KR100363152B1 - Hard disk drive - Google Patents

Abstract

PURPOSE: A hard disk drive is provided to more accurately control a position of a head stack assembly by a voice coil motor by increasing force fixing the head stack assembly in stopping the hard disk drive and reducing influence of magnetic flux applied to an iron piece of the head stack assembly in operating the hard disk drive. CONSTITUTION: A disk is provided to record information. A head stack assembly has a head recording information at the disk or reading the recorded information. A latch fixes the head stack assembly by using a permanent magnet in stopping a hard disk drive. The latch has a plurality of permanent magnets(64a,64b) laminated to act absorbtion force between adjacent magnets.

Description

Hard disk drive

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hard disc drive, and in particular, to improve the structure of a permanent magnet of a latch that fixes a head stac assembly (HSA), thereby improving the force of fixing the HSA when the hard disk drive is stopped. The present invention relates to a hard disk drive which can more precisely control the position of the HSA by VCM by increasing and reducing the influence of the magnetic flux on the iron pieces of the HSA during the operation of the hard disk drive.

In general, a hard disk drive is provided with a disk as a recording medium for information, and a head stack assembly is provided in which a head serving to record information or reproduce recorded information is provided. And, when the hard disk drive is stopped, a latch is provided to fix the head stack assembly.

Although there are various methods of fixing the head stack assembly by such a latch, a method of fixing the head stack assembly by installing a ferromagnetic material on a predetermined portion of the head stack assembly to be attracted to a permanent magnet installed in the latch is widely used.

FIG. 1 shows an example of a conventional hard disk drive in which a fixing method by such a magnet is adopted.

Referring to this, the conventional hard disk drive 11 is provided with a disk 12 for recording and reproducing information. This disk 12 is supported by a coupling device (not shown) of a motor and a spindle for rotating the disk 12 while being fixed to the hub 14 of the motor by a clamp 13. Then, the head stack assembly 16 is pivoted about the pivot 15. The head stack assembly 16 has an actuator body 17, a plate-shaped load beam 18 coupled to the body 17, and fixed to an end of the load beam 18 so that the disk is fixed. And a head 19 for writing information to or reading information from the disc 12. As shown in FIG.

In addition, a predetermined portion of the base plate 20 is provided with a voice coil motor 21 for rotationally driving the pivot 15, and of the actuator body 16, which is about 180 ° opposite to the head 19. At one end, the iron piece 22 of ferromagnetic material is installed. On the turning movement trajectory of the iron piece 22, a latch 23 for fixing the head stack assembly 16 is provided by attracting and sucking the iron piece 22 when the hard disk drive is stopped. Here, the latch 23 is composed of a permanent magnet 24 and a fixing member 25 for supporting and fixing the permanent magnet 24.

In the conventional hard disk drive having such a structure, the latch 24 secures the head stack assembly 16 when the hard disk drive is stopped as described above, so that the head 19 is placed at a predetermined portion on the disk 12. It serves to be located. If the head stack assembly 16 moves away from the latch 24 in a stationary hard disk drive, the head 19 moves on the disk 12 and damages the surface of the disk 12, or the head ( 19) is attached to the surface of the disk, and the spindle motor cannot rotate the disk during the operation of the hard disk drive, which makes the hard disk drive inoperable. Therefore, in order to prevent such a problem from occurring, conventionally, when the hard disk drive is stopped by the latch 24 as described above, the head stack assembly 16 is fixed so that the head 19 rests on the disk 12. It is to prevent movement.

By the way, in the latch 23 using such a permanent magnet in the related art, as shown in FIG. 2, the permanent magnet 24 is made of one magnet, and the magnetic force line at that time is roughly indicated by an arrow. Is formed. Therefore, a lot of leakage magnetic flux arises and the force which attracts the iron piece 22 weakens by this. In addition, the magnetic field is distributed far, the magnetic flux affects the iron piece 22 during the operation of the hard disk drive, it is difficult to accurately position the head stack assembly 16 by the VCM.

The present invention has been made to solve the above problems, and increases the force for fixing the head stack assembly when the hard disk drive is stopped, and reduces the influence of magnetic flux on the iron pieces of the head stack assembly when the hard disk drive is operated. The purpose is to provide a hard disk drive.

In order to achieve the above object, a hard disk drive according to the present invention,

A head stack assembly having a disk for recording information, a head for recording information on the disk or reproducing the recorded information, and a latch for fixing the head stack assembly by using a permanent magnet when the drive is stopped. In the hard disk drive,

The latch is characterized in that a plurality of permanent magnets are provided in a stack such that neighboring magnetic poles can attract the neighboring magnetic poles.

Therefore, the magnetic flux generated in the permanent magnet is concentrated on the surface of the permanent magnet, so that when the ferromagnetic iron pieces attached to the head stack assembly come into contact with the magnet surface, a magnetic circuit passing through the iron pieces forms a magnetic circuit to absorb the iron pieces. Is increased. In addition, when the iron piece is separated from the permanent magnet according to the operation of the hard disk drive, the magnetic flux is concentrated on the surface of the permanent magnet as described above, and thus the suction force at this time is reduced than the suction force of the conventional permanent magnet. As a result, the position control of the head stack assembly by the VCM can be more precise.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Since the basic configuration of the hard disk drive according to the present invention is the same as the conventional hard disk drive, the same components will be described with reference to FIG.

Referring to FIG. 1, the hard disk drive 51 of the present invention is provided with a disk 52 for recording and reproducing information. This disk 52 is supported by a coupling device (not shown) of a motor and a spindle for rotating the disk 52 while being fixed to the hub 54 of the motor by a clamp 53. Then, the head stack assembly 56 for pivoting around the pivot 55 is provided. The head stack assembly 56 is secured to an end of the plate-shaped rod beam 58 and the rod beam 58, which extends and is coupled to the actuator body 57, to the disk 52. It consists of a head 59 for recording information or reading information from the disc 52.

In addition, a predetermined portion of the base plate 60 is provided with a voice coil motor 51 for rotationally driving the pivot 55, and the actuator body 56 of the actuator body 56 opposite to the head 59 in a direction approximately 180 degrees. At one end, an iron piece 62 made of ferromagnetic material (eg, iron, nickel, cobalt) is installed. On the turning movement trajectory of the iron piece 62, a latch 63 for fixing the head stack assembly 56 is provided by attracting and sucking the iron piece 62 when the hard disk drive is stopped. Here, in particular, the latch 63 is composed of a plurality of permanent magnets 64 and a fixing member 65 for supporting and fixing the permanent magnets 64.

3 is a partial excerpt of the iron piece of the permanent magnet and the head stack assembly of the latch according to the first embodiment of the hard disk drive according to the present invention.

As shown in the figure, the two permanent magnets 64a and 64b are arranged in a polarity such that neighboring magnetic poles are mutually attracted. Accordingly, the magnetic flux generated in the permanent magnets 64a and 64b as indicated by the arrow forms a concentrated magnetic path close to the surface of the permanent magnet. Here, the permanent magnets 64a and 64b are not necessarily limited to two as in this embodiment, and may be three or four or more depending on the case.

On the other hand, the formation of the magnetic path as described above forms a magnetic circuit via the iron piece 62 when the ferromagnetic iron piece 62 of the head stack assembly contacts the surfaces of the permanent magnets 64a and 64b. Therefore, the adsorption force on the iron piece 62 of the permanent magnets 64a and 64b appears as a solid line in the graph of FIG.

That is, the suction force of the permanent magnets 64a and 64b to the iron piece 62 is conventional when the permanent magnets 64a and 64b and the iron piece 62 are close to each other to fix the head stack assembly according to the stop of the hard disk drive. It is larger than the adsorption force (dotted line display) by a single permanent magnet, and conversely, when the iron piece 62 of the head stack assembly moves away from the permanent magnets 64a and 64b according to the operation of the hard disk drive, it becomes smaller than the conventional adsorption force. As a result, this attraction force (magnetic force) is inversely proportional to the square of the distance, so that the fixing force of the head stack assembly when the hard disk drive is stopped increases further than before, and the influence of the permanent magnet on the iron sheet when the hard disk drive is operating is It will be further reduced compared to.

On the other hand, Figure 5 is a partial excerpt of the iron piece of the permanent magnet and the head stack assembly of the latch according to the second embodiment of the hard disk drive according to the present invention.

Referring to this, two permanent magnets 74a and 74b are connected to each other, and a groove 74h having a predetermined width and depth is formed along the center line on the center line of the entire surface formed by the connection. Different magnetic poles are arranged on both sides of the boundary. Due to the formation of the groove 74h, the magnetic flux generated in the permanent magnets 74a and 74b is considerably reduced in leakage, thereby forming a highly concentrated magnetic path in close proximity to the surface of the permanent magnet. Here, the permanent magnets 74a and 74b are not necessarily limited to two as in this embodiment, and may be three or four or more depending on the case. The groove 74h may also be formed in two, three, or more grooves.

On the other hand, the formation of the magnetic path as described above forms a magnetic circuit via the iron piece 72 when the ferromagnetic iron piece 72 of the head stack assembly contacts the surfaces of the permanent magnets 74a and 74b. Therefore, the adsorption force on the iron pieces 72 of the permanent magnets 74a and 74b appears as a solid line in the graph of FIG.

That is, the adsorption force of the permanent magnets 74a and 74b to the iron pieces 72 is conventional when the permanent magnets 74a and 74b are close to the iron pieces 72 to fix the head stack assembly according to the stop of the hard disk drive. It is much larger than the adsorption force (dotted line display) by a single permanent magnet, and conversely, when the iron piece 72 of the head stack assembly is moved away from the permanent magnets 74a and 74b according to the operation of the hard disk drive, it becomes smaller than the conventional adsorption force. As a result, this attraction force (magnetic force) is inversely proportional to the square of the distance as described above, so that the fixing force of the head stack assembly when the hard disk drive is stopped is further increased as compared with the conventional one, and the permanent magnet to the iron piece when the hard disk drive is operated. The influence of is to be further reduced compared to the conventional.

As described above, the hard disk drive according to the present invention is provided with a plurality of permanent magnets of the latch to form a magnetic path concentrated on the magnet surface, thereby increasing the force for fixing the head stack assembly when the hard disk drive is stopped, The operation of the hard disk drive reduces the influence of the magnetic flux from the permanent magnet on the iron stacks of the head stack assembly, thereby further controlling the position of the head stack assembly by the VCM.

1 is a plan view showing the configuration of a conventional hard disk drive.

FIG. 2 is a partial excerpt of the iron piece of the head stack assembly and the permanent magnet of the latch of the hard disk drive shown in FIG.

3 is a partial excerpt of the iron piece of the permanent magnet and head stack assembly of the latch according to the first embodiment of the hard disk drive according to the present invention.

4 is a graph showing the relationship of the magnetic force to the distance between the permanent magnet of the latch of the first embodiment and the iron piece of the head stack assembly.

5 is a partial excerpt of an iron piece of a permanent magnet and a head stack assembly of a latch according to a second embodiment of a hard disk drive according to the present invention.

FIG. 6 is a graph showing the relation of magnetic force with respect to the distance between the permanent magnet of the latch of the second embodiment and the iron piece of the head stack assembly. FIG.

* Explanation of symbols for the main parts of the drawings

Hard disk drive 12,52 disk

13, 53 ...... Clamp 14, 54 ...... Hub

15,55 ...... Pivot 16,56 ....... Head Stack Assembly (HSA)

Actuator Body 18,58 ....... Road Beam

19,59 ...... Head 20,60 ...... Base Plate

Voice coil motor (VCM) 22,62,72

23,63 ...... Latch 24,64,74 ...... Permanent magnet

25,65 ...... Hardening member 74h ...... Home

Claims (2)

A head stack assembly having a disk for recording information, a head for recording information on the disk or reproducing the recorded information, and a latch for fixing the head stack assembly by using a permanent magnet when the drive is stopped. In the hard disk drive, The latch is provided with a plurality of permanent magnets, the hard disk drive, characterized in that the neighboring magnetic poles are installed in a stack so that the suction force can act. The method of claim 1, The latch is provided with a plurality of permanent magnets connected to each other, and at least one groove having a predetermined width and depth is formed along the center line on the center line of the entire surface formed by the connection, and mutually different on both sides of the groove. A hard disk drive, characterized in that the magnetic poles are arranged.