A dryer includes a heater configured to heat an object to dry the object, a plurality of collection devices configured to collect a liquid generated by liquefication of condensed vapor in the dryer, a drainage tube configured to drain the liquid from each of the plurality of collection devices, a pump configured to feed the liquid through the drainage tube, a switch configured to switch a connection between the plurality of collection devices and the switch, and a pressure sensor configured to measure a pressure between the switch and the pump.

A method of performing a fully automated, single changeover process within a stencil printer includes identifying at least one item for replacement within the stencil printer, transporting an item to the stencil printer by a single change movable cart, removing a used item identified for replacement and delivering the used item to the movable cart, and installing a new item within the stencil printer from the movable cart. A system to perform a fully automated, single changeover process within a stencil printer includes a single change movable cart configured to transport an item to the stencil printer, remove a used item scheduled for replacement, and install the item within the stencil printer.

A method for operating a printing material processing machine by using a computer includes acquiring print job parameters from print jobs for the printing material processing machine and machine parameters by using the computer, evaluating the acquired parameters to determine the machine state by using the computer, and requesting and providing fluid consumable materials for optimizing the operation of the machine on the basis of the determined machine state by using the computer. Maintenance measures carried out on the machine are optimized on the basis of the determined machine state, by using the computer.

A technique includes receiving a plurality of speed control requests from a plurality of components of a processing pipeline for a printing press system. The technique includes controlling the speed of the printing press system based on the plurality of speed control requests.

A calibration plate is arranged on a support surface of a table. The calibration plate has first and second alignment marks arranged in one direction, and third and fourth alignment marks arranged in another direction that is orthogonal to the one direction. The first and second alignment marks that move in a front-and-rear direction are imaged by a first camera. The one direction of the calibration plate is made parallel to a front-and-rear direction based on the image. The positions of second and third cameras are adjusted based on the third and fourth alignment marks. The second and third cameras, positions of which have been adjusted, are moved to positions below the transfer roller, and a reference line formed at the transfer roller is imaged by the second and third cameras. An orientation of a rotation shaft of the transfer roller is adjusted in a plane parallel to the support surface based on these images.

A calibration plate is arranged on a support surface of a table. The calibration plate has first and second alignment marks arranged in one direction, and third and fourth alignment marks arranged in another direction that is orthogonal to the one direction. The first and second alignment marks that move in a front-and-rear direction are imaged by a first camera. The one direction of the calibration plate is made parallel to a front-and-rear direction based on the image. The positions of second and third cameras are adjusted based on the third and fourth alignment marks. The second and third cameras, positions of which have been adjusted, are moved to positions below the transfer roller, and a reference line formed at the transfer roller is imaged by the second and third cameras. An orientation of a rotation shaft of the transfer roller is adjusted in a plane parallel to the support surface based on these images.

A rotary machine is disclosed, which includes a rotary shaft having a rotation axis, a first shaft end, and a second shaft end; a first bearing arrangement at the first shaft end; a second bearing arrangement at the second shaft end; a coupling flange mechanically connected to the first shaft end. The coupling flange is mechanically connected to the first shaft end by means of a first axial-contact coupling.

A braille printing device includes a device body; a linear actuator with an actuator body and an actuator hammer; a liquid ejection unit, including a liquid container a resin piston, and a dispensing tube; a slidable connector with a groove; a vertical stop; a trigger switch; a slide stop member; a slide holder plate including a slide holder back portion, a slide stop member, and first and second sliding rails; and a control unit, such that the braille printing device deposits spherical domes of printing fluid on a printing substrate to form a braille text.

A braille printing device includes a device body; a linear actuator with an actuator body and an actuator hammer; a liquid ejection unit, including a liquid container a resin piston, and a dispensing tube; a slidable connector with a groove; a vertical stop; a trigger switch; a slide stop member; a slide holder plate including a slide holder back portion, a slide stop member, and first and second sliding rails; and a control unit, such that the braille printing device deposits spherical domes of printing fluid on a printing substrate to form a braille text.

A registration system for a printing device and a method for controlling the same are disclosed. For example, the registration system includes a lead screw motor, a lead screw coupled to the lead screw motor, and a carriage coupled to the lead screw. The carriage includes two drive rollers, wherein each drive roller is coupled to a respective splined shaft coupled to a respective yoke, wherein the respective yoke is coupled to a drive pulley and a drive motor that is in a fixed position, wherein movement of the carriage causes the respective splined shaft of the two drive rollers to move guided by the respective yoke.