There is provided a transfer sheet with improvement in smudges and blurs of a transfer layer when printed matters are produced even after storing the transfer sheet under high temperatures. The transfer sheet according to the present invention comprises a substrate, and in the order a peel layer and a transfer layer on the substrate, wherein the peel layer contains a binder resin, a silicone oil and/or a wax component and the total contents of the silicone oil and the wax component in the peel layer is 0.1 mass % or more and 15 mass % or less, based on the solid content of mass of the binder resin.

There is provided a transfer sheet with improvement in smudges and blurs of a transfer sheet when printed matters are produced. A transfer sheet according to the present invention comprises a substrate, and in the order a peel layer and a transfer layer on the substrate, wherein the peel layer contains a binder resin containing an acrylic-based resin of more than 0 mass % and 49 mass % or less and a vinyl chloride-vinyl acetate resin of 51 mass % or more and less than 100 mass %.

A thermal transfer ink ribbon includes a backcoat layer, a ribbon base layer formed on the backcoat layer, a release layer formed on the ribbon base layer and containing resin and wax, an ink layer formed on the release layer and containing a first resin and a second resin, an aluminum layer formed on the ink layer, and an adhesive layer formed on the aluminum layer and containing resin and wax. The first resin is transparent or translucent and contains at least one of polyester resin, styrene-acrylic resin, and polyethylene resin. The second resin is transparent or translucent and contains at least one of polyurethane resin, polypropylene resin, acrylic resin, and methacrylic resin.

A thermal transfer ink ribbon includes a backcoat layer, a ribbon base layer formed on the backcoat layer, a release layer formed on the ribbon base layer and containing resin and wax, an ink layer formed on the release layer and containing a first resin and a second resin, an aluminum layer formed on the ink layer, and an adhesive layer formed on the aluminum layer and containing resin and wax. The first resin is transparent or translucent and contains at least one of polyester resin, styrene-acrylic resin, and polyethylene resin. The second resin is transparent or translucent and contains at least one of polyurethane resin, polypropylene resin, acrylic resin, and methacrylic resin.

A printer ribbon supply spindle assembly is provided. The ribbon spindle has multiple segments contiguous to each other. The spindle assembly includes a commutator disposed circumferentially on the first segment of the ribbon spindle and two carbon brushes connected to a voltage source and disposed generally in electrical contact with and on either side of the commutator. The voltage source, the carbon brushes, and the commutator complete an electrical circuit. C-shaped conductive springs are disposed over each of the multiple segments. The c-shaped conductive springs compress when covered by a printer ribbon and become in electrical contact with the commutator and adjacent compressed c-shaped springs, forming additional parallel circuits. An electronic element is disposed at the center of the c-shaped conductive springs. Measuring a change in the circuit due the additional parallel circuits with the electronic element indicates the printer ribbon width.

A printer ribbon supply spindle assembly is provided. The ribbon spindle has multiple segments contiguous to each other. The spindle assembly includes a commutator disposed circumferentially on the first segment of the ribbon spindle and two carbon brushes connected to a voltage source and disposed generally in electrical contact with and on either side of the commutator. The voltage source, the carbon brushes, and the commutator complete an electrical circuit. C-shaped conductive springs are disposed over each of the multiple segments. The c-shaped conductive springs compress when covered by a printer ribbon and become in electrical contact with the commutator and adjacent compressed c-shaped springs, forming additional parallel circuits. An electronic element is disposed at the center of the c-shaped conductive springs. Measuring a change in the circuit due the additional parallel circuits with the electronic element indicates the printer ribbon width.

A mounting apparatus for mounting a printing apparatus to a structure includes an attachment part, which is attachable to the structure, and a support member upon which a printing apparatus is supportable. The support member enables the printing apparatus to be located in a desired position along a first axis, which extends in a first direction relative to the structure, and wherein at least a part of a footprint of the support member defined in a first plane, which is substantially transverse to the first axis, overlaps at least a part of a footprint of the printing apparatus defined in a second plane, which is substantially transverse to the first axis.

A mounting apparatus for mounting a printing apparatus to a structure includes an attachment part, which is attachable to the structure, and a support member upon which a printing apparatus is supportable. The support member enables the printing apparatus to be located in a desired position along a first axis, which extends in a first direction relative to the structure, and wherein at least a part of a footprint of the support member defined in a first plane, which is substantially transverse to the first axis, overlaps at least a part of a footprint of the printing apparatus defined in a second plane, which is substantially transverse to the first axis.

The present invention addresses the problem of forming, using a sublimation ink, an image that is free of outline blurring on a transfer medium even when the thickness of an ink fixation layer is increased. In order to solve this problem, a transfer film 10 is provided with a base material film 11, a transfer binder layer 12, a sublimation ink layer 13, and a mask layer 14 which is provided in a region where sublimation ink is not transferred to media 100, the transfer binder layer 12 being configured from a material which is permeated by sublimation of the sublimation ink.

The present invention addresses the problem of forming, using a sublimation ink, an image that is free of outline blurring on a transfer medium even when the thickness of an ink fixation layer is increased. In order to solve this problem, a transfer film 10 is provided with a base material film 11, a transfer binder layer 12, a sublimation ink layer 13, and a mask layer 14 which is provided in a region where sublimation ink is not transferred to media 100, the transfer binder layer 12 being configured from a material which is permeated by sublimation of the sublimation ink.