摘要:
A manufacturing apparatus has first and second reel-out mechanisms, first and second processing mechanisms, first and second label bonding mechanisms, first and second reservoir mechanisms, first and second peeling mechanisms, a substrate feed mechanism, and a joining mechanism. First and second detecting mechanisms for directly detecting boundary positions of photosensitive webs are disposed upstream of and closely to the joining mechanism. Based on detected information from the first and second detecting mechanisms, relative positions of the boundary positions and a substrate in a joining position and relative positions of the boundary positions themselves are adjusted.
摘要:
A manufacturing apparatus (20) has first and second reel-out mechanisms (32a, 32b), first and second processing mechanisms (36a, 36b), first and second label bonding mechanisms (40a, 40b), first and second reservoir mechanisms (42a, 42b), first and second peeling mechanisms (44a, 44b), a substrate feed mechanism (45), an attachment mechanism (46), and a base peeling mechanism (186). A cooling mechanism (122) is disposed between the attachment mechanism (46) and the base peeling mechanism (186), for cooling an attached substrate (24a), the attached substrate (24a) being made up of a glass substrate (24) and a photosensitive web (22) attached thereto, from which a protective film (30) has been peeled off, together with a heating mechanism (182) for heating a resin layer, for example a cushion layer (27), inside the cooled attached substrate (24a) to within a predetermined temperature range, which is at or below the glass transition temperature.
摘要:
A manufacturing apparatus (20) has a reel-out mechanism (32), a processing mechanism (36), a label bonding mechanism (40), a reservoir mechanism (42), a peeling mechanism (44), a substrate feed mechanism (45), and a joining mechanism (46). A detecting mechanism (47) for directly detecting a boundary position of a photosensitive web (22) is disposed upstream of and closely to the joining mechanism (46). Based on detected information from the detecting mechanism (47), a relative position of the boundary position and a substrate (24) in a joining position is adjusted.
摘要:
A manufacturing apparatus has a reel-out mechanism, a processing mechanism, a label bonding mechanism, a reservoir mechanism, a peeling mechanism, a substrate feed mechanism, an attachment mechanism, and a base peeling mechanism. A cooling mechanism is disposed between the attachment mechanism and the base peeling mechanism, for cooling an attached substrate, the attached substrate being made up of a glass substrate and a photosensitive web attached thereto, from which a protective film has been peeled off, together with a heating mechanism for heating a resin layer, for example a cushion layer, inside the cooled attached substrate to within a predetermined temperature range, which is at or below the glass transition temperature.
摘要:
A plurality of adhesive labels (10), each of a rectangular strip shape, are applied at predetermined spaced intervals to a peel-off sheet (14) of paper, which is then rolled into an adhesive label roll (12). Each of the adhesive labels (10) has a non-adhesion area (10a) centrally on a reverse side thereof facing the peel-off sheet (14), the non-adhesion area (10a) having no or weak adhesion force, and a first adhesion area (10b) and a second adhesion area (10c) which are disposed respectively on both sides of the non-adhesion area (10a).
摘要:
A laser beam emitted from a laser diode of each of detectors is applied to a partly cut region of a photosensitive sheet film which is spread toward the detectors by a film bending roller. Part of the laser beam which is reflected from the partly cut region is detected by an amount-of-light sensor. The laser beam that is applied to a surface of the photosensitive sheet film other than the partly cut region is reflected outside of a light-detecting area of the amount-of light sensor, and is not detected by the amount-of-light sensor.
摘要:
A laser beam (LB) emitted from a laser diobe of each of detectors is applied to a partly cut region of a photosensitive sheet film which is spread toward the detectors by a film bending roller. Part of the laser beam (LB) which is reflected from the partly cut region is detected by an amount-of-light sensor. The laser beam (LB) that is applied to a surface of the photosensitive sheet film other than the partly cut region is reflected outside of a light-detecting area of the amount-of light sensor, and is not detected by the amount-of-light sensor.
摘要:
A supply unit supplies a film strip from a film roll, and a winding unit cuts off a film strip into a fixed-length film and winds the fixed-length film around a spool to produce a wound-film assembly. An assembling unit introduces the wound-film assembly into a one-open-sided cartridge, and mounts and crimps a cap on the one-open-sided cartridge to produce a wound-film-loaded cartridge. After a pullout resistance of the film and a film length to be exposed are inspected, the wound-film-loaded cartridge is unloaded as a product.
摘要:
A pasted substrate (24a) is produced by: detecting a half cut site (34) by CCD cameras (72a and 72b) constituting first and second detecting mechanisms (47a and 47b); calculating dislocation amounts (ΔLa and ΔLb) with respect to a reference position for each of photosensitive webs (22a and 22b); driving a rubber roller (80a) according to an arithmetic mean value (ΔL) of the dislocation amounts (ΔLa and ΔLb) to correct the feed amounts of the photosensitive webs (22a and 22b); then conveying a glass substrate (24) to a space between the rubber rollers (80a and 80b); and pasting the photosensitive webs (22a and 22b) thereto. There are also provided a photosensitive transfer material having a thermoplastic resin layer and a photosensitive resin layer, and in which a melt viscosity ηK of a photosensitive resin layer at 100° C., and a melt viscosity ηCu of a thermoplastic resin layer at 100° C. satisfy a relationship of ηK/ηCu>2.
摘要:
A heating apparatus has first through fifth heating furnace arranged along the feeding direction in which glass substrates are fed by a feeding mechanism. The first heating furnace has a first heater for heating a glass substrate to at least a target temperature required for processing the workpiece. The second heating furnace has a heater for heating a glass substrate to a temperature equal to or below the target temperature. The second heating furnace generates an amount of heat smaller than that of the first heating furnace.