A device for carrying a substrate, for example a drinking cup, and clamping against the substrate, for example against an outer wall of the drinking cup, a clamping sheet, wherein the clamping sheet comprises a flexible and bendable material with a width and a length, said length being measured between longitudinal ends of the clamping sheet, wherein coupling members are provided at longitudinal ends of the clamping sheet, said coupling members comprising rods protruding in the width direction of the clamping sheet. The device is characterized in that the device comprises first recesses for receiving rods of a first width side that are positioned at opposite longitudinal ends of the clamping sheet and comprises second recesses for receiving rods of a second width side that are positioned at opposite longitudinal ends of the clamping sheet, and the device comprises a support member for carrying the device and the substrate.

A sublimation printing production line for a workpiece having a cylindrical outer surface includes a sublimation paper loading station, workpiece wrapping station, a baking station, and a sublimation paper dismantling stations. The sublimation paper loading station has a workpiece conveyor belt and a sublimation paper conveyor belt that operate synchronously and in parallel. The sublimation paper is positioned on to an elastic fastening jacket, which is then tightly wrapped around the workpiece with the ends buckled together to secure the sublimation paper to the workpiece and making the sublimation image clearer, more colorful, and ensuring the quality of the sublimation.

A sublimation device includes a first heater and a second heater. The first heater includes a proximal end, a distal end, and an inner surface. The distal end is disposed opposite the proximal end. The inner surface extends between the proximal end and the distal end and at least partially forms a cavity. The second heater is disposed proximate the distal end of the first heater.

A sublimation device includes a first heater and a second heater. The first heater includes a proximal end, a distal end, and an inner surface. The distal end is disposed opposite the proximal end. The inner surface extends between the proximal end and the distal end and at least partially forms a cavity. The second heater is disposed proximate the distal end of the first heater.

A sublimation device includes a first heater and a second heater. The first heater includes a proximal end, a distal end, and an inner surface. The distal end is disposed opposite the proximal end. The inner surface extends between the proximal end and the distal end and at least partially forms a cavity. The second heater is disposed proximate the distal end of the first heater.

A method and a device for clampingly holding against a substrate (8), for example a drinking cup, a heat transfer sheet (5) using a clamping sheet (2), comprising providing a device (1) with a substrate holder (10) for clampingly holding the substrate (8); providing a clamping sheet (2) with a width and a length, length being measured between longitudinal ends of the clamping sheet (2), and wherein at the longitudinal ends of the clamping sheet (2) coupling means (3) are provided; and positioning in catch means (4) of a positioning device the coupling means (3) for keeping the clamping sheet (2) in a first position.

The disclosure discloses a foil stamping mechanism, which includes a base and a lifting seat, wherein a plurality of stamping molds are arranged between the base and the lifting seat, an aluminum foil driving mechanism is arranged above the stamping mold, the aluminum foil driving mechanism includes a connecting plate, a monitoring device is installed on one side of the connecting plate. According to the disclosure, a pattern on an electrochemical aluminum foil can be precisely stamped to a corresponding position on a film roll.

The present invention relates to a method for decorating a drinking or eating vessel, the method comprising: a. providing: i. a drinking or eating vessel, wherein the vessel comprises an inner surface that defines a volume for receiving a liquid or a solid food and an outer surface comprising a polymeric coating; and ii. a transfer sheet, wherein the transfer sheet comprises a printed decoration; and iii. a supporting means comprising a recess for receiving the vessel; and b. arranging the vessel within the recess of the supporting means thereby defining a lower portion of the outer surface of the vessel occluded from contact with the transfer sheet and an upper portion of the outer surface of the vessel for contacting the transfer sheet; and contacting the upper portion of the outer surface of the vessel and the supporting means with the transfer sheet under at least a partial vacuum, wherein the printed decoration is transferred from the transfer sheet to the upper portion of the outer surface of the vessel, and wherein the supporting means reduces stretching of the transfer sheet from the upper portion of the outer surface of the vessel to the lower portion of the outer surface of the vessel. Also described are associated uses, an apparatus, and drinking or eating vessels obtainable by the methods of the invention.

Apparatuses and methods for applying a transfer material onto the surface of an article are disclosed, including apparatuses and methods of transfer printing on and/or decorating three-dimensional articles, as well as the articles printed and/or decorated thereby. In some cases, the apparatuses and methods involve providing a deposition device, such as a printing device; providing a transfer component; depositing a material onto a portion of the transfer component with the deposition device; modifying the portion of the transfer component with the transfer material thereon to conform the transfer component to at least a portion of the surface of the three-dimensional article; and transferring the transfer material onto the surface of the article.

The invention relates to a method and an apparatus for cold-stamping onto a three-dimensional object. In a first step, an adhesive is applied to the object at a first workstation. In a second step, a transfer film is pressed onto the object by a pressing device at a second workstation. At the same time, the adhesive is cured at the second workstation. As a result, the decorative material of the transfer film adheres to the object at the positions on the object which are provided with adhesive. If, following this, the transfer film is removed from the three-dimensional object after being pressed on, the decorative material remains on the object at the desired positions. At the positions at which in the first step no adhesive has been applied to the object, the decorative material does not adhere to the object but rather remains on the carrier film of the transfer film.