A cutting equipment for continuous paper strips having images arranged in sequence along multiple rows comprising a longitudinal cutting mechanism for separating the rows from the strips and a transversal cutting mechanism for separating image sheets from the rows and in which the image sheets have different longitudinal dimensions and possibility of random variations between row and row, The equipment further comprises individual feeding mechanisms for feeding, in an independent way, the rows with respect to the transversal cutting mechanism; a buffer device, of compensation for the different feeds of the rows, and an electronic control unit for actuating the feeding mechanisms and the transversal cutting mechanism so as to present the trailing edges of said image sheets in alignment for a simultaneous cutting by the transversal cutting mechanism and extracting one or more images from the cutting mechanism, after its actuation, as preparation of collecting.

The present invention relates to a method for producing a medicament dosage form which consists of at least one piece which in each case comprises at least one medicament and at least one additive, the medicament and the additive being mixed and extruded from a die as a strand and the strand being cut into pieces of precise weight. The invention additionally relates to a device.

The invention relates to a cutting system with a cutting machine for cutting sheet-like, stacked material and with an alignment device, which can be manually manipulated, for manually laterally aligning the material on a flat surface of the alignment device, wherein the alignment device can be placed on a table of the cutting machine, which table serves to receive the material, wherein the cutting machine has an electrical machine controller for functions of the cutting machine. In the case of a cutting system of this kind, it is provided that the alignment device has electrical components, and the electrical machine controller of the cutting machine can be actuated by means of the alignment device.

A method for sawing metal workpieces uses a sawing machine having a bench and clamping jaws, and an upper saw generates a sawing feeding movement in a cutting plane. The method includes: controlling the clamping jaws to clamp a workpiece, the clamping jaws located in an initial position; waiting input of an offset value, corresponding to a distance of a front end side of the workpiece from a zero position, into the machine controller, the zero position being a position in which the front end side of the workpiece is located in the cutting plane; advancing or retracting the clamping jaws to move the workpiece into the zero position; opening the clamping jaws; moving the clamping jaws to the initial position; re-clamping the workpiece located in the zero position, the clamping jaws being in their initial position; moving the clamped workpiece from the zero position into a cutting position, the cutting position being a position in the cutting plane where the workpiece is intended to be sawn.

A system and method for the automated or semi-automated preparation of seeds for transformation and transgenic engineering.

A rotary die apparatus and method for three-axes registration error correction. The rotary die apparatus includes a rotary die for applying patterns to a strip of material, a sensor for sensing fiducials on the strip of material, actuators to adjust the rotary die, and a control system. The actuators adjust the rotary die along an X-axis extending along a direction of travel, along a Y-axis transverse of the direction of travel, and about a theta axis perpendicular to the X-axis and the Y-axis. The control system calculates a registration error based on a difference between an actual location or orientation of the fiducials and a desired location or orientation of the fiducials. Then the control system outputs control signals to the actuators to adjust the rotary die along the X-axis, along the Y-axis, and/or about the theta axis while the rotary die continues to rotate.