JP2006207379A - Blast fan - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a blast fan for increasing an amount of air passing through a boss part. <P>SOLUTION: Since mounting angles θ is given to ribs 5 disposed to the boss part 2 generate an airflow B in the same blowing direction S as that of fan blades 3, the airflow B passing through slit openings 8 between the ribs 5 can be positively (actively) generated. Therefore, an amount of air B passing through the boss part 2 is increased, the total amount of an airflow A and the airflow B in addition to the fan blades 3 is increased, and thereby effect for releasing heat from a motor 11 is improved. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a blower fan.

  A blower fan for generating an air flow toward the radiator is provided in front of the automobile radiator. The blower fan has a boss portion in which the supported motor is accommodated. The boss portion has a cylindrical shape having a bottom surface portion, and the bottom surface portion is connected to the rotating shaft of the motor. A plurality of fan blades are formed on the outer surface of the boss portion. And the air flow toward a radiator can be produced with the fan blade of the boss | hub part rotated with the motor.

In addition, a plurality of vent holes are formed on the bottom surface of the boss portion. The air on the air blowing direction side of the boss portion is caught in and discharged from the air flow by the fan blade, and the portion becomes negative pressure, so that an air flow passing through the vent hole is generated. The airflow that has passed through the vent hole flows in the blowing direction along the outer surface of the motor. In addition to the air flow generated by the fan blades, an air flow that passes through the vent hole of the boss portion is generated, so that the total amount of the air flow is increased and the air blowing performance as a fan is improved. The motor can be dissipated (see, for example, Patent Document 1).
Japanese Patent Laid-Open No. 5-321893 (see FIG. 4).

  However, in such a conventional technique, since the air flow of the fan blade is used to draw air from the vent hole of the boss portion, the amount of air passing through the vent hole is small and the total amount of air flow is And the effect of radiating heat from the motor are small.

  The present invention has been made paying attention to such a conventional technique, and provides a blower fan capable of increasing the amount of air passing through a boss portion.

  The invention according to claim 1 has a plurality of fan blades on the outer surface of the cylindrical boss portion, houses the motor inside the boss portion, connects the rotating shaft of the motor and the boss portion, A blower fan for generating an air flow in a predetermined blowing direction by the fan blades of the rotated boss part, wherein the inner surface of the boss part and the rotating shaft of the motor are formed in a radial direction around the rotating shaft. In addition, a plurality of ribs are connected, a slit opening is formed between adjacent ribs, and a mounting angle for generating an air flow in a blowing direction similar to that of a fan blade is given to the rib.

  According to the first aspect of the present invention, since the mounting angle for generating the air flow in the air blowing direction similar to that of the fan blade is given to the rib provided on the boss portion, the air flow passing through the slit opening between the ribs. Can be generated actively. Therefore, the amount of air passing through the boss portion is increased, the total amount of air flow combined with the fan blade can be increased, and the effect of radiating the motor is improved.

  For the purpose of providing a blower fan capable of increasing the amount of air passing through the boss portion, the outer surface of the cylindrical boss portion has a plurality of fan blades, and the motor is accommodated inside the boss portion. A fan that connects a rotating shaft of a motor and a boss portion and generates an air flow in a predetermined air blowing direction by a fan blade of the boss portion rotated by the motor, the inner surface of the boss portion and the rotation of the motor The shaft is connected by a plurality of ribs formed in the radial direction around the rotation axis, slit openings are formed between adjacent ribs, and an air flow is generated in the rib in the air blowing direction similar to the fan blade. Realized by giving the mounting angle to be. Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  1 to 3 are diagrams showing an embodiment of the present invention. In this embodiment, a blower fan 1 disposed in front of a radiator of an automobile (not shown) will be described. The blower fan 1 has a cylindrical boss 2. Five fan blades 3 are formed on the outer surface of the boss portion 2 in the radial direction. The fan blade 3 rotates inside the circular cover 4. The cover 4 constitutes a part of a fan shroud (not shown). The fan blade 3 is provided with a mounting angle that causes the air flow A to be generated in the air blowing direction S by rotating.

  On the bottom surface side of the boss portion 2, a plurality of ribs 5 are formed radially from the inner surface of the boss portion 2 toward the center. A ring-shaped attachment portion 6 is formed on the center side of the rib 5, and a pair of claw portions 7 are formed on the attachment portion 6.

  A slit opening 8 is formed between the ribs 5. On the base end side of the rib 5, extension portions 10 extending along the inner surface of the boss portion 2 are formed via inclined portions 9. The extension 10 is formed with a low height. The rib 5 and the extension 10 are provided with a mounting angle θ that generates an air flow B in the air blowing direction S similar to that of the fan blade 3.

  A motor 11 supported by a stay 14 of a fan shroud (not shown) is housed inside the boss portion 2. A small gap d is formed between the side surface of the motor 11 and the inner surface of the boss 2, and the extension 10 of the rib 5 is located in the gap d. The motor 11 is formed with a slope portion 12 corresponding to the slope portion 9 of the rib 5. Further, the rotating shaft 13 of the motor 11 engages with the claw portion 7 of the mounting portion 6 at the tip of the rib 5, and transmits the rotational force of the motor 11 to the boss portion 2 through the claw portion 7.

  Therefore, when the boss portion 2 is rotated by the motor 11, an air flow A directed in the blowing direction S is generated by the fan blade 3, and a radiator (not shown) can be cooled by the air flow A.

  Further, since the mounting angle θ similar to that of the fan blade 3 is given to the rib 5 provided in the boss portion 2, the air flow B that passes through the slit openings 8 between the ribs 5 by rotating the rib 5. Can be generated actively. Therefore, the air flow B passing through the boss portion 2 increases, the total amount of the air flows A and B combined with the fan blade 3 increases, and the cooling performance of the radiator (not shown) is improved. Further, since the air flow B flowing through the slit opening 8 along the outer surface of the motor 11 increases, the heat dissipation effect of the motor 11 is also improved.

  According to this embodiment, an example in which the mounting angle θ is given to the rib 5 formed in a straight radial shape is shown, but the rib 5 may be formed in a curved radial shape (spiral shape).

The side view which shows the state before the motor attachment of the ventilation fan which concerns on one Embodiment of this invention. Sectional drawing which follows the arrow SA-SA line in FIG. The perspective view which shows the inside of the boss | hub part which concerns on FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Blower fan 2 Boss part 3 Fan blade 4 Cover 5 Rib 6 Attaching part 7 Claw part 8 Slit opening 9 Inclined part 10 Extension part 11 Motor 12 Slope part 13 Rotating shaft A, B Air flow S Blowing direction d Gap θ Attachment angle

Claims (1)

A plurality of fan blades (3) are provided on the outer surface of the cylindrical boss portion (2), the motor (11) is accommodated in the boss portion (2), and the rotating shaft (13) of the motor (11). And the boss part (2) are connected to each other, and the fan blade (3) of the boss part (2) rotated by the motor (11) generates an air flow (A) in a predetermined air blowing direction (S). Because
The inner surface of the boss portion (2) and the rotating shaft (13) of the motor (11) are connected by a plurality of ribs (5) formed in the radial direction around the rotating shaft (13) and adjacent to each other. A slit opening (8) is formed between the ribs (5), and a mounting angle (θ) that causes an air flow (B) in the blowing direction (S) similar to that of the fan blade (3) is given to the rib (5). A blower fan characterized by that.

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