KR100734271B1 - Head Stack Assembly and hard disk drive with the same - Google Patents

Abstract

The present invention provides a head stack assembly (HSA) and a hard disk drive having the same. The HSA includes a swing arm rotatably mounted to a base member of a hard disk drive, a suspension base plate coupled to the swing arm by swaging, a suspension coupled to the SBP, And a magnetic head slider mounted at the distal end of the suspension, wherein the SBP extends toward the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider disturbed by the impact applied to the hard disk drive. do.

In addition, the HSA of the present invention includes a swing arm rotatably mounted to the base member of the hard disk drive, a suspension connected to the swing arm, and a magnetic head slider mounted to the front end of the suspension. The swing arm extends towards the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider that is disturbed by the impact on the drive.

Description

HSS (Head Stack Assembly and hard disk drive with the same)

1 and 2 are side views illustrating a conventional HSA and a disk, FIG. 1 is a view illustrating a normal operating state of a hard disk drive, and FIG. 2 is a view showing an external shock applied to a hard disk drive.

3 is a plan view of a hard disk drive according to a preferred embodiment of the present invention.

4 is a perspective view illustrating the HSA of FIG. 3.

5 and 6 are side views illustrating the HSA and the disk of FIG. 4, FIG. 5 illustrates a normal operating state of the hard disk drive, and FIG. 6 illustrates a state in which an external shock is applied to the hard disk drive.

7 and 8 are side views showing the HSA and the disk according to the second embodiment of the present invention, FIG. 7 shows a normal operating state of the hard disk drive, and FIG. 8 shows a state in which an external shock is applied to the hard disk drive. One drawing.

<Description of the symbols for the main parts of the drawings>

100; Hard disk drive 101; Base member

105; Spindle motor 110; disk

130; HSA 131; Swing arm

134; SBP 135; Suspension

136; Road beam 138; End tap

139; Flexure 140; Magnetic head slider

142; VCM coil 145; Voice coil motor

150; Ramp

The present invention relates to a hard disk drive, and more particularly, to a head stack assembly (HSA) and a hard disk drive having the same, which prevents a collision between a magnetic head slider and a disk caused by an external shock applied to the hard disk drive. .

A hard disk drive (HDD) is an example of an auxiliary memory device used for a computer, an MP3 player, a mobile phone, etc., and is a device for reproducing data stored on a disk by a magnetic head or writing new data on a disk. .

1 and 2 are side views illustrating a conventional HSA and a disk, FIG. 1 is a view illustrating a normal operating state of a hard disk drive, and FIG. 2 is a view showing an external shock applied to a hard disk drive.

1 and 2, a conventional HSA is a swing arm 11 rotatably mounted to a base member (not shown) of a hard disk drive, and swaging at a tip end of the swing arm 11. SBP (suspension base plate, 13) coupled by (swaging), the suspension 15 is coupled to the SBP, and the magnetic head slider 20 mounted to the front end of the suspension (15). The suspension 15 extends inclined so as to gradually approach the disk 5, and elastically presses the magnetic head slider 20 mounted at the tip thereof to the disk 5 side. The magnetic head slider 20 has a magnetic head (not shown) for recording data on the disk 5 or reading data recorded on the disk 5. When the swing arm 11 is rotated so that the magnetic head slider 20 moves to a specific position on the disc 5, a magnetic head (not shown) mounted on the magnetic head slider 20 writes data at the specific position. Or read data from that particular location.

In the normal operation state of the hard disk drive, the magnetic head slider 20 provides a predetermined interval Ds from the disk 5 to record / read data as shown in FIG. If a temporary shock is applied from the outside during the operation of the hard disk drive, the suspension 15 is momentarily bent as shown by the virtual line in FIG. 2, and the distance Di between the magnetic head slider 20 and the disk 5 is normal. It is larger than the interval Ds in the operating state. The magnetic head slider 20 is restored to the interval Ds of the normal operating state of FIG. 1 through the damping vibration process by the elastic restoring force of the suspension 15. However, when the external shock applied to the hard disk drive is strong, the distance Di between the magnetic head slider 20 and the disk 5 of FIG. 2 becomes excessively large, and as shown by the solid line in FIG. Likewise, there is a problem that the magnetic head slider 20 collides with the disk 5, which causes damage to the magnetic head slider 20 and the disk 5.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a HSA provided with means for limiting a longitudinal disturbance range of a magnetic head slider due to an external impact, and a hard disk drive having the same.

In order to achieve the above technical problem, the present invention, a swing arm rotatably mounted to the base member of the hard disk drive, the SBP (suspension base plate) coupled to the swing arm by swaging (swaging) In the head stack assembly (HSA) including a suspension coupled to the SBP and a magnetic head slider mounted to the front end of the suspension,

An SSA is provided that extends toward the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider that is disturbed by the impact on the hard disk drive.

Preferably, the tip portion of the SBP may be located at a horizontal position that is equivalent to the magnetic head slider.

The present invention also provides a swing arm rotatably mounted to a base member of a hard disk drive, a suspension connected to the swing arm, and a magnetic head slider mounted to the distal end of the suspension. In the Head Stack Assembly (HSA),

A swing arm extends towards the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider that is disturbed by the impact on the hard disk drive.

Preferably, the tip of the swing arm can be located in a horizontal position that is parallel to the magnetic head slider.

The present invention also provides a head stack assembly (HSA) for recording data on or reading data on a disk by moving a base member, a disk rotatably mounted to the base member, and a magnetic head slider on the disk. In the hard disk drive having a, HSA provides a hard disk drive having the above characteristics.

Hereinafter, an HSA according to a preferred embodiment of the present invention and a hard disk drive having the same will be described in detail with reference to the accompanying drawings.

3 is a plan view of a hard disk drive according to an exemplary embodiment of the present invention, and FIG. 4 is a perspective view of the HSA of FIG. 3.

3 and 4, the hard disk drive 100 is mounted to the spindle motor 105 installed on the base member 101 and the spindle motor 105 to be rotatable with respect to the base member 101. The disk 110 and the magnetic head slider 140, and the HSA 130 for moving it to a specific position on the disk 110 is provided. The base member 101 is combined with a cover member (not shown) to form a sealed inner space, and the disk 110, the HSA 130, and the like are accommodated in the inner space. The disk 110 is provided with a pair to store a large amount of data.

The HSA 130 is coupled to the base member 101 so as to be rotatable about a pivot center portion 133, and has a swing arm 131 having a lateral shape of the letter E and a swaging on the swing arm 131. Suspension base plate (134) coupled by (swaging), a suspension (135) coupled by welding to the SBP (134), and a magnetic head slider mounted to the front end of the suspension (135) 140). Since the hard disk drive 100 of the present embodiment includes a pair of disks 110, two pairs of the SBP 134, the suspension 135, and the magnetic head slider 140 are respectively provided (FIG. 4). Reference).

As shown in FIG. 4, each suspension 135a, 135b, 135c, 135d has a load beam 136a, 136b, 136c, 136d, and flexures 139a, 139b, 139c, and 139d. do. The load beams 136a, 136b, 136c, 136d are typically manufactured by pressing a metal plate such as a stainless steel sheet having a thin thickness, for example, a thickness of about 0.05 mm. The flexures 139a, 139b, 139c, and 139d support the magnetic head sliders 140a, 140b, 140c, and 140d. The flexures 139a, 139b, 139c, and 139d support the magnetic head sliders 140a, 140b, 140c, and 140d, respectively. Attached. One end of the flexures 139a, 139b, 139c, and 139d is a fixed end, and is fixed to an opposite surface of the disk 110 of the load beams 136a, 136b, 136c, and 136d by welding or the like, and the other end thereof is fixed anywhere. Free end. The flexures 139a, 139b, 139c, and 139d are made of a thin stainless steel sheet, similar to the load beams 136a, 136b, 136c, and 136d. However, the flexures 139a, 139b, 139c, and 139d may be used to smoothly roll and pitch the magnetic head sliders 140a, 140b, 140c, and 140d attached thereto. 136b, 136c, and 136d).

Reference numerals 132a, 132b, and 132c are coupling holes formed to allow a swaging ball (not shown) to swive the swing arm 131 and the SBP 134a, 134b, 134c, and 134d to pass therethrough. The SBPs 134a, 134b, 134c, and 134d have a thickness thicker than that of the load beams 136a, 136b, 136c, and 136d in order to increase the coupling force by swaging. The first SBP 134a disposed at the top of the HSA 130 and the fourth SBP 134d disposed at the bottom of the HSA 130 have a horizontal suspension in order to limit the longitudinal disturbance ranges of the magnetic head sliders 140a and 140d. It extends toward the front end of 135a, 135d. In a preferred embodiment, the leading ends of the first and fourth SBPs 134a and 134d can be extended to be positioned in a horizontal position equivalent to the magnetic head sliders 140a and 140d. On the other hand, the second SBP 134b and the third SBP 134c disposed in the middle of the HSA 130 do not extend toward the suspensions 135b and 135c. This is because the pair of suspensions 135b and 135c function as means for limiting the disturbance range with respect to the other party.

Dimples protrude toward each of the road beams 136a, 136b, 136c, and 136d, and the flexures 139a, 139b, 139c, and 139d protrude, and each of the flexures 139a, 139b, 139c, and 139d is a dimple. Is supported in contact with (see 137a in FIG. 5). Accordingly, the magnetic head sliders 140a, 140b, 140c, and 140d mounted on the flexures 139a, 139b, 139c, and 139d can be smoothly rolled and pitched when the hard disk drive 100 operates.

A voice coil motor 125 fixed to the base member 101 provides rotational power to the HSA 130. The voice coil motor 125 has a magnet (not shown) disposed above and below the VCM coil 142 of the HSA 130. The voice coil motor 125 is controlled by a servo control system and is connected to the HSA 130 in a direction following Fleming's left hand law by the interaction of a current input to the VCM coil 142 and a magnetic field formed by the magnet. ) Rotates about the pivot center 133.

The hard disk drive 100 includes a ramp 150 on the outer side of the disk 110. End tabs 138a, 138b, 138c, and 138d, which are in contact with and supported by the lamp 150, are formed at the tips of the load beams 136a, 136b, 136c, and 136d of the HSA 130. With the hard disk drive 100 inoperable, the HSA 130 is parked off the surface of the disk 110 as shown in FIG. 3, with the end tabs 138a, 138b, 138c 138d is supported by the lamp 150.

When the HSA 130 is arbitrarily rotated by an external shock or vibration applied to the hard disk drive 100 while the HSA 130 is parked on the lamp 150, the magnetic head sliders 140a, 140b, 140c, and 140d And disk 110 may be damaged due to contact with each other. Accordingly, it is necessary to lock the HSA 130 at a predetermined position so that the HSA 130 does not rotate freely from the parking state. For this purpose, the hard disk drive 100 includes a latch 159. The HSA 130 is provided with a notch 143 that interferes with the latch 159 to prevent rotation of the HSA 130.

At one corner portion of the base member 101, a flexible printed circuit (FPC) 157 connected to the HSA 130 is connected to a printed circuit board (not shown) disposed under the base member 101. An FPC bracket 155 is provided. On the other hand, the other corner portion in the diagonal direction of the one corner portion is provided with a circulation filter 160 for filtering foreign substances such as particles contained in the air flowing in the hard disk drive 100.

When power is applied to the hard disk drive 100, the disk 110 rotates counterclockwise around the spindle motor 105, and the voice coil motor 145 is parked on the lamp 150. Rotates counterclockwise to move the magnetic head sliders 140a, 140b, 140c, and 140d onto the surface of the disk 110, and the magnetic head (not shown) mounted on the magnetic head sliders 140a, 140b, 140c, and 140d. ) Records the data on the disc 110, or reads and reproduces the data from the disc 110.

When the power of the hard disk drive 100 is turned off, the voice coil motor 145 rotates the HSA 130 clockwise, and the end taps 138a, 138b, 138c, and 138d are applied to the lamp 150. The HSA 130 is parked by being lifted and supported.

5 and 6 are side views illustrating the HSA and the disk of FIG. 4, FIG. 5 illustrates a normal operating state of the hard disk drive, and FIG. 6 illustrates a state in which an external shock is applied to the hard disk drive.

Referring to FIG. 5, the suspension 135a of the HSA 130 extends inclined to gradually approach the disk 110, and elastically presses the magnetic head slider 140a mounted at the front end thereof to the disk 110. In the normal operation state of the hard disk drive 100 (refer to FIG. 2), the disk 110 rotates at a high speed so that lifting force acts on the magnetic head slider 140a and the suspension is elastically biased toward the disk 110. At the height at which the pressing force of 135a is balanced, the magnetic head slider 140a maintains a floating state.

Referring to FIG. 6, when a temporary shock is applied from the outside during the operation of the hard disk drive 100, the distance between the disk 110 and the magnetic head slider 140a is greater than that in the normal operation state when the suspension 135a is bent. Spaced apart. However, the magnetic head slider 140a is above the height shown by the imaginary line because the longitudinal disturbance range of the magnetic head slider 140a is limited by the extended first SBP 134a even if the impact force is increased. It is not spaced apart from the disk 110. As described above, since the bending degree of the suspension 135a is smaller than in the related art, even if the magnetic head slider 140a falls downward toward the disk 110 due to the elastic restoring force of the suspension 135a, the magnetic head slider 140a is held by the disk ( It does not collide with 110) and recovers to its normal operating state through damping vibrations.

7 and 8 are side views showing the HSA and the disk according to the second embodiment of the present invention, FIG. 7 shows a normal operating state of the hard disk drive, and FIG. 8 shows a state in which an external shock is applied to the hard disk drive. One drawing.

7 and 8, the HSA 130 ′ according to the second embodiment of the present invention is rotatable to the base member 101 (see FIG. 3) similarly to the HSA 130 shown in FIGS. 5 and 6. A swing arm 131 ′ which is securely mounted, a suspension base plate 134 a ′ coupled to the front end of the swing arm 131 ′ by swaging, and the SBP 134 a ′. It includes a suspension (135a) coupled to the, and the magnetic head slider 140a mounted to the front end of the suspension (135a). The suspension 135a extends inclined so as to gradually approach the disk 110, and elastically presses the magnetic head slider 140a mounted at the front end thereof to the disk 110 side.

The swing arm 131 'extends toward the tip of the suspension 135a in the horizontal direction to limit the longitudinal disturbance range of the magnetic head slider 140a. In a preferred embodiment, the tip portion of the swing arm 131 'may be extended to be positioned in a horizontal position parallel to the magnetic head slider 140a. Meanwhile, unlike the SBP 134a of FIGS. 5 and 6, the SBP 134a ′ does not extend toward the distal end of the suspension 135a.

Referring to FIG. 7, in the normal operation state of the hard disk drive 100 (see FIG. 2), the disk 110 rotates at high speed so that lift force is applied to the magnetic head slider 140a, and the lift force and the disk 110 are applied. The magnetic head slider 140a maintains a floating state at a height at which the pressing force of the elastically biased suspension 135a is balanced.

Referring to FIG. 8, when a temporary shock is applied from the outside during the operation of the hard disk drive 100, the distance between the disk 110 and the magnetic head slider 140a is greater than that in the normal operation state when the suspension 135a is bent. Spaced apart. However, even if the strength of the impact applied increases, the longitudinal swing range of the magnetic head slider 140a is limited by the extended swing arm 131, so that the magnetic head slider 140a is not larger than the height shown by the virtual line. Not spaced from 110. As described above, since the bending degree of the suspension 135a is smaller than in the related art, even if the magnetic head slider 140a falls downward toward the disk 110 due to the elastic restoring force of the suspension 135a, the magnetic head slider 140a is held by the disk ( It does not collide with 110) and recovers to its normal operating state through damping vibrations.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

The HSA of the present invention and the hard disk drive having the same prevent the collision of the magnetic head slider and the disk and the damage of the magnetic head slider and the disk, because the magnetic head slider is not disturbed greatly despite the strong impact from the outside. You can prevent it.

Claims (8)

A swing arm rotatably mounted to a base member of a hard disk drive, a suspension base plate coupled to the swing arm by swaging, a suspension coupled to the SBP, and In the head stack assembly (HSA) including a magnetic head slider mounted to the front end of the suspension, The SBP extends towards the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider, which is disturbed by the impact on the hard disk drive, with the distal end of the SBP positioned at the same horizontal position as the magnetic head slider. HSA characterized. delete HSA (Head) including a swing arm rotatably mounted to the base member of the hard disk drive, a suspension connected to the swing arm, and a magnetic head slider mounted to the front end of the suspension Stack Assembly), The swing arm extends toward the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider that is disturbed by the impact on the hard disk drive, wherein the swing arm is positioned in a horizontal position equivalent to the magnetic head slider. HSA characterized in that. delete A hard disk having a base member, a disk rotatably mounted to the base member, and a head stack assembly (HSA) for moving a magnetic head slider on the disk to write data to or read data from the disk. In the drive, the HSA, A swing arm rotatably mounted to the base member, a suspension base plate coupled to the swing arm by swaging, a suspension coupled to the SBP, and a suspension of the suspension A magnetic head slider mounted to the tip, The SBP extends towards the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider, which is disturbed by the impact on the hard disk drive, with the distal end of the SBP positioned at the same horizontal position as the magnetic head slider. Characterized in hard disk drive. delete A hard disk having a base member, a disk rotatably mounted to the base member, and a head stack assembly (HSA) for moving a magnetic head slider on the disk to write data to or read data from the disk. In the drive, the HSA, A swing arm rotatably mounted to the base member, a suspension connected to the swing arm, and a magnetic head slider mounted to the distal end of the suspension; The swing arm extends toward the distal end of the suspension to limit the longitudinal disturbance range of the magnetic head slider that is disturbed by the impact on the hard disk drive, wherein the swing arm is positioned in a horizontal position equivalent to the magnetic head slider. Hard disk drive, characterized in that. delete

Images