JPS63273287A - Magnetic disk device - Google Patents

Abstract

PURPOSE:To keep a floating characteristic constant and to improve a slide resistant characteristic, by changing the head load of a floating magnetic head corresponding to the change of atmospheric pressure detected by an atmospheric pressure sensor which detects the atmospheric pressure. CONSTITUTION:A floating head 3 is constituted of a slider 11 and a gimbal 12, and is fixed on a head arm 4 via a piezo element 14. The peizo element 14 is mounted at a position where a spacer is positioned in a conventional device, and a voltage corresponding to the change of the atmospheric pressure is applied on the piezo element by the atmospheric sensor 15 provided at the outside via a amplifier 16, and spring rigidity is changed by changing length in a direction of arrow head and height (hi). Thereby, since the floating quantity of the head 3 can be controlled from the outside and dispersion in the floating of the head due to the change of the atmospheric pressure can be suppressed, the floating characteristic can be kept constant, and as a result, the slide resistant characteristic can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to magnetic disk drives, and in particular to HDA suitable for suppressing fluctuations in head flying height against fluctuations in atmospheric pressure.
(head disk assembly).

[Conventional technology]

In magnetic disk drives, the flying height of a magnetic head is decreasing as storage capacity increases.

However, if the flying height decreases too much, the magnetic head and magnetic disk will come into contact, causing a head crash, and conversely,
If the flying height becomes too high, the read voltage will drop and a read error will occur.

For example, if atmospheric pressure is a factor that changes the flying height, and the altitude specification is Om to 3000 m above sea level, the flying height will change by about 10%.

Therefore, it is necessary to improve the crash resistance margin and prevent head crashes by suppressing and stabilizing the variation in head flying.

For example, in the method described in Japanese Patent Application Laid-Open No. 49-121514, air bearings generated in a floating magnetic transducer of a magnetic storage device move the magnetic recording surface that is moving relatively. Stable flying of the head is achieved by maintaining the magnetic transducer interval at a constant distance from the recording surface even during rolling motion of the transducer.

FIG. 4 is an explanatory diagram of the magnetic head unit in a conventional magnetic disk device, and FIG. 5 is a diagram for explaining the principle of floating the magnetic head.6 In the method described above,
The magnetic head in A has a slider 4 as shown in FIG.
1. and a gimbal 42, and a head arm 34 via a spacer 44 made of stainless steel.
Fixed. Also.

The gimbal 42 includes a leaf spring part 43, and this leaf spring part 43
Give the slider load by.

In addition, in order to keep the pressure inside the HDA equal to atmospheric pressure, H
The DA is provided with an intake hole, and the intake hole further includes:
A filter is installed to prevent external dust.

With this configuration, when the magnetic disk 31 rotates, an air flow is generated between it and the slider 41.

The slider 41 floats up.

Further, as shown in FIG. 5, the flying height of the magnetic head is determined by the balance between the air film stiffness Ka and the spring pressure Kb.

Therefore, when atmospheric pressure decreases, HD A
As the internal pressure decreases and the air film stiffness Ka also decreases,
The balance with the spring pressure Kb is lost and the flying height becomes small.

[Problem that the invention seeks to solve]

In the above-mentioned conventional technology, since no consideration is given to atmospheric pressure fluctuations, there is a problem in that fluctuations in atmospheric pressure cause variations in the flying height of the floating magnetic head.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a magnetic disk device that improves the flying characteristics by improving the above conventional problems and reducing fluctuations in flying height due to changes in altitude (changes in atmospheric pressure).

Means for Solving Problem c] In order to solve the above problem, the present invention provides a magnetic disk device equipped with a head disk assembly constituted by a magnetic disk, a floating magnetic head with a gimbal, etc. The present invention is characterized in that it includes an atmospheric pressure sensor that detects atmospheric pressure, and changes the head load of the floating magnetic head in response to the detected change in atmospheric pressure.

[Effect]

In the present invention, the floating head is floated by airflow generated by the rotation of the magnetic disk, and its flying height is determined by atmospheric pressure, disk rotation speed, slider load, head shape, etc.

Among these parameters, the slider load is controlled and the flying height is kept constant by correcting the variation in atmospheric pressure. In other words, the slider load is controlled by using a piezo element in the head support spring part as described later, detecting atmospheric pressure with an atmospheric pressure sensor, and applying voltage to the piezo element according to the detected value to change the spring load. By doing so, the flying characteristics can be stabilized.

〔Example〕

Hereinafter, one embodiment of the present invention will be explained in more detail with reference to the drawings.

FIG. 3 is a schematic diagram of the HDA of a magnetic disk device in one embodiment of the present invention.

A magnetic disk 1 is fixed by a spindle 2 and rotates at a predetermined speed. The floating head 3 is fixed to a head arm 4 and is further attached to a carriage 5. Voice coil motor 6
The controller 1-roller (not shown) controls seek, following, etc. Spindle 2. The carriage 5 and the like are fixed to a base 7 and hermetically sealed with a cover 8. An intake hole 9 is provided to make the pressure inside the HDA the same as atmospheric pressure, and a filter 10 is attached to this part to prevent external dust from entering.

FIG. 1 is a detailed cross-sectional structural diagram of a floating head section showing an embodiment of the present invention. This shows partial details of the floating head 3 of the HDA shown in FIG.

In Fig. 1, 11 is a slider, 12 is a gimbal,
13 is a leaf spring section, 14 is a piezo element, 15 is an atmospheric pressure sensor, and 16 is an amplifier.

The floating head 3 includes a slider 11 and a gimbal I2, and is fixed to the head arm 4 via a piezo element 14. In particular, in this embodiment, the piezo element 14 is installed at the position where the conventional spacer was, and a voltage corresponding to the change in atmospheric pressure is applied to the pinigi element 14 via the amplifier 16 using an external atmospheric pressure sensor 15. By changing the length and height in the direction of the arrow in the figure, the stiffness of the spring can be changed.

FIG. 2 is a detailed sectional structural view of a floating head section showing another embodiment of the present invention. This shows an example in which the piezo element 14 is used to change the direction of expansion and contraction (indicated by arrows) in the same way as in FIG. 1, and the bimetal effect is utilized. The other configurations are the same as those in FIG. 1, so their explanation will be omitted. Even in this case, the spring load can be easily changed by detecting the atmospheric pressure using the atmospheric pressure sensor 15 and applying a voltage according to the detected value.

In this way, this embodiment and other embodiments are equipped with an atmospheric pressure sensor and can automatically change the load depending on the outside pressure. It is also possible to obtain corresponding levitation characteristics. In addition, this sensor not only automates the changeover switch, but also provides analog feedback on changes in atmospheric pressure, dramatically improving levitation accuracy.

〔Effect of the invention〕

As explained above, according to the present invention, the flying height of the head can be controlled from the outside and variations in the flying height of the head due to altitude (changes in atmospheric pressure) can be suppressed, so the flying characteristics are made constant, and the sliding resistance is Dynamic characteristics can be improved.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional structural diagram of a floating head portion of a magnetic disk device showing one embodiment of the present invention, FIG. 2 is a cross-sectional structural diagram of a floating head portion of a magnetic disk device showing another embodiment of the present invention,
FIG. 3 is a schematic configuration diagram of an HDA of a magnetic disk device in an embodiment of the present invention. FIG. 4 is a cross-sectional structural diagram of a floating head section in a conventional magnetic disk device, and FIG. 5 is a diagram for explaining the principle of floating the floating head. 1: Magnetic disk, 2 Nissin spindle, 3: Floating head,
4: Head arm, 11 Nislider, 12 Nishinpal,
13: leaf spring section, 14: piezo element, 15: atmospheric pressure sensor, 16: amplifier, 44 spacer. Patent applicant: Hitachi, Ltd. Figure 1 Figure 2 Figure 3 Figure 5

Claims (1)

[Claims] 1. A magnetic disk drive equipped with a head disk assembly composed of a magnetic disk, a floating magnetic head with a gimbal, etc., is equipped with an atmospheric pressure sensor that detects atmospheric pressure, and is configured to respond to changes in the detected atmospheric pressure. A magnetic disk device characterized in that the head load of the floating magnetic head is changed by changing the head load of the floating magnetic head.