Patent ID: 8441762

Claim:
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 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 has proximal and distal ends that are connected to the proximal end section and the distal end section, respectively, while being at least partially overlapped with the open section in a plan view as viewed along a direction perpendicular to the disk surface, wherein the distal end section has a length in the suspension width direction shorter than that of a distal end of the proximal end section, so that a virtual line connecting a center point of a proximal end, which is connected to the proximal end section, of each of the connecting beams and a center point of a distal end, which is connected to the distal end section, of the connecting beam is brought closer to the suspension longitudinal center line as the virtual line extends toward the distal end in the suspension longitudinal direction, wherein each of the paired connecting beams includes a proximal-side beam that extends from the proximal end connected to the proximal end section toward the distal side in the suspension longitudinal direction, a distal-side beam that extends from the distal end connected to the distal end section toward the proximal side in the suspension longitudinal direction, and an intermediate beam connecting a distal end of the proximal-side beam and a proximal end of the distal-side beam, and wherein each of the connecting beams is bent at a connection point between the proximal-side beam and the intermediate beam as well as at a connection point between the distal-side beam and the intermediate beam, so that an intermediate beam longitudinal line connecting center points of proximal and distal ends of the intermediate beam is across the virtual line.