A cutting device and corresponding method for cutting a relatively rigid material, such as for example paper, cardboard, plastic material, composite or other. The cutting device includes a first cutting disc sharpened along its peripheral edge and rotating around a first axis of rotation. A second cutting disc, also sharpened along its peripheral edge and rotating around a first axis of rotation (X3), is disposed in front of the first cutting disc with respect to the material and is co-planar with the first cutting disc (14).

A cutting device and corresponding method for cutting a relatively rigid material, such as for example paper, cardboard, plastic material, composite or other. The cutting device includes a first cutting disc sharpened along its peripheral edge and rotating around a first axis of rotation. A second cutting disc, also sharpened along its peripheral edge and rotating around a first axis of rotation (X3), is disposed in front of the first cutting disc with respect to the material and is co-planar with the first cutting disc (14).

A method for manufacturing a material strand assembly for a vehicle. The method includes: extruding strand material in an extruder so that an extruded material strand is produced; monitoring the quality of the extruded material strand so as to detect faults of the extruded material strand; in case of a detection of a fault, cutting out the fault from the material strand and re-joining cutting end faces, thus producing a joint, so that a faultless material strand is produced. The cutting-out step is conducted such that any two adjacent joints are at a minimum joint distance from each other. The faultless material strand is stored in a storage unit so as to produce the material strand assembly. The extruded material strand is passed through a first strand accumulator between the extruder and the cutting arrangement and through a second strand accumulator between the cutting arrangement and the storage unit.

A label creation apparatus includes a control unit that controls, at a time of continuously creating a plurality of labels by a label creation unit, the label creation unit to resume the creation of the labels from an n-th label when determining a tape-end state in which a tape end of the tape has passed through a printing position based on a detection result of a detection unit in a tape-end detection period for the n-th label, the tape-end detection period for the n-th label indicating a period from a point at which an (n1)-th label has been determined to be completed to a point at which the n-th label has been determined to be completed.

A precut module with one or more profiling heads and/or circular saws may be provided upstream of a saw module. The precut module may be used to implement a portion of a cut that would otherwise be made by the saw module, thereby reducing the depth of cut required at the saw module. In some embodiments, profiling heads may be used to profile a block that is wider than a desired side board. The block may be cut from the workpiece and sent to the edger. This may provide the same or better wood volume recovery and/or throughput speed than profiling the side board or cutting the side board from a flitch. In some embodiments, cut patterns for the precut module and other machine centers may be calculated and/or selected based on a desired depth of cut at the saw module, desired throughput speed, wood volume recovery, and/or other parameters.

A precut module with one or more profiling heads and/or circular saws may be provided upstream of a saw module. The precut module may be used to implement a portion of a cut that would otherwise be made by the saw module, thereby reducing the depth of cut required at the saw module. In some embodiments, profiling heads may be used to profile a block that is wider than a desired side board. The block may be cut from the workpiece and sent to the edger. This may provide the same or better wood volume recovery and/or throughput speed than profiling the side board or cutting the side board from a flitch. In some embodiments, cut patterns for the precut module and other machine centers may be calculated and/or selected based on a desired depth of cut at the saw module, desired throughput speed, wood volume recovery, and/or other parameters.

A slit-cutting device includes a first holder, a second holder, a first contactable member a second contactable member, and a protrusion member. The first holder includes a medium faceable area and a first contactable member. The second holder holds a blade and includes a second contactable member. A cutting edge of the blade may cut a medium between the first holder and the blade. The first contactable member and the second contactable member contact each other and defined a closest approach distance between the cutting edge and the first holder. The closest approach distance is longer than zero and below a thickness of the medium. The protrusion member protrudes more than the closest approach distance from a part of the medium faceable area. The cutting edge may make a cut line includes at least a part of a slit-cut and a full-cut in a cutting edge direction in the medium.

A slit-cutting device includes a first holder, a second holder, a first contactable member a second contactable member, and a protrusion member. The first holder includes a medium faceable area and a first contactable member. The second holder holds a blade and includes a second contactable member. A cutting edge of the blade may cut a medium between the first holder and the blade. The first contactable member and the second contactable member contact each other and defined a closest approach distance between the cutting edge and the first holder. The closest approach distance is longer than zero and below a thickness of the medium. The protrusion member protrudes more than the closest approach distance from a part of the medium faceable area. The cutting edge may make a cut line includes at least a part of a slit-cut and a full-cut in a cutting edge direction in the medium.

The present invention relates to a method for cutting a food product, in particular a food product strand, into portions, in particular into strips or cubes, comprising the following method steps: a) The food product is advanced to a cutting device (2) by means of an advancing device (12). b) Successive portions are cut off from the food product from an end of the food product which faces the cutting device (2) by means of at least one cutting element (3), wherein the cutting element (3) is guided by means of a disc-shaped cutting element carrier (4), on which the cutting element (3) is arranged, wherein the cutting element carrier (4) is rotated about a drive axis (10) which is oriented at least substantially parallel to an advancing direction (7) of the advancing device (12). c) During one-time guiding of the cutting element (3) past the end of the food product, a multiplicity of strip-shaped portions are produced. In order to provide a method, by means of which it is possible to produce cube-shaped portions in a particularly rapid manner, according to the invention the portions which are being produced are cut to size by means of at least one length cutting device (5) after the cutting by means of the at least one cutting element (3). The present invention further relates to a corresponding device.

The present invention relates to a method for cutting a food product, in particular a food product strand, into portions, in particular into strips or cubes, comprising the following method steps: a) The food product is advanced to a cutting device (2) by means of an advancing device (12). b) Successive portions are cut off from the food product from an end of the food product which faces the cutting device (2) by means of at least one cutting element (3), wherein the cutting element (3) is guided by means of a disc-shaped cutting element carrier (4), on which the cutting element (3) is arranged, wherein the cutting element carrier (4) is rotated about a drive axis (10) which is oriented at least substantially parallel to an advancing direction (7) of the advancing device (12). c) During one-time guiding of the cutting element (3) past the end of the food product, a multiplicity of strip-shaped portions are produced. In order to provide a method, by means of which it is possible to produce cube-shaped portions in a particularly rapid manner, according to the invention the portions which are being produced are cut to size by means of at least one length cutting device (5) after the cutting by means of the at least one cutting element (3). The present invention further relates to a corresponding device.