A notebook according to the present invention is manufactured by using a unit (50) having a predetermined number of unit sheet groups (46) obtained by folding a continuous sheet in a zigzag manner for every unit sheet via a perforated fold line extending in the sheet width direction. The unit (50) is obtained by leaving one folded side while cutting off the other folded side, layering a front cover (57) and a back cover (58) from both sides, and covering the spine with a spine cover (60). The spine cover (60) of the notebook (55) is constituted by pressing a mesh fabric (59), having an adhesive applied to the inner side thereof, onto said one folded side of the unit (50) and entirely covering the spine sides of the layered front cover (57), unit (50), and back cover (58) in a wrapped manner. The notebook can be used in a double spread manner in a completely opened state (180° horizontal state). Thus, a user-friendly, highly secure, highly functional notebook and a manufacturing method therefor are provided.
B42D 1/04 - Livres ou autres objets reliés dans lesquels le corps de l'ouvrage et le dos de la couverture sont intégralement solidaires, p. ex. livres brochés
B42C 9/02 - Application de colle ou d'adhésif particulier à la reliure pour fixer au dos du livre des doublures, des bandes, des rubans ou des tranchefiles
A notebook including a group of a preset number of consecutive unit forms which are printed on both faces thereof and spreadably zigzag-folded is produced through a process that includes: printing on both surfaces of a continuous web by two printers each equipped with an endless belt-shaped printing plate, with intermediate inversion of the two surfaces of the web, followed by zig-zag folding and cutting and separating the printed web for each of the preset number of forms. The obtained notebook is capable of preventing falsification and missing pages by inclusion of a horizontal ruled line provided in a main data region and formed of a succession of micro characters.
A printing technology wherein an endless belt-shaped printing plate is wound about a plate cylinder and a guide roller of a printing cylinder and, by using the printing plate, a continuous form sent between the printing plate and an impression cylinder is printed. In the plate cylinder, feed pins are disposed in rows at an even pitch along an outer periphery of the cylinder. The feed pins are guided by a fixed cam ring and project and retract freely and project in a desired region of the plate cylinder, respectively with respect to the cylinder surface. Pin feed holes are provided in rows in marginal zones of the endless belt-shaped printing plate. The endless belt-shaped printing plate is formed by joining and bonding both ends of an elongated resinous relief printing plate with an adhesive tape from the printing surface side. The pin feed holes are engaged with the feed pins of the plate cylinder, whereby the plate feed is guided.
The present invention is a printing technique wherein an endless belt-shaped printing plate (13) is wound between the plate cylinder (18) of a printing cylinder (16) and a guide roller (19), and using the printing plate (13), a continuous form (12) sent between the printing cylinder (16) and an impression cylinder (17) is printed. The plate cylinder (18) of the printing cylinder (16) and an impression cylinder (17a) are each configured from a solid cylinder. In the plate cylinder (18), feed pins (43) are disposed in a row at the same pitch along the outer periphery of the cylinder at both ends in the axial direction, while the feed pins (43) are guided to an affixed cam ring (52), and are provided in a manner so as to be extendable/retractable in a manner so as to protrude from the cylinder surface (S) at a desired region of the plate cylinder (18). Pin feed holes (37) are provided in a row to the marginal zone (34) of the endless belt-shaped printing plate (13); the endless belt-shaped printing plate (13) is adhered from the plate surface side using adhesive tape in an abutting state of both ends of elongated resin relief printing plates meshing with each other; and in the endless belt-shaped printing plate (13), the pin feed holes (37) engage the feed pins (43) of the plate cylinder (18), and thereby the plate feed is guided. By means of the present invention, it is possible to provide: a printing device that can precisely perform clear and clean printing having no printing unevenness even if relief printing is performed onto a continuous form using the endless belt-shaped printing plate (13) configured from elongated resin relief printing plates, and that can also print images having 175 to 300 lines by screen lines and minute microtext; a method for printing in the device; and a method for attaching the belt-shaped printing plate.
B41N 1/12 - Clichés ou plaques d'impressionMatériaux à cet effet en une autre matière que la pierre ou le métal
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
brevets
