A component mounting device includes a heater unit which heats a range which is narrower than a movement range of a head which is a partial range of a board using a heater, in which the head is controlled to mount components onto the board using a heating range of the heater as a mounting range, the board is conveyed to shift the mounting range every time mounting of components in the mounting range is completed such that an unmounted range in which components are not mounted on the board becomes the mounting range, and components are mounted in a new mounting range.

A head gimbal assembly has a laminate flexure that includes a metallic conductive layer that includes a plurality of electrically conductive traces that are elongated and narrow and electrically connected to the read head, and a metallic structural layer that is stiffer than the conductive layer. A first dielectric layer is disposed between the structural layer and the conductive layer. A second dielectric layer substantially covers the conductive layer in a flexure tail bonding region that overlaps a flexible printed circuit (FPC). The structural layer includes a plurality of flexure bond pads that are aligned with, facing, and bonded to corresponding FPC bond pads. The flexure bond pads in the structural layer are electrically connected to the electrically conductive traces in the conductive layer by vias through the first dielectric layer. In certain embodiments, the flexure tail is folded upon itself in the flexure tail bonding region.

A head gimbal assembly has a laminate flexure that includes a metallic conductive layer that includes a plurality of electrically conductive traces that are elongated and narrow and electrically connected to the read head, and a metallic structural layer that is stiffer than the conductive layer. A first dielectric layer is disposed between the structural layer and the conductive layer. A second dielectric layer substantially covers the conductive layer in a flexure tail bonding region that overlaps a flexible printed circuit (FPC). The structural layer includes a plurality of flexure bond pads that are aligned with, facing, and bonded to corresponding FPC bond pads. The flexure bond pads in the structural layer are electrically connected to the electrically conductive traces in the conductive layer by vias through the first dielectric layer. In certain embodiments, the flexure tail is folded upon itself in the flexure tail bonding region.

In a case in which mounting deviation is occurring in a component which is mounted onto a solder surface of a board, a pad jig is pushed against the component, and the mounting deviation of the component is corrected through a friction force between the pad jig and the component by causing the pad jig to move in a horizontal direction.

A pulling head work station for attaching the lugs of pulling heads to cables, so that the cables may be pulled simultaneously through a conduit. The pulling head work station includes staggered cable receiving jigs, each jig having two clamps to hold a corresponding cable in place during attachment of a pulling lug. A chop saw to cut the cables and a crimper to secure a pulling lug to each stripped end portion of a cable may be slidably mounted to a work surface of the work station. A wire stripper may be removably attached to the work station.

A system for transferring a substrate includes a substrate transporter at which is captured a first image with which a position of the substrate at the substrate transporter is determined; a tray at which is captured a second image with which a position of each of a plurality of substrates relative to the tray is determined; a substrate mover with which the substrate is movable in a revolving manner between the substrate transporter and the tray, the substrate mover including: an arm portion movable in the revolving manner between the substrate transporter and the tray, and a substrate securing portion movable together with the arm portion; and an imager with which the first image and the second image are captured, the imager connected to the arm portion and movable in the revolving manner between the substrate transporter and the tray together with the arm portion.