Method and parameterization unit for parameterization of a tractive force controller of a controlled roller of a web-processing machine, the tractive force controller controlling a speed of the controlled roller in order to transport a material on the web-processing machine from the controlled roller to a further roller or from a further roller to the controlled roller at a line speed and while being subjected to the tractive force. The method includes, during a standstill test at a line speed of zero, increasing the tractive force to an identification tractive force, preferably 90% of a predetermined standstill tractive force operating point, to determine standstill system parameters of the tractive force system, to calculate standstill controller parameters of the tractive force controller from the standstill system parameters of the tractive force system, preferably by a frequency characteristic method, and to parameterize the tractive force controller using the standstill controller parameters.

An image forming apparatus, comprises: a setting unit configured to set a divider region in a group of images that are continuously printed during feeding from a feeding apparatus in which a roll-shaped printing medium has been set, the divider region being for separating the roll-shaped printing medium into a plurality of rolls. The setting unit sets the divider region based on the number of rolls indicating the count of the plurality of rolls, the number of rolls being required in terms of a configuration of a post-processing device that executes post-processing with respect to the roll-shaped printing medium on which printing has been performed by the printing unit.

A web-tension-measuring device has two plates, which can be rotated relative to one another about an axis of rotation, to be precise such that the one free end of the one plate can be moved towards, or away from, the corresponding, opposite free end of the other plate. A force transducer is arranged in the region of the free ends of the two plates and outside the axis of rotation. The force transducer is configured, during movement of the free ends of the two plates towards one another, to detect a corresponding compressive loading arising from the movement and, during the movement of the free ends away from one another, to detect a corresponding tensile loading between the two plates.

A tension transducer (also known as a tension load cell) contains a strain gauge signal conditioner and a data interface to transfer calibrated tension data over a data connection. Integration of signal conditioning allows for reduced system infrastructure within the tension control system, as no external amplifier is required for the tension transducer load cell. This also provides remote calibration and monitoring of the load cell for error conditions, directly through the data interface, with no reliance on external amplifier hardware. Additional integrated sensor information is sampled, and made available over the data connection, which may be pertinent to the web process. This includes load cell force direction orientation, internal temperature, excitation voltage, and raw load cell small-signal output voltage. The signal conditioning and diagnostic capabilities of the apparatus and method can be applied to any load cell device, and is not limited to web tension transducer load cells.

A method to advance a print medium, for example a flexible print medium, through a print zone of a printing device is described. A carrier is fed from a carrier supply. The carrier has an adhesive surface. A print medium is engaged with the adhesive surface of the carrier. The carrier with the engaged print medium is advanced to the print zone.

A system for forming glass rolls is provided. The system includes a glass ribbon supply system configured to supply a glass ribbon, a cutting system configured to cut the glass ribbon to a first portion and a second portion, a first glass winding system configured to wind the first portion of the glass ribbon to form a first glass roll, and a second glass winding system configured to wind the second portion of the glass ribbon to form a second glass roll.

A method for feeding a material strip to the processing zone of a punch press, wherein the material strip is clamped between a pair of feed rollers and is fed intermittently by rotating the feed rollers at intervals, and wherein the following steps are carried out after each feed of the material strip and before the next feed of the material strip in a feed pause with the material strip stationary and clamped between the feed rollers: holding the material strip by fixing the feed rollers with a certain holding torque; temporarily reducing or eliminating the holding torque of the feed rolls; positioning the strip of material with the holding torque of the feed rollers reduced or removed by inserting one or more pilot pins into associated pilot holes in the strip of material, the strip of material being displaced by the pilot pin or pins and the feed rollers being rotated by the strip of material clamped between them as it is displaced, optionally overcoming the reduced holding torque; and re-extending the pilot pin(s) from the pilot holes of the material belt. This method makes it possible to achieve a highly precise strip feed even without complex intermediate lifting mechanisms.

A roll sheet, in which a continuous sheet is wound in a roll form, is caused to rotate in a forward direction to supply the sheet to a printing unit. First and second sensors are arranged at positions facing an outer circumferential surface of the roll sheet and deviated in an axis line direction of the roll sheet. Outputs of the first and second sensors are changed in accordance with a distance to a sheet of the roll sheet. A rotation direction of the roll sheet is switched from a forward direction to a reverse direction on the basis of the outputs of the first and second sensors while the roll sheet is being rotated in the reverse direction.

The present invention relates to a device (20) for winding a longitudinally cut material web having multiple longitudinal strips (12) on a plurality of winding tubes (16) to form in each case a wound roll. The device comprises an axle (24) and, mounted on the axle, a plurality of ring-shaped winding drives (22) that are individually controllable in their operating position. Each winding drive (22) forms an external-rotor electric motor and comprises a static interior tube (40) and a rotatable external tube (50). The external tube (50) that is rotatable on the rolling bearings (48) bears, on its interior, a device for providing an excitation magnetic field (52) that forms the external rotor of the electric motor.

According to an example aspect of the present invention, there is provided a method, comprising: controlling suction with predetermined force in a known measurement area to a moving cardboard or paper web in a manufacturing process, detecting on-line measurement information on deviation of the moving cardboard or paper web in the manufacturing process caused by the suction with predetermined force in the known measurement area, and determining elastic modulus of the moving cardboard or paper web in the manufacturing process on the basis of the measured deviation.