KR20060129699A - Centrifugal blower - Google Patents

Abstract

A centrifugal blower is provided to prevent counter current of discharged air from an air outlet to an air inlet by installing a dual ring, thereby reducing rumble noise. A centrifugal blower includes a fan wheel, a scroll casing(20), and a dual ring(22). The fan wheel has a plurality of rotary blades disposed in a circumferential direction to discharge the air introduced in a rotary shaft direction through an air outlet. The scroll casing forms a spiral vent passage at an outer part of the fan wheel. The dual ring is formed at the scroll casing and spaced apart from a bell mouth(24) of the scroll casing. The dual ring has an extension part(23) projecting from a cut-off part(21) to a predetermined distance.

Description

Centrifugal Blower

1 is a perspective view showing a cut-off portion of a typical centrifugal blower is cut away.

2 to 4 are views showing various embodiments of the noise reduction structure of the conventional centrifugal blower.

5 is a perspective view showing the cut-off portion of the centrifugal blower according to the present invention cut away.

Fig. 6 is a cross-sectional view showing various forms of an expansion connecting portion that is a main component of the present invention.

Figure 7 is a graph comparing the noise level of the centrifugal blower and the conventional centrifugal blower of the present invention.

<Description of the symbols for the main parts of the drawings>

10: Fan Wheel 11: Wheel Band

20: Scroll Casing 21: Cut Off

22: Dual Ring 23: Extension

24: Bell Mouth 25: Expansion Connection

The present invention relates to a centrifugal blower for discharging air introduced in the axial direction in a radial direction, and in particular, a centrifugal blower which prevents backflow from occurring due to the influence of discharged air in the vicinity of the air inlet to reduce noise caused by the backflow. It is about.

In general, the centrifugal blower is a device for blowing air by using the centrifugal force of the rotating fan, one of the fluid machine to discharge the air introduced in the rotation axis direction through the outlet installed in the radial direction.

As shown in FIG. 1, a conventional centrifugal blower includes a fan wheel 50 consisting of a plurality of rotary blades arranged in a circumferential direction and discharging air introduced in a rotation axis direction through an outlet formed in a radial direction, and the fan wheel. The scroll casing 60 which forms the spiral ventilation path on the outer side of the 50 is included. The portion of the scroll casing 60 where the spiral ventilation path is started and connected to the air outlet is called “cut off”, and the air volume varies depending on the shape of the cut off portion.

In particular, a bell mouse is formed at the air inlet side of the scroll casing 60 to reduce the inflow resistance, and the air discharged through the outlet flows back to the air inlet side to act as a resistance to the air introduced through the bell mouse. Can be. As a result, intake noise is generated and the amount of discharge air is reduced, thereby degrading the performance of the apparatus.

In general, the performance of the centrifugal blower is defined as the air volume according to the static pressure, and the air volume decreases as the static pressure is increased. That is, the amount of air decreases as the resistance inside the apparatus increases, and in some cases, the fan wheel 50 may fail. In addition, wind backflow may occur at the air inlet. When the wind backflows, the efficiency decreases as well as rumble noise.

Since this phenomenon varies depending on the device, the situation is being improved and used in an appropriate method for each case. That is, when the improvement plan for some devices is used in other devices, it may not have any effect, and is being improved in the form of a case by case to improve according to the situation at that time.

2 to 4 is a view showing the noise reduction structure of the conventional centrifugal blower, it shows that the noise reduction structure can be implemented in various forms according to the shape of the device.

FIG. 2 is an intake noise reduction structure disclosed in Japanese Patent Application Laid-open No. Hei 5-38395, in which the shape of the cut-off portion 115 of the scroll 110 located outside the fan wheel 100 is changed. That is, the air inlet side protrudes toward the fan wheel 100 from the cut off portion 115 of the scroll 110, and the circumferential surface of the fan wheel 100 and the cut off portion 115 of the scroll 110 from the air inlet side. By reducing the gap between the gaps and increasing the width of the air outlet, intake noise is reduced.

3 is an intake noise reduction structure disclosed in Japanese Patent Laid-Open No. 2002-339899, wherein the cut-off portion 135 of the scroll 130 is formed thick so that the cut-off portion 135 and the circumferential surface of the fan wheel 140 are formed. By reducing the interval, the amount of discharged air flowing back from the air outlet of the cut-off portion 135 to the air inlet side is reduced to reduce the intake noise.

4 is a noise reduction structure disclosed in US Pat. No. 5,997,246, wherein the wedge member 170 has a predetermined size from a cutoff point 165 on the inner surface of the scroll 160 to a position symmetrical from a portion spaced from the cutoff point 165. Indicates that is attached. This noise reduction structure reduces the volume on the air inlet side so that the noise generated between the fan wheel 175 and the scroll 160 is reduced.

However, although the conventional centrifugal blower has a noise reduction structure suitable for each characteristic of the apparatus, there is a problem that it is not applied universally and is applied only in the form of a case-by-case.

In particular, it is difficult to block the discharge air backflow from the air outlet side to the inlet side, the efficiency is lowered and there is a problem that can not effectively reduce the rumble noise.

The present invention has been made to solve the above-mentioned conventional problems, and provides a centrifugal blower to reduce the rumble noise by installing a dual ring in the rib form so that the discharge air does not flow back from the air outlet side to the air inlet side Its purpose is.

According to the centrifugal blower of the present invention for achieving the above object, a fan wheel consisting of a plurality of rotary wings arranged in the circumferential direction to discharge the air introduced in the rotation axis direction through the air outlet formed in the radial direction, and the fan wheel A centrifugal blower comprising: a scroll casing forming a spiral ventilation path on an outer side of the scroll casing; and a dual ring of a predetermined height formed along a circumferential surface along a circumferential surface at a position spaced a predetermined distance from a bell mouse of the scroll casing; The dual ring has an extension part protruding upward from a cut-off part to a predetermined distance so that backflow does not occur in a part where air is introduced.

Further, according to the centrifugal blower of the present invention, the extension part is formed up to 15 degrees or less in the direction opposite to the rotation of the fan wheel with respect to the line connecting the cut off and the center of the fan wheel from the cut off of the scroll casing.

In addition, according to the centrifugal blower of the present invention, the extension part is formed up to the same height as the wheel band installed on the fan wheel.

In addition, according to the centrifugal blower of the present invention, the extension portion is formed in the connection portion with the cut off start point is provided with an expansion connection for preventing turbulence due to the vertical connection.

The above features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are based on the principle that the inventor can appropriately define the concept of terms in order to explain the invention in the best way. It should be interpreted as meanings and concepts corresponding to

FIG. 5 is a bottom perspective view of the centrifugal blower according to the present invention, and FIG. 6 is a cross-sectional view showing various forms of an expansion connecting part that is a main component of the present invention.

The centrifugal blower according to the present invention is composed of a plurality of rotary blades arranged in the circumferential direction fan fan 10 for discharging the air introduced in the rotation axis direction through the air outlet 25 formed in the radial direction, and the fan Scroll casing 20 that forms a spiral ventilation path on the outside of the wheel 10 and the fan wheel direction along the circumferential surface at a position spaced a predetermined distance from the bell mouth (24) of the scroll casing 20 A dual ring 22 having a predetermined height, and an extension part 23 protruding upward from the cut-off portion 21 to a predetermined distance so that backflow does not occur in a portion where air is introduced; And an expansion connection portion 25 formed at a connection portion between the extension portion 23 and the start point of the cut-off 21 to prevent turbulence due to a right angle connection.

Here, the extension 23 is opposite to the rotation of the fan wheel 10 on the basis of the line connecting the cut off 21 and the center of the fan wheel 10 to the cut off passage 21 of the scroll casing 20. Up to 15 degrees in the direction. In addition, the extension 23 is formed only up to the same height as the end of the bell mouth 24 side of the wheel band 11 is installed on the fan wheel (10). Of course, when the fan wheel 10 of the type without the wheel band 11 is used, it is formed only up to the same height as the end of the bell mouth 24 side of the wheel end.

This is because the noise reduction effect does not increase even if the extension part 23 is formed long until it exceeds 15 degrees from the start of the cutoff 21. That is, since the portion where the backflow phenomenon causing the rumble noise occurs most severely is a fixed pressure portion within about 15 degrees from the start point of the cutoff 21 when the fan wheel 10 is centered, the installation exceeds this portion. Even so, the increase in the noise reduction effect is difficult to expect.

In addition, the expansion connection portion 25 has a triangular cross-section so that the connection portion is formed as an inclined surface, or has an arc-shaped cross section so that the connection portion is curved. This is because a blowing resistance is caused due to the step difference caused by the height difference between the extension part 23 and the cutoff 21, so that the blowing amount can be reduced.

The centrifugal blower of the present invention configured as described above can prevent the discharge air from flowing back to the air inlet side by the dual ring protruding toward the air outlet side, thereby preventing the rumble noise due to the backflowed air.

As the fan wheel 10 rotates, external air flows in through the bell mouse 24, and air is compressed along the ventilation path between the fan wheel 10 and the scroll casing 20. Discharged through. Air discharged through the air outlet is moved toward the bell mouth 24 due to the extension 23 protruding upward from the cut off 21 point of the scroll casing 20 to the predetermined distance from the dual ring 22. Is limited. Of course, since the portion of the dual ring 22 in which the extension 23 is not formed is the same as the conventional one, there is almost no change in the flow rate of the actual discharge air.

That is, when air is flowed by the fan wheel 10, a part of the air discharged to the air outlet due to the extension 23 formed up to the same height as the wheel band 11 of the fan wheel 10 is the bell mouse ( Flow in the 24) direction is prevented. As a result, the amount of air flowing back from the air outlet to the bell mouth 24 side is minimized while the flow rate of the discharged air is hardly changed, so that the rumble noise is reduced. The noise reduction effect is shown as a graph shown in FIG.

In addition, the expansion connection portion 25 formed between the extension portion 23 and the cut-off 21 of the scroll casing 20 has an inclined surface formed by the height difference between the extension portion 23 and the cut-off 21. Or it is made of a curved surface to minimize the blowing resistance that can be generated in the inner portion of the step made of the right angle so that the discharge air flows smoothly.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to such specific embodiments, and those of ordinary skill in the art are appropriately within the scope described in the claims of the present invention. Changes will be possible.

As described above, according to the centrifugal blower of the present invention, since the discharge air is prevented from flowing back to the bell mouth 24 by the extension part 23 protruding upward from the dual ring 22 at the air outlet portion, the counter flow is reversed. It is effective to reduce the rumble noise caused by the air.

According to the centrifugal blower of the present invention, it is possible to improve the peak noise generated near the frequencies of 75, 100, 145, and 185 kHz.

Claims (6)

A fan wheel 10 consisting of a plurality of rotary blades arranged in the circumferential direction to discharge the air introduced in the rotation axis direction through an air outlet 25 formed in the radial direction, and a spiral ventilation path outside the fan wheel 10. Centrifugal including a scroll casing 20 to form a plurality of, and a dual ring 22 of a predetermined height formed along the circumferential surface along the circumferential surface at a position spaced a predetermined distance away from the bell mouse 24 of the scroll casing 20 In the blower, The dual ring (22) is a centrifugal blower characterized in that it has an extension portion (23) protruding upward from the cut-off portion 21 to a predetermined distance so that backflow does not occur in the portion where air is introduced. The method of claim 1, The extension part 23 is in a direction opposite to rotation of the fan wheel 10 based on a line connecting the cutoff 21 and the center of the fan wheel 10 from the cut off 21 of the scroll casing 20. It is formed to 15 degrees or less. The method of claim 1, The extension part 23 is formed up to the wheel band 11 when the wheel band 11 is installed on the fan wheel 10, and in the absence of the wheel band, the bell mouse 24 side end of the wheel end is provided. Centrifugal blower, characterized in that formed to the same height as. The method of claim 1, The extension part (23), the centrifugal blower characterized in that it has an expansion connection portion (25) formed in the connection portion with the start point of the cut off (21) to prevent turbulence due to the vertical connection. The method of claim 4, wherein The expansion connector 25 has a triangular cross section so that the connection portion is formed in the inclined surface. The method of claim 4, wherein The expansion connection part 25, the centrifugal blower, characterized in that it has an arc-shaped cross section so that the connection portion is formed in a curved surface.

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