JPH05182384A - Magnetic head supporting mechanism - Google Patents

Abstract

PURPOSE:To assure the strength of adhesion sufficient for a gimbal by assuring a sufficient adhesive area even in the case of a small-sized magnetic head slider. CONSTITUTION:A slider holding member 1 is bonded to the gimbal 2 by laser spot welding. The magnetic head slider 3 is adhered to a magnetic head supporting spring (not shown in Fig.) having this gimbal 2. The sufficient adhesive area is obtd. and the necessary strength of adhesion is assured even when the magnetic head supporting spring mechanism including the magnetic head slider 3 and the gimbal 2 is miniaturized.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic head supporting mechanism for a magnetic disk, and more particularly to a magnetic head supporting mechanism suitable for miniaturization of a magnetic head slider including a magnetic head and a slider.

[0002]

2. Description of the Related Art A magnetic disk device which floats a magnetic head on a magnetic disk to record / reproduce information is well known in the art.

A magnetic head supporting spring mechanism in a magnetic disk device is constituted by including a magnetic conversion element, a slider having a so-called magnetic head, a gimbal supporting the slider, and a magnetic head supporting spring having the gimbal.

As one of the development policies of the magnetic disk device, there are high recording density and miniaturization (downsizing). As a means for increasing the recording density of a magnetic disk device, a method of narrowing the spacing between the magnetic head and the magnetic disk medium to reduce the so-called spacing loss has been conventionally performed. On the other hand, the spacing, that is, the flying height of the magnetic head slider, fluctuates due to manufacturing variations and dynamic fluctuations during operation of the magnetic disk device. Due to this change in the flying height, the magnetic head slider sometimes collides with the magnetic disk, and in severe cases, the information on the disk medium is destroyed. Therefore, it is necessary to provide a magnetic head slider and its magnetic head supporting spring mechanism that will reduce damage to the disk medium even if the slider collides with the magnetic disk.

In the conventional magnetic disk device, Japanese Patent Publication No.
A magnetic head slider as shown in -569, a magnetic head support spring mechanism as shown in Japanese Patent Publication No. 58-22827, and an improved one based on them are widely used to realize the above technical requirements. Is coming.

[0006]

The flying height of the magnetic head slider causes manufacturing variation of the flying height due to manufacturing variation of the magnetic head slider and the magnetic head support spring. Further, during operation of the magnetic disk device, various external forces such as an external force associated with the seek operation of the magnetic head and an external force associated with the air flow between the disks are received, and the flying height of the magnetic head slider fluctuates dynamically. When the flying height of the magnetic head decreases due to such manufacturing variations or dynamic fluctuations, the magnetic head slider sometimes collides with the magnetic disk device, and in severe cases, the information on the disk medium is destroyed. Therefore, it is necessary to reduce the manufacturing variation and the dynamic flying height variation.

A method of miniaturizing the magnetic head slider is well known as one means for reducing the fluctuation of the dynamic flying height. By reducing the size of the magnetic head slider, it is possible to improve the followability to fluctuations of the magnetic disk, and it is possible to reduce fluctuations in the dynamic flying height due to external force associated with seek operation.
And other advantages. Further, by miniaturizing the magnetic head slider, even if the magnetic head slider collides with the magnetic disk, the damage to the disk medium can be reduced. Further, along with the miniaturization of magnetic disk devices, miniaturization of parts such as magnetic disks and magnetic heads has been promoted. For this reason, the magnetic head slider tends to be further miniaturized. On the other hand, there is a certain limit in miniaturizing the magnetic head slider due to problems such as mass production, assembly and mounting.

In general, the magnetic head support spring structure has a structure in which a magnetic head slider having a magnetic conversion element is mounted on the magnetic head support spring by bonding or the like. Therefore, as the size of the magnetic head slider is reduced, the bonding area between the magnetic head slider and the head supporting spring becomes smaller, and the bonding strength is reduced. If sufficient adhesive strength cannot be obtained, the magnetic head slider may come off the magnetic head support spring when the magnetic disk device is in operation, and catastrophic damage may be given to the device.

It is an object of the present invention to provide a magnetic head support spring structure which is suitable for miniaturization of a magnetic head slider and which is suitable for ensuring sufficient adhesive strength between the magnetic head slider and the magnetic head support spring. There is.

[0010]

To achieve the above object, a gimbal and a magnetic head are provided between a gimbal of a magnetic head supporting spring mechanism and a magnetic head slider via a slider holding member extending in the longitudinal direction of the slider. The slider is joined.

[0011]

By adopting the above means, a sufficient bonding area can be obtained even for a small magnetic head slider. Therefore, even when the magnetic head slider is downsized, it is possible to secure sufficient adhesive strength for joining the magnetic head slider and the gimbal of the magnetic head support spring mechanism.

[0012]

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

FIG. 4 shows a conventional magnetic head supporting spring mechanism. A magnetic head slider 3 is mounted by adhesion on a magnetic head support spring composed of a gimbal 2 and a rod beam 4.

FIG. 2 shows a gimbal 2 used in a conventional magnetic head supporting spring. The shaded portion is the joint surface 5 with the magnetic head slider. The magnetic head slider tends to be miniaturized as described above, and the gimbal needs to be miniaturized accordingly. Therefore, the adhesion area becomes small. FIG. 5 is an example showing the relationship between the gimbal bonding area and the bonding strength. In this example, the horizontal axis represents the gimbal bonding width of the gimbal bonding surface 5, and the vertical axis represents the peel strength. As can be seen from this example, as the gimbal is downsized, sufficient adhesive strength cannot be obtained.

FIG. 1 shows an embodiment of the present invention. As shown in the figure, the slider holding member 1 is coupled to the gimbal 2.
As a joining method, laser spot welding is desirable as a method capable of being joined easily and firmly, but is not limited. Further, by bonding the magnetic head slider 3 to the magnetic head supporting spring (not shown) including the gimbal 2, the magnetic head supporting spring mechanism in this embodiment can be obtained.

FIG. 3A is a sectional view showing a state in which the magnetic head support spring mechanism of this embodiment is bonded to the magnetic head slider 3. By doing so, even if the magnetic head support spring mechanism including the magnetic head slider 3 and the gimbal 2 is downsized, a sufficient adhesive area can be obtained, and therefore a necessary adhesive strength can be secured. The magnetic disk device using the small slider magnetic head thus obtained is a high performance and highly reliable device.

FIG. 3 (b) shows another embodiment of the present invention. In the case of the second embodiment, the slider holding member 1 is bent at the side as shown in the figure, and the side surface of the magnetic head slider 3 is also used as an adhesive surface. By doing so, the adhesive strength between the magnetic head slider and the magnetic head supporting spring can be further increased.

[0018]

According to the present invention, in the magnetic head supporting spring mechanism including the magnetic head slider, it is possible to secure sufficient adhesive strength to hold the magnetic head slider which is smaller than the conventional one.

[Brief description of drawings]

FIG. 1 Example of the present invention

FIG. 2 is a gimbal of a conventional magnetic head supporting spring mechanism.

FIG. 3 is a sectional view of an embodiment of the present invention.

FIG. 4 is a sectional view of another embodiment of the present invention.

FIG. 5: Relationship between gimbal adhesive area and adhesive strength

[Explanation of symbols]

1: Slider holding member, 2: Gimbal, 3: Magnetic head slider, 4: Road beam, 5: Bonding surface

Claims (1)

[Claims] 1. A magnetic head, a gimbal for movably supporting the magnetic head, and a magnetic head support mechanism for fixing the gimbal, wherein a slider extending in the longitudinal direction of the magnetic head between the magnetic head and the gimbal. A magnetic head support mechanism comprising a holding member for supporting the magnetic head and the gimbal via the slider holding member.