TH75389B - Supporting material for magnetic disc, magnetic disc And magnetic disc device - Google Patents

Abstract

The aim is to offer the ideal plate to stop-motion hard disk drives in load-unload configuration with high reliability, control of shock even when rotating magnetic disks. with high speed and magnetic disk using this The base structure of the plates used in this fabrication magnetic disc has a special feature that is a circular glass plate 10 comprising a relatively smooth main surface 11 and an edge surface 12 and chamfered surface 13 molded between the main surfaces. 11 with a marginal surface 12 and with a convex that is raised or concave from a flat surface Outside this periphery in the main surface 11, the convex part is uniform in size around the circumference of the glass plate 10.

Claims (9)

Disclaimer (all) which will not appear on the advertisement page. : ------ 26/12/2018 ------ (OCR) Page 1 of 2 pages Disclaimer 1. Magnetic disk support material is a plate shaped support material. And there is a flat main face, a distal front end, a chamfered front that is formed between the main faces. And the front end And the indented part, at the periphery of the main face, raised in relation to the flattened face, other than the surrounding edge, of the main face, where such indentation is formed. Along the entire circumference of the support material. When the distance from the center of the support material to the end face is 100%, the tip where the lift is greatest. The offset was set in the range 92.0% to 97.0% from the center of the substrate. In such a primary surface, the circular state of the circle created by the end is 400 micrometers or less, and the support material is made so that it is adapted to the magnetic disk of the loading type. / Removed where the magnetic probe is loaded in and removed, in connection with the main surface of the magnetic disc 2. Magnetic disk support according to claim 1, where such support has a circular hole in its center and in its primary surface, the concentricity between the circles Was created by the end thereof The circular hole is 1200 μm or less. 3. Magnetic disk support according to claim 1, where such indentation includes elevation and / or reduction of the eye relative to the surface. Flattening, other than the surrounding edge, of the said main face, such elevation and / or sagging is created at the periphery of the main face and the size of the indentation. The indentation is approximately evenly distributed throughout the entire loop of the support material. 4. Magnetic disk support according to claim 3 where, in the aforementioned offset, a change in The size of such indentation is 5 nm or less. 5. Magnetic disk support material according to claim 1, where the substrate is a support material for use in magnetic discs installed in the plate business. A magnetic disk optimized to rotate the magnetic disc at a rotation speed of at least 5400 rpm or more 6. A magnetic disk, where at least a magnetic layer is built on the substrate according to claim 1 7. Magnetic plate according to claim 6, where the plate It is built to work with a magnetic reading head with a flying ceiling of 4nm or less, page 2 of the number of two pages. 8. Magnetic disk according to claim 6 where the recording density is 200 GBit. / Square inch or more 9. Magnetic plate device that is installed with a magnetic disk according to claim 6 ------------ ------ 25/05 / 2018-- ---- (OCR) Page 1 of 3 pages. Claims 1. Magnetic disk support is a disc shaped support material. And there is a flat main face, a distal front end, a chamfered front that is formed between the main faces. And the distal front and the indentation, at the periphery of the main face, raised in relation to the flattened face, besides the peripheral edge, of the main face, the indentation It is formed throughout the entire loop of the support material. When the distance from the center of the support material to the end face is 100% 1, the tip of the Raised as much as possible The indentation is located in the range of 92.0% to 97.0% from the center of the substrate.In the primary surface, the circular state of the circular shape formed by the apex is 400 micrometers or less. , And the support material is constructed so that it is adapted to the magnetic disc with load / unload type. In the seat, the magnetic head is loaded in and removed in connection with the main surface 1 of the disc, through its outer perimeter. 2. The magnetic disk support material according to claim 1, where the support material is There is a circular hole in its center and in the main face thereof, the concentric state between the circles created by the segment. End of the above The circular hole is 1200 μm or less. 3. Magnetic disk support according to claim 1 where the indentation includes elevation and / or reduction of the eye relative to the surface. Flattening, other than the surrounding edge, of the said main face, such elevation and / or sagging is created at the periphery of the main face and the size of the indentation in Such indentation is approximately evenly distributed throughout the circle. 4. Magnetic disk support according to claim 3 where, in the said indentation, the change in the size of such indentation is 5 nm or less. Magnetic disk support according to claim 1, where such a support material is a support material for use in a magnetic disc installed in a magnetic flange device that is optimized for rotation. A magnetic disk at a rotation speed of at least 5400 rpm or more 6. A magnetic disk, where at least a magnetic layer is built on the substrate according to claim 1 7. Magnetic disk according to claim 6 at Which the plates were made to work in conjunction with A magnetic reading head with a flying ceiling is 4 nm or less, page 2 of 3 pages 8. Magnetic disc according to claim 6, where the recording density is 200 GBit / sq. In. Or more 9. Disc device. Magnetic disk mounted with a magnetic disk according to claim 6 1 0. Magnetic disk support is a disk shaped support material. And there is a main face, an end face, and a chamfered face created between the main faces. And the front end The main surface has a flattened and concave face. The downward portion is located at the edge of the main face and is formed between the flattened face and the Chamfered surface The concave is reduced to the eye relative to the flattened face, where when the depth of the concave from the flattened face is indicated at a specified distance location. From the center of the disk shape support material A change in the depth between the indentations in the direction along the circumference of the material. Supports disk images to be 1.55 nm or less when the concave portion is measured at 12 points per 30? In the circumferential direction 1 1. Magnetic disk support is a disk-shaped support material and has the primary surface, the distal front, and The chamfered face is created between the main faces. And the front end The main surface has a flattened face and a raised part. The downward portion is located at the edge of the main face and is formed between the flattened face and the Chamfered surface The relief is raised relative to the flattened surface, where, when the height of the raised from the flattened face is indicated at the distance at Determined from the center of the disk material The change in the height between the diagonal protrusions in the circumference direction of the support material is 1.55 nm or less when the relief is measured at 12 points per 30? In the circumference direction 1. A magnetic disk is a disk-shaped support material for use in a magnetic disk that will be installed in Magnetic disk device The magnetic disk support has the primary face, the end face, and the chamfered face. Created between the main surface And the front end The main surface has a flat face and the indentation. The indentation is located at the edge of the main face and is formed between the flattened face and the Chamfered surface And is raised or lowered in relation to the flattened face, where the greatest indentation is defined as the large distance from the straight line to the indentation. Each other in a direction perpendicular to the connecting line. Straight lines connect two points on the main surface, which are set. Values at the position 92.0% and 97.0% from the center of the disk-shaped substrate, the distance from the center of the material. The support to the end face in the radial transverse cross section of the support is 100% page 3 of the number 3 when the maximum such indentation of the support is measured at 12 points per 30? In the direction along the loop of the support material The change in the size of the indentation between all adjacent measuring points is 1.55 nm or less 1. 3. Magnetic disk material according to claim 12, whose protrusion surrounds the flat surface when viewed. The flat surface of the primary surface of the disk and when measuring the convexity of the support at 12 points per 30? In the circumferential direction of such support, the change in the size of the indentation between all adjacent measurement points is 1.55 nm or less. 1. Magnetic disk support material according to claim 12, which is repeated. The downward portion is depth from the flat surface at a specified distance from the center of the Material supports such disk images. Depth looks like When the recess of the support material is measured at 12 points per 30 degrees in the circumferential direction of such support. Change in the size of the indentation Between all adjacent measuring points is 1.55 nm or less 1. 5. Magnetic disk support material according to claim 12, wherein the substrate is a support material for use in the magnetic disk to be installed in the device. Load / unloaded magnetic disk, read head The magnet is loaded and unloaded relative to the primary surface of the magnetic disk through the outer edge of the Magnetic disk 1 6. Magnetic disk included. Magnetic disk support material according to claim 12 and at least a magnetic layer is built on the magnetic disk support 1 7. The magnetic disk device is included. DFH hard disk drive (dynamic flying height), read head and magnetic disk installed on the said hard disk drive. The magnetic disk is composed of a magnetic disk support material according to claim 12, and at least a magnetic layer is built on the said magnetic disk support material. 1. Magnetic plate support material is a plate shaped support material. And there is a flat main face, a distal front end, a chamfered front that is formed between the main faces. And the distal front and the indented part, at the periphery of the main face, raised in relation to the flattened face, other than the surrounding edge, of the main face, where the It is molded along the entire circumference of the support material. When the distance from the center of the support material to the end face is 100%, the inlet which the Raised as much as possible In such an indentation being located in the range of 92.0% to 97.0% from the center of the support material, in the primary surface, the circular state of the circular shape formed by the apex is 400 μm or less. , And the support material is constructed so that it is adapted to the magnetic disc with the load / unload type. Where the magnetic reading head is loaded in and removed, in connection with the main surface of the disc, passes through its outer periphery. 2. Magnetic disk support material according to claim 1, where such support has circular holes in its center and in the aforementioned main surface, the concentricity between the circles created by the section. End of the above And such a circular hole is 1200 μm or less. 3. Magnetic disk support material according to claim 1, where such indentation includes elevation and / or decrement relative to the flattened surface, other than the surrounding edge, of the surface. The said main page, its rise and / or sagging, are created at the periphery of the main face and the size of the indentation in the said indentation is approximately uniform throughout. circumference All of the above supporting materials 4. Magnetic disk support material according to claim 3 where, in the said indentation, the change in the magnitude of such indentation is 5 nm or less. 5. Magnetic disk support material according to claim 1, where such support is a support material for use in a magnetic disc installed in a magnetic disc device that is optimized for rotation. Magnetic disc at a rotation speed of at least 5400 rpm or more. 6.Magnetic disc, where at least a magnetic layer is built on the backing material according to claim 1. 7. Magnetic plate according to claim 6, where the plate is made to work together with A magnetic reading head with a flying ceiling is 4 nm or less. 8. Magnetic disk according to claim 6, where the recording density is 200 GBit / sq. Inch or more. 9. Magnetic disc device installed with a magnetic disc according to claim 6.