Patent ID: 8390961
Filing Date: 2013-03-05
Classification: G11B

Abstract:
1. A magnetic head suspension comprising a load bending part that generates a load for pressing a magnetic head slider toward a disk surface, a load beam part that transmits the load to the magnetic head slider, a supporting part that supports the load beam part via the load bending part and is swung about a swing center directly or indirectly by a main actuator, a flexure part that is supported by the load beam part and the supporting part while supporting the magnetic head slider, and paired right and left piezoelectric elements that are attached to the supporting part so as to be symmetrical with each other with respect to a suspension longitudinal center line and have expansion and contraction directions different from each other, in order to enable micro motion of the magnetic head slider in a seek direction, wherein the magnetic head suspension further comprises a distal-end-side support plate, which is connected to a lower surface of the supporting part that faces the disk surface and on which lower surfaces, on the distal sides, of the paired piezoelectric elements that face the disk surface are mounted, wherein the supporting part includes a proximal end section that is directly or indirectly connected to the main actuator, a distal end section to which the load bending part is connected, an open section that is positioned between the proximal end section and the distal end section in a suspension longitudinal direction, and paired right and left connecting beams that are positioned on both sides of the open section in a suspension width direction and connect the proximal end section and the distal end section, wherein each of the paired piezoelectric elements is arranged within the open section so that an end surface on a distal end side and an end surface on a proximal end side of the piezoelectric element are opposed at least partially to a proximal end surface of the distal end section and a distal end surface of the proximal end section, respectively, wherein the end surface on the distal end side of the piezoelectric element is fixed to the proximal end surface of the distal end section by an insulative adhesive agent and the lower surface, on the distal side, of the piezoelectric element is fixed to the distal-end-side support plate by an insulative adhesive agent while the end surface on the proximal end side of the piezoelectric element is fixed to the distal end surface of the proximal end section by an insulative adhesive agent, wherein each of the paired connecting beams includes a proximal-side beam that linearly extends from a proximal end connected to the proximal end section to a distal end, and a distal-side beam that linearly extends from a proximal end connected to the proximal-side beam to a distal end connected to the distal end section, wherein the distal-side beam is inclined with respect to the proximal-side beam in a plan view such that a connection point between the proximal-side beam and the distal-side beam is located closer to the suspension longitudinal center line relative to a virtual line connecting the proximal end of the proximal-side beam and the distal end of the distal-side beam, and wherein the distal-end-side support plate is connected to the lower surface of the supporting part so as to form a gap between a distal edge of the distal-end-side support plate and a proximal edge of the distal end section in a plan view as viewed along a direction perpendicular to the disk surface.