A tape sectioning system, comprising a tape web feed path for feeding a web of fiber reinforced tape, a quality inspection system arranged along the web feed path that inspects the quality of the web of tape, and a sectioner that sections off longitudinal tape sections from the web of tape, wherein the sectioner is arranged to vary the length of the tape sections that are sectioned off from the web of tape based on the outcome of the quality inspection.

A food product forming machine is configured to slice food product into slices. A main frame mounts a load assembly which receives food product and moves the food product through an opening in the main frame, a feed assembly downstream of the load assembly which moves food product through the main frame, and a slicing assembly downstream of the feed assembly which slices the food product into slices. In a first embodiment, the load assembly is at a rear end of the main frame, and in a second embodiment, the load assembly is at a side of the main frame. The load assembly is pivotally mounted to the main frame.

Method for producing composite components having an undevelopable surface. To be able to maintain the tolerances when manufacturing especially large components in the case of composite components with undevelopable surfaces, it is proposed according to the invention to drape a cut-to-size blank on a molding tool and to determine the deviation of the cut-to-size blank edge from the setpoint cut-to-size edge. Then, on the basis of the deviation, a new cut-to-size blank edge is calculated, and a new cut-to-size blank is created and re-draped for examination purposes. The method is repeated until the deviations are below a tolerable threshold value. The method is furthermore carried out for each textile ply of the composite component.

A method for setting a gap dimension of a gap between a die cutting cylinder and a counter pressure cylinder of a rotary die cutting device includes providing a control system including a controller, at least one sensor, and an adjusting device actuated by the control system. The method further includes actuating the adjusting device in response to the at least one sensor sensing a deviation from a desired state, thereby setting the gap dimension between the rotary die cutting device and the counter pressure cylinder, in which actuating the adjusting device is achieved as a result of the control system operating in a closed feedback loop. The method further includes sensing by the at least one sensor occurring with or without disruption of operation of the rotary die cutting device.

First scanned images of the first container are received from a scanning device that show the contents of the interior of the first container before the first container is cut and opened. Second scanned images that are of the contents of the first container after the first container is cut and opened are also received. The images are analyzed and, based upon the analysis, selective modifications to the operating parameters of the container opening machine are determined and made.

Disclosed are various embodiments of systems and methods that facilitate printer calibration. According to certain embodiments, calibration methods comprise a printer printing a calibration target and cutting a calibration target using an inline slitter. The printer then determines a calibration offset based on the position of the cut on the calibration target. The printer can then be calibrated according to gross amounts on the slitter and fine amounts at an ink applicator.

A method for processing food products (12) includes transporting the food products by a first conveyor (11), an X-ray unit (13) positioned between the intake end and the discharge end of the first conveyor to acquire a first set of product-specific data relating to the food product transported. At least one first optical camera (17), assigned to the first conveyor, is used to acquire a second set of product-specific data relating to the food product. A control unit (18) is used to receive and integrate the first and second data sets to analyze the composition of the food product and determine parameters for the food product. Based on the determined parameters of the food product, the food product is cut with a cutting unit, under the control of the control unit.

The invention relates to a system made of an electronic display device having a display screen for displaying augmented reality, an electronic memory, and a cutting device for cutting planar cutting stock, e.g., paperboard, corrugated cardboard, film, textile, plastic, foam, or wooden slabs or sheets. The system has a computer unit for computing a position and alignment of the display device in relation to the cutting device. The display device is designed to be worn by a user and positioned in the field of vision of the user. The system is designed to display to the user retrieved cutting-stock-related information by means of the display screen in a manner readable by the user in the field of vision of the user, adapted to the position and alignment of the display device in relation to the cutting device, and linked to an actual and/or setpoint position of the cutting stock.

A method for selectively feeding rolls of paper coming out of a log saw unit (10), wherein the log saw unit (10) comprises (n) feeding channels (12) for feeding logs (11) towards a cutting device (13) provided at the outlet with (n) unloading belts (14) in a number equal to the feeding channels (12), comprises a step of generating a stop signal relating to a portion of a packaging unit downstream of the log saw unit (10) further to the detection of accumulation of rolls (11′) and/or of stopping of a packaging machine, as well as a step of attributing said stop signal to a feeding channel/sub-group of feeding channels (12) operatively associated with the portion of the packaging unit, called “feeding channels/sub-groups of feeding channels (12) subject to stopping”, wherein the method—upon receipt of the stop signal—comprises at least the steps of: ending the cutting of the log (11) in progress on all of the (n) feeding channels (12) of the log saw unit (10), selectively stopping the forward movement of a new log (11) towards the cutting device (13) just in the feeding channels/sub-groups of feeding channels (12) subject to stopping through the stopping of the forward movement of the carriers (15) of the carrier device (16) of the feeding channels/sub-groups of feeding channels (12) subject to stopping, proceeding without interruption in the operative feeding channels (12), namely those not subject to the stop signal, with the cutting of the logs (11) in succession.

The invention relates to an apparatus and a method for converting a sheet into a continuous strip, wherein the apparatus comprises a cutting device with one or more cutting members, one or more drives and a feeding device, wherein the apparatus is provided with one or more sensors for detecting the first longitudinal edge and the second longitudinal edge of the sheet and a control unit that is connected to the one or more drives, the feeding device and the one or more sensors for controlling the movement of the one more cutting members relative to the sheet based on the detection to create a sequence of cuts to form interconnected sheet sections, wherein the control unit is arranged for variably controlling the strip width.