KR20040016720A - Impeller blade structure of centrifugal fan - Google Patents

Abstract

PURPOSE: A blade structure of an impeller for a centrifugal fan is provided to improve acoustic characteristic of the centrifugal fan by reducing noise. CONSTITUTION: A centrifugal fan having an impeller(103) provided with a blade structure includes a motor and a motor bracket coupled to both sides of the motor. The impeller(103) is rotatably coupled to an outer portion of the motor bracket. A scroll housing surrounds the impeller(103) in order to guide air sucked or exhausted by means of the impeller(103). The scroll housing is formed at both sides thereof with a suction port for sucking air from an exterior, and an exhaust port is formed in perpendicular to the suction port so as to exhaust air towards the exterior. The impeller(103) has a disc-shaped intermediate rim(201) and a plurality of inner blades(202), which are coupled to one side the disc-shaped intermediate rim(201) in a cylindrical pattern with a uniform interval. A plurality of outer blades(203) is coupled to the other side the disc-shaped intermediate rim(201) in a cylindrical pattern with a uniform interval. A rim(204) is formed at each end of the outer blades(203).

Description

Wing forming structure of impeller for centrifugal fan {IMPELLER BLADE STRUCTURE OF CENTRIFUGAL FAN}

The present invention relates to a centrifugal fan installed in a microwave oven for the hood and to discharge the combustion gas and polluted air generated in the gas stove in a right angle direction, more specifically, to disperse the frequency generated from the impeller blades to the ear It relates to a wing forming structure of an impeller for a centrifugal fan to reduce annoying noise generation.

In general, ODT (over the range) is mainly installed on the upper side of the stove, which is installed in the kitchen of the home to cook and use microwaves to inhale / discharge the combustion gas and polluted air generated from the stove. A home appliance that performs a ventilation function.

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

As shown in the drawing, the conventional microwave oven includes a main body (1) having a cavity (C: cavity) for accommodating food to be cooked by microwaves, and surrounding the outside of the main body (1). It is composed of an outer casing (3) coupled to the exhaust passage (2) is formed on both sides and a dual-intake sirocco fan (4) installed on the upper rear of the main body (1) have.

Rotating tray 5 is rotatably installed at the lower side of the cavity C to rotate food contained in the cavity C, and at one side of the cavity C, the cavity C at the time of cooking. 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 cooking using a gas stove installed on the lower side of the microwave oven, the user presses the hood operation button, in which case the two suction centrifugal fan (4) is rotated and the suction force is generated, the outer casing (3) as indicated by the dotted line The combustion gas and the contaminated air are sucked through the air inlet 11 formed at the lower surface of the air inlet, and the sucked air is blown through the exhaust passage 2, and then the air outlet 12 formed at the upper surface of the outer casing 3 is opened. It is discharged to the outside through.

2 is a front view of a conventional double suction centrifugal fan.

As shown in the drawing, the conventional double suction centrifugal fan 4 has a motor bracket 22 coupled to both sides of a motor 21 provided at a central portion of the motor bracket 22, and An impeller 23 is coupled to a motor shaft (not shown) protruding outward from the center portion, and a cylindrical scroll is fixed to one side to the motor bracket 22 and to surround the outside of the impeller 23. A scroll housing 24 is coupled.

In addition, the scroll housing 24 is formed with an inlet port 25 for sucking air inward and outward, and a discharge port 26 for discharging air sucked in a direction perpendicular to the inlet port 25 is formed. have.

In addition, a cutoff 17 is formed at one side of the discharge port 26 to separate and guide the discharged air.

When the power suction is applied to the double suction centrifugal fan 4 configured as described above and the motor 21 rotates, the impeller 23 built in the motor 21 rotates, and the impeller 23 The suction force is generated by the rotation, and the outside air is sucked inward through both suction ports 25 of the scroll housing 24.

As described above, the air sucked into the scroll housing 24 through the suction port 25 is discharged to the discharge port 26 formed in the direction perpendicular to the suction port 25 by the rotational force of the impeller 23.

Figure 3 is a perspective view of a conventional impeller, Figure 4 is a front view of FIG.

As shown, the conventional impeller 23 is provided with a plurality of inner blades 32 at equal intervals on one side of the disk-shaped intermediate plate 31 at regular intervals, and a plurality of other Outer blades 33 are installed at equal intervals at regular angles, and at the free end of the inner / outer blades 32, 33, a ring for supporting the inner / outer blades 32, 33. A rim 34 is integrally formed.

In the impeller 23 configured as described above, the air sucked into the suction port 25 on the motor side is discharged through the discharge port 26 by the suction force generated by the inner blades 32 when rotating, and the outer wing The air sucked into the suction port 25 on the opposite side by the rotation of the 33 is also discharged to the outside through the discharge port 26.

However, in the conventional double-suction centrifugal fan 4 as described above, when the impeller 23 rotates, noise that is annoying by blade passing frequency (BPF) in the blades 32 and 33 is generated. Such noise had the problem of making the listener feel bad.

An object of the present invention devised in view of the above problems is to provide a wing forming structure of the impeller for a centrifugal fan suitable for improving the sound quality by reducing the noise caused by the blade passing frequency.

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

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

3 is a perspective view of a conventional impeller.

4 is a front view of FIG. 3.

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

Figure 6 is a perspective view of the impeller according to the present invention.

7 is a front view of FIG. 6;

8 is a noise comparison measurement graph of the conventional structure and the present invention.

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

Explanation of symbols on the main parts of the drawings

201: intermediate plate 202: inner blade

203: outer wing 204: rim

In order to achieve the object of the present invention as described above

On one side of the disk-shaped middle plate is formed a plurality of inner wings at equal intervals to cover the cylindrical, the other side is formed at equal intervals to form a cylindrical outer, the inner / outer wings at the ends of the inner / In the impeller of the centrifugal fan in which the rim is formed in a ring shape for fixing the outer wings to maintain a constant interval,

The blade forming structure of the impeller for a centrifugal fan is provided by differently forming the number of the inner blades and the outer blades so that the blade passing frequency is dispersed.

Hereinafter, with reference to the embodiment of the accompanying drawings, the wing forming structure of the impeller for the centrifugal fan of the present invention configured as described above will be described in more detail.

Figure 5 is a perspective view of a centrifugal fan having an impeller structure according to an embodiment of the present invention, Figure 6 is a perspective view of the impeller according to the present invention, Figure 7 is a front view of FIG.

As shown, the two-suction centrifugal fan 100 having an impeller structure according to an embodiment of the present invention, the motor bracket 102 is coupled to both sides of the motor 101, the respective motor bracket 102 The impeller 103 for sucking / discharging air is rotatably arranged on the outside of the), and one end of the impeller 103 is fixed to the motor 101 by the rotation of the impeller 103. A scroll housing 104 for guiding the suctioned / discharged air is provided to surround the impeller 103.

In addition, the scroll housing 104 is provided with suction ports 105 on both sides for sucking the outside air inwards, and the air sucked into the scroll housing 104 in the perpendicular direction of the suction port 105. The discharge port 106 for discharging the gas to the outside is formed.

In addition, a cutoff 107 is formed on the inner surface of one side of the discharge hole 106 of the scroll housing 104 so that the wind can be discharged smoothly.

In addition, the impeller 103 has a cylindrical shape on one side of the disk-shaped intermediate plate 201 at equal intervals to form a cylindrical shape, the other side a plurality of outer wings 203 Is also formed at equal intervals to form a cylindrical, Ring end rim 204 for fixing the inner / outer wings 202, 203 at equal intervals at the ends of the inner blade 202 and the outer blade 203. Formed.

The number of inner blades 202 is 37 and the number of outer blades 203 is 28, which are different from each other. Thus, by forming different numbers of inner blades 202 and outer blades 203, the blade passes through the blades. The frequency BPF can be distributed.

In the double suction centrifugal fan 100 configured as described above, when the power is applied and the motor 101 rotates, the impeller 103 built in the motor 101 rotates, such an impeller ( The suction force is generated by the rotation of the 103, the outside air is sucked inwards through both suction ports 105 of the scroll housing 104, the inside of the scroll housing 104 through the suction port 105 The air sucked into the air is discharged to the discharge port 106 formed in the direction perpendicular to the suction port 105 by the rotational force of the impeller 103.

When the impeller 103 rotates as described above, since the number of the inner blades 202 and the outer blades 203 is formed differently, when the blade passing frequency is dispersed, the number of inner / outer blades is the same. Noise is significantly reduced.

8 is a noise comparison measurement graph of the conventional structure and the present invention, the inner blade 202 and the outer blade 203 as in the present invention as compared to the case where the number of the inner blade 32 and the outer blade 33 is the same conventionally If the number of) is differently formed, the noise is significantly reduced as indicated by the solid line, and the blade passage frequency is the highest as shown in the conventional a, but the inner and outer wings are different as in the present invention. This is because, as shown in b and c, the vane passing frequency is dispersed and noise is reduced. As the noise level is actually inaudible, the hearing is greatly improved.

9 is a front view showing another embodiment of the present invention. As shown, the basic structure of the impeller 103 is the same as that of FIGS. 6 and 7.

However, in this embodiment, the diameter (d) of the inner blade 202 portion formed in a cylindrical shape and the diameter (D) of the outer wing 203 forming portion is formed differently, the diameter (d) of the inner blade 202 The diameter (D) of the outer blade 203 forming portion is formed larger, and the blade passing frequency even when the diameter (d) of the inner blade 202 portion and the diameter of the outer blade 203 portion are differently formed. As the dispersion of the sound is reduced, the noise reduction and the sound sense are improved.

As described in detail above, the wing forming structure of the impeller for the centrifugal fan of the present invention is different from the number of inner blades and the number of outer blades, and as the blade passing frequency is dispersed during rotation of the centrifugal fan, noise is reduced. Hearing effect is improved.

In addition, even when the diameter of the portion where the outer wing is formed and the diameter of the portion where the inner wing is formed differently the blade passing frequency is dispersed, thereby reducing the noise and improving the hearing.

Claims (4)

On one side of the disk-shaped middle plate is formed a plurality of inner wings at equal intervals to cover the cylindrical, the other side is formed at equal intervals to form a cylindrical outer, the inner / outer wings at the ends of the inner / In the impeller of the centrifugal fan in which the rim is formed in a ring shape for fixing the outer wings to maintain a constant interval, The blade forming structure of the impeller for a centrifugal fan, characterized in that the blade passing frequency is dispersed by differently forming the number of the inner blade and the outer blade. According to claim 1, wherein the blade forming structure of the impeller for a centrifugal fan, characterized in that the number of the outer wing is formed more than the number of the inner wing. According to claim 1, Impeller structure of the centrifugal fan, characterized in that the diameter of the portion in which the inner blade is formed and the diameter of the portion in which the outer wing is formed is different. 4. The wing forming structure of an impeller for a centrifugal fan according to claim 3, wherein the diameter of the outer blade is larger than that of the inner blade.