The present application discloses a method and a system for multi-object universal intelligent printing, the method includes: collecting a real-time image of an object to be printed, and displaying the real-time image of the object to be printed to the user in real time; moving a print head to a designated position according to a mobile nozzle command input after the user browses the real-time image; obtaining a print pattern input by the user; printing the print pattern onto the object to be printed through the print head. The system includes: a collection module, configured for collecting a real-time image of an object to be printed; a display module, configured for displaying the real-time image of the object to be printed to the user in real time; a nozzle moving module, configured for moving a print head to a designated position according to a mobile nozzle command input after the user browses the real-time image; an obtaining module, configured for obtaining a print pattern input by the user; a spraying module, configured for printing the print pattern onto the object to be printed through a print head.

Provided are a printing jig for an inkjet-type printer and a method for manufacturing printed objects therewith, which jig can be easily produced in accordance with the shape and size of an object to be printed and allows the object to be accurately positioned relative to the printer. The printing jig supports an object to be printed, and is placed in an inkjet-type printer when the object is being printed. The printing jig includes a mounting surface on which the object is to be placed, and a positioning part for positioning the object. The positioning part includes a protrusion preformed on the mounting surface so as to be brought into contact with at least part of the object placed on the mounting surface. The protrusion is made of deposited and cured ink used by the inkjet-type printer.

A garment that can be used to enhance the safety of injured or convalescing people. The garment includes indicia which indicates that a person is either injured or convalescing. The indicia is positioned on the garment so as to overlay the affected or injured area of the user's body. In one aspect of the invention, garments are given to outpatients as they are discharged from the hospital. These garments have indicia positioned at the site of the persons' injury or surgery.

An ink composition includes a plurality of metal nanowires, one or more water soluble polymers, and an aqueous liquid carrier. Methods of gravure printing a metal nanowire structure onto a substrate are also disclosed, whereby the method includes depositing a first quantity of an ink composition into one or more cavities in a gravure plate, transferring the ink composition from the one or more cavities onto a substrate, and removing at least a portion of the liquid carrier and at least a portion of the one or more water soluble polymers from the ink composition to form a metal nanowire structure comprising a plurality of metal nanowires disposed on the substrate. The disclosed ink compositions and methods enable printing of high resolution, highly conductive metal nanowire structures.

A method for manufacturing a colored sheet for coloring an object by adhesion to the object includes, a coloring step of applying by spraying, a first coating fluid containing first microp articles for coloring to a thin film of a print receiver body which has a sheet-shaped support body and the thin film, the thin film being peelably held on the sheet-shaped support body to serve as a base material of an adhesive sheet which is to be adhered to the object, and a restricting step of applying by spraying, before the coloring step, a second coating fluid for restricting the first microparticles from penetrating the thin film to a location where the first coating fluid is to be applied.

A method for manufacturing a colored sheet for coloring an object by adhesion to the object includes, a coloring step of applying by spraying, a first coating fluid containing first microp articles for coloring to a thin film of a print receiver body which has a sheet-shaped support body and the thin film, the thin film being peelably held on the sheet-shaped support body to serve as a base material of an adhesive sheet which is to be adhered to the object, and a restricting step of applying by spraying, before the coloring step, a second coating fluid for restricting the first microparticles from penetrating the thin film to a location where the first coating fluid is to be applied.

An optical fiber ribbon manufacturing device includes: fiber-supplying units that respectively supply optical fibers; a printing device that prints a mark on each of the optical fibers; and a ribbon-forming device that manufactures an optical fiber ribbon by connecting the optical fibers on each of which the mark has been printed. The printing device includes: a supplying roller that supplies an ink; and a printing roller that includes a printing pattern on a surface thereof and that prints the mark on each of the optical fibers that are lined up in a width direction of the optical fibers by causing the ink supplied from the supplying roller to adhere to the printing pattern and transferring the ink onto the optical fibers. Projections and depressions are disposed on a surface of the supplying roller. The surface of the supplying roller opposes the printing pattern of the printing roller.

A hybrid transfer machine includes: a body including a first drum installation part, a second drum installation part, a first body, a second body, and a worktable; a first drive means configured to allow wound fabric to be unwound; a thermal transfer unit configured to be installed in the second body, and to press and heat the fabric and transfer paper; a piece-type roller arm configured to be installed in the second body, and to guide the transfer paper to the third drum installation part; a second drive means configured to allow the transfer paper to be wound; a third drive means configured to allow the fabric to be wound; and a conveyer configured to be installed in the body, and to transfer the fabric and the transfer paper to the third and fourth drum installation parts.

A process for producing tactile and sealing features on flexible films 40. The temperature of resin 80 is raised until it melts, but below its flash point. Wetting hot roll cylinder 10 with the resin 80 in negative cells 14 and transferring to positive textures 24 in cylinder 20. Transferring part of the thermo resin 80 on cylinder 20 to coacting cylinder 30 and passing a continuous flexible film 40 through coacting hot cylinder 20 and cold cylinder 30. The control of the temperature differential between cylinder 20 and film 40 allows the maximum transfer of resin 80 to form tactile structures. Sealable print areas are also created in film 40 that are particularly useful for packaging applications.

A method and a jig for forming a pattern, the method and the jig being capable of realizing various and unique pattern designs due to magnetic particles included in the magnetic ink being distributed in various densities according to intensity of the magnetic force. The method includes: preparing a jig which generating magnetic force, applying magnetic ink on a surface of a substrate to form a print layer, disposing the substrate configured with the print layer above the jig, forming a magnetic pattern on the print layer by applying magnetic force generated from the jig, and drying the print layer.