Class / Patent application number | Description | Number of patent applications / Date published |
156234000 | Of portion only of lamina from carrier | 30 |
20080271837 | Adhesive tape adhering device for wafers and method of adhering adhesive tape on wafers - An adhesive tape adhering device includes a table unit, a wafer bearing unit, an adhesive tape pull-tight unit, an adhesive tape clipping unit, and a rolling unit. The wafer bearing unit movably disposes on the table unit upwardly and downwardly for bearing a wafer. The adhesive tape pull-tight unit has a bundle of adhesive tape, and the adhesive tape pull-tight unit disposes on the table unit and next to one side of the wafer bearing unit. The adhesive tape clipping unit disposes on the table unit and next to the other side of the wafer bearing unit for tightly clipping an end side of a tape of the bundle of adhesive tape. The rolling unit slidably disposes on the table unit and next to the other side of the wafer bearing unit for uniformly rolling, pressing and adhering the adhesive tape on the at least one wafer | 11-06-2008 |
20090025866 | Method for Attaching Hard Article and Transfer-Type Adhesive Material - A transfer-type adhesive material A is obtained by applying a adhesive | 01-29-2009 |
20090050261 | Apparatus for and Method of Manufacturing Photosensitive Laminated Body - A manufacturing apparatus ( | 02-26-2009 |
20090056864 | SHEET-FED ROTARY PRINTING PRESS AND EMBOSSING METHOD - A method that combines a cold film transfer method with an inline embossing apparatus within a sheet-fed printing press is provided. The method includes the step of applying an adhesive coating to image areas on a printed sheet using an application mechanism. The printed sheet with the adhesive is conducted to a coating module. Image-forming layers are transferred from a transfer film that is guided through a transfer nip defined by an impression cylinder and a pressing roller in the coating module. The transfer film is guided through the transfer nip in such a way that a side of the transfer film coated with an image forming layer lies on the printed sheet guided on the impression cylinder and is guided together with the printed sheet under pressure through the transfer nip. The image-forming layer adheres in the image areas provided with adhesive on the printed sheet and is lifted from the carrier film. The printing sheet is mechanically shaped by embossing in the coating module simultaneously with the transfer of the image-forming layer onto the printed sheet in the transfer nip of the coating module. | 03-05-2009 |
20090145537 | PRINTER APPARATUS AND LAMINATING METHOD - A printer apparatus including a printing-medium conveying unit conveying a printing medium, a sheet conveying unit conveying a thermal transfer sheet having an image protecting layer to be thermally transferred onto an image formed on the printing medium, a thermal head with heating elements linearly arranged in a direction orthogonal to a conveyance direction of the printing medium, and a control unit driving and controlling the thermal head. For selectively applying different amounts of thermal energy to the heating elements to form an uneven pattern on the image protecting layer thermally transferred onto the image on the printing medium, the control unit randomly divides a row of the heating elements into heating element groups each including at least two adjacent heating elements, applies the same amount of thermal energy to heating elements in the same heating element group, and applies different amounts of thermal energy to adjacent heating element groups. | 06-11-2009 |
20090205772 | Method for Transferring a Transfer Layer from a Carrier Film, Film Transfer Apparatus and Covering Surface for a Film Transfer Apparatus - A film transfer apparatus includes an application unit, a transfer unit downstream of the application unit, and at least one third unit for further processing a printing material with a transfer layer applied. In the prior art, if contact pressure is exerted on coated printing material again in a following nip, the adhesive layer under the transfer layer can be pressed out. A blanket can then be contaminated with adhesive, ink itself can be contaminated and parts of the transfer layer can be detached from the coated sheet. In order to avoid pressing out the adhesive, measured values in the transfer unit are compared with corresponding values in the third unit. At least one controlled variable in the units can then be readjusted on the basis of a difference, to at least reduce the quantity of adhesive squeezed out. A transfer method and a covering surface are also provided. | 08-20-2009 |
20090294038 | Intermittent Film Drive and Method - A method and an apparatus for reducing web tension change during intermittent driving of a transfer film in a film transfer unit, include severely impairing the web tension by contact sections before and after a transfer nip of the film transfer unit as the transfer film runs through a channel at the transfer nip. In order to reduce the web tension changes, front and/or rear guide elements before and after the transfer nip are moved time-asynchronously in relation to one other in order to at least reduce web tension fluctuations of the transfer film as it passes through the transfer nip. | 12-03-2009 |
20100051184 | HEAT-SENSITIVE TRANSFER SHEET AND IMAGE FORMING METHOD - A heat-sensitive transfer sheet at least having a polyester support, a barrier layer, a heat-sensitive transfer layer containing a dye and a binder, both layers being applied on a surface of the support in this order, and having the heat-sensitive transfer layer including yellow, magenta, and cyan heat-sensitive transfer layers, and the yellow, magenta, and cyan heat-sensitive transfer layers and a protective layer being formed in area order, wherein the barrier layer contains a polyvinylpyrrolidone and cyan heat-sensitive transfer layer contains at least one silicone oil and at least one dye represented by the following formula (C1): | 03-04-2010 |
20100051185 | Image formation apparatus and method for forming image - An image formation apparatus includes a transporting section configured to transport a thermal transfer sheet; a carrying section configured to carry a thermal transfer receiving sheet; a thermal head configured to sequentially thermally transfer the color material layer and the protective layer of the thermal transfer sheet onto the thermal transfer receiving sheet by applying thermal energy; and a controlling section configured to control the thermal energy, wherein the controlling section is configured to print an image under printing conditions where variation ΔH in a thickness of the thermal transfer receiving sheet in an increase direction before and after the thermal transfer of the color material layer satisfies 0<ΔH, and variation ΔL in the thickness of the thermal transfer receiving sheet in the increase direction before and after the thermal transfer of the protective layer satisfies ΔL<0. | 03-04-2010 |
20100084082 | HEAT-SENSITIVE TRANSFER SHEET - A heat-sensitive transfer sheet, containing:
| 04-08-2010 |
20100101714 | HEAT-SENSITIVE TRANSFER SHEET - A heat-sensitive transfer sheet, having:
| 04-29-2010 |
20100126656 | IMAGE-FORMING METHOD BY HEAT-SENSITIVE TRANSFER SYSTEM - An image-forming method, containing: providing a heat-sensitive transfer image-receiving sheet having at least one heat insulation layer containing hollow polymer particles and at least one receptor layer containing at least one latex polymer, in this order on a support, and a heat-sensitive transfer sheet having a thermal transfer layer containing a thermal transferable dye; feeding the sheets through, between a rotatable platen roller and a thermal head having heating elements aligned in a main scan direction, to move the sheets in a sub scan direction approximately perpendicular to the main scan direction, to form an image on the image-receiving sheet, in which the thermal head has a glaze provided with the heating elements and formed in a convex shape, and the glaze's convex vertex is shifted to an upstream side in the sub scan direction, with respect to the center's position of the heating elements. | 05-27-2010 |
20100218887 | HEAT TRANSFERABLE MATERIAL FOR IMPROVED IMAGE STABILITY - A heat transferable material includes a heat transferable polymeric binder and a light stabilizer that is an N-oxyl radical derived from a hindered amine, the N-oxyl radical having the following formula, | 09-02-2010 |
20100243141 | IMAGE FORMATION METHOD USING THERMAL TRANSFER SHEET AND THERMAL TRANSFER IMAGE-RECEIVING SHEET - A method of image formation comprising putting a thermal transfer sheet and a thermal transfer image-receiving sheet one upon another wherein the thermal transfer sheet has on a substrate film a subbing layer of a titanium oxide film, the dye layer on a part of the subbing layer and a transferable protective layer laminate on the other part of the subbing layer than the part for the dye layer thereon, and wherein the thermal transfer image-receiving sheet has on a support the receiving layer containing a polymer latex, in which vinyl chloride is polymerized in at least 95 mol % of all the polymerization monomers, and a polyether-modified silicone, and a heat-insulating layer; recording an image on the receiving layer by a heating device; and transferring at least a part of the transferable protective layer laminate onto the receiving layer by the heating device. | 09-30-2010 |
20100243142 | THERMAL TRANSFER SHEET AND IMAGE FORMATION METHOD - A thermal transfer sheet having a subbing layer and a dye layer in this order on a substrate film, wherein the subbing layer contains colloidal silica or colloidal alumina, and the dye layer contains a polyvinyl acetal resin having an acetacetal group in an amount of from 3.0 to 30.0 molar times the butyral group therein, and a dye of the following formula (1): | 09-30-2010 |
20100282404 | Composite Tape For Use In Tape Laying Machines - A tape for use in automated tape laying machines that includes a multi-layer substrate composed of a plastic layer that includes at least one plastic film having an outer film surface and an inner film surface. The plastic film is adhered to a fibrous layer so that the inner surface of the fibrous layer is bonded to the inner film surface. An uncured composite material layer composed of a fibrous reinforcement and an uncured resin matrix is releasably adhered to either the plastic layer surface or the outer fiber layer surface to provide a tape suitable for use in an automatic tape layer. | 11-11-2010 |
20100314036 | METHOD AND APPARATUS FOR TRANSFER LAMINATION - An embodiment of the inventive method of transfer lamination bonding a first metallized side of a film to a substrate. Then a breakaway coating is applied to a second, non-metallized side of the film after the first metallized side has been bonded to the substrate. The bonded film and substrate are then placed in an oven. The film is then stripped from the substrate leaving metal from the film deposited on the substrate. The application of the breakaway coating is performed as an inline part of the transfer lamination process thereby providing an ease of manufacture presently unknown. | 12-16-2010 |
20110100539 | Adhesive Label, Adhesive Label Roll, Photosensitive Web Unit, and Apparatus for and Method of Manufacturing Photosensitive Laminated Body - A plurality of adhesive labels ( | 05-05-2011 |
20120037302 | Sheet Comprising a Plurality of Hospital Wristbands Connected to a Backing Sheet Without Perforations Between The Bands - A group of size-adjustable wristbands is disclosed. The group of wristbands includes a backing sheet that is connected to a stub area disposed at an end of the backing sheet. A plurality of elongated strips is connected to the stub area in a side-by-side fashion. Each strip includes a first end attached to an additional stub area and a second end attached to the stub area. Each strip further includes a top surface. The group of wristbands further includes a plurality of top sheets, each top sheet having a first end and a second end. The first end of each top sheet is attached to one of the strips along a top surface thereof. Each top sheet is clear and includes a bottom side coated with a top adhesive layer. Finally, the group of wristbands includes a plurality of top liners with each top liner being sandwiched between one of the top adhesive layers and one of the strips. | 02-16-2012 |
20120073735 | RED ORGANIC LIGHT EMITTING ELEMENT AND DISPLAY DEVICE PROVIDED WITH SAME, DONOR SUBSTRATE AND TRANSFER METHOD USING SAME, METHOD OF MANUFACTURING DISPLAY DEVICE, AND SYSTEM OF MANUFACTURING DISPLAY DEVICE - A thermal transfer method for selectively transferring a red organic light material of a transfer layer from a donor substrate to a recipient substrate to form a red organic light emitting element. The donor substrate has a reflecting layer in a planned formation region of the transfer layer and an absorbing layer in a region other than the planned formation region of the transfer layer. The transfer layer is formed on an area on the front face side of the base. The transfer layer in the region where the absorbing layer is formed is selectively removed. the donor substrate and the other substrate are placed in opposition. The transfer layer on the reflecting layer is transferred to the recipient substrate. | 03-29-2012 |
20120234477 | EMBELLISHMENT TRANSFER DELIVERY SYSTEM - An embellishment transfer delivery system (ETDS) uses an embellishment, such as glitter, and combines it into a transfer adhesive that is combined with a carrier sheet and finally transferred to a sticky substrate, such as a double sided tape. The result is the clean, particle-free, non-tacky, dry transfer of the embellishment to cover an object with precise, complete and detailed coverage. The ETDS is a clean and fully transferrable system of holding, containing and transferring glitter or other embellishments to a double sided tape that allows for detailed coverage and no residual mess or airborne particles. The embellishment is suspended in an adhesive which is then coated onto a pressure sensitive carrier sheet to create the ETDS. The embellishment transfers from the ETDS and bonds to the application in a way that allows for a clean, detailed finished product without any of the mess, stickiness or wait time traditional delivery systems would entail. | 09-20-2012 |
20130269865 | SECURE DATA PROTECTION OPTICALLY VARIABLE LABELS AND FOILS - Embodiments of the invention, therefore, provide improved systems and methods for tracking targets in a simulation environment. A security device having a first layer that carries indicia arranged to present covert information. Embodiments of the invention may include a second layer that carries decoding optical elements. In some embodiments, the second layer is arranged to be moveable relative to the first layer from a first position to a second position. In some embodiments, when in the second position, the optical elements serve to cooperate with the indicia so as to reveal the covert information for visual observation. | 10-17-2013 |
20130327473 | THERMAL IMAGE RECEIVER ELEMENTS PREPARED USING AQUEOUS FORMULATIONS - A thermal image receiver element dry image receiving layer has a T | 12-12-2013 |
20130327474 | THERMAL IMAGE RECEIVER ELEMENTS HAVING RELEASE AGENTS - A thermal image receiver element dry image receiving layer has a T | 12-12-2013 |
20140053971 | MACHINE FOR TRANSFERRING A PROTECTIVE LAYER FOR A SUBSTRATE AT HIGH TEMPERATURE AND UNDER PRESSURE, AND ASSOCIATED METHOD - The invention relates to a machine for transferring a protective layer for a substrate at high temperature and under pressure, said protective layer being mainly intended to protect a flat substrate. | 02-27-2014 |
20140305577 | FOIL STAMPING METHOD AND CORRESPONDING DEVICE - A foil stamping method and device according to which a surface of a printing product (D) is provided with an adhesive layer in places intended to be imprinted and a transfer layer sticking to the printing product (D) in places intended to be imprinted. Prior to foil printing, a build-up adhesive is applied to the printing product (D), instead of or in addition to the adhesive layer, in the places intended to be semi-embossed and the pressure acts evenly across the entire surface of the printing product (D), namely also on the raised places resulting from semi-embossing and the remaining surroundings during foil printing. A foil transfer means ( | 10-16-2014 |
20140311662 | METHOD FOR FABRICATING AN EMBEDDED PATTERN USING A TRANSFER-BASED IMPRINTING - In a method for fabricating an embedded pattern using a transfer-based imprinting, an adhesive layer is formed on a substrate. The adhesive layer has a photo curable resin. A stamp having a protruded pattern is prepared. A thin-film layer is formed on an outer surface of the protruded pattern of the stamp. The stamp having the thin-film layer contact with the adhesive layer is pressed to selectively transfer the thin-film layer of the protruded pattern to the adhesive layer. Ultraviolet rays (UV) are irradiated to cure the adhesive layer. The stamp is removed. | 10-23-2014 |
20150034237 | ROLL-TO-ROLL MANUFACTURING PROCESSES FOR PRODUCING SELF-HEALING ELECTROACTIVE POLYMER DEVICES - A process for producing a corrugated electrode for use in an electroactive polymer cartridge is disclosed. A laminated web comprising a support sheet laminated to a dielectric elastomer film is positioned. The support sheet defines areas exposing portions of the dielectric elastomer film. A force is applied to the positioned laminated web to stretch the laminated support sheet-dielectric elastomer film web in a direction that is orthogonal to a plane defined by the web. An electrically conductive material is applied to the laminated support sheet-dielectric elastomer film web while the laminated support sheet-dielectric elastomer film web is in a stretched state. The laminated support sheet-dielectric elastomer film web is relaxed to form the corrugated electrode on the dielectric elastomer film portion of the web. | 02-05-2015 |
20160011435 | CONTACT LENSES WITH EMBEDDED LABELS | 01-14-2016 |
20160101608 | TRANSFER LAMINATION - A method of laminating a transfer section of a transfer layer to a substrate is performed using a reverse-image transfer printing device. The device includes a transfer ribbon, a print ribbon, a print head, and a laminating device. The transfer ribbon comprises the transfer layer, which is attached to a carrier layer. The print head is configured to transfer print material from the print ribbon to the transfer layer. Non-transfer portions of the transfer section are heated to a deactivation temperature using the print head. The transfer section is laminated to the substrate by heating the non-transfer portions and transfer portions of the transfer section using the laminating device. This bonds the transfer portions the substrate. The carrier layer is the removed from the transfer portions leaving the transfer portions bonded to the substrate. The non-transfer portions remain attached to the carrier layer. | 04-14-2016 |