JP2019207968A - Fan unit - Google Patents

Abstract

To provide a fan unit in which an axial fan can be incorporated into a fan holder in a predetermined direction and at a predetermined attitude.SOLUTION: A fan unit 1 has an axial fan 10, a fan holder 30 holding the axial fan, and a guide clip 20 attached to a predetermined position of the axial fan. The fan holder includes a plurality of guide ribs that clamp a flange of the axial fan, and are disposed at positions where none of which is in contact with the guide clip when the axial fan is incorporated into the fan holder in the predetermined direction and at a predetermined attitude, and at least one of which is in contact with the guide clip when the axial fan is not incorporated into the fan holder in the predetermined direction and at the predetermined attitude.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a fan unit including an axial fan.

An axial fan has an intake surface that sucks in air and an exhaust surface that discharges the sucked air. If these surfaces are mounted in an electronic device or the like with a different orientation from the design, the desired cooling performance can be obtained. Disappear. The direction of the axial fan is generally checked visually during or after assembly of the electronic device to which the axial fan is attached.
For example, when a label describing the manufacturer and model of the axial fan is affixed to a motor or the like, the orientation of the axial fan can be confirmed by the position of the label. Or when the arrow which shows a ventilation direction is marked on the flame | frame of an axial fan, the direction of an axial fan can be confirmed with this arrow.

  However, when a person assembles an electronic device, it is not possible to prevent an attachment error that attaches the intake surface and the exhaust surface of the axial fan in a direction different from the design only by visual confirmation. In an electronic device in which an axial fan is mounted in a direction different from the design, the temperature inside the housing or the temperature of the components rises above the allowable temperature during operation, resulting in a decrease in performance of the electronic device or a short operation. Problems such as stopping at time occur.

  In addition, many axial fans have a rectangular parallelepiped shape with an intake surface and an exhaust surface, and can be mounted even if the intake surface and the exhaust surface are rotated by 90 degrees with respect to a predetermined mounting surface. This indicates that even with the same type of electronic device, the axial fan may be attached to the housing or the like with a different posture (rotation angle) for each device.

  In general, there is no difference in the performance of the axial fan depending on the mounting posture. However, if the axial fan is not mounted in a predetermined posture, for example, the cable of the axial fan may not reach a circuit board that supplies required power to the motor of the axial fan. In that case, since it is necessary to remove and reattach the axial fan, useless work time occurs.

In addition, the axial fan is also used for air exchange between the inside and the outside of the casing in the electronic apparatus, and is often attached to an opening provided on the casing surface. In that case, even if the electronic devices are of the same type, if the axial fan is mounted in a different posture for each device, there arises a problem that a non-uniform appearance is visually recognized by a user or the like.
That is, since many axial fans can be attached to a housing or the like even in a direction or posture different from the design, various problems described above occur.

  Therefore, it is conceivable to install an axial fan in a fan holder that can be attached only in a predetermined orientation and orientation with respect to the housing and the like, and attach the axial fan as a fan unit to the housing and the like. In that case, if the axial fan can be incorporated in the fan holder so that the axial fan is in the orientation and orientation designed with respect to the housing, etc., the axial fan can be mounted in a different orientation and orientation from the design. Mistakes can be suppressed.

  A structure for attaching a fan unit including an axial fan to a housing is proposed in Patent Document 1, for example. In Patent Document 1, an elastic engagement portion is provided at each of a fan holder for holding an axial fan and an attachment position on the housing side, and the fan engagement unit is attached to the housing by engaging the elastic engagement portions. The configuration is described.

International Publication No. 2017/022070

Patent Document 1 described above proposes a mounting mistake in which the fan unit is mounted at a halfway position that is not an appropriate mounting position, and a configuration for preventing the fan unit from dropping off due to the mounting mistake.
However, Patent Document 1 does not show any configuration for incorporating an axial fan in a predetermined orientation and posture with respect to the fan holder.

  The present invention has been made to solve the problems of the background art as described above, and an object thereof is to provide a fan unit in which an axial fan can be incorporated in a predetermined orientation and posture with respect to a fan holder. And

In order to achieve the above object, the fan unit of the present invention is:
An axial fan,
A fan holder for holding the axial flow fan;
A guide clip attached to a predetermined position of the axial fan;
Have
The fan holder is
When the axial fan is incorporated in the fan holder in a predetermined orientation and orientation, none of the guide clips comes into contact with the axial fan, and the axial fan is incorporated in the fan holder in the prescribed orientation and orientation. If not, at least one of them is provided with a plurality of guide ribs that are disposed at positions where they abut against the guide clip and sandwich the flange of the axial fan.

  According to the present invention, an axial fan can be incorporated in a predetermined orientation and posture with respect to the fan holder.

FIG. 1 is a perspective view illustrating a configuration example of a fan unit according to the first embodiment. FIG. 2 is a perspective view showing a state in which the fan unit shown in FIG. 1 is attached to an electronic device. FIG. 3 is a perspective view showing a state where the fan unit shown in FIG. 1 is disassembled. FIG. 4 is a perspective view illustrating a configuration example of the first fan holder and the second fan holder illustrated in FIGS. 1 and 2. FIG. 5A is a perspective view showing an enlarged view of a main part of the axial fan shown in FIGS. 1 and 2. FIG. 5B is a perspective view showing a state in which a guide clip is attached to the axial fan shown in FIG. 5A. FIG. 6 is an enlarged view of a main part showing an example of the positional relationship between the guide clip and the guide rib when the fan unit shown in FIG. 1 is assembled as designed. FIG. 7 is an essential part enlarged view showing an example of the positional relationship between the guide clip and the guide rib when the fan unit shown in FIG. 1 is not assembled as designed. FIG. 8 is a front view showing an example of the positional relationship between the first fan holder and the second fan holder in the fan unit shown in FIG. FIG. 9 is a front view illustrating a shape example of a guide rib included in the fan unit according to the second embodiment. FIG. 10 is a perspective view illustrating a configuration example of a guide clip included in the fan unit according to the third embodiment.

Next, the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 is a perspective view illustrating a configuration example of a fan unit according to the first embodiment, and FIG. 2 is a perspective view illustrating a state in which the fan unit illustrated in FIG. 1 is attached to an electronic device. FIG. 3 is a perspective view showing a state where the fan unit shown in FIG. 1 is disassembled. FIG. 4 is a perspective view illustrating a configuration example of the first fan holder and the second fan holder illustrated in FIGS. 1 and 2. FIG. 5A is a perspective view showing an enlarged view of a main part of the axial fan shown in FIGS. 1 and 2, and FIG. 5B shows a state where a guide clip is attached to the axial fan shown in FIG. 5A. It is a perspective view.

As shown in FIG. 1, the fan unit 1 of the first embodiment includes an axial fan 10, a guide clip 20, and a fan holder 30.
A fan unit 1 shown in FIG. 1 is attached to a casing surface of an electronic device 100 as shown in FIG. 2, for example, and is used to forcibly air-cool the heat generating component 110 installed in the casing or the casing. . It is assumed that the fan unit 1 can be attached to the housing surface of the electronic device 100 only in a predesigned orientation and posture (rotation angle).

The axial fan 10 has a motor, a frame that forms a cavity through which air flows, supports the motor in the cavity, and a propeller fan that is driven to rotate in the cavity by the motor. 1-3, 5A and 5B, and FIGS. 6, 8 and 10 described later, only the frame of the axial flow fan 10 is shown.
As shown in FIG. 3, the frame of the axial fan 10 has a shape in which substantially square flanges are provided at both ends of the cavity. The motor is supported in the cavity by a plurality of arms provided on the frame. A cable for supplying electric power necessary for the rotation of the propeller fan to the motor is drawn out from the motor. In such an axial fan 10, the propeller fan is rotationally driven by the motor, so that air is sucked from one end of the cavity and discharged from the other end. At this time, one end of the cavity serves as an intake surface and the other end serves as an exhaust surface. The axial fan 10 shown in FIG. 3 shows an example in which the front side is the intake surface and the back side is the exhaust surface when viewed from the front.

As shown in FIGS. 1 and 3, the fan holder 30 is, for example, the first fan holder 30 ₁ and divided structure second to the fan holder 30 _2. The fan holder 30 is a frame that covers the entire side surface of the axial flow fan 10 orthogonal to the intake surface and the exhaust surface. As shown in Figure 3, the axial fan 10, the first fan holder 30 ₁ and the second fan holder 30 _2, held by being sandwiched from two opposing directions along its sides.

As shown in Figure 4, the first fan holder 30 _first and second fan holder 30 _2, of the two surfaces abutting opposite each other, the positioning pin 33 is provided on one guide to the other A hole 34 is provided. The first fan holder 30 ₁ and the second fan holder 30 _2, by the positioning pin 33 at the time of assembling the guide holes 34 of the fan unit 1 is inserted, mutual positional relationships are maintained accurately.
4, the second fan holder 30 ₂ to the positioning pins 33 provided, shows an example structure in which a first fan guide hole 34 in the holder 30 _1. The positioning pin 33 may be provided on the _first fan holder 301. In that case, it may be provided guide holes 34 to the positioning pins 33 are inserted into the second fan holder 30 _2.

Further, as shown in Figure 4, the first fan holder 30 _first and second fan holder 30 _2, provided is formed over the two surfaces perpendicular, the guide rib 31 of a plurality of shaped substantially triangular respectively It has been. Each guide rib 31 is disposed at a position where, for example, the eight corners of the two flanges of the axial fan 10 are sandwiched so that the axial fan 10 does not fall off from the assembled fan unit 1. However, the guide rib 31 is not provided at a position where the corner portion to which the guide clip 20 described later is attached among the eight corner portions of the axial fan 10 is provided. Hereinafter, the position where the guide rib 31 is not provided is referred to as a “non-guide rib region”.

The guide clip 20 is a component for guiding an operator so that the axial fan 10 is incorporated into the fan holder 30 in a predetermined direction and posture when the fan unit 1 is assembled. The guide clip 20 is attached to a predetermined position (predetermined position) of the axial fan 10 before the fan unit 1 is assembled.
The non-guide rib region is provided at a position corresponding to the mounting position of the guide clip 20 in the assembled fan unit 1 among the surfaces of the fan holder 30 that are in contact with the side surface of the axial fan 10.
That is, the plurality of guide ribs 31 are disposed at positions where none of the guide ribs abuts the guide clip 20 when the axial fan 10 is incorporated in the fan holder 30 in a predetermined orientation and posture. In addition, the plurality of guide ribs 31 are disposed at positions where at least one of the plurality of guide ribs 31 is in contact with the guide clip 20 when the axial fan 10 is not incorporated in the fan holder 30 in a predetermined direction and posture.

As will be described later, in the fan unit 1 of the present embodiment, the orientation and posture of the axial fan 10 that can be incorporated in the fan holder 30 is determined by the mounting position of the guide clip 20 and the position of the non-guide rib region. Therefore, if the mounting position of the guide clip 20 is wrong, the direction and posture of the axial fan 10 that can be incorporated in the fan holder 30 will also be different.
Therefore, in the present embodiment, in order to reduce mistakes in attaching the guide clip 20, a position that can be easily identified by an operator or the like is determined in advance as the attachment position of the guide clip 20. The attachment position of the guide clip 20 may be determined based on, for example, asymmetry (difference) between the intake surface side and the exhaust surface side of the axial flow fan 10.

For example, as shown in FIG. 5A, the axial fan 10 has a configuration in which a cable groove 11 for passing a cable connected to a motor is provided at opposite corners of two flanges. In general, since the motor and the cable are arranged on either the intake surface side or the exhaust surface side of the axial fan 10, the cable groove 11 through which the cable passes is either one even in the configuration shown in FIG. 5A. In the case of such a configuration, for example, the other cable groove 11 that does not pass the cable may be determined as the attachment position of the guide clip 20 (see FIG. 5B).
The mounting position of the guide clip 20 is not limited to the cable groove 11. For example, if there is a mark that can be easily discriminated such as a hole or a mark, the guide clip 20 may be determined using the mark. Marks such as holes and inscriptions may be applied at the manufacturing stage by the manufacturer of the axial fan 10.

As shown in FIG. 5B, the guide clip 20 is made of, for example, a thin plate spring processed into a clip shape, and is detachably fixed to the flange end portion of the axial fan 10 by its elastic force. The guide clip 20 is fixed to the flange end portion of the axial fan 10, and the tip thereof is bent at approximately 90 degrees and inserted into the cable groove 11, and the thickness of the flange from the flange surface. An extension 21 protruding in the direction is provided.
The guide clip 20 of the present embodiment is formed of a metal material or the like that has an elastic force that does not easily disengage from the flange end of the axial fan 10 and has a strength that prevents the extension 21 from being easily deformed.
The guide clip 20 of the present embodiment can improve the strength against deformation of the extension portion 21 by forming the extension portion 21 into a bent shape. Moreover, as shown in FIG. 5B, by attaching the distal end of the extension portion 21 into the cable groove 11, it is possible to reduce attachment errors that attach the guide clip 20 to an incorrect position.

The portion of the extension 21 that protrudes from the flange surface is set to a length that makes contact with the adjacent guide rib 31 when the axial fan 10 is not installed in the fan holder 30 in a predetermined orientation and posture. For example, when the clearance between the flange surface of the axial fan 10 and the guide rib 31 is about 1 mm, the length of the portion protruding from the flange surface of the extension portion 21 may be formed to be about 3 mm (see FIG. 5B). ).
If the length of the portion protruding from the flange surface of the extension portion 21 is, for example, about 2 mm, the extension portion 21 is only in contact with the guide rib 31 in a small area when the axial flow fan 10 is incorrectly assembled to the fan holder 30. It is because it does not touch. In this case, an operator who assembles the fan unit 1 may deform the extension portion 21 and forcibly incorporate the axial fan 10 into the fan holder 30.
In order to suppress such an aggressive assembly work by an operator, a portion protruding from the flange surface of the extension portion 21 may be set to a length that reliably contacts the guide rib 31.

  Further, as shown in FIG. 5B, the extension portions 21 provided on the guide clip 20 are preferably protruded on both sides of the flange of the axial fan 10. By projecting the extension portion 21 on both sides of the flange, the extension portion 21 can be brought into contact with the guide ribs 20 on both sides of the flange when the axial flow fan 10 is not properly assembled to the fan holder 30. In that case, in order to deform the extension portion 21 and to incorporate the axial fan 10 into the fan holder 30, a larger force is required, so that an aggressive assembly operation by an operator can be further suppressed.

The cable passed from the motor into the cable groove 11 passes through the notch 32 (see FIG. 4) provided in the _first fan holder 301 from the side surface of the axial fan 10 to the outside of the fan holder 30. Pulled out.
Figure 4 is provided with a notch 32 in the first fan holder 30 _1, the first fan holder 30 _1, in a position corresponding to the flange end portion for attaching the guide clip 20 shown in FIG. 5B, the non-guide ribs The structural example which provides an area | region is shown.
The fan holder 30 provided with the notch 32 is not limited to the _first fan holder 301, and may be provided in the _second fan holder 302. However, in that case, it is necessary to provide the second fan holder 30 ₂ to the non-guide rib region.

  Further, it is desirable to attach an elastic member such as rubber or cushion to the flange surface of the frame of the axial fan 10 in order to reduce vibration and noise generated when the axial fan 10 is in operation. In that case, the gap between the flange surface of the axial fan 10 and the guide rib 31 may be set in consideration of the thickness of the elastic member. For example, when an elastic member having a thickness of about 1 mm to 2 mm is affixed to the flange surface of the axial fan 10, each guide rib 31 may be disposed so that the gap with the flange surface is about 1 mm.

  FIG. 6 is an enlarged view of a main part showing an example of the positional relationship between the guide clip and the guide rib when the fan unit shown in FIG. 1 is assembled as designed. FIG. 7 is an essential part enlarged view showing an example of the positional relationship between the guide clip and the guide rib when the fan unit shown in FIG. 1 is not assembled as designed. FIG. 8 is a front view showing an example of the positional relationship between the first fan holder and the second fan holder in the fan unit shown in FIG.

In the fan unit 1 of this embodiment, when the axial fan 10 is incorporated in the fan holder 30 in a predetermined orientation and posture, the guide clip 20 is positioned in the non-guide rib region as shown in FIG. In this case, since the guide clips 20 (extension 21) does not abut with either of the guide rib 31 can be integrated with the first fan holder 30 ₁ and the second fan holder 30 ₂ as shown in FIG.

On the other hand, when the axial fan 10 is not incorporated in the fan holder 30 in a predetermined direction and posture, the guide rib 31 exists at a position overlapping the guide clip 20 as shown in FIG. In this case, since the guide clips 20 (extension 21) contacts the guide rib 31 adjacent, can not be integrated with the first fan holder 30 ₁ and the second fan holder 30 ₂ as shown in Figure 8.

That is, in the fan unit 1 of the present embodiment, the axial fan 10 is incorporated into the fan holder 30 only in the orientation and posture determined by the mounting position of the guide clip 20 and the non-guide rib region and the position where each guide rib 31 is disposed. it can.
Therefore, if the guide ribs 31 and the non-guide rib regions are appropriately arranged according to the mounting position of the guide clip 20 and the direction and orientation of the axial fan 10 incorporated in the fan holder 30, the direction in which the axial fan 10 is designed is designed. And can be incorporated into the fan holder 30 in a posture.
Therefore, according to the fan unit 1 of the present embodiment, the axial fan 10 can be incorporated with respect to the fan holder 30 in a predetermined direction and posture.

In addition, it is preferable that the guide clip 20 contacts the guide rib 31 at a stage where the guide hole 34 and the positioning pin 33 do not reach when the axial fan 10 is not properly assembled to the fan holder 30. For example, when a pin having a diameter of about 3 mm is used as the positioning pin 33, considering the strength required for the positioning pin 33, the height of the positioning pin 30 is about 3 mm. In that case, as the first fan holder 30 ₁ and the second fan holder 30 ₂ contacts the guide clips 20 at the stage that is remote over 5 mm, may be set the shape or size of the guide ribs 31.
In such a configuration, when the axial flow fan 10 is mistakenly assembled to the fan holder 30, a large resistance is generated to integrate the fan holder 30 from the stage where the positioning pin 33 and the guide hole 34 do not reach (FIG. 8). Therefore, it is possible to further reduce the forcibly assembling work of the fan unit 1 by the operator when the axial flow fan 10 is not correctly assembled to the fan holder 30.

(Second Embodiment)
In the first embodiment described above, an example of providing a first fan holder 30 _first and second fan ribs 31 of the holder 30 ₂ to Ryakusan Kakujo. The fan unit 2 of the second embodiment is an example in which the shape of the guide rib is different from that of the first embodiment.
FIG. 9 is a front view illustrating a shape example of a guide rib included in the fan unit according to the second embodiment.
As shown in FIG. 9, the fan unit 2 according to the second embodiment has a configuration in which a substantially trapezoidal guide rib 41 is provided in each of a _first fan holder 301 and a second fan holder 30 ₂ (not shown). It is. Even with such a configuration, the same effect as that of the fan unit 1 of the first embodiment can be obtained. Since other configurations are the same as those of the first embodiment, the description thereof is omitted.

  The guide rib included in the fan unit of the present invention is (1) disposed at a position where the end of the flange of the axial fan 10 is sandwiched so that the axial fan 10 can be held by the fan holder 30. In addition, the guide ribs are (2) shaped or sized so as not to cover even the intake and exhaust surfaces of the axial fan 10 so as not to hinder the air flow generated by the axial fan 10. To do. However, the guide rib has a shape or size that abuts on the guide clip 20 attached to the axial flow fan 10 when (3) the axial flow fan 10 is not correctly assembled to the fan holder 30.

The guide rib 41 provided in the fan unit 2 of the second embodiment shown in FIG. 9 shows an example of a shape and a size that satisfy these conditions (1) to (3).
The guide rib is not limited to the shape and size shown in the first embodiment and the second embodiment, and any shape or shape can be used as long as the above conditions (1) to (3) are satisfied. It may be a size. For example, each guide rib may have a shape that sandwiches the entire outer periphery of the two flanges of the axial fan 10.

(Third embodiment)
In the above-described first and second embodiments, the configuration example in which the guide clip 20 includes the extension portion 21 that protrudes in the thickness direction of the flange of the axial fan 10 has been described. The fan unit according to the third embodiment is an example in which the configuration of the guide clip 50 is different from those of the first and second embodiments.
FIG. 10 is a perspective view illustrating a configuration example of a guide clip included in the fan unit according to the third embodiment.
As shown in FIG. 10, the guide clip 50 according to the third embodiment is made of a thin plate processed into a U shape, and is configured to be fixed to the flange end of the axial fan 10 using a screw 51.

  In the third embodiment, the head portion and the screw tip of the screw 51 that fixes the guide clip 50 are used as the extension portion protruding in the thickness direction of the flange of the axial fan 10. As in the first embodiment, the screw 51 may be selected such that its head and screw tip protrude from the flange surface of the axial flow fan 10 by about 3 mm, for example. The guide clip 50 may be fixed to the flange end of the axial fan 10 using bolts and nuts. In that case, the bolts and nuts are used as extensions that protrude in the thickness direction of the flange of the axial fan 10. Even with such a configuration, the same effect as that of the fan unit 1 of the first embodiment can be obtained. Since other configurations are the same as those of the first embodiment, the description thereof is omitted.

  The guide clip 20 shown in the first embodiment needs to be manufactured by selecting a shape or material that does not easily disengage from the axial fan 10 and does not easily deform. On the other hand, in the third embodiment, since the guide clip 50 is fixed to the axial fan 10 using the screw 51, the guide clip 50 can be easily manufactured.

  In the third embodiment, since the head and the screw tip of the screw 51 or the bolt and the nut are used as the extension portion protruding in the thickness direction of the flange of the axial fan 10, the guide clip 50 made of a thin plate is used. It is possible to eliminate itself. In that case, only the screws 51 or bolts and nuts may be attached to the required corners of the flange of the axial fan 10.

  Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various modifications that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1, 2 Fan unit 10 Axial fan 11 Cable groove | channel 20, 50 Guide clip 21 Extension part 30 Fan holder 30 ₁ 1st fan holder 30 ₂ 2nd fan holder 31, 41 Guide rib 32 Notch part 33 Positioning pin 34 Guide hole 51 Screw 100 Electronic device 110 Heating component

Claims (9)

An axial fan,
A fan holder for holding the axial flow fan;
A guide clip attached to a predetermined position of the axial fan;
Have
The fan holder is
When the axial fan is incorporated in the fan holder in a predetermined orientation and orientation, none of the guide clips comes into contact with the axial fan, and the axial fan is incorporated in the fan holder in the prescribed orientation and orientation. A fan unit comprising a plurality of guide ribs sandwiching a flange of the axial fan, at least one of which is in contact with the guide clip if not.   The fan unit according to claim 1, wherein the guide clip includes an extension that protrudes from a surface of the flange in a thickness direction of the flange.   The fan unit according to claim 2, wherein the extension portion protrudes on both sides of the flange. A groove at the end of the flange;
The fan unit according to claim 2 or 3, wherein a tip of the extension portion is bent and positioned in the groove.   The fan unit according to claim 3, wherein the extension is a screw.   The fan unit according to claim 3, wherein the extension is a bolt and a nut. The flange is substantially square;
The fan unit according to any one of claims 1 to 6, wherein the plurality of guide ribs are disposed at positions that sandwich at least a corner portion of the flange. The fan holder is
A first fan holder that holds the axial flow fan by sandwiching the axial fan from two opposite directions; and the second fan holder, and a positioning pin is provided on one of the first fan holder and the second fan holder. A guide hole into which the positioning pin is inserted is provided on the other side,
The guide rib is
The shape or size of the axial flow fan that abuts on the guide clip when the positioning pin and the guide hole do not reach when the axial fan is not incorporated in the fan holder in the predetermined direction and posture. The fan unit according to any one of 1 to 7.   The fan unit according to any one of claims 1 to 8, wherein the predetermined position is a predetermined position.