KR900008916Y1 - Spindle motor - Google Patents

Abstract

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Description

Spindle motor

1 is a structural diagram of a spindle motor according to the present invention.

2 is a detailed view of the rotor of FIG. 1 viewed from the bottom of the flange 2. FIG.

3 is a detailed view of the labyrinth portion in FIG.

4 is a structural diagram of a spindle motor conventionally implemented.

* Explanation of symbols for main parts of the drawings

1: Cap hub rotor hub 2: Rotor hub flange

3: permanent magnet 4: rotor shaft

5: stator core 6: stator winding

7: bearing 8: Brekit

9: flange for installation 10: closed portion

11: Small protrusion for labyrinth of rotor hub

12: Small projection for the labyrinth of the installation flange

The present invention relates to a spindle motor for rotational drive of a magnetic disk used in a storage device such as an electronic calculator.

4 is a structural diagram showing an embodiment of a spindle motor conventionally implemented, wherein (1) is a cap-shaped rotor hub, (2) is a flange of the rotor hub, and (3) , Permanent magnet, (4), rotor shaft, (5), stator core, (6), stator winding, (7), bearing, (8) It is a kit, and (9) is a snow flange.

In the spindle motor according to the related art shown in FIG. 4, a plurality of stator windings 6 are formed on a cylindrical stator core 5 fixedly attached to a Brekit 8 formed integrally with the installation flange 9. To the outer periphery of the stator, the cylindrical permanent feldspar (3) is integrally fixed to the inner periphery of the cap-shaped rotor hub (1). Rotation is freely supported by a bearing 7 provided with a fixed sterile rotor shaft 4 inside the Brekit 8, and a magnetic disk (not shown) outside the cap-shaped rotor hub 1 Fixed infertility, the plurality of stator windings 6 are sequentially energized, and the rotor having the permanent magnets 3 is rotated and driven in a predetermined direction, and the magnetic disk is rotated to store the external memory of the electronic calculator. It works as a device.

In the spindle motor of the prior art shown in FIG. 4, it is important that the surface of the magnetic disk is extremely clean, and even if very fine dust is attached to the surface of the magnetic disk, it may interfere with the operation of writing or reading data. In this case, the entire spindle motor on which the magnetic disk is mounted is enclosed in a sealed case so that no dust or the like enters from the outside.

By the way, the sealed structure as described above prevents the intrusion of dust from the outside, but there is a problem that the vapor of the lubricant of the bearing adheres to the magnetic disk.

The present invention is a means for solving the problem of the spindle motor according to the prior art as described above, while closing the hole for mounting the bearing of the brackets formed in the center of the mounting flange, Leverlin, which has a small round annular projection on the surface facing each other of the flange and the mounting flange, alternately placed on the flange of the rotor hub and the mounting flange, and with a slight gap in the same center shape. Labyrinth) is characteristic.

The spindle motor of the present invention prevents the bearing mounting hole formed in the center of the installation flange and opposes the round annular small projections on both sides of the flange of the cap hub rotor hub facing the flange. The formed lever rinse prevents the flow of air between the inner space of the stator, which has placed the bearing, and the outer space formed by the rotor hub and the mounting flange, so that the vapor of the lubricant of the bearing adheres to the magnetic disk. Can be prevented.

When described in detail by the accompanying drawings of the present invention as follows.

FIG. 1 is a structural diagram showing one embodiment of the present invention, in which portions common to those in FIG. 4 are denoted by the same reference numerals, and description thereof will be omitted.

2 is a detailed view of the rotor of FIG. 1 seen from the bottom of the flange 2, and FIG. 3 is a detailed view of the labyrinth portion A. FIG.

In FIG. 1, FIG. 2, and FIG. 3, 10 is the block | closure part of the bearing mounting hole formed in the installation flange 9, and 11 and 12 are the flanges of a rotor hub. These are labyrinth small projections respectively formed on the installation flange, and each of the round annular projections is extruded extremely narrowly by projecting alternately round annular projections in the same center shape and alternately.

In this way, the rotor is rotated by accessing and excavating the round annular projections on both sides, and even though negative air pressure is generated near the flange of the rotor hub by the rotation of the magnetic disk, the hole in the center of the installation flange is blocked. The pressure of the air accumulated between the small protrusions 11 and 12 formed on each of the rotor hub and the mounting flange is increased by the rotation of the small protrusions 12 formed on the rotor hub and the lubricant of the bearing. Vapors do not adhere to the magnetic disk.

Since the present invention has the same construction as above, the bearing is formed by blocking the hole of the installation flange and by the action of the labyrinth of the circularly annular projection of the same center formed in the flange of the rotor hub and the installation flange. Since the passage of air between an inner space and the outer space formed by the rotor hub and the mounting flange is blocked, dust entering from the outside or steam of the lubricant of the bearings enters the room accommodating the magnetic disk, It can be prevented from adhering to the surface of the disk.

Claims (1)

The rotor which fixedly fixed the cylindrical permanent magnet 3 inside the cap-shaped rotor hub 1, and the permanent magnet 3 and the space | gap inside the rotor of this rotor are disposed to face each other. And a cylindrical shaft stator, and a brekit 8 supporting the stator, and the rotator shaft 4 integrally fixed and sterile to the bottom of the cap-shaped rotor hub 1 In the spindle motor having a structure in which rotation is freely supported by the bearing (7) disposed in (8), the hole for mounting the bearing formed on the mounting flange (9) side of the Brekit (8) is blocked. And a flange (2) formed at the release end of the cap-shaped rotor hub (1) and a ring-shaped ring on a surface facing each of the mounting flange (9) fixedly attached to the Brekit (8). Small projections (11), (12) of the same center shape, and also on the rotor hub (1) Each generated alternately in the flange 2 and the flange 9 formed in the breather kit (8), and Motor spindle, it characterized in that the placing disposed a narrow air gap.