RU2047914C1 - Unit of floating magnetic head - Google Patents

Abstract

FIELD: instruments, magnetic recording devices. SUBSTANCE: sphere flange 4 is made on free shoulder 3 of lever 1. When magnetic disk 9 is rotated, generated air flow bends around magnetic head 8 on both sides. One part of air flow that runs in area between free shoulder 3 and central plate 6 in close proximity to latter is laminar. This flow and loading force of lever 1 result in force F which presses floating magnetic head 8 and magnetic disk 9. This force is constant while lifting force F₁, which provides floating of magnetic head, varies. When shape of magnetic disk 9 is changed, force F₂ which presses magnetic head 8 serves also as regulating force. This provides rapid reaction of magnetic head 8 to external influences caused by change of shape of surface of magnetic disk 9. This results in constant space between magnetic head 8 and magnetic disk 9. EFFECT: increased functional capabilities. 3 dwg

Description

 The invention relates to instrumentation, in particular to nodes of floating magnetic heads, which can be used to record and reproduce information in magnetic recording devices.

Devices are known in which the magnetic head (MG) is attached to the central platform of the flexible element attached to the free end (shoulder) of the loaded lever, the central platform (CPU) of the flexible element by means of a spherical protrusion made on it interacts with the free end (shoulder) of the loaded lever [1]
Known designs are notable for the poor quality of tracking of the floating magnetic head (PMG) over the surface relief of the magnetic disk (MD) due to the delay in the MG reaction during the passage of the last roughness of the MD surface and, as a consequence, the instability of electrical parameters.

 The closest in technical essence is a device containing a suspension, including a loaded lever, on the triangular beam end (shoulder) of which a flexible element is fixed. A CPU is made on a flexible element, on both sides of it are two flexible springs providing mobility to it relative to the fulcrum, which is a spherical protrusion made on the CPU; MG mounted on the CPU of the flexible element through a spherical protrusion interacts with the free beam end of the loaded lever [2] The structural rigidity of the known device limits the mobility of the PMG during the passage of the last roughness of the MD surface, which leads to a change in the air gap between the PMG and MD, thereby influencing the stability of the electrical parameters of MG, the change of which leads to a decrease in the quality of recorded and reproduced information on MD.

 The purpose of the invention is the stabilization of the electrical parameters of the PMG by improving its aerodynamic characteristics.

 To achieve this goal, in the node of the floating magnetic head containing a lever fixed to one shoulder, on the free shoulder of which a flexible element is fixed, the central platform of which, with the floating magnetic head mounted on it, is placed with the possibility of interaction with the free shoulder of the lever by means of a spherical protrusion made on the free shoulder of the lever and its top is oriented to the middle of the Central platform of the flexible element.

 In FIG. 1 is a plan view; figure 2 is the same, right view; figure 3 General view of the node floating magnetic head.

 The PMG assembly is an integral part of the suspension for holding the PMG and consists of a loaded lever 1 of a triangular shape, on the sides of which a flange 2 is made to give the structure rigidity sufficient to withstand the clamping force of the PMG towards the MD surface. The base of the lever 1 is loaded, and its top is a free shoulder (free beam end) 3, on which a spherical protrusion 4 is made. A flexible element 5, made, for example, of stainless steel and including a central platform, is fixed to the free beam end 3 6 and two flexible springs 7 made on both sides of it, providing mobility of the CPU 6 with respect to the fulcrum, which is a spherical protrusion 4 with a vertex oriented towards the middle of the CPU 6. A floating magnet is fixed to the CPU 6 of the flexible element 5 SGP head 8. Reference numeral 9 denotes a magnetic disk.

The device operates as follows. When MD 9 rotates between it and PMG 8, an aerodynamic bearing is formed, the air gap of which ranges from 0.35 to 0.50 μm, providing non-contact magnetic interaction between the PMG 8 and MD 9 information tracks, and the quality of information recording and reproduction is determined the size of the air gap and its stability. The air flow that occurs during the rotation of the MD 9 envelopes the PMG 8 from two sides (figure 3). Part of the air flow passing in the gap between MD 9 and PMG 8 creates a lifting force F ₁ , which ensures the floating mode of PMG 8. The air flow passing in the zone between the free beam end 3 and CPU 6 in the immediate vicinity of the latter acquires a laminar character, t .to. there is no obstacle in the form of the base of the spherical protrusion 4. As a result, together with the clamping force of the loaded lever 1, the air flow creates a pressure F ₂ , pressing PMG 8 and MD 9 and which is constant in contrast to the lifting force F ₁ , depending on the size of the air gap determined MD relief surface 9. At a certain value of the air gap both forces F ₁ and F ₂ are balanced, thereby creating an air cushion sufficient rigidity to maintain a constant position SGP 8 relative to the surface ti 9 MD.

When the surface topography of MD 9 changes, the force F ₂ is simultaneously the regulating force. So, when passing PMG 8, for example, a concave section on the surface of MD 9, the air gap between them increases, the stiffness of the air bearing decreases and PMG 8 approaches the surface of MD 9.

 Thus, the device provides a fast response of the PMG in the event of external disturbances, thereby improving the quality of recording and playback of information.

Claims (1)

 FLOATING MAGNETIC HEAD ASSEMBLY, comprising a lever fixed to one shoulder, on the free shoulder of which a flexible element is fixed, the central platform of which with the floating magnetic head mounted on it is placed with the possibility of interaction with the free shoulder of the lever by means of a spherical protrusion, characterized in that the spherical protrusion is made on a free the shoulder of the lever, and its top is oriented towards the middle of the central platform of the flexible element.

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