JPH08161717A - Hard disc and spin stand for magnetic head - Google Patents

Abstract

PURPOSE: To achieve higher operability, higher productivity and versatility with a simple structure by facilitating application of the same skew angle to a magnetic head as that of a HDD to enable the carrying out of a burnishing test, a gliding test and a reading/writing test simultaneously. CONSTITUTION: Output shafts of turning type magnetic head positioning mechanisms 107 and 108 are arranged above output shafts of a spindle 102 for rotating a hard disc as opposed thereto. At the same time, the output shafts of the turning type magnetic head positioning mechanisms 107 and 108 slide parallel with the surface of a hard disc 103 without contacting the output shaft of the spindle 102 for rotating the hard disc to set a distance between the shafts thereof freely. At least two magnetic heads 110 are mounted on the magnetic head positioning mechanisms 107 and 108 with respect to one side of the head disc.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an actual hard disk drive (hereinafter referred to as "H") having a turning type magnetic head positioning mechanism.
(Referred to as DD) and a spin stand used for testing a magnetic head.

[0002]

2. Description of the Related Art Rotary heads currently in widespread use
Although the positioning type HDD has an advantage that the structure is compact, the problem that the head skew angle changes for each track cannot be avoided. This head skew angle is related to the flying height of the magnetic head and is considered to appear as a change in head output. Therefore, when performing the read / write test or glide test of the hard disk and magnetic head, it is desirable to perform at the same skew angle as that of the HDD. The positional relationship with the positioner may be the same as that of the HDD.

A spin stand used for testing hard disks and magnetic heads is equipped with a hard disk rotating spindle and a magnetic head positioning mechanism, like the HDD, and is considered in terms of positioning accuracy, operability and versatility. Then, the magnetic head is positioned by the straight-line type stage. Further, in rare cases, there was a spin stand in which the magnetic head is positioned by a turning type magnetic head positioning mechanism.

[0004]

However, it is difficult to form a compact structure such as an HDD for the above reason, and the positional relationship between the spindle and the magnetic head positioning mechanism should be the same as that of the HDD. I couldn't.

If the head is to have the same skive angle as the HDD, the magnetic head positioning mechanism has a problem as already known in Japanese Patent Laid-Open No. 5-298632.
A method of calculating the coordinate position at which the skew angle is obtained by using the —Y orthogonal stage is conceivable, but it is costly.

An object of the present invention is to provide the magnetic head with the same skew angle as that of the HDD in order to solve the above problems, and to perform burnishing, glide test, read / write / read / write.
A light test can be performed at the same time, its operability is good, its configuration is simple, and it has versatility.
It is to provide a spin stand for a desk and a magnetic head.

[0007]

In order to achieve the above object, the present invention has a hard disk rotating spindle and a revolving magnetic head positioning mechanism, and is used in an actual hard disk drive. In a spin stand for testing at least one of a hard disk and a magnetic head, an output shaft of the orbiting magnetic head positioning mechanism is arranged above the output shaft of the hard disk rotating spindle so as to be opposed thereto, and The output shaft of the orbiting magnetic head positioning mechanism slides parallel to the hard disk surface without contacting the output shaft of the hard disk rotating spindle, and the axial distance is freely set. It is a hard stand and spin stand for magnetic heads.

According to another aspect, the orbiting magnetic head positioning mechanism mounts at least two magnetic heads on one surface of the hard disk.

[0009]

By employing the hard desk and spin stand for magnetic head of the present invention, the output shaft of the rotary magnetic head positioning mechanism is arranged above the output shaft of the hard disk rotating spindle so as to be opposed thereto. Moreover, the output shaft of the rotating magnetic head positioning mechanism slides parallel to the hard disk surface without contacting the output shaft of the hard disk rotating spindle, and the distance between the shafts is freely set to position the magnetic head. By mounting at least two magnetic heads on one side of the hard disk, the H
It becomes easy to give the magnetic head the same skew angle as DD, and burnishing, glide test, read / write test can be performed at the same time, and its operability is good and productivity is improved. It has a simple structure and versatility.

[0010]

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

FIG. 1 is a schematic block diagram of an embodiment of the present invention. The figure shows an embodiment of a spin stand 100 for a disk certifier, and a biaxial rotary positioner 10
It is equipped with 7 and one disk degaussing magnet eraser 112. Disc 10 on base 101
Spindle 102 for rotating 3 and slide base 10
4, slide table 105, eraser slide 11
1, a magnet eraser 112 and the like.

The rotary positioner 107 is mounted on the bracket 106 via the slide base 104 and the slide table 105.
The head load mechanism 108 is connected to the rotation output shaft (not shown) of the. Further, a head jig 109 having a head 110 fixed thereto is mounted on the head load mechanism 108. Further, the rotary positioner 107 turns the head 110 through the head load mechanism 108 and the head jig 109 to control the angle.

The axial distance between the rotary positioner 107 and the spindle 102 can be adjusted by moving the slide table 105. Normally, the turning radius of the head 110 is sufficient by controlling the dimensions of the head jig, but it is easy to equip an adjusting mechanism (not shown).

The rotary output shaft of the rotary positioner 107 is arranged above the rotary output shaft 102A of the spindle 102 so as to face the rotary output shaft, and the rotary output shaft of the rotary positioner 107 is in contact with the rotary output shaft 102. However, by freely setting the inter-axis distance I by sliding parallel to the surface of the disk 103, the mounting space is saved, and at least two magnetic heads are provided on one surface of the disk 103.
In this embodiment, eight magnetic heads 110 are mounted, which improves the productivity.

FIG. 2 shows a state diagram in which the skew angle changes depending on the track position. In the figure, the positional relationship between the spindle and the positioner is shown in Fig.
If θ is the skew angle (degrees) and r is the track radius (mm) by arranging them in the length R (mm), the following formula (1)
Is established.

[0016]

[Equation 1] θ = sin ⁻¹ (R ² + r ² −I ² ) / 2Rr ………… (1) Therefore, in order to perform an equivalent test, the swing arm length (head rotation radius) R and the axial distance The (center-to-center distance) I can be input to the CPU as a parameter for calculation, and the skew angle θ can be automatically set. This test spin stand 100 has a very high accuracy as a standard machine, saves space and is compact, and is versatile.
It is a spin stand equipped with operability and the like.

FIG. 3 is an explanatory view of the procedure of the disk certifier shown in FIG. Normal disk in the figure
In the certification, the disk 103 is mounted in the same figure (A), the head 110 having the same shape as the slider used for the magnetic head 110 is used, and the burnishing process (the surface of the disk 103) is performed in the same figure (B). Is processed more flatly), a glide test (confirmation after burnishing) is performed in FIG. 6C, and then a read / write test is performed by the magnetic head 110, and finally the disk surface 103 remains. Magnetic eraser 1
The data is erased at 12. In the figure, the read head and the write head may be shared.

FIG. 4 shows a layout when the spin stand of the present invention is used in a production line. A plurality of disk certifiers, four in this embodiment, are shown.
A spin stand 100 for use is arranged, and a magazine 115 in which the disks 103 are housed is arranged facing the spin stand 100. The auto troller 116 slides on the rail 117 to hold the disk 103 accommodated in the magazine 115 and mount it on the spindle 102 of the spin stand 100.

As mentioned above, the spin stand 10 of the present invention.
0 is a spindle 102 and a rotary positioner 107
The distance I between the axes and the turning radius r of the head 110 are HD
By setting the same as D, it is possible to perform the test with the same head skew angle θ as the HDD. Also,
By using the rotary positioner 107 for two axes, four heads 11 are provided on one side of the disk 103.
It is possible to use 0. The present invention is not limited to the above embodiment, but can be carried out in other modes by making appropriate design changes. For example, one bracket is arranged on the base. By mounting a two-axis rotary positioner and head load mechanism on this bracket via a slide table, the space can be saved and the size can be reduced.

[0020]

As is apparent from the above description, in the hard disk and magnetic head spin stand of the present invention, the output shaft of the rotating magnetic head positioning mechanism is the output shaft of the hard disk rotating spindle. Of the rotary magnetic head positioning mechanism, the output shaft of the orbiting magnetic head positioning mechanism slides parallel to the hard disk surface without contacting the output shaft of the hard disk rotating spindle, and the distance between the shafts is increased. By freely setting and mounting at least two magnetic heads on one side of the hard disk to the magnetic head positioning mechanism, the problems of the conventional technology can be easily solved, and the same skew angle as that of the HDD can be achieved. It is easy to give to the head, burnishing, glide test, read / write test can be performed at the same time, its operability is good, To improve the production of, its configuration is simple,
It has versatility.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an embodiment of the present invention.

FIG. 2 is a state diagram in which the skew angle changes depending on the track position.

3 is an explanatory diagram of a procedure of the disk certifier shown in FIG.

FIG. 4 is a layout when the spin stand of the present invention is used in a production line.

[Explanation of symbols]

100 Spinner for disc certifier 101 Base 102 Spindle 103 Disc 104 Slide base 105 Slide table 106 Bracket 107 Rotor positioner 108 Head load mechanism 109 Head jig 110 Head 111 Magnet / erase -The 115 Magazine 116 Autoorder

Claims (2)

[Claims] 1. A spin stand having a hard disk rotating spindle and a turning type magnetic head positioning mechanism for testing at least one of a hard disk and a magnetic head used in an actual hard disk drive. The output shaft of the rotary magnetic head positioning mechanism is disposed above the output shaft of the hard disk rotating spindle, and the output shaft of the rotary magnetic head positioning mechanism is the hard disk. A spin stand for a hard disk and a magnetic head, characterized by sliding parallel to the hard disk surface without contacting the output shaft of a rotating spindle to freely set the distance between the shafts. 2. The hard disk and spin stand for a magnetic head according to claim 1, wherein the orbiting magnetic head positioning mechanism mounts at least two magnetic heads on one surface of the hard disk. .