JP2001003900A - Brushless axial fan - Google Patents

Abstract

PROBLEM TO BE SOLVED: To eliminate mounting restrictions and attain larger air quantity and lower noises in a rectangular brushless fan motor with slit structure. SOLUTION: Mounting flanges 9, 10 are provided on both suction side and discharge side of a rectangular housing 5, and both flange parts 9, 10 are respectively provided with mounting holes 11, 12. An air duct part between both flange parts 9, 10 is provided with slits 14, and tapered shape is provided from the suction port to the air duct part to constitute a brushless fan set to make a duct part inner diameter dimension smaller than the suction port. The fan itself can thereby be mounted to either the air suction port face side or discharge face side. Or a filter, a fan guard, and the like can be mounted to the air suction part face, and the fan itself can be mounted to a mounting chassis at the air discharge face. At the same time, turbulent flow generated at the edge of the suction port can be suppressed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a brushless axial fan used for cooling or ventilating various office equipment.

[0002]

2. Description of the Related Art In recent years, office equipment such as a personal computer, a printer, and a copying machine equipped with a brushless axial fan has increased heat generation inside the equipment due to high density mounting and improvement in processing speed. Along with this, there has been a demand for a brushless axial fan to have a large air volume, and also a demand for a large air volume and low noise at the same time. In order to cope with the problem, improvement of the shape of the fan blade and the shape of the housing of the brushless axial fan has been advanced by each fan maker.

[0003] A conventional brushless axial fan will be described below.

FIG. 3 shows a structure of a rectangular brushless axial fan having a slit structure in an outer case portion of a housing. FIG. 3A is a sectional view of the structure, and FIG. 3B is a perspective view. In the figure, 1 is a fan rotor, 2 is a bearing for supporting the fan rotor 1, 3 is a stator winding, 4 is a circuit part to which the stator winding 3 is connected, 35 is a housing and an outer case portion 36 of the axial fan. A central portion 7 holding the bearing 2 is connected by spokes 8, and a mounting flange 10 and a mounting hole 12 of the present brushless axial fan are provided only on the wind outlet side. One or more stages of slits 14 are provided by arranging a plurality of rings 13 in the outer case portion 36 from the wind suction port to the portion where the outer case portion 36 and the blade end of the fan rotor 1 face each other. The slit portion 14 has a shape penetrating from the outer surface of the outer case portion 36 to the inner surface of the outer case portion 36.

[0005] In addition, the outer case portion 3
6 have the same inner diameter as the slits 14 provided therein, and do not have a tapered shape. The fan motor of this conventional example is provided with a slit portion 14 against a turbulent flow generated at the blade end of the fan rotor 1 by air flowing through a gap between the blade end of the fan rotor 1 and the inner surface of the outer case portion 36. The generation of the air is suppressed by inflow of air from the air, the cooling capacity in actual use is improved, and the noise is reduced.

[0006]

However, in the above-described conventional configuration, when a user attempts to attach a filter, a fan guard, or the like to the suction port of the brushless axial fan, the mounting hole of the brushless axial fan has a wind. Since there is only on the discharge side, the installation is hindered.

[0007] Also, the outer case portion 3
6 has the same inner diameter as the slit portion 14 and does not have a tapered shape, so that the wind suction port is oblique or lateral to the axial direction of the brushless axial fan. Since the wind sucked into the air circulates around the edge of the wind suction port of the housing 35, a turbulent flow is generated, resulting in a deterioration in noise and a reduction in the air volume. However, there was a problem that could not be fully utilized.

SUMMARY OF THE INVENTION The present invention solves such a conventional problem, and is not restricted by the brushless axial flow fan itself or the mounting method of a filter or a fan guard, and achieves a high air flow and low noise. It is intended to provide a flow fan.

[0009]

SUMMARY OF THE INVENTION A fan rotor, a bearing for supporting the fan rotor, a stator winding, a circuit portion to which the stator winding is connected, an outer case portion of the axial fan, and a center for holding the bearing. The outer case portion of the housing has a mounting flange portion and a mounting hole on both the suction side and the discharge side, and a plurality of rings are provided between both flange portions. By arranging it has one or more stages of slit portions, the slit portion has a shape penetrating from the outer surface of the outer case portion to the inner surface of the outer case portion, and further has a tapered shape from the suction port of the housing to the wind tunnel portion, A rectangular brushless axial fan with a shape in which the wind tunnel is narrower than the suction port.

[0010] Thereby, it is possible to mount the air suction port and the discharge port on either side, and it is also possible to mount a filter, a fan guard or the like on the wind suction port, thereby removing restrictions on user's mounting. At the same time, the generation of turbulence generated at the edge of the suction port is suppressed, and a high air volume and low noise can be realized.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention provides a fan rotor, a bearing for supporting the fan rotor,
A stator winding, a circuit unit to which the stator winding is connected,
The outer case portion of the axial fan and the central portion holding the bearing are constituted by a housing having a structure joined by spokes.The outer case portion of the housing has mounting flange portions and mounting holes on both the suction side and the discharge side. Has a slit portion of one or more stages by arranging a plurality of rings between both flange portions, the slit portion has a shape penetrating from the outer surface of the outer case portion to the inner surface of the outer case portion, This is a brushless axial fan having a tapered shape from the suction port of the housing to the wind tunnel section and having a narrower wind tunnel section than the suction port section.

According to the present invention, it is possible to mount the air suction port or the discharge port on either side, and a filter or a fan guard can be mounted on the wind suction port. At the same time, the generation of turbulence generated at the edge of the suction port is suppressed, and a high air volume and low noise can be realized.

According to a second aspect of the present invention, a fan rotor, a bearing for supporting the fan rotor, a stator winding,
It is composed of a circuit part to which the stator winding is connected, a housing having a structure in which an outer case part of the axial flow fan and a central part holding the bearing are connected by spokes, and the outer case part of the housing has a suction side and a discharge side It has a mounting flange portion and a mounting hole on both sides of the rib, and also has a plurality of rib shapes extending from the discharge side flange portion to the suction side flange portion, and within the rib shape from the discharge side flange portion to the suction side flange portion. The mounting hole penetrates and has one or more steps of slits by arranging a plurality of rings between both flanges, and the slits penetrate from the outer surface of the outer case part to the inner surface of the outer case part. It is a shape, and furthermore, a tapered shape is provided from the suction port of the housing to the wind tunnel, and the wind tunnel is narrower than the suction port A brushless axial fan taking Jo.

[0014] It is possible to remove the restriction on the user's installation, for example, it is possible to mount the filter on the wind suction port surface or the discharge port surface on either side. it can. Furthermore, since the mounting hole on the suction side and the mounting hole on the discharge side are common, it is easy to mount the fan itself, and it is possible to mount the filter and fan guard and the fan together with the same screw. This has the effect of simplifying the mounting. In addition, the turbulent flow generated at the edge of the suction port is suppressed, and an effect of achieving a higher air volume and lower noise is also achieved.

[0015]

Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1) FIG. 1A is a structural sectional view of a fan according to an embodiment of the present invention, and FIG. 1B is a perspective view.
In the figure, 1 is a fan rotor, 2 is a bearing for supporting the fan rotor, 3 is a stator winding, 4 is a circuit section, and 5 is a rectangular housing, which constitutes a rectangular brushless axial fan. In this rectangular brushless axial fan, the rectangular housing 5 has a structure in which an outer case portion 6 of the axial fan and a central portion 7 holding the bearing 2 are connected by spokes 8. Square housing 5
The outer case portion 6 is provided with a suction-side mounting flange portion 9 and a discharge-side mounting flange portion 10, and the two flange portions 9 and 10 respectively have a suction-side mounting hole 11 and a discharge-side mounting hole. 12 are provided respectively. A ring 14 is formed by disposing a ring 13 between the two flanges 9 and 10, and the slit 14 has a shape penetrating from the outer surface to the inner surface of the outer case portion 6, and its slit width is The flowing air flow is set to be laminar. Further, a tapered shape is provided from the wind suction port of the rectangular housing 5 to the wind tunnel formed by the slit portion 14, and the inner diameter of the wind tunnel is set to be smaller than that of the suction port.

By doing so, it is possible to mount the fan itself on either the wind suction port or the discharge port, or to attach a filter or a fan guard to the wind suction port. It attaches itself to the chassis with the wind discharge surface,
It is possible to remove the restriction on the attachment of the user, which has occurred in the conventional fan motor, and at the same time, it is possible to suppress the occurrence of the turbulent flow generated at the edge of the suction port, thereby realizing further higher air volume and lower noise.

(Embodiment 2) FIG. 2A is a structural sectional view of a fan according to another embodiment of the present invention, and FIG. 2B is a perspective view. In the figure, 1 is a fan rotor, 2 is a bearing for supporting the fan rotor, 3 is a stator winding, 4 is a circuit unit, 25
Are rectangular housings, which constitute a rectangular brushless axial fan. In this rectangular brushless axial fan, the rectangular housing 25 has a structure in which an outer case portion 26 of the axial fan and a central portion 7 holding the bearing 2 are connected by spokes 8.

An outer case portion 26 of the rectangular housing 25 is provided with a suction side mounting flange portion 9 and a discharge side mounting flange portion 10, and the discharge side mounting flange portion 10 is connected to the suction side mounting flange portion. 9 having a plurality of rib shapes 15 extending to
A mounting hole penetrates through the rib shape 15 from the discharge-side mounting hole 112 to the suction-side mounting hole 111, and a ring 13 is formed between the flange portions 9 and 10 to form a slit portion 14. This slit part 14
Has a shape penetrating from the outer surface to the inner surface of the outer case portion 26, and the slit width thereof is set so that the airflow flowing therethrough becomes a laminar flow.

Further, a tapered shape is provided from the wind inlet of the rectangular housing 25 to the wind tunnel formed by the slit portion 14, so that the inner diameter of the wind tunnel is smaller than that of the inlet.

By doing so, it is possible to mount the fan itself, a filter, a fan guard, or the like on either side of the air suction port or the outlet port, or to connect the filter, the fan guard, etc. to the fan itself. Can be attached together with the same screw to the chassis, so that the restriction on the attachment by the user caused by the conventional fan motor can be removed, and the attachment method can be simplified. Further, the generation of turbulent flow generated at the edge of the suction port is suppressed, and further higher air volume and lower noise can be realized at the same time.

[0022]

As is clear from the description of the above embodiment,
According to the first aspect of the present invention, the conventional brushless fan motor employing the rectangular housing having the slit shape is restricted in the optionality of the mounting surface. Conventional fan motors, such as being able to be installed on either side of the outlet surface, attaching filters and fan guards to the air intake surface, and attaching the fan itself to the mounting chassis with the wind outlet surface In addition to eliminating the restriction on the user's installation that occurred in the above, the reduction effect of the tip vortex due to the slit structure of the housing is maintained, and the generation of turbulence generated at the edge of the suction port is suppressed, further increasing the air volume , Low noise can be realized.

According to the second aspect of the present invention, in addition to the above-mentioned effects of the first aspect of the present invention, a filter, a fan guard, etc., and the fan itself are attached together with the same screw to the chassis. The mounting method can be simplified, for example, by being able to be mounted, so that the number of steps for mounting a fan, a filter, a fan guard, etc., and the number of parts such as mounting screws can be reduced.

[Brief description of the drawings]

1A is a structural sectional view of a fan according to an embodiment of the present invention, and FIG.

2A is a structural sectional view of a fan according to another embodiment of the present invention, and FIG.

FIG. 3A is a structural sectional view of a conventional fan, and FIG.

[Explanation of symbols]

 Reference Signs List 1 fan rotor 2 bearing 3 stator winding 4 circuit part 5, 25, 35 (square) housing 6, 26, 36 outer case part 7 center part 8 spoke 9 suction side flange part 10 discharge side flange part 11, 111 suction side Mounting holes 12, 112 Discharge side mounting holes 13 Ring 14 Slit 15 Rib shape

Claims (2)

[Claims] 1. A fan rotor, a bearing supporting the fan rotor, a stator winding, a circuit part to which the stator winding is connected, an outer case part of the axial fan, and a central part holding the bearing. And a housing having a structure connected by spokes, and an outer case portion of the housing has a mounting flange portion and a mounting hole on both sides of a suction side and a discharge side, and a plurality of rings are provided between the two flange portions. By disposing a one-stage or plural-stage slit portion, the slit portion has a shape penetrating from the outer surface of the outer case portion to the inner surface of the outer case portion, and further from the suction port of the housing to the wind tunnel portion. A brushless axial fan with a tapered shape and a narrower air tunnel than the suction port. 2. A housing having a plurality of rib shapes extending from a discharge side flange portion to a suction side flange portion, wherein a mounting hole penetrates the rib shape from the discharge side flange portion to the suction side flange portion. The brushless axial fan according to claim 1, further comprising: