Nissha Printing Co.

Kyoto, Japan

Nissha Printing Co.

Kyoto, Japan
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Provided is an antiviral transfer sheet manufacturing method for increasing the density of an antiviral agent or antibacterial agent in a surface which becomes an upper-most layer after transfer. In particular, a manufacturing method that eliminates the need for a large amount of an antiviral agent and the like, and the opacity of the layer having antiviral function is provided. A functional layer 37 including an inorganic antiviral agent powder and a hard coat agent is formed on one surface of a base material sheet 31 by disposing on the base material sheet the inorganic antiviral agent powder 33, and positioning the hard coat agent 34 in layer shape from over the inorganic antiviral agent powder 33. Then, an adhesive layer 39 is formed on the functional layer 37 in contact with the functional layer 37 or via another layer, thereby manufacturing an antiviral transfer sheet 11.


[Object] A method for manufacturing a decorated article having a smooth printing surface by performing an inkjet printing to an uneven surface of a carbon fiber reinforced plastic molding. [Means to solve the problems] An uncured rough-surface ink layer 31 is formed on an undecorated uneven surface 17 by performing an inkjet printing and using an active energy ray curable ink, and a temporary cover film 41 is disposed to cover an upper surface of the uncured rough-surface ink layer 31. The surface of the uncured rough-surface ink layer is smoothed by applying a pressing force to the uncured rough-surface ink layer 31 from the upper surface of the temporary cover film 41. An active energy ray 66 is applied, so that a cured smooth ink layer 61 is formed, and the temporary cover film 41 is peeled.


A method for determining a contour of at least one area having a given property on a matrix surface comprising sequentially scanned cells, comprises, for each scanned cell, the following steps: detection (E1) of the activated or deactivated state of the currently scanned cell, determining (E2) the activated or deactivated state of three previously scanned cells, adjacent to the currently scanned cell; choosing (E3) a tracing instruction, on the basis of the state of the currently scanned cell and the three adjacent cells; applying (E4) the tracing instruction; and storing (E5) data from the tracing instruction, said data defining the contour during the sequential scanning of the cells of the matrix surface. Application to a touch-sensitive sensor comprising a matrix array of cells, and system for acquiring data from an associated touch-sensitive sensor.


Patent
Nissha Printing Co. | Date: 2017-02-01

Problem Solved To stably form spheroids in a culture container. Solution A culture container includes a container main body 3 and a filmlike member 31. The container main body 3 has a recessed part 7, wherein a plurality of microwells 17a for containing a cell-culture solution C is formed in a bottom part 17. The filmlike member 31 is a member that is disposed above the plurality of microwells 17a inside the recessed part 7 and limits the movement of each spheroid S that has grown inside its corresponding microwell 17a such that the spheroid S does not separate from the corresponding microwell 17a.


A method for producing a touch input sensor includes stacking an intermediate resin layer (33) containing a photosensitive resin and an ultraviolet absorber and a transparent conductive film (32) on both surfaces of a transparent substrate (10) in that order, performing a pattern exposure with ultraviolet rays (L) applied to both surface sides, and performing developing to form a transparent electrode formed of the transparent conductive film (32) on both surfaces of the transparent substrate (10).


Patent
Nissha Printing Co. | Date: 2017-04-04

An antenna-equipped touch panel is one that is laminated on a display device in order to be used. The antenna-equipped touch panel includes an antenna pattern including an antenna element and a first wire of an antenna, the first wire being electrically connected to the antenna element; and a detection pattern including electrodes and second wires of the touch panel, the second wires being electrically connected to the electrodes. In plan perspective view, a shortest distance between the antenna pattern and the detection pattern is greater than or equal to 1.0 mm and less than or equal to 20.0 mm.


Patent
Nissha Printing Co. | Date: 2017-01-11

To protect a plurality of conical projections of a conical-projections sheet. A method of manufacturing a conical-projections-sheet packaging body 1 including: a step of forming a plurality of conical-recess parts 34b on a conical-projections forming sheet 34; a step of forming, by supplying a conical-projections material to the conical-projections forming sheet 34, a conical-projections sheet 23 including a base sheet 23a and a plurality of conical projections 23b formed on a surface of the base sheet 23a and disposed inside the plurality of conical-recess parts 34b; a step of forming a plurality of sets of the conical-projections forming sheets 34 and the conical-projections sheets 23 by punching out the conical-projections forming sheets 34 and the conical-projections sheets 23; and a step of using a package member 5 to package a set of the conical-projections sheets 23 and the conical-projections forming sheets 34 tightly adhered to one another.


Patent
Nissha Printing Co. | Date: 2017-06-21

Problem Solved To protect a plurality of microneedles on a microneedle sheet. Solution A microneedle-sheet packaging body 1 includes a microneedle sheet 5, a forming sheet 3, and a support body 7. The microneedle sheet 5 includes a substrate 10, and a plurality of microneedles 11 formed on a lower surface of the substrate 10. The forming sheet 3 is tightly adhered to the lower surface of the substrate 10. The forming sheet 3 incudes a plurality of micro-recess parts 13 in which the plurality of microneedles 11 are housed. The support body 7 is fixed to an upper surface of the substrate 10 of the microneedle sheet 5 and is further fixed to the forming sheet 3 around the substrate 10.


Patent
Toyoda Gosei and Nissha Printing Co. | Date: 2016-08-23

A method for manufacturing a decorative molded article includes first to fourth steps. In the first step, a plastic sheet is secured to a cavity block in a state in which first and second portions are arranged along an open end of a molding recess. The plastic sheet is tightly held by the cavity block and a securing member at the first portions and is not tightly held at the second portions. In the second step, the plastic sheet is deformed. In the third step, the plastic sheet is secured to the cavity block in a state in which the plastic sheet is tightly held by the cavity block and the securing member over the entire periphery of the opening of the molding recess. In the fourth step, the plastic sheet is molded by being caused to closely contact the molding surface of the cavity block through vacuum suction.


Patent
Nissha Printing Co. | Date: 2017-04-19

Provided are a transdermal patch and a microneedle sheet, which can efficiently introduce a target substance to the stratum corneum and prevent a reduction in the protection capability of the stratum corneum. A microneedle sheet (20) comprises a sheet-shaped base material (21) and a plurality of microneedles (50) on the sheet-shaped base material (21) making contact with a stratum corneum (110) of a skin (100). Each of the plurality of microneedles (50) includes a skin-stretching part (51) projecting from the sheet-shaped base material (21), the skin-stretching part having a tip surface (51 a) configured to stretch the stratum corneum (110) by pressing against the surface of the stratum corneum (110) of the skin (100) without sticking into the surface of the stratum corneum (110). A needlelike-projection part (52) is formed on the tip surface (51a) of the skin-stretching part (51) having a shape such that the needlelike-projection part (52) sticks into the surface of the stratum corneum and a peak part (52a) of the needlelike-projection part (52) stays inside the stratum corneum (110).

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