A rotating handling carousel includes a transfer device arranged on the outer circumference of the handling carousel. The transfer device includes a carry-along element which receives and transports an article and a guide element. The guide element is arranged in such a way that the article transported by the carry-along element is guided into or out of a handling station, for which the guide element extends into an area of the handling station in such a way that the guide element does not collide with the handling device at the transfer position. A sensor detects whether a handling device or the article are not in the transfer position, and/or whether the article is located in the handling station at all, and, after such a determination, issues a collision signal based on a kind of the transfer device.

This disclosure describes substrate(s) having a three-dimensional (3D) feature formed thereon and methods of forming the features. One method involves applying a first layer of UV-curable material on a surface of the glass container around a circumference of the container and curing the first layer of UV-curable material to produce a first cured material layer that forms at least a portion of a first 3D feature. The method further comprises applying a second layer of UV-curable material on the surface of the glass container, spaced apart from the first 3D feature, around the circumference of the container, and curing the second layer of UV-curable material to produce a second cured material layer that forms at least a portion of a second 3D feature. The portion of the glass container between the first and second 3D features has a circumference less than that of the first or second 3D features.

A printing system facilitates the printing of articles of manufacture. The system includes an array of printheads, a support member positioned to be parallel to a plane formed by the array of printheads, a member movably mounted to the support member, an actuator operatively connected to the movably mounted member, an object holder configured to mount to the movably mounted member, and a controller operatively connected to the plurality of printheads and the actuator. The controller is configured to operate the actuator to move the object holder past the array of printheads and to operate the plurality of printheads to eject marking material onto objects held by the object holder as the object holder passes the array of printheads. The support member and printhead array are oriented vertically to enable the printing system to be installed in a vertical cabinet that provides a small footprint in a non-production environment.

Embodiments of the invention are directed to systems and methods for printing on a convex or concave glass surface and for an apparatus for holding the one or more work pieces for printing. The invention operatively couples one or more curved pieces in a mounting fixture, wherein each of the one or more curved pieces comprise a convex surface or a concave surface. Furthermore, the invention accesses a flattened image of the convex outer surface or the concave inner surface of one or more generally curved pieces and disposes pigment on the convex surface or the concave surface of the one or more curved pieces according to the flattened image. Further embodiments may be directed towards printing on curved pieces such as glass eyes.

An apparatus for printing on containers includes a transport arm and a lift that cooperate to form a first container-transport device that moves a container at a container-loading position into a printing position. The transport arm is arranged on the lift and pivotable about a pivot axis thereof. The lift is axially displaceable and displaces the transport arm axially in relation to the pivot axis. At the printing position, a print head prints on the container.

A liquid discharge apparatus records dots of liquid on a medium by interlace recording. The liquid discharge apparatus includes a head, a mover, a tilt adjuster, and control circuitry. The head discharges the liquid from nozzles. The mover relatively moves the head and the medium in each of main-scanning and sub-scanning directions. The tilt adjuster changes a tilt of the head with respect to the medium. The control circuitry controls recording on the medium. The control circuitry causes the mover to relatively move the head and the medium in the main-scanning direction with the head tilted to at least a first angle or a second angle. An interval between adjacent nozzles in the sub-scanning direction is a first interval in a state where the tilt is the first angle. The interval is a second interval different from the first interval in a state where the tilt is the second angle.

An apparatus for printing different colors on packages includes holding-and-centering units, each having a primary and a secondary part. The primary part is held at a holding position during package handling. The secondary part is mounted in the primary part to be rotatable about a vertical axis of the unit. The secondary part receives a functional element necessary for handling a package. A plurality of secondary parts adapted to different types, forms and/or sizes of packages are associated with the primary parts.

A method for producing a reflector on a reflector base made of glass is provided. According to the method, a metal-containing coating fluid is deposited on a coating surface and subjected to a burning-in treatment at a temperature below a softening temperature of the glass forming the reflector layer. Deposition of the coating fluid proceeds using a contactless method by inkjet technology. This makes it possible to deposit a reflector layer in a reproducible way and with tight tolerances having a specified layer thickness, as well as to create clean edges without a printing block or similar device. The coating fluid is moved by a print head equipped with a plurality of nozzles and is movable in a movement plane relative to the coating surface. The coating fluid is sprayed onto the coating surface by the print head under pressure and in the form of droplets emerging from the nozzles.

A base plate for supporting a plurality of interlocking building bricks includes a planar sheet having a top surface and a bottom surface, with a plurality of nodes projecting from the top surface. The plurality of nodes includes a node having a vertical cylindrical wall and a horizontal top wall, the vertical cylindrical wall tapering along its vertical height; the node also having a bevel extending around a circumference of the node at an edge where the vertical cylindrical wall transitions to the horizontal top wall. A method of assembling a composite base plate includes securing two component base plates to one another via a common backing material. A method of printing on a base plate includes applying ultraviolet ink to at least the top surface of the base plate from an ultraviolet light printer, the base plate having a plurality of studs or nodes projecting from the top surface.

An inkjet ink for a glass substrate can enable formation of an aesthetic image with high concealability on the surface of the glass substrate. The inkjet ink disclosed here can include: an inorganic solid including an inorganic pigment that develops black and a glass frit; a monomer component having a photocuring property; and a photoinitiator. In the inkjet ink, a volume ratio of the inorganic solid in a case where an ink total volume is 100 volume% can be 35 volume% or less, a volume ratio of the inorganic pigment in the case where a total volume of the inorganic solid is 100 volume% can be 15 volume% or more and less than 90 volume%, and a volume ratio of the inorganic pigment to the photoinitiator can be 6 times or less.