Abstract: A carrier tape forming apparatus includes a tape paying-out unit for paying out a tape to be worked, a tape feeding unit for feeding the tape, a forming unit for effecting embossing on the tape, a perforating unit for perforating at least a feeding hole in the tape, and a tape taking-up unit for taking up the finished (embossed) tape thereabout. The apparatus includes also double-acting driving units provided as driving sources at least for the tape feeding unit, the forming unit and the tape taking-up unit, each driving unit being fluid-operated and movable along a straight path and a controller for independently controlling driving/stopping of the double-acting driving units for the forming unit and the tape taking-up unit in association with driving/stopping of said double-acting driving unit for the feeding unit.
Abstract: A method of molding an optical component which includes providing a first mold and a second mold which mold the optical component, a cylindrical body whose rotational symmetry axis is identical with a second symmetry axis about which a second mold is rotationally symmetric, a trunk mold whose rotational symmetry axis is identical with a first symmetry axis about which a first mold is rotationally symmetric, a supporting means which supports the first mold in such a way that the first mold moves relatively to the trunk mold in parallel with the first symmetry axis, and a second tapered surface and a first tapered surface which contacts the second tapered surface, which connect the cylindrical body with the trunk mold in such a way that the second symmetry axis is identical with the first symmetry axis.
Abstract: A production apparatus for bending a multi-channel tube having an outer tube and a partition partitioning an interior of the outer tube into two or more channel holes is provided with a bending mold configured to bend the multi-channel tube in a bend radius; a pressure mold configured to press the multi-channel tube toward the bending mold; a chuck portion configured to hold and draw the multi-channel tube along the bending mold; and mandrels respectively inserted into the channel holes, each of the mandrels including; a mandrel body configured to support inner surfaces of each channel hole; a support device rotatably and movably supporting the mandrel body.
Abstract: An injection molding device (100) includes an upper mold (30), a core insert (50), and a lower mold (70). The upper mold defines a main flow passage (311) and a cylindrical receiving cavity (331) communicating with the main flow passage. The core insert is rotatably received in the cylindrical receiving cavity and defines a secondary flow passage (57) communicating with the main flow passage and at least one upper half molding cavity (531). The lower mold defines at least one lower half molding cavity (711) cooperating with the upper half molding cavity to form a full molding cavity.
Abstract: A method and apparatus for growing silicon carbide crystals is provided. The apparatus includes a sublimation chamber with a plurality of spaced apart dividers that can direct the direction of silicon carbide crystal growth into passages between the dividers to form a plurality of silicon carbide crystal plates. The silicon carbide crystal plates can be used as seed crystals in subsequent sublimation steps in a manner that promotes the growth of silicon carbide crystals in different crystallographic directions to thereby terminate defect formation.