Building panels provided with a locking system for vertical and horizontal locking of a first edge and a second edge of adjacent panels. The locking system includes a displaceable tongue at least partly arranged in a displacement groove, a tongue groove, a cavity provided in a strip at the first edge, and a protrusion extending downwards at the second edge. The displaceable tongue is arranged to be displaced at least partly into the tongue groove during locking, and wherein the protrusion is arranged to be located in least a portion of the cavity when the panels are locked vertically and horizontally.

Building panels provided with a locking system for vertical and horizontal locking of a first edge and a second edge of adjacent panels. The locking system includes a displaceable tongue at least partly arranged in a displacement groove, a tongue groove, a cavity provided in a strip at the first edge, and a protrusion extending downwards at the second edge. The displaceable tongue is arranged to be displaced at least partly into the tongue groove during locking, and wherein the protrusion is arranged to be located in least a portion of the cavity when the panels are locked vertically and horizontally.

An example of a blanking die includes a blanking apparatus configured to form a series of at least two metallic blanks from sheet metal, and an ejection apparatus configured to eject a first one of the series of the metallic blanks out of the blanking die in a predetermined direction and a second one of the series of the metallic blanks out of the blanking die in said predetermined direction.

An arrangement for handling narrow rolls includes a flow-through warehouse, which includes an inlet end and an outlet end. The narrow rolls are handled such that the narrow rolls are fed into the inlet end in a first direction. The flow-through warehouse further includes at least two rack rows having a second direction transverse to said first direction, at least two isles having the second direction and carriages that move the narrow rolls into a rack and from a rack and also carry them in the second direction. At least one carriage moves along each isle, at least two isles include carriages that are capable of sorting the narrow rolls, and at least one carriage is sorting the narrow rolls for forming a customer stack. The customer stack is formed of several narrow rolls and delivered from the outlet end to be transported to a customer.

The present disclosure relates to a method and device for processing food. The device comprises at least two food slicing devices adapted to each produce partial portions, and a combination device disposed downstream of each food slicing device to combine the partial portions to a multi-type portion. A sensor assembly may be provided to determine at least one property of the partial portions, wherein a control device is provided to control the operation of the food slicing devices based on the properties of the respective partial portions to adjust the weight of the partial portions. A control device is alternatively provided to synchronize the timing of the slicing operation of the food slicing devices. A buffering device is alternatively provided between at least one food slicing device and the combination device to retain and release partial portions based on a control signal from a control device.

A food log slicing apparatus includes a base, a frame mounted on the base, a loaf tray, a drive assembly, a shear bar and a slicing station mounted on the frame. The loaf tray and the shear bar are divided into a plurality of side-by-side lanes, each of which are configured to receive multiple food logs stacked in a column. Each lane has a base wall on which a lowest one of the food logs rests which is angled relative to horizontal ground. The drive assembly moves the food logs from the loaf tray to the shear bar and into the slicing station. The slicing station has a driven blade which is parallel to a planar downstream face of the shear bar, and cuts all of the food logs as the blade passes through the food logs.

A method of fabricating a base plate for piezoelectric actuation, comprises providing a plate having a major surface, striking a first removable portion of the plate in a first direction substantially normal to the major surface to shear the first removable portion relative to the plate by a shear distance that is less than the plate thickness. Striking the first removable portion in a second direction substantially opposite the first direction to reduce the shear distance by a reduction in shear that is less than the plate thickness. Leaving it the first removable portion in place rather than removing. Alternately, the removable portion may be created by lancing one or more portions spanning at least one opening through a base plate adjacent a first side of at least one opening and adjacent a second side of the at least one opening.

A fabric handling apparatus includes a layup table, a mold disposed adjacent to the layup table, and a fabric handling array suspended above the layup table and the mold. The fabric handling array is adapted to transfer at least one fabric shape from the layup table to the mold. The fabric handling array includes a plurality of attractors in an attractor array. An orientation of the fabric handling array is alterable with respect to at least one of the layup table and the mold so that the at least one fabric shape is positionable on the mold in a predetermined orientation.

A sheet compound (1) is disclosed, comprising a first group of conglomerates (3) of fiber segments (5) and a matrix (6) of polymeric material, the conglomerates (3) of the first group having a random orientation, and at least one second group of conglomerates (4) of fiber segments (5) and a matrix (6) of polymeric material, the conglomerates (4) of the second group having a prevailing orientation of a direction of maximum tensile strength (FR) thereof along a respective predetermined direction (FB) in said geometric plane (P), said at least one second group of conglomerates (4) being distinguishable from the first group of conglomerates (3) by at least one characteristic other than orientation. A process and an installation for making such a material, as well as a molded object made from such a material are also disclosed.

This disclosure describes a micro-cutting machine for forming cuts in catheters, guidewires, and similar products. The micro-cutting machine can directly control the dimensions of the resultant beams being cut into these types of products, and can also capture images of each cut for feedback control and accuracy verification. The micro-cutting machine has two cutting blades each with cutting edges aligned with a vertical axis. Motors operate to move the cutting blades in a direction perpendicular to the longitudinal axis of the stock material being cut to form a pair of opposing grooves in the stock material with each cut.