JPS6129474A - Magnetic disk device - Google Patents

Abstract

PURPOSE:To make the magnetic disk device thinner by providing between the magnetic disks the magnetic head for the mutually confronting recording surfaces at mutually shifted position in the rotating direction of the magnetic disks. CONSTITUTION:Multiple magnetic disks 1A and 1B are provided concentrically and with some space between them and magnetic heads 3A-3D for the mutually confronting recording surfaces are provided between the magnetic disks 1A and 1B. The magnetic heads 3A-3D are shifted one another in the rotating direction of the magnetic disks 1A and 1B. This prevents the head crashing because there exists no magnetic head in the rising direction of the magnetic heads 3A-3D and the magnetic heads 3A-3D do not interefere with or hit one another when they fluctuate greatly.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an optical disk device, and more specifically, to an improvement in the arrangement structure of a magnetic head.

(Prior Art) Development of magnetic disk devices is progressing with the aim of reducing their size and weight.

Here, a basic example of a conventional magnetic disk device will be explained with reference to the drawings.

First, FIG. 5 is an exploded perspective view showing the overall general structure of the magnetic disk device, in which 51 is a frame;
2 is a disk support, 53A, 53B are magnetic disks (
(see FIGS. 6 and 7), magnetic disks 53A, 5
3B is supported by a disk support 52, and coaxially t
And they are arranged at intervals.

54 is a stepping motor, 55 is its output pulley,
A steel belt 56 is wound around the output pulley 55 in an α-shape and fixed with a screw. This steel belt 56
Both ends are screwed to the carriage described below. The reference numeral 57 is a carriage, to which parts A and A of the steel belt 5B are screwed. A shirt (shirt) 58, 58 fixed to the frame 51 is inserted into the carriage 57, and a magnetic head 80 is inserted through the gimbal springs 53, 511...
A, 60B.

A head arm 61 that supports 60C and 130D is mounted and fixed. Each magnetic head 60A, E10B, 130
0.80[ is arranged correspondingly to each recording surface of each magnetic disk 53A, 53B.

In this configuration, the rotation of the stepping motor 54 is
The output pulley 55 and the steel belt 56 convert the linear motion into linear motion and transmit it to the carriage 57.
is guided by the shaft 58 to perform a seek operation.

′ By the way, in order to increase the storage capacity of this device, it is natural to install more magnetic disks, but since increasing the number of magnetic disks increases the size in the height direction, the spacing between the magnetic disks must be reduced. I am trying to keep it from getting too large by shrinking it.

(Problems to be Solved by the Invention) However, as shown in FIG. 6 and FIG. two magnetic disks 5
3A and 53B, so in order to shorten the distance between them, 1 is the magnetic head 80.
In order to prevent B and lll0C from interfering with each other due to head crashes, sufficient spacing in the floating direction must be ensured, and this has actually put a brake on miniaturization.

(Means for solving the problem) 'The present invention has the following features:
In order to solve the above problems, the following configuration is provided.

That is, ° i number of magnetic disks are arranged coaxially and spaced apart, and a magnetic head for each opposing recording surface is provided between the magnetic disk and the magnetic disk. The present invention is a magnetic disk device in which the magnetic heads for each recording surface are arranged with their positions shifted from each other in the rotational direction of the magnetic disk when the disk is mounted.

(Function) With this configuration, it is possible to prevent each magnetic head, which is provided between the magnetic disk and the magnetic disk for each recording surface that faces each other, from existing in the floating direction. Even if the magnetic heads swing significantly, they do not interfere with each other and collide with each other, so head crashes can be prevented.

Therefore, there is no need to provide a space between the magnetic heads in each floating direction to prevent mutual interference.
This means that the distance between the magnetic disks can be narrowed.

(Example) The present invention will be described below with reference to illustrated embodiments. In FIGS. 1 to 3, IA and IB are magnetic disks (however, the magnetic disk IA is not shown in FIG. 1), and 2 is a disk support. be. The two magnetic disks IA and IB are supported by a disk support 2 and arranged coaxially and spaced apart from each other, as in the prior art. 3A, 3B, 3
G and 3D are magnetic heads, 4 is a gimbal spring, 5 is a head 7-mu, and 6 is a carriage. The head arm 5 is formed by laminating arm members 7, 8, and 9, and is attached to the carriage 6 by bolts (not shown). It is placed and fixed. The arm member 7 is formed with a support portion 7A, the arm member 8 is formed with two support portions 8A and 8B, and the arm member 9 is formed with a support portion 8A. These supports? A, 8A, 8B, 9A are all magnetic disks IA
, extending substantially parallel to the direction toward IB. Each magnetic head 3A to 3D has gimbal springs 4, 4 .
... are supported by the respective supporting parts 7A, 8^, -8B, and 91 via the magnetic head 3B, and of these, the magnetic head 3B for the back side recording surface of the magnetic disk IA and the magnetic head 3B for the front side recording surface of the magnetic disk IB. The magnetic heads 3C are respectively provided between the magnetic disks IA and IB. As shown in FIG.
is located on the left side, and the support parts 8B and 9A are located on the right side. Therefore, each magnetic head 3A, 38.3
Along with this, the G and 3D are also distributed to the left and right, and the gimbal springs 4, 4, . ...
The directionality is set to extend in the radial direction of the magnetic disks IA and IB in order to make the reading and writing operations of the magnetic heads 3A to 3D more accurate. In other words, magnetic heads 3A and 3C for the front and back surfaces of each magnetic disk IA and IB.
3B and 3D are separately arranged with the center line in the width direction of the helad arm 5 shown above as a border. More importantly, the magnetic heads 3B and 3G coexisting between the magnetic disks IA and IB are arranged with their positions shifted in the radial direction of the magnetic disks IA and 1B. Try not to let them exist together.

As a result of the above configuration, even if the magnetic head 3B and the magnetic head 3C swing significantly, they will not interfere with each other and collide with each other. In other words, head crashes can be prevented, thereby preventing mutual interference in the floating direction. Since there is no need to take a gap for the magnetic disk IA
Since the distance between the magnetic disk IB and the magnetic disk IB can be narrowed, the device can be made smaller and lighter.

Further, since the magnetic head 3B and the magnetic head 3C can be arranged side by side in the width direction of the head arm 5 as shown in FIG. 2, the head arm 5 can be made smaller in the height direction. This makes it possible to reduce the weight of the head arm 5, which also leads to a reduction in the load on the actuator for the seek operation (such as the stepping motor 54 shown in FIG. 5).

It goes without saying that the magnetic heads 3A to 3D may be separated for each of the magnetic disks IA and IB, as shown in FIG.

(Effects of the Invention) As is clear from what has been described above, according to the present invention, the distance between magnetic disks can be narrowed without causing a head crash, so the device can be made smaller in the thickness direction, In other words, the thickness can be reduced. Furthermore, it is possible to add more magnetic disks within a limited space, and the performance of the device can be improved without increasing the size.

Furthermore, if the present invention is applied to a basic structure, the head arm can be made smaller and lighter. This leads to a reduction in the load on the seven cutout units for seek operations.

[Brief explanation of the drawing]

Figure 81 is a plan view of main parts showing one embodiment of the device of the present invention,
3 is a side view, FIG. 4 is a partially sectional front view of main parts showing another embodiment of the device of the present invention, and FIG. 5 is an exploded view showing a schematic configuration of the entire conventional device. FIG. 6 is a partially enlarged sectional front view, and FIG. 7 is a side view. 1^, IB...Magnetic disk, 2...Disk support 1.3A-3D...Magnetic head

Claims (1)

[Claims] (1) In a magnetic disk device in which a plurality of magnetic disks are arranged coaxially and at intervals, and a magnetic head is provided between each magnetic disk for each of the recording surfaces facing each other. . A magnetic disk device in which the magnetic heads for each recording surface are arranged with their positions shifted from each other in the rotational direction of the magnetic disk.