KR20070055124A - Spindle motor - Google Patents

Abstract

Disclosed is a spindle motor which prevents leakage of oil impregnated in a bearing. The spindle motor flows out of the bearing and the oil introduced into the upper surface of the stopper and the bearing hits the blocking frame formed on the upper surface of the bearing, partly is re-introduced into the rotating shaft, and part is absorbed by the bearing. Thus, the oil impregnated in the bearing is suppressed or prevented from leaking to the outside of the bearing housing, thereby extending the life of the spindle motor.

Description

Spindle Motors {SPINDLE MOTOR}

1A is a cross-sectional view of a conventional spindle motor.

1B is an enlarged view of a portion “A” of FIG. 1A.

2A is a cross-sectional view of a spindle motor in accordance with one embodiment of the present invention.

2B is an enlarged view of a portion “B” of FIG. 2A.

Figure 3 is an enlarged view of the main part according to another embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: bearing housing 120,220: bearing

125,225: block 130: axis of rotation

140: stator 150: rotor

170: stopper

The present invention relates to a spindle motor which prevents leakage of oil impregnated in a bearing.

1A is a cross-sectional view of a conventional spindle motor, and FIG. 1B is an enlarged view of portion “A” of FIG. 1A, and will be described.

As shown, the bearing housing 13 is provided standing up to the base (11). The bearing 15 is press-fitted into the bearing housing 13, and the lower side of the rotating shaft 17 is supported by the bearing 15.

A stator 19 having a core 19a and a coil 19b is fixed to an outer surface of the bearing housing 13, and a rotor yoke 21a and a rotor yoke 21a are formed at a portion of the rotating shaft 17 exposed to the upper side of the bearing housing 13. The rotor 21 having the magnet 21b is fixed. Thus, when a current is supplied to the coil 19b of the stator 19, the rotor 21 rotates by the action of the stator 19 and the rotor 21, thereby rotating the rotary shaft 17.

The bearing 15 is impregnated with oil. The oil impregnated in the bearing 15 flows to the interface between the bearing 15 and the rotary shaft 17 when the rotary shaft 17 rotates, thereby forming an oil film, whereby the rotary shaft 17 rotates smoothly.

At this time, the oil flowing to the interface of the bearing 15 and the rotary shaft 17 is raised or lowered along the interface of the bearing 15 and the rotary shaft 17, the raised oil leaks to the outside of the bearing housing (13) do. In order to prevent this, the stopper 23 is press-fitted to the outer circumferential surface of the rotating shaft 17 above the bearing 15.

However, even in this structure, the raised oil eventually leaks out of the bearing housing 13 through a gap Gap between the outer surface of the stopper 23 and the inner surface of the bearing housing 13. Then, there is a shortage of oil, the friction force between the rotary shaft 17 and the bearing 15 is increased, thereby, the rotary shaft 17 does not rotate smoothly, there is a disadvantage that the life of the spindle motor is shortened.

Reference numeral 12 denotes a circuit board, 25 denotes a turntable on which the disc 50 is mounted, and 27 denotes a ball for reducing vibration.

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention is to provide a spindle motor that can prevent the leakage of the oil impregnated in the bearing to extend the life of the motor.

Spindle motor according to the present invention for achieving the above object, the bearing housing has an open upper surface; A bearing installed inside the bearing housing and impregnated with oil; A rotating shaft rotatably supported by the bearing; A stator fixed to an outer surface of the bearing housing; A rotor fixed to the rotating shaft and rotating by the action of the stator; A stopper fixed to an outer circumferential surface of the rotary shaft above the bearing and blocking oil flowing out from the bearing as the rotary shaft rotates and rising along the interface between the rotary shaft and the bearing,

An upper surface of the bearing is formed along the interface between the bearing and the rotating shaft, and then a blocking frame for blocking and absorbing oil leaking to the outside of the bearing housing through the bearing and the stopper is formed.

Hereinafter, a spindle motor according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2a is a cross-sectional view of the spindle motor according to an embodiment of the present invention, Figure 2b is an enlarged view "B" portion of Figure 2a.

As shown, the spindle motor 100 according to the present exemplary embodiment has a bearing housing 110 that is provided in a cylindrical shape with an open top surface and is standing on the base 200.

In the bearing housing 110, a ring-shaped bearing 120 having a predetermined height is press-fitted and installed. At this time, the height of the bearing 120 is provided lower than the height of the bearing housing 110, the upper surface of the bearing 120 is located below the upper surface of the bearing housing 110. In addition, the bearing 120 is formed by sintering. In the sintered bearing, a plurality of pores are formed therein, and the pores are impregnated with oil.

The bearing 120 is installed to be rotatably supported by the lower side of the rotating shaft 130. When the rotating shaft 130 rotates, oil impregnated in the bearing 120 at the interface between the bearing 120 and the rotating shaft 130 is It flows out and forms an oil film. This rotates the rotating shaft 130 smoothly.

A stator 140 having a core 141 and a coil 145 is fixed to an outer surface of the bearing housing 110, and a rotor yoke 151 and a magnet 155 are formed on an outer circumferential surface of the rotating shaft 130 above the bearing housing 110. The rotor 150 having () is fixed. Thus, when a current is supplied to the coil 145, the magnet 155 is rotated by the action of the electric field generated in the coil 145 and the magnetic field generated in the magnet 155, thereby, the rotor yoke 151 and The rotating shaft 130 rotates.

The turntable 160, on which the disk 50 is mounted, is fixed to a portion of the rotation shaft 130 above the rotor 150.

When the rotating shaft 130 rotates, oil impregnated in the bearing 120 flows out and rises or falls along the interface between the bearing 120 and the rotating shaft 130 by capillary action or fluid adhesion. Then, the raised oil leaks to the outside of the bearing housing 110. In order to prevent this, a ring-shaped stopper 170 is press-fitted to the rotating shaft 130. At this time, the stopper 170 is located on the upper side of the bearing 120 and at the same time located inside the bearing housing 110.

If the outer circumferential surface of the stopper 170 and the inner circumferential surface of the bearing housing 110 are in contact with each other, friction noise occurs when the rotating shaft 130 is rotated. As a result, a gap Gap exists between the outer circumferential surface of the stopper 170 and the inner circumferential surface of the bearing housing 110. Therefore, the oil rising on the outer circumferential surface of the rotating shaft 130 eventually flows between the stopper 170 and the bearing 120, and thus, the outside of the bearing housing 110 through the gap between the stopper 170 and the bearing housing 110. Leaks into.

On the upper surface of the bearing 120 according to the present embodiment, a blocking frame 125 that blocks and simultaneously absorbs oil to leak into the gap between the stopper 170 and the bearing housing 110 is protruded.

In detail, the blocking frame 125 protrudes from the edge of the upper surface of the bearing 120 in the form of surrounding the stopper 170. Then, after rising along the interface between the bearing 120 and the rotating shaft 130, the oil introduced between the bearing 120 and the stopper 170 hits the blocking frame 125 of the bearing 120. Some of the oil that has hit the blocking frame 125 is re-introduced to the rotating shaft 130 side, and some of the oil is absorbed into the bearing 120 of the blocking frame 125 due to the characteristics of the sintered bearing. Thus, leakage of oil between the stopper 170 and the bearing housing 110 is suppressed or prevented.

Reference numeral 180 is a circuit board, and 190 is a ball for reducing the vibration of the spindle motor (100).

3 is an enlarged view illustrating main parts according to another exemplary embodiment of the present invention.

As shown, a plurality of blocking frames 225 having a predetermined interval protrude from the upper surface of the bearing 220. At this time, the outermost rim block 225a surrounds the outer circumferential surface of the stopper 270, and the inner rim block 225b is located below the stopper 270.

Then, after rising along the interface between the bearing 220 and the rotating shaft 230, the oil introduced between the bearing 220 and the stopper 270, first hit the inner surface of the inner block 225b. Then, a part of the oil hit the inner block 225b is absorbed into the bearing 220 of the inner block 225b portion due to the characteristics of the sintered bearing, and the portion of the oil is the inner block 225b and the outermost block rim ( 225a).

Oil introduced between the inner barrier frame 225b and the outermost barrier frame 225a collides with the outermost barrier frame 225a, and part of the oil is re-introduced into the rotating shaft 130 side, and some of the oil is in the innermost side due to the characteristics of the sintered bearing. Absorbed into the bearing 220 of the block 225a.

Thus, leakage of oil impregnated in the bearing 220 to the outside of the bearing housing 210 is further suppressed or prevented.

As described above, the spindle motor according to the present invention flows out of the bearing and the oil introduced into the upper surface of the stopper and the bearing hits the blocking frame formed on the upper surface of the bearing, partly reintroduced into the rotating shaft, and part is absorbed by the bearing. . Thus, the oil impregnated in the bearing is suppressed or prevented from leaking to the outside of the bearing housing, thereby extending the life of the spindle motor.

In the above, the present invention has been described in accordance with one embodiment of the present invention, but those skilled in the art to which the present invention pertains have been changed and modified without departing from the spirit of the present invention. Of course.

Claims (2)

An open bearing housing; A bearing installed inside the bearing housing and impregnated with oil; A rotating shaft rotatably supported by the bearing; A stator fixed to an outer surface of the bearing housing; A rotor fixed to the rotating shaft and rotating by the action of the stator; A stopper fixed to an outer circumferential surface of the rotary shaft above the bearing and blocking oil flowing out from the bearing as the rotary shaft rotates and rising along the interface between the rotary shaft and the bearing, The spindle motor is formed on the upper surface of the bearing to rise along the interface between the bearing and the rotating shaft, and to block and absorb the oil leaked to the outside of the bearing housing through the bearing and the stopper. The method of claim 1, The turntable is fixed to the rotating shaft and the turntable on which the disk is mounted, the same as the rotating shaft, The blocking frame is provided in plurality in a predetermined interval, The stopper is a spindle motor located on the upper side of the barrier frame located inside and inside the barrier frame located on the outermost side.

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