A package of a heat-bent polarizing sheet for producing an injection-molded polarizing lens and an injection-molded polarizing lens that uses said sheet is provided. The heat-bent polarizing sheet is cumulatively packaged by a non-adhesive isolation film so as to withstand moisture and then stored or transported and can be used in injection molding without performing preliminary drying as a pretreatment of injection molding and without substantial protective-film removal work.

A system and method for automating the making of molded articles formed from a substrate and a fabric material, wherein the fabric material is positioned over a mold surface and a substrate material is injected between the fabric material and the mold surface such that the substrate material hardens and bonds with the fabric material forming the molded article.

This electronic device is provided with: a resin molding; and a conductive cable including an electric wire. One end portion of the conductive cable is embedded in the resin molding. The surface of the resin molding exposes an end surface on the side of the one end portion of the conductive cable and includes a surface which is continuous to the end surface. The electronic device is further provided with wirings formed on the end surface and the surface so as to be connected to the electric wire in the end surface.

This electronic device is provided with: a resin molding; and a conductive cable including an electric wire. One end portion of the conductive cable is embedded in the resin molding. The surface of the resin molding exposes an end surface on the side of the one end portion of the conductive cable and includes a surface which is continuous to the end surface. The electronic device is further provided with wirings formed on the end surface and the surface so as to be connected to the electric wire in the end surface.

The invention aims to increase concentricity compared to conventional centering methods in a 3D extrusion cycle, using a pressure-controlled or floating centering lance. The invention proposes a device (10) for moulding an elongate component (44), comprising: a moulding arrangement (12) with at least one gate point; and a mould insert (22) that can be received in said moulding arrangement (12) and displaced along a displacement axis (V) relative to the gate point (18), said mould insert (22) at least partly delimiting a cavity (28) in which a solidifying moulding compound (21) added via the gate point (18) can be received, and said device (10) additionally comprising a centering element (34) which is configured to receive an elongate component (44) and guide it along a centering axis (Z) into said cavity (28). The device (10) is also accompanied by a method for moulding an elongate component (44).

A method for processing film webs including providing at least two film webs that are arranged next to one another in a direction substantially perpendicular to the feed direction and have motifs, delivering the at least two film webs that are arranged next to one another into the injection mold and aligning the at least two film webs that are arranged next to one another in such a way that each motif is arranged register-accurate with respect to a respective cavity. A feed device includes at least two film pay-off reels and at least two film take-up reels, wherein one film pay-off reel and one film take-up reel is assigned to each film web. An injection mold for back injection molding at least two film webs having motifs has at least two cavities.

The transfer film for in-mold molding of the invention has transfer layer 11 being a transfer layer to be transferred onto a transfer object in in-mold molding and cured by irradiation with an active energy ray after being transferred; and film-like base L0. Transfer layer 11 has topcoat layer L2 laminated on base L0 to be arranged on a surface of a molded product after in-mold molding; and conductor layer L4 laminated on a side opposite to a base L0 side of topcoat layer L2, and laminated on topcoat layer L2. Topcoat layer L2 is composed of a mixed composition containing an active energy ray-curable resin and a thermosetting resin, and conductor layer L4 is formed of at least one kind selected from the group of a flexible metal, carbon and conductive polymer.

A process produces an electrical line which extends in the longitudinal direction and the line has a line core and an outer shell. In a continuous shaping process, individual shell portions of the outer shell are formed successively by surrounding the line core with a curable plastic substance. In at least one portion, the outer shell is produced having a cross-sectional geometry which can be varied in the longitudinal direction of the line.

A molding with an integrated electrode pattern, including a resin molded body having a first surface and a second surface opposing each other; a first film that is formed on the first surface and that includes an electrode pattern and a first lead-out wire electrically connected to the electrode pattern, the first film not being covered by the resin molded body; and a second film that stands on the first surface, and that includes a second lead-out wire electrically connected to the first lead-out wire, the second film having a rectangular shape, and the resin molded body includes a pair of support wall portions formed integrally with the first surface so as to stand on the first surface and clamp both ends of a base part of the second film.

An apparatus for producing a fiber-reinforced injection molded component includes an injection mold half with a mold cavity and a receiving chamber open to the mold cavity. A band section of a fiber-reinforced plastics band is fed into the receiving chamber through a feed channel and a first clamping device arranged in an initial region of the receiving chamber and a second clamping device arranged in an end region of the receiving chamber clamp the fiber-reinforced plastics band section within the receiving chamber. A first cut-through device arranged in the initial region of the receiving chamber and a second cut-through device arranged in the end region of the receiving chamber cut the band section such that an injection molded component formed in the cavity of the mold includes the cut fiber-reinforced plastics band section and a fiber-reinforced injection molded component is provided.