JP2008131791A - Drainage structure of fan motor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a drainage structure which is simple and easy to manufacture with a minimum number of parts. <P>SOLUTION: A recessed portion 8 having a rising wall surface 6 and a bottom surface 7 is formed at the lowest position of a housing 4. A small chamber 10 is formed between the recessed portion 8 and a ring member 5. A water discharge hole 9 is formed at a root of the rising wall surface 6 of the recessed portion 8. At a position facing the central portion of the recessed portion 8, a drainage hole 11 is formed in the ring member 5. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a drainage structure for an electric fan motor of various vehicles.

A vehicle radiator, a condenser, and the like are cooled by an electric fan motor in a stopped state or in a low running state. This fan motor needs to be protected from water splashing by the tire and water from the hoisting water. In addition, when water enters the motor, it is necessary to quickly discharge the water to the outside.
As such a drainage structure for a fan motor, a structure described in Patent Document 1 has been proposed. This fan motor bisects the lower end of the hanging in the axial direction by a permanent magnet as a stator, forms a first drain hole at the front position at the bottom of the hanging, and faces downward near the end cover of the hanging. A second drain hole is provided. A maze-like cover is fitted into the second drain hole.

Japanese Patent No. 3168177 Japanese Utility Model Publication No. 7-24923

The above drainage structure requires processing for draining at the front end portion and the rear end portion in the axial direction of the hanging, and it is necessary to attach a separate cover member to the rear end portion. Since this cover member needs to cope with the heat generation of the engine and the motor, a material having high heat resistance is used, which may increase the cost.
In addition, when the cover member is damaged or dropped, water enters the casing, and there is a risk that the deterioration of the fan motor may be deteriorated due to progress of insulation deterioration or corrosion.
Furthermore, since a separate part for covering the drain hole is required, the material cost is increased and the number of assembling steps is increased. As a result, there is a problem that the price of the fan motor is increased.
Therefore, an object of the present invention is to solve such problems.

The present invention according to claim 1 includes a cylindrical housing with a bottom (4) in which a rotor (1) and a stator (2) are housed and whose opening is closed by an end cover (3).
In a drainage structure for a fan motor having a ring member (5) that aligns with the outer periphery of the housing (4) and is fitted in a ring shape on the outer periphery to form a motor mounting portion,
A concave portion (8) having a rising wall surface (6) and a bottom surface (7) is provided on the inner surface side at the lowermost position of the housing (4) at a position facing the ring member (5). A water discharge hole (9) is provided at or near the root of the raised wall (6),
A small chamber (10) is formed between the recessed portion (8) and the ring member (5), and a drain hole (11) is formed in the ring member (5) so as to face the center of the bottom surface (7). Is a drainage structure of a fan motor, characterized in that

The present invention according to claim 2 is the method according to claim 1,
The raised wall surface is formed in a trapezoidal shape with the recessed portion (8) having a height equal to or lower than the height of the stator (2), and is located on both sides of the recessed portion (8) in the axial direction of the housing (4). The fan motor drainage structure is characterized in that at least a pair of the water discharge holes (9) are provided at the root of (6).
The present invention described in claim 3 provides the method according to claim 2,
A water drainage structure for a fan motor, characterized in that a water diffusion part (12) whose section along the circumferential direction of the housing (4) protrudes in an arc shape is provided on the outer surface side of the center part of the bottom surface (7). is there.

A fourth aspect of the present invention provides the method according to any one of the first to third aspects,
The stator (2) is composed of a pair of arc-shaped magnets (2a), and the lower end edge of each magnet (2a) is positioned on the rising wall surface (6) of the recessed portion (8). This is a drainage structure for the fan motor.

In the drainage structure of the fan motor of the present invention, a recessed portion 8 is provided on the inner surface side of the lowermost part of the hanging 4, and a water discharge hole 9 is provided at or near the root of the rising wall surface 6. A small chamber 10 is formed between the ring member 5 and a drain hole 11 formed in the ring member 5 so as to face the center of the bottom surface 7.
With this configuration, the water that has entered the hanging 4 is discharged through the water discharge hole 9 at the base of the recessed portion 8, the small chamber 10, and the water drain hole 11 in the ring member 5.
Further, the incoming water 17 that enters the water from the drain hole 11 of the ring member 5 collides with the bottom surface 7 of the recessed portion 8 and is weakened and is discharged from the upper surface of the ring member 5 of the small chamber 10 to the water drain hole 11. On the other hand, water that has partially entered the housing through the water discharge hole 9 is discharged from the water discharge hole 9 to the outside again through the small chamber 10 and the drain hole 11. In addition, this drainage structure can provide a drainage structure that is simple in structure and difficult to break down at low cost because it requires only slight processing on the conventional hanging 4 and ring member 5 and does not require other parts.

In the above configuration, the concave portion 8 is formed in a trapezoidal shape, and the water discharge holes 9 are provided at the roots on both sides of the concave portion 8 in the axial direction of the hanging 4. Even if the fan motor is inclined on a slope or the like, the water can be drained from any one of the water discharge holes 9.
In the above configuration, when the water diffusion portion 12 having a cross section along the circumferential direction of the hanging 4 protruding in an arc shape is provided on the outer surface side of the center portion of the bottom surface 7, the ingress water 17 entering from the drain hole 11 is watered. The dispersed water is dispersed in the circumferential direction by the diffusing portion 12, and the dispersed water can be surely discharged from the drain hole 11 without moving the water to the water discharge holes 9 located on both sides in the axial direction.

  In any of the above configurations, when the stator 2 is composed of a pair of arc-shaped magnets 2a and the lower end edges of the respective magnets 2a are positioned on the rising wall surface 6 of the recessed portion 8, at least at the lower end portion of the magnet 2a. It is possible to provide a fan motor that does not require a positioning member, has a simple structure, and has a small number of parts.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a partially cutaway front view of a fan motor having a drainage structure according to the present invention, FIG. 2 is a schematic sectional view taken along the line II-II, and FIG. 3 is an enlarged view of the drainage structure in FIG. FIG. 4 is a schematic perspective view of the recessed portion 8 as seen from the inner surface side of the hanging 4.
This fan motor has a hanging 4 formed in a bottomed cylindrical shape and an end lid 3 that closes one end opening thereof. As shown in FIG. 2, a stator 2 comprising a pair of magnets 2a and a rotor 1 are housed inside the hanging 4. An output shaft 14 shown in FIG. 1 is fixed to the rotor 1 at its center, and both end portions thereof are supported by the bearing 13 of the end cover 3 and the bearing 13 provided at the bottom of the hanging 4, and one end of the output shaft 14 is an axis line. Protrude in the direction. A fan (not shown) is attached to the output shaft 14.

  A ring-shaped ring member 5 that matches the outer periphery of the hanging 4 is fitted, and the two are integrally fixed by means such as welding. At one end edge in the axial direction of the ring member 5, a flange portion 16 is provided so as to protrude in a direction perpendicular to the axial line, spaced from each other by 120 °. The flange portion 16 is provided with a bolt hole, and a fan motor is integrally mounted on the axis of the fan shroud via a bolt inserted through the flange portion 16 and a stay of the fan shroud. The hanging 4 is provided with a recessed portion 8 on the inner surface side at the lowest position.

  As shown in FIG. 4, the recessed portion 8 has a trapezoidal cross section, and has a bottom surface 7 whose peripheral portion becomes a rising wall surface 6. And in the center part of the circumferential direction of the bottom face 7, the water diffusion part 12 which protrudes in cross-sectional arc shape is provided in the outer surface side. The width of the recessed portion 8 in the axial direction (hereinafter simply referred to as the axial direction) of the handling 4 is substantially equal to the axial width of the laminated iron plate of the rotor 1. At the same time, it is approximately equal to the width of the magnet 2a of the stator 2. A pair of water discharge holes 9 are formed at the roots of the two rising portions 6 in the axial direction.

  The lower end edges of each of the pair of magnets 2 a are in contact with both rising wall surfaces 6 in the circumferential direction of the recessed portion 8. The magnet holder 18 is press-fitted into the space between the upper end edges of the two magnets 2a (FIG. 2). Thereby, the pair of magnets 2a is positioned and fixed to the inner surface of the hanging 4. As shown in FIG. 5, the magnet holder 18 is formed in a U-shape as an example, and is made of a material that can be elastically deformed in a direction in which the U-shaped opening can be expanded and contracted. A ring member 5 is fitted on the outer surface side of the recessed portion 8 of the housing 4. The ring member 5 is provided with a drain hole 11 facing the center of the bottom surface 7 of the recessed portion 8.

(Function)
In rainy weather, when the fan motor is flooded by splashing water or hoisting water from a vehicle tire, the ingress water 17 enters the small chamber 10 from the drain hole 11 in the form of a fountain as shown in FIG. Then, the ingress water 17 collides with the bottom surface 7 of the recessed portion 8 and is dispersed in the circumferential direction by the water diffusing portion 12, the momentum is weakened and falls to the upper surface of the ring member 5 in the small chamber 10, and most of the water is water. It falls downward from the hole 11. A part of the water enters the inside of the hanging 4 from the water discharge hole 9, but immediately returns to the lowest position of the hanging 4 and is discharged from the water discharge hole 9 to the outside through the small chamber 10 and the drain hole 11.

  In addition, since the water diffusion part 12 is formed in the center part of the bottom face 7 of the recessed part 8, the water diffusion part 12 of the ingress water 17 when entering from the drain hole 11 is clear from FIG. 2 and FIG. It moves in the circumferential direction along the outer surface of the and weakens its momentum. Since the movement of the incoming water in the axial direction is small, the incoming water hardly enters the interior from the water discharge holes 9 on both sides in the axial direction.

The partially broken front view of the fan motor which has the drainage structure of this invention. II-II cross-sectional schematic of FIG. The principal part enlarged view of the drainage structure of this invention. The perspective view in the inner surface side of the recessed part 8 provided in the same drainage structure. 1 is a schematic perspective view showing an example of a magnet holder 18 for positioning a pair of stators 2 of a fan motor of the present invention.

Explanation of symbols

1 Rotor 2 Stator
2a Magnet 3 End cover 4 Handling 5 Ring member 6 Standing wall 7 Bottom 8 Depression 9 Water discharge hole

10 Komuro
11 Drain hole
12 Water diffusion part
13 Bearing
14 Output shaft
15 coils
16 Flange
17 Ingress water
18 Magnet holder

Claims (4)

A bottomed cylindrical housing (4) in which a rotor (1) and a stator (2) are housed and an opening is closed by an end cover (3);
In a drainage structure for a fan motor having a ring member (5) that aligns with the outer periphery of the housing (4) and is fitted in a ring shape on the outer periphery to form a motor mounting portion,
A concave portion (8) having a rising wall surface (6) and a bottom surface (7) is provided on the inner surface side at the lowermost position of the housing (4) at a position facing the ring member (5). A water discharge hole (9) is provided at or near the root of the raised wall (6),
A small chamber (10) is formed between the recessed portion (8) and the ring member (5), and a drain hole (11) is formed in the ring member (5) so as to face the center of the bottom surface (7). ) Is formed, and the fan motor drainage structure is formed. In claim 1,
The raised wall surface is formed in a trapezoidal shape with the recessed portion (8) having a height equal to or lower than the height of the stator (2), and is located on both sides of the recessed portion (8) in the axial direction of the housing (4). A drainage structure for a fan motor, characterized in that at least a pair of the water discharge holes (9) is provided at the root of (6). In claim 2,
A water drainage structure for a fan motor, characterized in that a water diffusion part (12) whose section along the circumferential direction of the housing (4) protrudes in an arc shape is provided on the outer surface side of the center part of the bottom surface (7). In any one of Claims 1-3,
The stator (2) is composed of a pair of arc-shaped magnets (2a), and the lower end edge of each magnet (2a) is positioned on the rising wall surface (6) of the recessed portion (8). The drainage structure of the fan motor.

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