KR100366375B1 - Hard disk drive base incorporating a shock damping structure - Google Patents

Abstract

A hard disk drive having a slot located in an outer wall of a disk drive base plate. This base plate can support the spindle motor and the actuator arm. The spindle motor can rotate a disk magnetically coupled to the slider. The slider can be magnetically coupled to the actuator arm, and the slot can dampen the shock wave passing through the base plate.

Description

Hard disk drive base incorporating a shock damping structure

The present invention relates to a hard disk drive.

The hard disk drive includes a plurality of transducers magnetically coupled to a plurality of rotating magnetic disks. These transducers record and read information by stating and sensing the magnetic area of the disc. Such transducers are usually formed integrally with the head fixed to the suspension arm. The suspension arm is attached to the actuator arm. Information is usually stored in sectors of data located in annular tracks on the disc. The actuator arm is attached to a voice coil motor that can conduct current to move the transducer to another track of the disk.

Each head has an air bearing surface that works with the air flow generated by the rotating disk to make an air bearing between the transducer and the disk surface. This air bearing prevents mechanical wear between the disk and the head. It is desirable to minimize the air bearing gap in order to utilize magnetic coupling between the transducer and the disk surface.

The disk is rotated by a spindle motor fixed to the base plate. These spindle motors, disks and heads are wrapped by a cover attached to the base plate. The cover and base plate provide a protective housing for the disc drive.

Hard disk drives are sometimes affected by shock loads. For example, a disk drive can be assembled into a portable computer dropped by a user. Impact rods are usually applied to the surface or outer edge of the housing. The rod generates a shock wave that is transmitted through the housing. The shock wave can cause the head to hit or throw the disk. The impact can damage the disc and / or the head.

Therefore, by providing a hard disk drive having a slot located in the outer wall of the disk drive base plate through an embodiment of the present invention, the base plate capable of supporting the spindle motor and the actuator arm. Spindle motor capable of rotating disks magnetically coupled to the head. It is an object to provide a head mechanically coupled to an actuator arm, a slot for reducing shock waves transmitted through the base plate.

1 shows an embodiment top of a hard disk drive of the present invention.

2 is a side view of the base plate of the disc drive.

3 is a bottom view of the base plate shown in FIG. 2.

4 is a side view of another embodiment of a base plate for a hard disk drive.

5 is a bottom view of the base plate shown in FIG. 4.

The present invention generally encompasses the idea of providing one or more slots in the base plate of a hard disk drive to reduce shock waves transmitted through the drive.

Referring to the drawings in greater detail with reference numerals, FIG. 1 shows an embodiment of a hard disk drive 10 of the present invention. The disk drive 10 includes at least one disk 12 fixed to the spindle motor 14. The spindle motor 14 is fixed to the base plate 16.

Spindle motor 14 rotates disk 12 in relation to head 18. Head 18 includes one or more transducers (not shown) magnetically coupled to disk 12. For example, the head 18 may include one transducer for magnetizing and writing information to the disk 12 and a magnetoresistive transducer for sensing and reading the magnetization region from the disk 12. .

The head 18 may be a gimbal fixed to the suspension arm 20 attached to the actuator arm 22. Actuator arm 22 may be rotatably fixed to base plate 16. Arm 22 may have voice coil 24 coupled to magnetic assembly 26. Coil 24 and magnetic assembly 26 define a voice coil motor 28 that is energized to rotate actuator arm 22 and move head 18 relative to the disk. The transducer, spindle motor 14 and voice coil 24 may all be coupled to an electronic controller (not shown) that operates the disk drive 10. In addition, the components of the drive 10 may be wrapped by a cover 30 attached to the base plate 16.

As shown in FIGS. 2 and 3, the base plate 16 has an outer wall 32 extending around an inner cavity 34. The base plate 16 further comprises a hole 36 to allow entry for the spindle motor 14. The base plate 16 is attached to the printed circuit board assembly (not shown) by a locking member (not shown) which is clamped into the insertion hole 38 of the plate 16.

The outer wall 32 may have a number of slots 40. Slot 40 provides discontinuity in outer wall 28 and base plate 16. Such discontinuity may reduce shock waves transmitted through the outer wall 32. Most impact rods are applied to the outer wall 32 and are understood to be transmitted through the base plate 16. Positioning the slot 40 in the outer wall 32 provides a passive member for reducing the impact rod applied to the disk drive 10.

Each slot 40 is defined by the slope 42 of the outer wall 32 in order to provide structural integration while providing passive members for reducing shock waves. Each slot 40 is elliptical and may have a length longer than the width according to the aspect ratio of the outer wall 32.

4 and 5 illustrate another embodiment of the base plate 16 ', where the slot 40' is defined by the three sides 42 'of the outer wall 32'. Such an embodiment provides greater structural integrity than the embodiment shown in FIGS. 2 and 3, and may be less expensive in terms of mechanization.

As described above, the present invention reduces the shock wave by providing a discontinuity in the base plate and the outer wall by placing a slot in the outer wall, and has an effect of reducing costs by providing an integrated structure.

Although specific embodiments have been described with reference to the drawings, these embodiments are merely illustrative and are not intended to limit the scope of the invention, and the present invention is not limited to the specific structures or arrangements shown and described, It is understood that various modifications are possible by those skilled in the art.

Claims (12)

In the hard disk drive, A base plate having an outer wall, the outer wall having a slot, A spindle motor fixed to the base plate, A disk rotated by the spindle motor, An actuator arm fixed to the base plate, A head magnetically coupled to the disk and mechanically coupled to the actuator arm, A voice coil motor capable of rotating the actuator arm and capable of moving the head relative to the disk; And a cover attached to the base plate and covering the disk, the actuator arm, the voice coil motor, and the head. The hard disk drive of claim 1, wherein the base plate has a plurality of slots in the outer wall. The hard disk drive of claim 1, wherein the slot is defined by a slope of the outer wall. The hard disk drive of claim 1, wherein the slot is defined by three surfaces of the outer wall. The hard disk drive of claim 1, wherein the outer wall extends around an inner cavity of the base plate. The hard disk drive of claim 1, wherein the slot has a length greater than a width. In the hard disk drive, A base plate having an outer wall, the outer wall having a plurality of slots, each slot being defined by three sides of the outer wall, A spindle motor fixed to the base plate, A disk rotating by the spindle motor, An actuator arm fixed to the base plate, A head mechanically coupled to the actuator arm and magnetically coupled to the disk; A voice coil motor capable of rotating the actuator arm and capable of moving the head relative to the disk; And a cover attached to the base plate, the cover surrounding the disk, the actuator arm, the voice coil motor, and the head. 8. The hard disk drive of claim 7, wherein the outer wall extends around an inner cavity of the base plate. 8. The hard disk drive of claim 7, wherein the slot has a length greater than its width. In the hard disk drive, A base plate having an outer wall, the outer wall having a plurality of slots, each slot being defined by a slope of the outer wall, A spindle motor fixed to the base plate, A disk rotating by the spindle motor, An actuator arm fixed to the base plate, A head mechanically coupled to the actuator arm and magnetically coupled to the disk; A voice coil motor capable of rotating the actuator arm and capable of moving the head relative to the disk; And a case attached to the base plate and surrounding the disc, the actuator arm, the voice coil motor, and the head. The hard disk drive of claim 10, wherein the outer wall extends around an inner cavity of the base plate. The hard disk drive of claim 10, wherein the slot has a length greater than a width.