JP5849825B2 - Pivot bearing device for swing arm of magnetic storage device and magnetic recording device using the same - Google Patents

Description

  The present invention relates to a pivot bearing device that swings accurately with low torque and low torque fluctuation, and a magnetic recording apparatus using the pivot bearing device.

  Conventionally, this type of pivot bearing device has a plurality of ball bearings arranged in the axial direction (tandem) with respect to the shaft corresponding to the inner ring, and can swing with high accuracy and low torque around the shaft. It was done. On the other hand, the pivot bearing device is frequently used as a bearing of a swing arm (swinging) type head access mechanism in a magnetic recording device, particularly a hard disk device (hereinafter abbreviated as HDD). In the HDD, the surface recording density is continuously improved, and the surface recording density is about to reach 1 Tbpsi (1 Tera Bit Per Square Inch) by improving the linear recording density and the track density. For this reason, the accuracy requirement for micropositioning is increasing, and the accuracy improvement for pivot bearings is increasingly required.

  According to Patent Document 1, it is said that by configuring one inner ring of two sets of bearings constituting a pivot bearing as a pivot shaft, the number of parts can be reduced and torque fluctuation can be suppressed. It is also disclosed that the HDD arm and pivot bearing are fixed via a tolerance ring. It is disclosed that the tolerance ring is disposed in a gap between the hole of the arm and the pivot bearing so that the pivot bearing can be elastically supported with respect to the hole of the arm by a reaction force by being compressed. Further, in Patent Document 2, when the pivot bearing is fixed to the hole of the arm by the tolerance ring, the stress on the outer ring of the pivot bearing is reduced by plastic deformation of the projection part (Projection) of the tolerance ring. It has been disclosed that the effect of deformation can be reduced and the removal force can be improved. Furthermore, it is also disclosed that an allowable range can be expanded with respect to a variation in a gap between the hole of the arm and the outer diameter of the pivot bearing, and an increase in torque can be prevented with the pivot bearing mounted.

JP 2002-106554 A (page 4, [0024]-[0026], FIG. 5, FIG. 7) US Publication No. 2008/0199254 (first page, [0012]-[0014], FIG. 2, FIG. 9)

  However, in the pivot bearing disclosed in Patent Document 1, it is necessary to form a rolling groove in which a ball travels in a part of the shaft, and there is no flexibility in selecting a material from the viewpoint of bearing characteristics, and machining is usually performed. This is different from the ball bearing process, and it is thought that productivity decreases and price increases.

  On the other hand, in the assembly of the pivot bearing by the tolerance ring disclosed in Patent Document 2, a higher surface pressure is required between the tolerance ring and the outer ring of the pivot bearing in order to tighten the hole of the arm and the pivot bearing. It is necessary to give As a result, the deformation of the outer ring of the pivot bearing increases, and the rolling groove of the ball is deformed, resulting in a decrease in rotational accuracy. This causes a decrease in access speed and stop position accuracy of a recording / reproducing apparatus such as an HDD, which is a factor of reducing the performance as the recording / reproducing apparatus.

  The present invention solves the above-described conventional problems, and can provide a pivot bearing device that has a simple structure, high accuracy, and high reliability at low cost, thereby providing a high-density magnetic recording device with high reliability. Is.

The present invention, in order to achieve the above object, a shaft, inner and outer rings are arranged side by side in the axial direction relative to the shaft, and a plurality of ball bearings in which the inner ring is secured to the shaft, of the outer ring comprising a tolerance ring for pressing the outer peripheral surface, and through the tolerance ring in the fixing hole of the swing arm, the outer ring of the ball bearing is fixed, the pivot bearing for the swing arm of the magnetic storage device that swings around the shaft It is an apparatus, Comprising: The number of balls of the said ball bearing and the number of ridges which press the said outer ring | wheel of the said tolerance ring are the same number, It is characterized by the above-mentioned. With this configuration, if the outer ring is a simple ring, it will be deformed by the stress of the tolerance ring, so it will attempt to be deformed into the same number of polygons as the number of peaks in the tolerance ring. The ball bearing is preloaded, the inner ring raceway surface and the outer ring raceway surface are in contact with the ball, and the inner ring inner diameter portion has a higher rigidity due to the shaft fixedly inserted. That is, it can be considered that the rigidity of the outer ring in the radial direction is greatly different between the position where the ball exists and the position where the outer ring does not exist in the circumferential direction. As in the present invention, if the number of peaks of the tolerance ring and the number of balls are the same, the deformation of the outer ring is the same between the tolerance ring or the pitch of the balls, regardless of the position of the peaks of the tolerance ring or the position of the balls. It can be given as a periodic function of the deformation at Therefore, even if the outer ring is deformed, the geometric center does not move. Therefore, the positional relationship in a state where the outer ring is not substantially deformed can be maintained. As a result, deformation of the outer ring does not substantially occur, so that the characteristics of the pivot bearing device can be improved.

  Further, the crests for pressing the outer ring of the tolerance ring are arranged at equal intervals in the circumferential direction. As described above, this configuration allows the polygon when the outer ring is deformed to be a regular polygon. As a result, variations in deformation can be reduced and the characteristics of the pivot bearing device can be improved.

  The inner ring, outer ring, and ball of the ball bearing are martensitic stainless steel. With this configuration, the rust prevention ability is higher than that of high carbon chrome steel such as SUJ2, so that application of rust prevention oil can be made unnecessary, and contamination due to evaporation of the rust prevention oil can be reduced.

  Further, the swing range of the pivot bearing device is 45 degrees or less in mechanical angle, and the number of balls of the ball bearing is 8 or more. In order to reduce the variation of each part with respect to the arrangement of the ball bearings in the rotation direction, it is possible to arrange the ball bearings so that the ball pitch is equal to or less than the mechanical angle. The ball pitch of the ball bearings is 45 degrees or less, that is, by using ball bearings with 8 or more balls, the mutual arrangement on the circumference of the balls does not change in the swing range, so more stable accuracy is realized. it can.

Further, a shaft, inner and outer rings are arranged side by side in the axial direction relative to the shaft, and a plurality of ball bearings in which the inner ring is secured to said shaft, and a tolerance ring for pressing the outer peripheral surface of the outer ring, the using a pivot bearing device having, through the tolerance ring in the fixing hole of the swing arm where the magnetic head to the tip is mounted, said ball bearing outer ring is fixed, tracks movement by swinging around the axis In the magnetic recording device, the number of balls of the ball bearing and the number of ridges pressing the outer ring of the tolerance ring are the same. With this configuration, the rotational accuracy of the pivot bearing device can be kept high with respect to the access of the magnetic head in the magnetic recording device, so that the track positioning accuracy of the high-density recording device that increases the track density can be improved, and the magnetic field that is advantageous for high-density recording. A recording apparatus can be realized.

  As described above, according to the present invention, in the swing type pivot bearing device in which the outer ring is fixed by the tolerance ring, the outer ring is deformed because the number of balls of the ball bearing and the number of peaks of the tolerance ring are the same. However, the geometric center does not move, the positional relationship in a state where the outer ring is not substantially deformed can be maintained, and a pivot bearing device that can swing with high accuracy can be realized. Furthermore, by using this pivot bearing device, a magnetic recording device capable of high-density recording with a high track density can be realized.

1 is a schematic plan view of an HDD according to an embodiment of the present invention. The top view of HSA of HDD of this embodiment The perspective view which shows the pivot bearing apparatus and arm of this embodiment Sectional drawing which shows the pivot bearing apparatus and tolerance ring of this embodiment (A) is a front view of the tolerance ring, (b) is a sectional view thereof. Perspective view of other tolerance rings Plan view showing the relationship between the ball of the pivot bearing device and the peak of the tolerance ring for each phase.

  An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic plan view of an HDD according to an embodiment of the present invention, FIG. 2 is a plan view of an HSA of the HDD of the present embodiment, and FIG. 3 is a perspective view showing a pivot bearing device and an arm of the present embodiment. 4 is a sectional view showing a pivot bearing device and a tolerance ring of the present embodiment, FIG. 5A is a front view of the tolerance ring, FIG. 5B is a sectional view thereof, and FIG. 6 is a perspective view of another tolerance ring, FIG. 7 is a plan view showing the relationship between the balls of the pivot bearing device and the peaks of the tolerance ring for each phase.

The outline of the HDD in this embodiment is a 2.5-inch (inch) perpendicular magnetic recording system, and the surface recording density is about 750 Gbps (Giga bit per square inch), and a 1 TB (Tera Byte) memory is mounted with 2 Disks. Has capacity. First, the configuration of the HDD will be described with reference to FIGS.
A magnetic disk 3 as a magnetic recording medium is fixed to a chassis 2 made of aluminum by a spindle and a hub (not shown) provided in a spindle motor 4 and is rotatably supported. On the magnetic disk 3, an underlayer, a soft magnetic backing layer (SUL), an intermediate layer made of Ru, a recording layer, a DLC layer, and the like are formed on a glass substrate (Substrate) by sputtering. Furthermore, a lubricant mainly composed of perfluoropolyether (PFPE) is applied as a fluorine-based oil to the upper surface. As the recording layer, a grain boundary is separated by SiO 2 using a Co—Cr—Pt granular film.

  An HSA (Head Stack Assembly) 10 is a coil that constitutes a VCM (Voice Coil Motor) having a magnetic head 11 provided at one end and moving the other end in the track direction of the magnetic disk 3 (radial direction of the magnetic disk 3). 7 is provided. On the magnetic head 11 side of the HSA 10, a magnetic head 11 called a head gimbal assembly (HGA) and a gimbal spring assembly that holds the magnetic head 11 are fixed to the arm 16 by a swage. At the further end of the magnetic head 11, there is a portion called a tab 15, and the magnetic head 11 is loaded / unloaded with respect to the magnetic disk 3 in cooperation with the ramp 5 attached to the chassis 2. The magnetic head 11 is mounted on a femto slider, is supported by a highly rigid suspension, and uses a configuration in which flying height control using thermal expansion is performed.

  The HSA 10 is configured to swing around a pivot bearing device 13 provided at the center thereof as a rotation center. A magnet 8 is disposed below the coil 7 of the VCM, a magnetic circuit is constituted by a yoke (not shown), and a thrust is generated by the Fleming's left-hand rule by a current supplied to the coil 7, and the pivot bearing device 13. Can be moved by moving the track.

  As shown in FIG. 3, in the HSA 10, the pivot bearing device 13 is fixed via a tolerance ring 12 in a fixing hole 18 of an arm 16 (also referred to as an E-block) made of an aluminum alloy serving as a base of the HSA 10. ing. The fixing by the tolerance ring 12 is suitable for performing rework such as replacement or correction by removing the HSA 10 from the HDA (Head Disk Assembly) when the magnetic head 11 has a failure due to ESD (Electro Static Discharge) or the like. .

  In recent years, the density of HDDs has increased, and along with this, the performance of magnetic heads 11 has improved. However, the film configuration for realizing a higher MR ratio becomes complicated, and the ESD tolerance tends to decrease. is there. In addition, since the unit price of the parts has increased, it is preferable that the rework of HGA has better workability. For this reason, fixing with the tolerance ring 12 is more workable than conventional bonding or press fitting. Improvement is expected.

As shown in FIGS. 3 and 4, the pivot bearing device 13 includes a shaft 21 and a plurality (in the embodiment, a pair) of ball bearings 20 arranged side by side with respect to the shaft 21 via a spacer 30. And comprising. The shaft 21 is provided with a screw 22 for fixing the pivot bearing device 13 to the chassis 2. The ball bearing 20 includes an inner ring 27 fixed to the shaft 21, an outer ring 25 fixed to the fixing hole 18 of the arm 16 via the tolerance ring 12, and a plurality of balls arranged between the inner ring 27 and the outer ring 25. 26, a cage 28 for holding the ball 26, and a seal member 29, which are lubricated with grease.
In the present embodiment, the inner ring 27, the outer ring 25, and the ball 26 are each made of martensitic stainless steel. As a result, compared with the case where high carbon chrome steel such as SUJ2 is used, the rust prevention ability is high, so it is not necessary to apply rust prevention oil, and contamination due to evaporation of rust prevention oil can be reduced. It becomes.

Further, as shown in FIG. 5, the tolerance ring 12 is formed by winding a steel plate made of a spring material such as SUS304CSP in a cylindrical shape, and a plurality of protruding portions 12 a that protrude radially outward in the axial intermediate portion. Are arranged at equal intervals in the circumferential direction. Accordingly, a plurality of peaks 12b that press the outer ring 25 are arranged at equal intervals in the circumferential direction between the plurality of protrusions 12a.
As shown in FIG. 6, the tolerance ring 12 is such that the projecting portions 12 a are divided in the axial direction, and each mountain 12 b between the divided projecting portions 12 a presses the outer ring 25 of each ball bearing 20. It may be configured.
Further, in the present embodiment, the mountain that presses the outer ring 25 between the adjacent projecting portions 12 a is intended to be a contact surface that contacts the outer ring 25, and the tolerance ring 12 is provided between the pivot bearing device 13 and the arm 16. By deforming the protrusion 12a, a pressing force is applied to the contact surface from the protrusions 12a on both sides. Therefore, in this embodiment, the number of peaks (the number of contact surfaces) and the number of protrusions 12a are substantially equal.

  Here, in the present embodiment, the number of balls of the ball bearing 20 and the number of peaks pressing the outer ring 25 of the tolerance ring 12 are set to be the same. If the outer ring 25 is a simple ring, the outer ring 25 is deformed by the stress of the tolerance ring 12, so that the outer ring 25 tries to be deformed into the same number of polygons as the number of peaks of the tolerance ring 12. The ball bearing 20 is preloaded, the inner ring raceway surface and the outer ring raceway surface are in contact with the balls 26, and the inner ring inner diameter portion is increased in rigidity by the shaft 21 inserted and fixed. Yes. The deterioration of the roundness of the outer ring 25 is largely related to the number of peaks and the number of balls in the tolerance ring and their positional relationship. Here, as shown in FIG. 7, if the ball 26 exists at the position of the peak 12 b of the tolerance ring 12 (phase difference, 0 °), the peak 12 b of the tolerance ring 12, the outer ring 25, the ball 26, the inner ring 27, and the shaft 21. Are arranged on substantially the same radius, and apparently the rigidity of the outer ring is maximized. On the other hand, when the position of the peak 12b of the tolerance ring 12 is between the balls 26 and 26 (phase difference 180 °), the rigidity of the outer ring 25 is conversely minimized. Now, if the number of peaks of the tolerance ring 12 and the number of balls are the same, the deformation of the outer ring 25 is between the pitch of the tolerance ring 12 or the balls 26 regardless of the positions of the peaks 12b and the balls 26 of the tolerance ring 12. Can be given as a periodic function of repeated deformation of the same shape. Therefore, even if the outer ring 25 is deformed, the geometric center does not move. Therefore, the positional relationship in a state where the outer ring 25 is not substantially deformed can be maintained. As a result, it is possible to realize an accurate pivot bearing device in which deformation of the outer ring 25 is not substantially affected.

  In particular, since the peaks 12b of the tolerance ring 12 are arranged at equal intervals in the circumferential direction, the polygon when the outer ring 25 is deformed can be a regular polygon, so that variation in deformation is reduced and the geometric center is reduced. The movement can be more reliably suppressed.

  In recent years, in order to improve the recording density, a technique of shingled write magnetic recording (SMR), in which recording is performed while one side of a track is overlaid on a previous track, has been used. In this technique, since the track pitch is very thin and accurate positioning of the magnetic head 11 is required, there is a great merit that the geometric center of the pivot bearing device 13 does not move.

  The number of balls of the ball bearing 20 can be arbitrarily set as long as the above relationship is satisfied. Actually, the number of balls of the ball bearing 20 applied to the HDD is, for example, 8 or more and 13 or less. Is used. Accordingly, the tolerance ring 12 having 8 to 13 peaks is used.

  Further, in this embodiment, the swing range of the pivot bearing device 13 is set to 45 degrees or less in terms of mechanical angle. In order to reduce the variation for each component with respect to the arrangement of the ball bearings 20 in the rotation direction, It arrange | positions so that the ball pitch of the bearing 20 may become below a mechanical angle. In other words, by using ball bearings having eight or more balls, the mutual arrangement on the circumference of the balls 26 does not change in the swing range, so that more stable and accurate can be realized and the reliability of the magnetic recording apparatus can be improved. It becomes possible to improve.

In addition, this invention is not limited to the said embodiment, A deformation | transformation, improvement, etc. are possible suitably.
For example, in the present embodiment, the tolerance ring 12 directly presses the outer ring 25 of each ball bearing. However, if a sleeve that is thin enough to cause the pressing force of the tolerance ring 12 to act on the outer ring 25 is used, The invention can also be applied to a type in which the outer ring 25 is fixed to the sleeve.
Further, in the present embodiment, the protruding portion 12a of the tolerance ring 12 protrudes radially outward from the viewpoint of assemblability, but protrudes radially inward and the top of each protruding portion of the tolerance ring 12 is projected. It may be a mountain 12b.

1 HDD
2 Chassis 3 Disc 4 Spindle motor 5 Ramp 12 Tolerance ring 12a Protrusion 12b Mountain 13 Pivot bearing device 16 Arm 18 Fixing hole 20 Ball bearing 21 Shaft 25 Outer ring 26 Ball 27 Inner ring

Claims (5)

Comprising a shaft, inner and outer rings are arranged side by side in the axial direction relative to the shaft, and a plurality of ball bearings in which the inner ring is fixed to the shaft, and a tolerance ring for pressing the outer peripheral surface of the outer ring, through the tolerance ring in the fixing hole of the swing arm, the outer ring of the ball bearing is fixed, a pivot bearing device for a swing arm of the magnetic storage device that swings around the shaft, and number of balls of the ball bearing A pivot bearing device for a swing arm of a magnetic storage device , wherein the number of ridges pressing the outer ring of the tolerance ring is the same. 2. The pivot bearing device for a swing arm of a magnetic storage device according to claim 1, wherein the crests for pressing the outer ring of the tolerance ring are arranged at equal intervals in the circumferential direction. The pivot bearing device for a swing arm of a magnetic storage device according to claim 1 or 2, wherein the inner ring, outer ring, and ball of the ball bearing are martensitic stainless steel. 4. The magnetic memory according to claim 1, wherein a swing range of the pivot bearing device is 45 degrees or less in mechanical angle, and the number of balls of the ball bearing is eight or more. Pivot bearing device for swing arm of the device. A shaft, inner and outer rings are arranged side by side in the axial direction with respect to said axis, comprising a plurality of ball bearings in which the inner ring is fixed to the shaft, and a tolerance ring for pressing the outer peripheral surface of the outer ring with a pivot bearing device for a swing arm of the magnetic storage device, through the tolerance ring in the fixing hole of the swing arm where the magnetic head is mounted on the distal end portion, the outer ring of the ball bearing is fixed, swings around the axis Thus, the magnetic recording apparatus in which the magnetic head moves in a track, wherein the number of balls of the ball bearing and the number of peaks pressing the outer ring of the tolerance ring are the same.

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