A device for laminating panels that includes a base that includes an upper surface, a front edge and a rear edge, and a folding assembly that includes a first surface that is generally perpendicular with the upper surface of the base, a folding portion having an inner surface, a front edge and a rear edge. A folding path is defined from the front edge of the folding portion to the rear edge of the folding portion. An angle that is defined between the inner surface of the folding portion and the first surface decreases along the folding path.

To provide a manufacturing method and a manufacturing device for a peeling member capable of manufacturing the peeling member having less variation in quality and excellent durability for long-time use at a low cost with excellent productivity by a simple structure. The manufacturing method for the peeling member includes sticking a non-adhesive resin film. In sticking the non-adhesive resin film, a distal end edge 2b of a distal end portion 2a of a base material 2 is arranged at a side of an adhesive layer of a non-adhesive resin film 4 such that an end portion of the non-adhesive resin film 4 is protruded from the distal end edge 2b, and then the non-adhesive resin film 4 is stuck on both surfaces of the distal end portion 2a of a base material 2 to wrap the distal end edge 2b of the base material 2 by pressing a plurality rollers 21 to 25 sequentially onto the non-adhesive resin film 4 from an one side end portion toward an another side end portion in a longitudinal direction of the base material 2.

A method of making a waveguiding optical component includes processing a polymer optical material to form a billet having an axis of light transmission and having residual stress maintaining a transverse extent of the billet; placing the billet into a mold, the mold being configured to constrain transverse expansion of the billet according to a desired shape of the waveguiding optical component; and heating the billet in the mold to induce relaxation of the residual stress and corresponding transverse expansion of the billet, thereby forming the billet into the waveguiding optical component with the desired shape. An alternative method begins with a collection of individual canes or fiber segments which are fused during the heating process, bypassing a separate process of forming a billet.

Edge seals for composite structure fuel tanks are disclosed herein. One disclosed apparatus includes a seal covering an exposed edge of a carbon fiber reinforced composite fuel tank, where the seal comprises a layer of dielectric material to insulate carbon fibers at the exposed edge from fuel in the tank.

An apparatus includes upper and lower pressing tools arranged on platens that move relative to one another in a stroke direction. A slider unit moves in a direction transverse to the stroke direction, coordinated with the relative motion of the platens. In a retracted position the slider unit is displaced laterally from the lower pressing tool. In an active position the slider unit protrudes laterally over an edge portion of the lower pressing tool. Pressure actuators between the lower platen and the lower pressing tool apply an increased active pressing force on the lower pressing tool toward the upper pressing tool. Through the combined motions, the pressing tools press a laminated component including a cover layer on a substrate, and the slider unit folds and presses a protruding margin of the cover layer around an edge and onto a back surface of the substrate to form a folded-back rim.

An apparatus includes upper and lower pressing tools arranged on platens that move relative to one another in a stroke direction. A slider unit moves in a direction transverse to the stroke direction, coordinated with the relative motion of the platens. In a retracted position the slider unit is displaced laterally from the lower pressing tool. In an active position the slider unit protrudes laterally over an edge portion of the lower pressing tool. Pressure actuators between the lower platen and the lower pressing tool apply an increased active pressing force on the lower pressing tool toward the upper pressing tool. Through the combined motions, the pressing tools press a laminated component including a cover layer on a substrate, and the slider unit folds and presses a protruding margin of the cover layer around an edge and onto a back surface of the substrate to form a folded-back rim.

In a joining jig for disposing a sheet-shaped adherend on one surface side of a sheet-shaped material, folding back the adherend in an end edge portion of the sheet-shaped material, and causing adhesion of an end edge portion of the adherend on the other surface side of the sheet-shaped material, by a tip portion of an attachment piece pivoting in the end edge portion of a placement surface of a placement base, the attachment piece is switchable between a deployment position where an attachment surface to which the adherend is attached is deployed outside the end edge portion of the placement surface of the placement base and a facing position where the attachment surface faces the end edge portion of the placement surface.

Apparatus for shaping a segment of material includes a forming member having a curved sidewall shaped complementary to a desired shape of the segment of material, and a conforming member having an applicator side and an engagement side disposed for engagement with the curved sidewall of the forming member. The conforming member includes a plurality of attachment regions disposed on the applicator side. Each attachment region is adapted to hold the segment of material on the conforming member. Engagement of the conforming member with the forming member causes the attachment regions to move from a first shape profile to a second shape profile, the second shape profile being the desired shape of the segment of material.