JP2867613B2 - Support device for magnetic head slider - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic head slider support device most suitable for application to, for example, a hard disk device.

[Summary of the Invention]

The present invention provides a magnetic head slider support device in which a magnetic head slider is mounted via a gimbal to the other end of a load beam having one end fixed to a head moving member, wherein a pivot is integrally formed on a gimbal mounting surface of the magnetic head slider. By forming the magnetic head slider, the spring load of the load beam can be correctly applied to the center of gravity of the magnetic head slider, and the stability of the flying posture of the magnetic head slider can be secured.

[Conventional technology]

As a conventional example of a support device for a magnetic head slider in a hard disk device, there is an invention described in Japanese Patent Application Laid-Open No. 55-22296, for example.

As shown in FIG. 3, this conventional example has a head moving member 2 which is configured to be movable in a direction of an arrow a which is a substantially radial direction of a hard disk 1 which is a disk-shaped recording medium. One end 3a of an elastic load beam 3 constituted by a leaf spring is fixedly fastened by screws using a plurality of screws 4, and a substantially U-shaped cross section is formed on the lower surface of the other end 3b of the load beam 3. Upper piece of egg gimbal 5
5a is fixed by spot welding 6, a magnetic head slider 7 is adhered to the lower piece 5b of the gimbal 5 by an adhesive 8, and a pivot 9 integrally formed on the lower piece 5b of the gimbal 5 is provided. 5 is configured to contact the lower surface of the upper piece 5a. The gimbal 5 is formed of a leaf spring that is thinner than the load beam 3 and has a higher elastic modulus than the load beam 3.

This conventional example generates Yotsute, the levitation force F ₁ of the upward due connexion magnetic head slider 7 in the air flow generated on the surface of the hard disk 1 to rotating the hard disk at high speed, the magnetic head slider 7 for load beam 3
Against the gimbal 5 to bring the pivot 9 of the lower piece 5B of the gimbal 5 into contact with the lower surface of the upper piece 5a. On the other hand, the spring load F ₂ below the load beam 3 is pivoted to 9
Through the magnetic head slider 7. And, in which the levitation force F ₁ and by connexion magnetic head slider 7 to balance the action of the spring load F ₂ from the hard disk 1 so as to float in flying height H of submicron order.

Then, in a state where the flying state is maintained, the magnetic head slider 7 is moved by the head moving member 2 substantially in the radial direction (the direction of arrow a) of the hard disk 1 to record and / or reproduce data on the hard disk 1. At this time, the magnetic head slider 7 is made to roll and pitch around the pivot 9 by following the change of the surface of the hard disk 1.

[Problems to be solved by the invention]

However, the prior art has the following problems because the pivot 9 is formed on the gimbal 5 interposed between the load beam 3 and the magnetic head slider 7.

That is, in order to improve the recording and reproducing characteristics of the hard disk 1 and enable high-density recording, it is important to reduce the flying height H and the stability of the flying attitude of the magnetic head slider 7. And therefore, it is necessary to strictly position the center P ₁ of Pibotsuto 9 on the vertical line P ₂ passing through the center of gravity G of the magnetic head slider 7.

However, in the conventional example, the pivot 9 is formed on the lower piece 5b of the gimbal 5, and the magnetic head slider 7 is adhered to the lower surface of the lower piece 5b with the adhesive 8, so that the position shift at the time of adhesion is caused. Yotsute center P ₁ of Pibotsuto 9 misaligned l ₁ relative to the vertical line P ₂ passing through the center of gravity G of the magnetic head slider 7 easy Katsuta. As a result, to be added to the position the spring load F ₂ of the load beam 3 transmitted to the magnetic head slider 7 via the Pibotsuto 9 is deviated from the center of gravity G of the magnetic head slider 7, the roll direction Ya in the magnetic head slider 7 Inclination in the pitch direction easily occurs. Further, the value of the spring load F ₂ that is actually applied to the magnetic head slider 7, if an error occurs between a designed value, variations occur in the flying height H of the magnetic head slider 7 easy Katsuta.

Further, in the conventional example, the upper piece 5a of the gimbal 5 having the pivot 9 is spot-welded 6 to the other end 3b of the load beam 3, so that due to the displacement during the spot welding,
To variations generated in the distance l ₂ between the one end 3a and Pibotsuto 9 is a fixed end of the load beam 3, variation in the spring load F ₂ itself added to the magnetic head slider 7 is generated,
The flying height of the magnetic head slider 7 tends to vary.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a magnetic head slider support device capable of correctly applying a spring load of a load beam to the center of gravity of a magnetic head slider.

[Means for solving the problem]

To achieve the above object, a magnetic head slider supporting device according to the present invention is characterized in that a pivot is integrally formed on a gimbal mounting surface of the magnetic head slider on a vertical line passing through the center of gravity of the magnetic head slider, The pivot is configured to contact the load beam.

According to a second aspect of the present invention, the pivot is fitted to a pivot receiver formed integrally with the load beam.

According to a third aspect of the present invention, a pivot receiver is integrally provided on a gimbal mounting surface of the magnetic head slider on a vertical line passing through the center of gravity of the magnetic head slider, and the pivot receiver is fitted to a pivot formed integrally with the load beam. That is, it is configured to be.

(Operation)

According to the magnetic head slider supporting apparatus constructed as described above, the pivot or the pivot receiver is formed integrally with the gimbal mounting surface of the magnetic head slider, so that the pivot or the pivot receiver is attached to the magnetic head slider. It can be accurately formed on a vertical line passing through the center of gravity without error. Therefore, the spring load of the load beam can be correctly applied to the center of gravity of the magnetic head slider via the pivot.

According to the second and third aspects, the pivot or the pivot receiver integrally formed on the magnetic head slider is fitted to the pivot receiver or the pivot integrally formed on the load beam, so that the fixed end of the load beam and the center of gravity of the magnetic head slider are in contact with each other. Can be set accurately.

〔Example〕

An embodiment in which the present invention is applied to a magnetic head slider support device in a hard disk device will be described below with reference to FIGS. 1 and 2. FIG. The same components as those of the conventional example shown in FIG. 3 are denoted by the same reference numerals, and redundant description is omitted.

Figure 1 is shows a first embodiment, on the vertical line P ₂ passing through the center of gravity G of the magnetic head slider 7, upward in Shototsu portion shape on gimbal mounting surface 7a of the magnetic head slider 7 The pivot 11 is formed integrally. Incidentally, the pivot 11 can be easily formed by the ordinary powder beam etching method. Also, the other end of the load beam 3
An upwardly facing pivot receiver 12 having a small concave shape is formed integrally with the lower surface 3c of 3b. The gimbal 13 used here
The cross-sectional shape in which the upper piece 13a and the lower piece 13b are obliquely connected by an intermediate piece 13c has a substantially Z-shaped cross-section. The upper piece 13a and the lower piece 13b are It is fixed to the gimbal mounting surface 7a of the head slider 7 by bonding or the like. At this time, the pivot 11 is fitted into a positioning hole 14 provided in the upper piece 13a or the like to determine the position, and the upper piece 13a and the lower piece 13b are loaded with the load beam while the pivot 11 is fitted in the pivot receiver 12. 3 and the magnetic head slider 7 are fixed to the magnetic head slider 7 by bonding or the like. Reference numeral 7b denotes a magnetic head of the magnetic head slider 7.

According to the first embodiment, when O connexion magnetic head slider 7 in the levitation force F ₁ upward by airflow by connexion generated high-speed rotation of the hard disk 1 is pushed up against the gimbal 13, Pibotsuto 11 There is fitted on Pibotsuto receiving 12, the center P ₁ of Pibotsuto 11 and Pibotsuto receiving 12 are accurately positioned on the vertical line P ₂ passing through the center of gravity G of the magnetic head slider 7.

As a result, is precisely set to the design value distance l ₃ between the center of gravity G of the end 3a and the magnetic head slider 7 is a fixed end of the load beam 3. Then, an accurate spring load according to the design value set by the above distance l ₃ of the load beam 3.
The F _2, may be without error accurately applied to the center of gravity G of the magnetic head slider 7 via the Pibotsuto receiving 12 and Pibotsuto 11.

Therefore, the magnetic head slider 7 can be prevented from tilting in the roll direction or the pitch direction beforehand, so that the stability of the flying posture of the magnetic head slider 7 can be highly secured, and the floating force F ₁ can be secured.
And since the spring load F ₂ can be balanced as designed, the flying height H for hard disk 1 of the magnetic head slider 7, is low quantum submicron order, and can ensure the stability of the flying height. Also, pivot
11 can be accurately set on the vertical line P ₂ passing through the center of gravity G,
The magnetic head slider 7 can perform the rolling motion and the pitching motion most smoothly, and is advantageous at the time of a transient response due to an external force or the like.

Next, FIG. 2, is shown in the second embodiment, the magnetic head on the vertical line P ₂ passing through the center of gravity G of the slider 7, the downward small recesses shaped gimbal mounting surface 7a of the magnetic head slider 7 A pivot receiver 12 is integrally formed, and a downwardly directed pivot 12 having a small convex shape is integrally formed on the lower surface 3c of the other end 3b of the load beam 3.

Then, when I connexion magnetic head slider 7 in the levitation force F ₁ upward by airflow by connexion generated high-speed rotation of the hard disk 1 is pushed up against the gimbal 13, the Pibotsuto receive 12 to Pibotsuto 11 fitting That is, it is configured to be.

Therefore, according to the second embodiment, the same functions and effects as those of the first embodiment can be obtained.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various effective changes can be made based on the technical idea of the present invention.

Further, the present invention is not limited to the magnetic head slider support device of the hard disk device, but is applicable to a magnetic head slider support device of various disk devices for recording and / or reproducing various disk-shaped recording media. [Effects of the Invention] Since the present invention is configured as described above, it has the following effects.

According to the first and third aspects of the present invention, the pivot or the pivot receiver is formed integrally with the gimbal mounting surface of the magnetic head slider, so that the pivot or the pivot receiver is accurately formed on a vertical line passing through the center of gravity of the magnetic head slider without error. And the spring load of the load beam can be correctly applied to the center of gravity of the magnetic head slider via the pivot, so that the magnetic head slider in the floating state is tilted in the roll direction or the pitch direction. And the stability of the flying posture of the magnetic head slider can be highly secured. The error between the design value and the spring load value of the load beam actually applied to the magnetic head slider is almost eliminated, so that the flying height of the magnetic head slider does not vary, and the flying height can be reduced. Will be possible. Since the pivot can be accurately set on a vertical line passing through the center of gravity of the magnetic head slider, the magnetic head slider can perform roll motion and pinch motion most smoothly, which is advantageous in transient response due to external force or the like.

According to the second and third aspects of the present invention, the pivot or the pivot receiver integrally formed on the magnetic head slider is fitted to the pivot receiver or the pivot integrally formed on the load beam, so that the fixed end of the load beam and the magnetic head slider can be fixed. Since the distance from the center of gravity can be set accurately, the spring load of the load beam applied to the magnetic head slider can be realized at the design value. Therefore, the flying height of the magnetic head slider can be reduced to a submicron order, and the stability of the flying height can be ensured.

[Brief description of the drawings]

1 and 2 show an embodiment of the present invention. FIG. 1 is a sectional side view of the first embodiment, and FIG. 2 is a sectional side view of the second embodiment. FIG. 3 is a sectional side view of a conventional example. Also, in the reference numerals used in the drawings, 2 ... head moving member 3 ... load beam 3a ... one end of the load beam 3b ... the other end of the load beam 7 ... magnetic head slider 7a ... gimbal mounting surface 11 … Pivot 12 …… Pivot receiver 13 …… Gimbal F ₁ …… Floating force F ₂ …… Spring load H …… Floating amount G …… Center of magnetic head slider P ₁ …… Pivot center P ₂ …… Vertical line It is.

Claims (3)

(57) [Claims] An apparatus for supporting a magnetic head slider in which one end of a load beam is fixed to a head moving member and a magnetic head slider is attached to the other end of the load beam via a gimbal, wherein the magnetic head slider passes through the center of gravity of the magnetic head slider. A supporting device for a magnetic head slider, wherein a pivot is integrally formed on a gimbal mounting surface of the magnetic head slider on a vertical line, and the pivot is brought into contact with the load beam. 2. The magnetic head slider supporting device according to claim 1, wherein said pivot is fitted to a pivot receiver formed integrally with said load beam. 3. A magnetic head slider supporting apparatus having one end of a load beam fixed to a head moving member and a magnetic head slider attached to the other end of the load beam via a gimbal, wherein the magnetic head slider passes through the center of gravity of the magnetic head slider. On a vertical line, a pivot receiver is integrally provided on a gimbal mounting surface of the magnetic head slider, and the pivot receiver is configured to be fitted to a pivot formed integrally with the load beam. Support device.