The present disclosure relates to methods and apparatuses for printing and drying inks on substrates. Printing systems may include a metering device positioned between a printing station and a light source. During operation, the printing station deposits ink onto a substrate to define a printed region. And the light source directs infrared light onto the substrate to define an illumination zone. The printed region is advanced from the printing station to the metering device and from the metering device through the illumination zone, wherein the ink is dried with infrared light traveling from the light source, which also heats the substrate and changes the modulus of elasticity of the substrate. In turn, the metering device isolates the printing station from the change in the modulus of elasticity to help reduce phase shifts caused by changes in the modulus of elasticity resulting from heat in the substrate.

A printer includes a spindle that rotates a fibrous object opposite a plurality of printheads while a forced air heater directs heated air toward the surface of the fibrous object. The plurality of printheads eject drops of solid ink onto the surface of the fibrous object to form a solid ink image on the fibrous object and the heated air affixes the solid ink image to the surface of the fibrous object without requiring pressure to affix the solid ink image to the fibrous object.

A system and a method for irradiating an object and potentially for controlling the irradiation or other conditions relating to an effect of the irradiation. A sensor is translated along a longitudinal direction of the radiation emitter and in a space between the radiation emitter and the objects irradiated to arrive at information relating to a parameter relating to the effect of the irradiation, such as the radiation, and derived in the space between the radiation emitter and the objects irradiated. Calibrating the sensor readings and adjusting the radiating emitter output, thereby controlling the irradiation.

A printable blank sheet includes a sheet with defined separation lines, a first layer with cuts running through the first layer along the defined separation lines, and a second layer attached to a bottom side of the first layer, with perforations running through the second layer along the defined separation lines. A method for creating custom print cards includes running a printable blank sheet through a printer to print on defined print areas, wherein the sheet includes slit-over-perforation lines defining a periphery of an object in the sheet, bending the sheet along the slit-over-perforation lines to weaken and separate the slit-over-perforation lines, and detaching the object from the sheet.

A printable blank sheet includes a sheet with defined separation lines, a first layer with cuts running through the first layer along the defined separation lines, and a second layer attached to a bottom side of the first layer, with perforations running through the second layer along the defined separation lines. A method for creating custom print cards includes running a printable blank sheet through a printer to print on defined print areas, wherein the sheet includes slit-over-perforation lines defining a periphery of an object in the sheet, bending the sheet along the slit-over-perforation lines to weaken and separate the slit-over-perforation lines, and detaching the object from the sheet.

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.

According to one embodiment, a tablet printing apparatus includes: a first rotator having an inner space; a duct configured to communicate with the inner space of the first rotator; a suction pipe configured to suck inside the duct; a second rotator arranged to face the first rotator across the duct; a conveyor belt wrapped around the first rotator and the second rotator; and a print head that performs printing on a tablet held on the conveyor belt. The conveyor belt includes a plurality of suction holes which communicate with the inner space of the first rotator and that of the duct, and are arranged in the rotation direction of the first rotator. The first rotator and the duct constitutes a suction chamber that applies a suction force to those of the suction holes of the conveyor belt located around the outer periphery of the first rotator and the duct.

The present disclosure describes systems and methods to provide electrode cooling for material surface treatment systems. A cooling fluid is employed to cool electrodes with a high voltage applied. For example, a conduit conveys a cooling fluid through the electrode, as the conduit also provides electrification for the electrode by being connected to an electrical power source. Further, cooling is implemented by use of a voltage isolator disposed between the conduit and a reservoir, with the voltage isolator providing a pathway to a reference voltage for residual electric charge from the cooling fluid passing through the voltage isolator.

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.

A printable blank sheet includes a sheet with defined separation lines, a first layer with cuts running through the first layer along the defined separation lines, and a second layer attached to a bottom side of the first layer, with perforations running through the second layer along the defined separation lines. A method for creating custom print cards includes running a printable blank sheet through a printer to print on defined print areas, wherein the sheet includes slit-over-perforation lines defining a periphery of an object in the sheet, bending the sheet along the slit-over-perforation lines to weaken and separate the slit-over-perforation lines, and detaching the object from the sheet.