan of the present invention, the impeller 102 is rotatably arranged so that air can be sucked / discharged on both sides of the motor 101, and one side of the motor 101 sucks air. A scroll housing 103 having a suction port 104 and a discharge port 105 for discharging is formed at right angles is coupled to the motor bracket 107 so as to surround each impeller 102. In the centrifugal fan having the cutoff 106 formed on one side of the discharge port 105, the cutoff 106 can be supported from the outside and installed to cover a portion of the outer surface to block the noise generated. By installing the sound insulation panel 110 so that the BPF noise generated by the impeller 102 rotated in the state adjacent to the cut-off 106 during the operation of the centrifugal fan and the flow noise due to the flow direction are not emitted to the outside. Without being cut off from the sound insulation panel 110 The body becomes noise is reduced.

Description

Noise reduction structure of centrifugal fan {NOISE REDUCE STRUCTURE OF SIROCCO FAN}

The present invention relates to a centrifugal fan installed in a microwave oven and the like to suck the combustion gas and polluted air generated in the gas stove to discharge in a perpendicular direction, more specifically, generated in the cut-off portion by the discharged flow The noise reduction structure of the centrifugal fan to reduce the BPF noise and flow noise.

In general, a hooded microwave oven (OTR) is mainly installed on the wall of the upper space of the stove, which is installed in the kitchen at home, and is generated in the stove using a centrifugal fan as well as cooking function using microwaves in the cavity. It is a home appliance that performs a ventilation function of inhaling / ejecting combustion gas and polluted air.

A general form of such a microwave oven is shown in Figure 1, which will be described briefly as follows.

As shown in the drawings, a conventional microwave oven is combined with a main body 1 having a cavity C therein for receiving food cooked by microwaves and surrounding the outside of the main body 1. In addition, it is composed of an outer casing (3) which is provided so that the exhaust passage (2) is formed on both sides, and a double suction centrifugal fan (4) provided on the upper rear of the main body (1).

The inside of the cavity (C) is provided with a rotary tray (5) rotatably to rotate the food accommodated in the inside of the cavity (C), one side of the cavity (C) when cooking the cavity (C) The magnetron 10 which radiates a microwave inside is provided.

The lower surface of the outer casing 3 is formed with an air inlet 11 communicating with the exhaust passage 2, and an air outlet 12 for discharging air to the outside is formed at the rear of the upper surface.

When microwave oven cooking by microwave in a conventional microwave oven with a hood configured as described above, the user opens the door (not shown), put the food on the rotary tray 5 inside the cavity (C), and then the operation button Press to rotate the rotary tray 5 to rotate the food at the same time microwave is generated in the magnetron 10 is radiated into the cavity (C) while cooking of the food by the microwave is made.

In addition, when the user wants to discharge the smell and smoke generated when cooking using the gas stove installed on the lower side of the microwave oven, the user presses the hood operation button, in which case both suction centrifugal fan (4) is rotated and the suction force Generated and sucked combustion gas and contaminated air through the air inlet 11 formed on the lower surface of the outer casing 3 as indicated by the dotted line, and the sucked air is discharged from the outer casing 3 through the exhaust passage 2. It is discharged to the outside through the air outlet 12 formed on the upper surface.

2 is a perspective view of the conventional double suction centrifugal fan, Figure 3 is a perspective view of a conventional scroll housing.

As shown, the conventional double suction centrifugal fan has a motor bracket 27 is coupled to both sides of the motor 21 provided in the center portion, a pair of impeller 22 on the outside of the motor bracket 25 It is rotatably arranged, and the scroll housing 23 is coupled to both sides of the motor 21 to surround each impeller 22.

The scroll housing 23 has a suction port 24 for suctioning air on one side thereof, and a discharge port 25 for discharging air sucked in a direction perpendicular to the suction port 24.

In addition, a bell mouth 25 is formed along the inner circumferential surface of the end of the suction port 24 formed in the scroll housing 23 so as to block the recirculation of the suction air, and one side of the discharge port 25 discharges the wind smoothly. Cut-off 26 is formed to protrude at an angle so that it can be.

In the double suction centrifugal fan configured as described above, when the power is applied and the motor 21 rotates, the impeller 22 built in the motor 21 rotates, and the impeller 22 rotates. A suction force is generated so that outside air is sucked inwardly through the suction port 24 of the scroll housing 23.

As described above, the air sucked into the scroll housing 23 through the suction port 24 is discharged to the discharge port 25 formed in the perpendicular direction of the suction port 24 by the rotational force of the impeller 22.

In addition, in the cut-off 26 formed at one side of the discharge port 25 when the external air is discharged through the discharge port 25 of the scroll housing 23 as described above, as shown in FIG. 25) to separate the wind to be discharged smoothly.

However, in the conventional centrifugal fan, a specific frequency proportional to the number of blades of the impeller 22 when air sucked into the scroll housing 23 by the rotation of the impeller 22 is discharged through the discharge port 25. BPF (blade passing frequency) noise generated in the noise is generated, the BPF noise is most severely caused by the cut-off 26 passing through the discharge port 25 and located near the wing of the impeller 22 there was.

In addition, as the overall flow is discharged through the discharge port 25, the flow noise is generated, this flow noise is also most severely induced in the cut-off 26 protruding to a thin thickness, which increases the overall noise of the centrifugal fan with the BPF noise There was a problem.

An object of the present invention is to provide a noise reduction structure of a centrifugal fan that does not have various problems as described above.

It is another object of the present invention to provide a noise reduction structure of a centrifugal fan suitable for reducing overall noise by dispersing flow noise by reinforcing a cutoff formed at a discharge port of a scroll housing.

In order to achieve the object of the present invention as described above, the impeller is rotatably arranged to suck / discharge air on one side of the motor, and on one side of the motor, the suction inlet and the discharge port for discharging the air are perpendicular to each other. In the centrifugal fan which is formed so that the scroll housing is coupled to surround the impeller, the cut off is formed on one side of the discharge port of the scroll housing,

One side is formed on the outside of the cut-off, there is provided a noise reduction structure of the centrifugal fan, characterized in that the integrated sound insulation plate is installed in the scroll housing so as to have the same width and height as the scroll housing.

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In addition, impellers are rotatably arranged on both sides of the motor so as to suck / discharge air, and on one side of the motor, a scroll housing having inlet and outlet outlets for sucking air is formed at right angles, respectively. In the centrifugal fan coupled to surround the impeller of the, the cut off is formed on one side of the discharge port of the scroll housing, One side is formed on the outside of the cut off, the scroll housing so as to have the same width and height as the scroll housing A noise reduction structure of a centrifugal fan is provided, wherein an integrated sound insulation plate is provided in the unit.

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Hereinafter, with reference to the embodiment of the accompanying drawings, the noise reduction structure of the present invention centrifugal fan configured as described above in more detail as follows.

Figure 5 is a perspective view showing a partially cut centrifugal fan having a noise reduction structure according to an embodiment of the present invention, Figure 6 is a side view of Figure 5, Figure 7 shows a scroll housing according to an embodiment of the present invention Perspective view.

As shown, the double suction centrifugal fan 100 having a noise reduction structure according to an embodiment of the present invention, the motor bracket 107 is fixed to both sides of the motor 101, the motor bracket 107 of the On the outside, a pair of impellers 102 for sucking / discharging air are rotatably arranged, and one end is fixed to the motor 101 at the outside of the impeller 102 coupled as described above. A scroll housing 103 for guiding the air sucked in / out by the rotation of is installed to surround the impeller 102.

The scroll housing 103 is formed with an intake port 104 for inhaling air on the outside thereof, and a discharge port 105 for discharging the air sucked in a direction perpendicular to the intake port 104.

In addition, a cutoff 106 is formed at one side of the discharge port 105 of the scroll housing 103 so that the wind can be discharged smoothly. The cutoff 106 is connected to one side of the cutoff 106. In addition to supporting the outside of the), the scroll housing 103 and the integrated sound insulation plate 110 is installed to form a "b" shape.

The sound insulation plate 110 may be formed using a separate sound insulation member, but is integrally formed in the scroll housing 103 when the scroll housing 103 is manufactured, and has the same width and height as the scroll housing 103. It is preferable to form so that.

In the double suction centrifugal fan configured as described above, when the power is applied and the motor 101 rotates, the impeller 102 built in the motor 101 rotates, such that the impeller 102 The suction force is generated by the rotation, and the outside air is sucked inwardly through the suction port 104 of the scroll housing 103 by the suction force.

Then, the air sucked into the scroll housing 103 through the suction port 104 as described above is discharged to the discharge port 105 formed in the right direction of the suction port 104 by the rotational force of the impeller 102, As the air is discharged to the discharge port 105, the BPF noise and the flow noise generated by the blades of the impeller 102 are generated. In the present invention, the noise generated as described above is one side of the cut-off 106. The noise emitted to the outside is blocked and dispersed by the sound insulating plate 110 formed in the is reduced.

Figure 8 shows a noise comparison graph of a conventional embodiment and the present invention, as shown, although the noise of the conventional centrifugal fan was 59.23 dB (A) level, the noise in the same structure as an embodiment of the present invention Is measured at 57.35 dB (A), it can be seen that the noise is reduced by about 2 dB (A) than when the sound insulation plate 110 is installed as in the present invention.

9 is a side view showing another embodiment of the present invention, as shown, one side of the sound insulation plate 110 is connected to the cut-off 106 is supported and integral with the scroll housing 103 "-" shaped like 10 is a side view showing another embodiment of the present invention. As shown, the sound insulation plate 110 is connected to one side of the cut-off 106 to the scroll housing. It is formed integrally with the 103 and formed in a "ㅁ" shape to surround the remaining portion of the scroll housing 103 except for the discharge port 105 to reduce the noise. Modifications may be made in various forms without departing from the scope.

In addition, the above embodiment has been described by taking a two-suction centrifugal fan as an example, but not necessarily limited to the same, when the sound insulation plate 110 is formed as in the present invention even in the centrifugal fan of the general type sucked to one side Naturally, the effect occurs.

As described in detail above, the noise reduction structure of the centrifugal fan of the present invention supports one side of the cut-off formed in the discharge port of the scroll housing, and installs a sound insulation plate to surround the outside of the scroll housing, thereby operating the centrifugal fan. Since the BPF noise generated by the impeller rotating near the cut-off is blocked by the sound insulating plate, there is an effect of reducing the BPF noise generated during operation.

In addition, since the cut-off is installed closest to the outer diameter of the impeller, it is often pressed or deformed when combined with other parts, in which case the cut-off is sharply cut or frictional noise is generated by the rotation of the impeller. In some cases, when the sound insulation plate is installed as in the present invention, the structural reinforcement is made, and the frequency of occurrence of abnormal noise due to the deformation or pressing as described above is significantly reduced.

In addition, in the present invention, since the flow noise by the flow direction of the air is blocked by the sound insulating plate and dispersed without going to the front surface, there is an effect that the overall noise due to the noise on the front surface is reduced.

1 is a front view schematically showing the structure of a conventional microwave oven with a centrifugal fan installed.

Figure 2 is a perspective view of a conventional double suction centrifugal fan.

3 is a perspective view of a conventional scroll housing.

Figure 4 is a side view showing the flow discharged from the conventional centrifugal fan.

5 is a perspective view of a centrifugal fan having a noise reduction structure according to an embodiment of the present invention.

6 is a side view of FIG. 5;

7 is a perspective view showing a scroll housing according to an embodiment of the present invention.

8 is a noise comparison graph of one embodiment of the present invention.

9 is a side view showing another embodiment of the present invention.

Figure 10 is a side view showing another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

101: motor 102: impeller

103: scroll housing 104: inlet

105: discharge port 106: cut off

107: motor bracket 110: sound insulation plate

Claims (8)

An impeller is rotatably installed on one side of the motor to suck / discharge air, and one side of the motor surrounds the impeller by a scroll housing having a suction inlet and a discharge outlet formed at right angles. In the centrifugal fan is coupled so that the cut off is formed on one side of the discharge port of the scroll housing, One side is formed on the outside of the cut off, the noise reduction structure of the centrifugal fan, characterized in that the integrated sound insulation plate is installed in the scroll housing so as to have the same width and height as the scroll housing. The noise reduction structure of claim 1, wherein the sound insulation plate is formed in a "b" shape such that one side is connected to the outside of the cut-off. The noise reduction structure of claim 1, wherein the sound insulation plate is formed in a “c” shape such that one side is connected to the outside of the cutoff. The noise reduction structure of claim 1, wherein the sound insulation plate is formed to have a shape of "ㅁ" so that one side is connected to the outside of the cut-off. Impellers are rotatably arranged on both sides of the motor so as to suck and discharge air, and one side of the motor has scroll housings each having air intake and discharge outlets formed at right angles. In the centrifugal fan is coupled to surround the parlor, the cut off is formed on one side of the discharge port of the scroll housing, One side is formed on the outside of the cut off, the noise reduction structure of the centrifugal fan, characterized in that the integrated sound insulation plate is installed in the scroll housing so as to have the same width and height as the scroll housing. The noise reduction structure of claim 5, wherein the sound insulation plate is formed in a "b" shape such that one side is connected to the outside of the cut-off. The noise reduction structure of claim 5, wherein the sound insulation plate is formed in a “c” shape such that one side is connected to an outer side of the cut-off. The noise reduction structure of the centrifugal fan according to claim 5, wherein the sound insulation plate is formed in a shape of "ㅁ" so that one side is connected to the outside of the cut-off.