An apparatus for the printing and radiation treatment of a curved surface of an object, such as a body part, includes a printing unit, preferably an inkjet print head, a radiation unit, preferably a UV dryer, and a movement unit, preferably a robot, either for moving the printing unit and the radiation unit at a working distance along the surface or for moving the object at a working distance along the printing unit and the radiation unit. A shielding unit can be adjusted and/or deformed relative to the printing unit and/or relative to the radiation unit and during the printing. Scattered radiation is shielded and damage to the printing unit is prevented as a result of the special configuration of the shielding unit.

An apparatus for the printing and radiation treatment of a curved surface of an object, such as a body part, includes a printing unit, preferably an inkjet print head, a radiation unit, preferably a UV dryer, and a movement unit, preferably a robot, either for moving the printing unit and the radiation unit at a working distance along the surface or for moving the object at a working distance along the printing unit and the radiation unit. A shielding unit can be adjusted and/or deformed relative to the printing unit and/or relative to the radiation unit and during the printing. Scattered radiation is shielded and damage to the printing unit is prevented as a result of the special configuration of the shielding unit.

The printing machine comprising at least one protective replaceable self-adhesive film (1) at least for the principal surfaces most affected by splashes of ink and/or varnish and by the normal accumulation of dirt.

The printing machine comprising at least one protective replaceable self-adhesive film (1) at least for the principal surfaces most affected by splashes of ink and/or varnish and by the normal accumulation of dirt.

A head holder has an opening through which a space between the head holder and a conveyer communicates with an inside of the head holder. A head cooler includes a blower configured to blow air into the head holder from an outside of the head holder with a flow rate of blow air and a suction unit configured to suction air from the head holder with a flow rate of suction air. The head cooler generates cooling air for cooling an ink-jet head inside the head holder by the blower and the suction unit. A controller controls the flow rate of blow air and the flow rate of suction air such that air containing ink mist is suctioned into the head holder through the opening.

The present teachings disclose various embodiments of a printing system for printing substrate, in which the printing system can be housed in a gas enclosure, where the environment within the enclosure can be maintained as a controlled printing environment. A controlled environment of the present teachings can include control of the type of gas environment within the gas enclosure, the size and level particulate matter within the enclosure, control of the temperature within the enclosure and control of lighting. Various embodiments of a printing system of the present teachings can include a Y-axis motion system and a Z-axis moving plate that are configured to substantially decrease excess thermal load within the enclosure by, for example, eliminating or substantially minimizing the use of conventional electric motors.

The present teachings disclose various embodiments of a printing system for printing substrate, in which the printing system can be housed in a gas enclosure, where the environment within the enclosure can be maintained as a controlled printing environment. A controlled environment of the present teachings can include control of the type of gas environment within the gas enclosure, the size and level particulate matter within the enclosure, control of the temperature within the enclosure and control of lighting. Various embodiments of a printing system of the present teachings can include a Y-axis motion system and a Z-axis moving plate that are configured to substantially decrease excess thermal load within the enclosure by, for example, eliminating or substantially minimizing the use of conventional electric motors.

The present teachings disclose various embodiments of a printing system for printing substrate, in which the printing system can be housed in a gas enclosure, where the environment within the enclosure can be maintained as a controlled printing environment. A controlled environment of the present teachings can include control of the type of gas environment within the gas enclosure, the size and level particulate matter within the enclosure, control of the temperature within the enclosure and control of lighting. Various embodiments of a printing system of the present teachings can include a Y-axis motion system and a Z-axis moving plate that are configured to substantially decrease excess thermal load within the enclosure by, for example, eliminating or substantially minimizing the use of conventional electric motors.

The present teachings disclose various embodiments of a printing system for printing substrate, in which the printing system can be housed in a gas enclosure, where the environment within the enclosure can be maintained as a controlled printing environment. A controlled environment of the present teachings can include control of the type of gas environment within the gas enclosure, the size and level particulate matter within the enclosure, control of the temperature within the enclosure and control of lighting. Various embodiments of a printing system of the present teachings can include a Y-axis motion system and a Z-axis moving plate that are configured to substantially decrease excess thermal load within the enclosure by, for example, eliminating or substantially minimizing the use of conventional electric motors.

A recording apparatus includes a panel that supports an outer periphery of a display which displays various information; and a cover which is made of a resin material and is detachably mounted on the panel so as to cover the display in a state being mounted on the panel, wherein the cover includes a thin-wall portion and an inclined portion which serve as an outer area disposed along the outer periphery and a thick-wall portion which serves as an inner area disposed inside the outer area with the thickness of the outer area being smaller than the thickness of the inner area.