JPH0775111B2 - Support mechanism for floating head - Google Patents

Description

The present invention relates to an improvement in a head support mechanism that supports a head slider of a magnetic disk device or the like so that the head slider can float and seek in a radial direction of a disk medium. distortion,
While preventing displacement such as bending, the pressing force of the magnetic head slider against the magnetic disk medium can be easily adjusted to a predetermined magnitude so that the flying height of the magnetic head slider with respect to the disk medium is kept constant. For the purpose of supporting the head slider through a gimbal, a rigid portion at the tip, a central spring portion for generating a force for pressing the head slider against the recording disk medium, and a radius of the recording disk medium for the head slider. In a support mechanism for a flying head, which comprises a spring arm integrally formed with a rear end support portion fixed to a support arm that moves in a direction, a spring arm has a spring portion partially extending in the length direction of the arm. A cut-and-raised portion is provided along the spring arm fixing portion of the support arm, which is close to the spring portion of the spring arm. A support having a protrusion that supports a part of the rigid body from the surface opposite to the disk medium, a pressing member that presses the cut-and-raised part of the spring in the direction opposite to the disk medium, and the pressing member. The pressure adjusting means is provided respectively.

[Industrial application field]

The present invention relates to an improvement of a head support mechanism that supports a head slider in a magnetic disk device or the like so that the head slider can float and seek in the radial direction of a disk medium.

A flying-type head slider that records or reproduces information on or from a recording medium such as a magnetic disk or a magneto-optical disk has a load supporting spring structure in order to stably fly over a surface of the recording disk medium with a minute gap. The structure supported by the head support mechanism is adopted.

Such a support mechanism requires high rigidity in the seek direction to withstand high-speed access, and in order to keep the flying height of the head slider constant, torsion in the spring part due to disturbance such as vibration during seek is required. , Bending fluctuation is suppressed,
There is a need for a spring structure capable of accurately adjusting the pressing force (load) of the head slider against the recording disk medium.

[Conventional technology]

As shown in FIG. 3, a head support mechanism in a conventional magnetic disk device has a head slider 13 mounted with a magnetic head mounted on a tip end portion of a spring arm 11 via a gimbal 12 and a rear end portion of the spring arm 11. Is fixed to the support arm 14 of the actuator.

More specifically, the spring arm 11 is composed of a tapered rigid body portion 11a having both sides bent and reinforced to provide rigidity, a spring portion 11b, and a support portion 11c. A gimbal 12 that flexibly supports the head slider 13 in the rotating direction of the disk medium 17 is fixed to the tip of the rigid portion 11a. Further, the support portion 11c is screwed to the support arm 14 via the spacer 15 or the like.
Fixed using 6.

Then, the spring portion 11b between the rigid portion 11a and the support portion 11c of the spring arm 11 presses the head slider 13 against the disk medium 17 with a predetermined pressing force in the initial driving stage,
In order to keep the flying height constant during the subsequent floating period,
It is formed in an R-bent shape as shown.

The R-bent shape of the spring portion 11b was obtained by bending the corresponding portion along a predesigned shape.

[Problems to be Solved by the Invention]

However, it is very difficult to accurately bend the spring portion 11b of the spring arm 11 into a predetermined R-bent shape. Further, a considerable accuracy is required for setting a predetermined pressing force by the processing. For example, when the pressing force of the head slider 13 against the disk medium 17 deviates from a predetermined value, the flying height of the magnetic head slider 13 easily changes due to the error, which makes it impossible to record and reproduce information on the disk medium 17. was there.

Further, in the conventional head support mechanism, since the rigid body portion 11a is supported by the support arm 14 via the spring portion 11b of the spring arm 11, vibration of the support arm 14, the disk medium 17, etc. at the time of seek, etc. The spring portion 11b due to the disturbance of
The influence of displacement such as twisting and bending spreads until the flying state of the head slider 13 at the tip of the spring arm 11 is changed, and the reliability of the magnetic disk device is deteriorated.

In view of the conventional problems described above, the present invention prevents the spring portion of the spring arm from being distorted, such as twisted or bent, due to a disturbance such as a vibration of the support arm or the disk medium, and prevents the head slider from pressing the disk medium. It is an object of the present invention to provide a novel flying-type head support mechanism that can be easily adjusted to a predetermined size so as to keep the flying height of the head slider above the disk medium constant.

[Means for Solving the Problems]

In order to achieve the above-mentioned object, the present invention includes a rigid portion at the tip end that supports a head slider via a gimbal, a central spring portion that generates a force for pressing the head slider against a recording disk medium, and a head slider. In a support mechanism for a floating head, which comprises a spring arm integrally formed with a rear end support portion fixed to a support arm that moves in the radial direction of a recording disk medium, the spring arm has a spring portion partially attached to the arm. A projection for supporting a part of the rigid body portion near the spring portion of the spring arm from the surface opposite to the disk medium, on the spring arm fixing portion of the support arm, And a pressing member for pressing the cut-and-raised part of the spring part in a direction opposite to the disk medium, and pressure adjustment of the pressing member. A structure in which stages respectively.

[Work]

In the support mechanism for the flying head of the present invention, a part of the rigid body portion near the spring portion of the spring arm is supported by the support body from the surface opposite to the disk medium, while the cut-and-raised portion provided in the spring portion of the spring arm is supported. Since the portion is configured to be pressed from the surface on the disk medium side by a pressing member with a pressure adjusting means such as a tightening screw, the rigidity of the spring arm as a whole is increased, and twisting due to disturbance in the spring portion of the arm, It is resistant to bending and is difficult to displace.

Further, even if the spring portion of the spring arm is not bent into an R-bent shape, when the tightening screw is tightened, the pressing member cuts and raises the raised portion, and as a result, the spring portion of the spring arm is protruded from the support body. Since it is curved downward, that is, in the direction of the disk medium with the portion as a fulcrum, the spring pressure of the spring arm toward the disk medium side is strengthened.

Therefore, by arbitrarily changing the tightening amount of the tightening screw with respect to the pressing member, the pressing force (spring pressure) of the head slider against the disk medium can be easily adjusted to a predetermined magnitude. As a result, the flying height of the head slider with respect to the disk medium is maintained constant.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is a sectional view of an essential part showing an embodiment of a magnetic head support mechanism to which the present invention is applied, and FIG. 2 is a plan view of the essential part of the magnetic head support mechanism of FIG. 1 viewed from the disk medium side.

In both of these figures, reference numeral 21 denotes a spring arm including a tapered rigid body portion 21a having rigidity by bending and reinforcing both side portions, a spring portion 21b, and a support portion 21c.
A magnetic head slider 23 is provided at the tip of 1 via a gimbal 22 which flexibly supports the magnetic disk medium 24 in the rotating direction.
Is supported.

As shown in the figure, the spring 21b of the arm 21 is provided with a cut-and-raised portion 24 that is cut out in a U-shape in the lengthwise direction of the arm 21, and the support portion 21c at the rear end is a spacer 25. It is fixed to the support arm 26 with a screw 27 via.

The spacer 25 also serves as a support body 28 that supports a part of the rigid body portion 21a near the spring portion 21b of the spring arm 21. That is, one end of the spacer 25 extends in the longitudinal direction of the arm 21 as shown in the drawing, and a support 28 having a cutting edge-shaped projection 29 that abuts the rigid portion 21a over the entire width is formed at the tip thereof. There is.

Incidentally, the projection 29 is not limited to the above-mentioned cutting edge shape,
It is also possible to use a pivot-shaped protrusion that abuts on the rigid portion 21a at two points in the width direction.

Further, the spring arm fixing portion of the support arm 26 is pressed in a bent shape made of a stainless thin plate or the like for pressing the tip end against the cut-and-raised portion 24 of the spring arm 21 and pressing it upward, that is, in the direction opposite to the disk medium. Material 30
Are attached by tightening screws 31. Pressing member
The pressing force of 30 is set to increase as the degree of tightening of the tightening screw 31 increases.

In the head support mechanism having such a structure, when the tightening screw 31 in the spring arm fixing portion of the support arm 26 is tightened, the tip of the pressing member 30 pushes the spring arm 21 cut and raised portion 24 upward. At this time, the rigid body portion 2 near the spring portion 21b of the spring arm 21
Part of 1a is in contact with the protrusion 29 of the support 28, so that the tip of the rigid portion 21a of the spring arm 21 is gradually displaced downward with this protrusion 29 as a fulcrum, and as a result,
The head slider 23 attached to the tip is pressed against the disk medium side (not shown).

Therefore, by arbitrarily changing the tightening amount of the tightening screw 31 with respect to the pressing member 30, it is possible to easily set the pressing force of the head slider 23 with respect to the disk medium to a predetermined value in the initial stage of driving.

Here, the rigid body portion 21a near the spring portion 21b of the spring arm 21
The configuration in which a fulcrum (cutting edge-shaped protrusion 29) is provided in a part of is extremely important in accurately adjusting the pressing force of the head slider 23 against the disk medium. That is, the length l ₁ from the fulcrum to the tip of the spring arm 21 in the supporting mechanism is the same as the cut-and-raised part 2 of the spring part 21b from the fulcrum.
The length l ₂ to the contact point of the pressing member 30 with respect to _{4 has} a relationship of l ₁ > l ₂ , the pressing force on the cut and raised portion 24 is Fc, and the head slider 23 is moved to the disk medium by the tip of the spring arm 21. Let Fa be the pressing force that pushes against, and the relationship is as follows.

Fa ＝ l ₂ / l ₁ · Fc Even if the pressing force Fc on the cut-and-raised portion 24 is largely changed from such a relationship, l ₂ / l ₁ <1, so the amount of change in these pressing forces is Since ΔFa <ΔFc, the pressing force Fa for pressing the head slider 23 against the disk medium by the tip of the spring arm 21 can be extremely easily adjusted to be optimum.

Therefore, the efficiency of the fine adjustment work of the pressing force that optimizes the flying height of the head slider 23 with respect to the disk medium can be expected to improve.

The spring arm 21 whose pressing force is adjusted in this way
Then, it becomes possible to suppress the deformation due to disturbance and maintain the flying height of the head slider 23 constant and stable.

Although the above-described embodiments have been described as being applied to the magnetic disk device, the present invention is not limited to this and can be applied to a support mechanism for a flying head slider of a magneto-optical disk device.

〔The invention's effect〕

As is clear from the above description, according to the supporting mechanism of the flying head according to the present invention, the rigidity of the entire spring arm is increased, and the displacement such as twisting and bending due to disturbance is significantly reduced, and the pressing member is The spring pressure of the spring arm can be set easily by finely adjusting the pressing force of the head slider against the recording disk medium in the initial stage of driving by changing the tightening amount of the tightening screw holding The precision and efficiency of the method are remarkably improved, and the manufacturing cost is reduced.

[Brief description of drawings]

1 is a cross-sectional view of a main part of a magnetic head support mechanism according to an embodiment of the present invention, FIG. 2 is a plan view of the main part of the magnetic head support mechanism of FIG. FIG. 6 is a side view for explaining an example of a conventional magnetic head support mechanism. In FIGS. 1 and 2, 21 is a spring arm, 21a is a rigid body portion, 21b is a spring portion, 21
c is a support part, 22 is a gimbal, 23 is a head slider, 24 is a cut-and-raised part, 25 is a spacer, 26 is a support arm, 27 is a screw, 28 is a support, 29 is a protrusion, 30 is a pressing member, 31 is a Tightening screws are shown respectively.

Claims (1)

[Claims] 1. A rigid body portion (21a) at a tip end for supporting a head slider (23) via a gimbal (22) and a central spring for generating a force for pressing the head slider (23) against a recording disk medium. Part (21b) and head slider (23)
A support mechanism for a flying head comprising a spring arm (21) integrally formed with a rear end support portion (21c) for fixing the support arm (25) for moving the disk in the radial direction of the recording disk medium. A cut-and-raised part (24) along the length direction of the arm (21) in a part of the spring part (21b) of the arm (21).
And the spring portion (21) of the spring arm (21) is attached to the spring arm fixing portion of the support arm (26).
A support (2) having a protrusion (29) for supporting a part of the rigid body (21a) close to b) from the surface opposite to the disk medium.
8), a pressing member (30) for pressing the cut-and-raised part (24) of the spring part (21b) in the direction opposite to the disk medium, and pressure adjusting means (31) for the pressing member (30). A support mechanism for a flying head, which is characterized in that