KR19990003736A - Spindle Motor for Hard Disk Drive - Google Patents

Abstract

The present invention relates to a spindle motor for a hard disk drive, and the main object of the present invention is to enable a simple structure by utilizing the limited space to the maximum, and to exhibit high performance rotational force and to contribute to cost reduction of the product. It is.

A characteristic configuration for this purpose is that the central part of the disc is dug in and has a recess, the bottom face of which is projected down by the recess, the flange reference surface, a dish-shaped flange having a stepped portion, fixed on the recess of the flange. A stator, a motor shaft fixedly fixed to the center of the flange, an upper and lower pairs of bearings inserted from the upper end of the motor shaft, a hub formed in the upper and lower ends of the bearing and formed to be rotatable, and In a spindle motor composed of a magnet attached to a lower end of a hub, the hub extends horizontally from an interruption of the outer diameter portion, and forms an extension portion having a rounded jaw, and then a magnetic blocking member on the inner diameter of the expansion portion. To attach a magnet comprising a, wherein the magnetic center of the magnet is formed to be the same as the height of the flange reference plane It will help you.

Description

Spindle Motor for Hard Disk Drive

1 is an illustration of an out rotor type spindle motor

Figure 2 is an illustration of the spindle motor of the in-hub type

Figure 3 is a cross-sectional view of the spindle motor showing the configuration of the present invention

4 is a cross-sectional view showing an exploded state of the present invention.

* Explanation of symbols for main parts of the drawings

3: rotating shaft 4: flange

5: hub 6: stator

7: rotor 8: bearing

The present invention relates to a spindle motor for a hard disk drive, and in particular, in an in hub type spindle motor, the structure is improved to increase the rotational performance of the rotor and contribute to cost reduction.

In general, a spindle motor used for a hard disk drive tends to have a smaller volume and a larger storage capacity. Typically, there is an outer rotor type motor 1 as shown in FIG. 1 and as shown in FIG. There is a motor 2 of the in-hub type.

The former is configured to rotate the hub 12 on the upper side of the substrate 11 with the motor 1 of the hard disk drive provided at the bottom of the substrate 11, and the latter of the hard disk drive. The motor 2 is provided in the upper surface of the board | substrate 21, ie, the lower part of the hub 22. As shown in FIG.

In recent years, a more in-hub type motor 2 of the outer rotor type motor 1 is used because it can improve the rotation state while lowering the overall height of the product.

However, in the case of the in-hub type, the performance required to rotate a relatively large load (multiple disks) is relatively high torque, so it cannot be expanded in the axial direction, and the total thickness of the drive is limited, so the longitudinal direction of the shaft is limited. Again, it is not scalable.

Therefore, the present invention has been made to solve various problems of the related art as described above. The main object of the present invention is to make a simple structure by utilizing the limited space to the maximum, and to exhibit high performance rotational force, It is to be able to contribute to cost reduction.

And a characteristic configuration for this is that the central portion of the disc is dug in and has a recess, the bottom of which protrudes down by the above-mentioned recess, the flange reference surface, a plate-shaped flange having a stepped portion, fixed on the recess of the flange A stator, a motor shaft fixedly fixed to the center of the flange, an upper and lower pair of bearings inserted from the upper end of the motor shaft, and a hub formed in the upper and lower ends of the bearing so as to be rotatable, In the spindle motor composed of a magnet attached to the lower end of the hub, the hub extends horizontally from the middle of the outer diameter portion and the middle portion of the outer diameter portion to form an extension having a round jaw, and then magnetically blocking the inner diameter of the expansion portion. A magnet including a member is attached, but the magnetic center of the magnet is equal to the height of the flange reference plane. Which it will to.

Hereinafter, the configuration and operation of the present invention according to the accompanying drawings in detail as follows.

3 is a cross-sectional view showing the configuration of the present invention, which can be seen that it consists of a flange 4 including a stator 6, a rotating shaft 3, and a hub 5 including a rotor 7.

The flange 4 has a recess 42 in which a central portion of the disc 41 is dug inwards in a dish shape, and protrudes downward from the flange reference surface 43 by the recess 42 at the bottom thereof. 44).

And the stator 6 is fixed on the recessed part 42 of the said flange 4, The lower end of the rotating shaft 3 is fixed to the bottom of the center.

The hub 5 is arranged on the upper end of the rotating shaft 3, and is rotatable through a pair of bearings 8 on the inner diameter portion 50 of the hub 5, and the hub 5 is rotatable. After forming the outer diameter portion 51 and the extension portion 53 having a rounded projection 52 extending horizontally from the interruption of the outer diameter portion, the magnetic blocking member 71 is included in the inner diameter of the expansion portion 53. The magnet 72 is attached.

At this time, the important point is to form so that the height of the magnetic center (G) of the magnet 72 is the same as the height of the flange reference plane (43).

In addition, the magnetic shield member 71 for preventing the release of the magnetic force line of the magnet 72 is a ring-shaped, the cross section is formed into a horizontal portion 71a and a vertical portion 71b, and then the horizontal portion 71a is a flange ( It is higher than the upper surface 45 of 4), and the lower end of the vertical part 71b is formed so that the bottom of the recessed part 42 may be near.

And the stator (6) is fixed on the recess 42, the height is formed so as to be lower than the annulus 52 of the hub (5).

In addition, the round jaw 52 of the hub 5 is formed to be higher than the upper surface of the flange 4, and the lower end of the extension 53 of the hub 5 is higher than the flange reference plane 43. It is formed to be in position.

The present invention configured as described above is a magnet 72 attached to the inner diameter of the expansion portion 53 below the hub 5 when power is supplied to the coil of the stator 6 fixed on the recess 42 of the flange 4. The magnetic field is formed in) so that the motor can rotate, which is the same as a conventional motor.

At this time, the present invention is formed so that the magnetic center of the magnet 72 is equal to the height of the flange reference surface 43, the magnetic blocking member 71 for preventing the release of the magnetic force line of the magnet 72 is a ring After the cross section is formed as a rim and formed into a horizontal portion 71a and a vertical portion 71b, the horizontal portion 71a is higher than the upper surface 45 of the flange 4, and the lower end of the vertical portion 71b is a concave portion. In addition to being formed close to the bottom of the 42, the stator 6 is formed on the concave portion 42 so that its height is lower than the round jaw 52 of the hub 5, The annulus 52 of the hub 5 is not only formed to be higher than the upper surface of the flange 4, but also the lower end of the extension 53 of the hub 5 is higher than the flange reference surface 43. Motor's magnetic circuit configuration within a hub with a limited outer diameter It is possible to achieve high rotational force, and at the same time, to meet the performance required in the disk drive, for example, magnetic center, mechanical vibration, resonance, NRRO, noise, etc. during rotation, or productivity in the manufacturing process. Will be able to improve.

Claims (5)

A central portion of the disc 41 is dug inward to have a recess 42, and a bottom of the disc 41 protrudes downward by the recess 42 to have a flange reference surface 43 and a stepped portion 44. Flange 4 Stator 6 fixed on recess 42 of said flange, rotary shaft 3 fixedly fixed to the center of said flange 4, shaft insert at the upper end of said rotary shaft 3 Attached to the lower end of the hub (5) formed by the upper and lower pairs of the bearing (8), the bearing (8) formed on the inner diameter portion 50, the lower end to enable rotation In the spindle motor composed of one magnet 72, the hub 5 extends horizontally from the stop of the outer diameter portion 51 and the outer diameter portion to form an expansion portion 53 having a round jaw 52, A magnet 72 including a magnetic blocking member 710 is attached to the inner diameter of the expansion part 53, wherein the magnetic center of the magnet 72 is the flange. Spindle motor for a hard disk drive, characterized in that formed to be equal to the height of the reference plane (43). The hard disk according to claim 1, wherein the stator (6) is fixed on the concave portion (42), and the height thereof is formed at a position lower than the round jaw (52) of the hub (5). Spindle motor for drive. 2. The spindle motor for a hard disk drive according to claim 1, wherein the round jaw (52) of the hub (5) is formed at a position higher than the upper surface of the flange (4). 2. The spindle motor of claim 1, wherein the lower end of the extension part of the hub is formed at a position higher than the flange reference plane. 3. The magnetic shield member 71 of the magnet 72 is formed of a horizontal portion 71a and a vertical portion 71b, and then the horizontal portion 71a is formed on the upper surface 45 of the flange 4. And a lower end of the vertical portion (71b) is formed to be close to the bottom of the recessed portion (42).