| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 427144000 | HECTROGRAPHIC OR COPYING SURFACE MAKING | 6 |
| 20090022887 | Method for producing and handling of planographic printing plate precursor - A planographic printing plate precursor which prevents deformation and destruction of fine particles dispersed in an image forming layer thereof and has high developing performance and a high speed thin layer coating aptitude is provided. A method for producing and handling a planographic printing plate precursor having an image forming layer containing a photosensitive composition having fine particles dispersed therein is provided. The pressure acting on the image forming layer during or after formation of the image forming layer is 1.5×10 | 01-22-2009 |
| 20090041931 | Liquid supply apparatus and method of manufacturing plate therefor - A screen printing unit equipped with a rotary screen apparatus comprises a cylindrical screen rotatably supported so as to be brought into contact with a rotatable impression cylinder. Multiple small holes are formed in the circumferential surface of the screen, and are filled up with a coating material. Some of the holes corresponding to a pattern not being filled with the coating material, and a special ink stored inside the screen can be supplied to a sheet held on the outer circumferential surface of the impression cylinder so as to form a shape corresponding to the pattern. The small holes are formed only in an area of the screen in the circumferential direction thereof extending from a position corresponding to the downstream-side end of the sheet in the sheet-conveying direction to a position corresponding to the upstream-side end of the sheet in the sheet-conveying direction. | 02-12-2009 |
| 20110159176 | METHOD OF MAKING FUSER MEMBER - A method of making a fuser member having an annealed outer surface comprising: providing an outer layer comprising compatible first and second fluorothermoplastics over an outer substrate surface, wherein the first fluorothermoplastic is a crosslinkable polymer and the second fluorothermoplastic is a linear polymer; curing the outer layer to crosslink the first fluorothermoplastic whereby the resulting crosslinked first fluorothermoplastic and the linear polymer second fluorothermoplastic form a semi-interpenetrating polymer network (SIPN); and annealing an outer surface of the outer layer by contacting the fuser member with applied pressure against a heated surface, without first sintering the second fluorothermoplastic linear polymer through application of heat alone. | 06-30-2011 |
| 20110217458 | METHOD FOR PRODUCING LITHOGRAPHIC PRINTING PLATE AND PRODUCTION APPARATUS THEREFOR - An apparatus for producing a printing plate by applying a first coating liquid onto a belt-like support, and drying the first coating liquid to form an image recording layer; and applying a second coating liquid for an overcoat layer onto the image recording layer, and drying the second coating liquid, comprises: a coating liquid cooling device that cools the second coating liquid so that a temperature T | 09-08-2011 |
| 20120189770 | PREPARING LITHOGRAPHIC PRINTING PLATES BY ABLATION IMAGING - Lithographic printing plates can be prepared and made ready for lithographic printing without wet development or processing. A positive-working lithographic printing plate precursor is exposed to ablating infrared radiation of an energy of at least 1 J/cm | 07-26-2012 |
| 20130078370 | METHOD OF MAKING LASER-ENGRAVEABLE FLEXOGRAPHIC PRINTING PRECURSORS - Flexographic printing precursors are prepared by providing an elastomeric mixture of one or more elastomeric resins and non-metallic fibers having an average length of at least 0.1 mm and an average diameter of at least 1 μm, and adding a vulcanizing composition and optional other components to the elastomeric mixture. The elastomeric mixture is then mechanically treated to orient the non-metallic fibers predominantly in the same dimension in the elastomeric mixture. It is then vulcanized and formed into a laser-engraveable layer having two orthogonal dimensions. The non-metallic fibers are predominantly oriented in one of the two orthogonal dimensions. | 03-28-2013 |
