The present invention provides a thermal print head and a thermal printer that can deliver improved printing quality. The thermal print head includes a main substrate with a main surface, heating elements arranged along a main scanning direction, and a protection layer that covers the heating elements. A belt-shaped heating glaze layer is between the main surface and the heating elements, extends along the main scanning direction, and bulges towards the direction where the main surface faces. The surface shape of the protection layer has an equivalent radius of curvature Re between 6200 m and 15000 m. The equivalent radius of curvature Re is calculated by Hq and Wq. Hq is of the maximum height Hm of the bulging portion of the protection layer including the heating glaze layer. Wq is the width of the bulging portion along a sub-scanning direction, measured at a height equal to Hm minus Hq.

A thermal head includes: a substrate; a thermal storage layer disposed on the substrate and having a ridge portion; heat generating portions disposed on the ridge portion; and electrodes which are disposed on the substrate. At least one of the electrodes has a first corner portion at which a side surface and an upper surface intersect, more upstream in the conveyance direction of the recording medium than the top portion of the ridge portion. In a cross section of the thermal head, an inclination angle of an imaginary line which connects an intersection point of an imaginary line which hangs downward from the top portion (13b1) of the ridge portion and the substrate, with the first corner portion, is 75 or less from the substrate. Thus, printing residue is less likely to adhere to the thermal head.

The present disclosure provides a thermal print head. The thermal print head includes: a substrate; a glaze layer; a wiring layer; a heat element; and a protective layer. The glaze layer is disposed on the substrate. The wiring layer is disposed on the glaze layer. The wiring layer has a common electrode and a plurality of individual electrodes. The common electrode has protrusions arranged in intervals along a first direction in a plan view and extending along a second direction perpendicular to the first direction in the plan view. The plurality of individual electrodes have tip portions extending along the second direction. The protrusions and the tip portions are alternately arranged in intervals along the first direction in the plan view. The heat element extends along the first direction in the plan view, is disposed on the glaze layer, and overlaps with the protrusions and the tip portions.

A thermal printing device with a thermal print head, a platen roller opposite the print head and a protective film that is movable in a closed loop, wherein the thermal print head is arranged inside the closed loop formed by the film, so as to protect the thermal paper from damage caused by mechanical scraping by the print head; a use of the printing device is also disclosed for dispensing a printed ticket in real time, the ticket being at least partly covered by an opaque patina that is removable by scraping after printing to enable what has been printed to be viewed.

A metallic decoration method of decorating decoration objects with decoration ink containing a silver -ketocarboxylate is shown. This metallic decoration method includes a printing process of performing printing on a decoration object 1 by ejecting decoration ink made by diluting a silver -ketocarboxylate with a solvent from an inkjet head 11, and a heating process of heating the decoration object 1 after the printing process, thereby vaporizing the solvent while decomposing the silver -ketocarboxylate into metallic silver, thereby forming a metallic decoration layer 2, and in the printing process, printing is performed on the decoration object 1 while the decoration object 1 is heated. In this metallic decoration method, a heating temperature of the decoration object 1 in the heating process is set so as to be equal to or higher than a heating temperature of the decoration object 1 in the printing process.

A thermal head includes: a substrate; a heat generating portion disposed on the substrate; a first electrode electrically connected to the heat generating portion; a driving IC which controls actuation of the heat generating portion; a first cover member which covers the driving IC; a connection member which is disposed on the substrate and has a connecting section electrically connected to a second electrode; and a second cover member which covers the connecting section and extends toward the first cover member. The second cover member includes a first portion and a second portion which is thinner than the first portion. The first portion is disposed next to the connection member. The second portion lies farther away from the connection member than the first portion, and includes an overlying part which overlies the first cover member.

A thermal transfer printer includes a first supply unit configured to supply an intermediate transfer medium in which, on one surface of a first base, a transfer layer including a receiving layer is disposed, a second supply unit configured to supply a thermal transfer sheet in which, on one of surfaces of a second base, a colorant layer and a particle layer are disposed, a printing unit configured to heat the thermal transfer sheet, to transfer a colorant from the colorant layer to the receiving layer to form an image, and to transfer the particle layer onto the receiving layer, a third supply unit configured to supply a transfer-receiving body, and a transfer unit configured to place the intermediate transfer medium and the transfer-receiving body on top of each other such that the transfer-receiving body faces the particle layer on the receiving layer, and to heat the intermediate transfer medium.

Provided is a thermal print head including: a substrate having a convex part thereon; a wiring layer over the convex part; a heat storage layer over the wiring layer; a heating resistive part that is formed over the heat storage layer and is arranged along a main scanning direction; a first electrode in contact with the heating resistive part on one side in a sub-scanning direction; a second electrode in contact with the heating resistive part on another side in the sub-scanning direction; and a connection wiring formed in an opening that passes through the heating resistive part and the heat storage layer and reaches the wiring layer, in which the first electrode is electrically connected to the wiring layer via the connection wiring.

A heater includes: a heat generation unit that generates heat when energized; an electric wire that is attached to the heat generation unit and supplies electric current to the heat generation unit; a ground wire that is attached to the heat generation unit and is grounded; a conductive cover that includes an electrical conductor, is attached to the heat generation unit, and is grounded; and an insulating cover that has an electrical insulating property and at least partially covers the conductive cover.

A thermal head includes a substrate, a bonding material, an electrically conductive member, and an aluminum electrode. The bonding material is positioned on the substrate and contains gold and tin. The electrically conductive member is positioned on the bonding material. The aluminum electrode is positioned on the substrate and electrically connected to the electrically conductive member via the bonding material.