Suspension having relief against flexure movement interference
First Claim
1. A disk drive suspension head gimbal assembly for positioning a head at a disk, said assembly comprising an elongated load beam of a given thickness, and a flexure unit including a flexure central tongue for supporting the head adjacent the disk, said flexure lying in a separate plane from said load beam and comprising a portion fixed to said load beam and a cantilevered portion having left and right lateral extents extending laterally of said load beam, said flexure cantilevered portion carrying said flexure tongue and adapted for rotation in predetermined arcs about its axes relative to said load beam in head positioning relation, said load beam normally tending to interfere with flexure portion rotation of its said lateral extents along said predetermined arcs, said load beam being apertured through its said thickness at each locus of interference to permit flexure portion rotation throughout its said predetermined arcs free of load beam interference.
1 Assignment
0 Petitions
Accused Products
Abstract
Extended arcuate travel of the flexure in a disk drive suspension head gimbal assembly is provided by reducing the load beam body thickness in the areas where the load beam body normally interferes with full arc traverse, by etching some or all of the load beam material away in the interference areas.
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Citations
5 Claims
- 1. A disk drive suspension head gimbal assembly for positioning a head at a disk, said assembly comprising an elongated load beam of a given thickness, and a flexure unit including a flexure central tongue for supporting the head adjacent the disk, said flexure lying in a separate plane from said load beam and comprising a portion fixed to said load beam and a cantilevered portion having left and right lateral extents extending laterally of said load beam, said flexure cantilevered portion carrying said flexure tongue and adapted for rotation in predetermined arcs about its axes relative to said load beam in head positioning relation, said load beam normally tending to interfere with flexure portion rotation of its said lateral extents along said predetermined arcs, said load beam being apertured through its said thickness at each locus of interference to permit flexure portion rotation throughout its said predetermined arcs free of load beam interference.
Specification