A cutting device includes: a movable blade; a moving mechanism moving the movable blade and having a first mechanism portion movable between a first operating position and a first non-operating position and a second mechanism portion movable between a second operating position and a second non-operating position; a first detecting portion and a second detecting portion detecting positions of the first mechanism portion and the second mechanism portion; and a controller configured to perform: setting, when one of the first detecting portion and the second detecting portion detects abnormally, updated positions of the first operating position and the second operating position or the first non-operating position and the second non-operating position. The updated positions are set based on detection result of another of the first detecting portion and the second detecting portion and are new start points of movement of the first mechanism portion and the second mechanism portion.

Apparatuses and methods for cutting a facestock on a liner. An anvil roller receives facestock on liner. A cutting roller, under a force, cuts facestock between the cutting roller and the anvil roller. At least one support roller supports the cutting roller and, optionally, the anvil roller, thereby distributing the force into two or more portions and/or subportions, in two or more directions. Apparatuses, methods and kits for preparing a cutting surface of a cutting roller in a facestock cutting apparatus, or for extending the usefulness of a cutting roller. An equalizer roller is provided in a position adjacent to the cutting roller. The equalizer roller has an equalizing surface having a hardness at least as hard as a hardness of the cutting surface. The cutting roller is rotated against the equalizer roller such that the cutting surface is equalized by the equalizing surface.

Method for cutting media from a multi-roll printing system, comprising the steps of: selecting one of a first medium and a second medium, which first medium and second medium are output in parallel with respect to one another from the multi-roll printing system; transporting the selected medium to a cutting media transport path spaced apart from a further media transport path in a traverse direction perpendicular to a plane of the cutting media transport path; and cutting the selected medium positioned at the cutting media transport path.

The present invention further relates to a cutting assembly and a multi-roll printing system.

A fixed blade support device includes a biasing member and a fixed blade support member (11). The fixed blade support member (11) includes a base surface portion (11a), an upright surface portion (11b), and a retainer portion (11c). The upright surface portion (11b) extends from the base surface portion (11a) in a biasing direction so as to close a rear side of a root portion of a fixed blade (12) on an opposite side to a blade edge portion thereof, and is configured to prevent the fixed blade (12) from being disengaged in a direction of engagement with a movable blade. The retainer portion (11c) extends from the upright surface portion (11b) so as to cover the root portion of the fixed blade (12), and is configured to prevent the fixed blade (12) from being disengaged in the biasing direction.

According to one embodiment, there is provided a printer device which prints on an adhesive member including an adhesive material on one surface and includes a thermal head, a platen, a fixed blade, a movable blade, an operation unit, and a control unit. The thermal head prints on the adhesive member by generating heat. The platen is arranged to face the thermal head. The fixed blade is arranged at a position where a blade edge faces a conveyance path of the adhesive member conveyed between the thermal head and the platen. The movable blade is arranged at a position where a blade edge of the movable blade faces the blade edge of the fixed blade via the conveyance path and moved at a first speed to a position where the blade edge of the movable blade is brought into contact with the blade edge of the fixed blade. The operation unit receives a first operation for instructing to start cleaning the movable blade from an operator. The control unit moves the movable blade to a position where the blade edge of the movable blade is exposed above the conveyance path at a second speed slower than the first speed when the operation unit receives the first operation.

The disclosure relates to a device for producing cut objects. A dye-sublimation thermal printer prints a printing pattern onto a printing substrate and outputs the latter. A cutting apparatus cuts the printing substrate along a cutting pattern, wherein the cutting apparatus comprises a cutting unit and a moving unit for moving the printing substrate during cutting. The dye-sublimation thermal printer is adapted to print the printing substrate in such a way that the outputted printing substrate has a printed area in which printing has occurred and a non-printed area in which printing has not occurred, wherein the printed area and the non-printed area are successively arranged and the dimension of the non-printed area in the arrangement direction is at least equal to a distance between the cutting unit and the first moving unit.

A printing apparatus includes: a first blade that cuts a printing medium; a cutter motor; a drive gear that engages the first blade and is rotated by the cutter motor to drive the first blade; a rotator that rotates in conjunction with the drive gear; a photosensor that includes a light-receiving/emitting section including a light-emitting element and a light-receiving element and that includes a sensor substrate that outputs a first detection signal or a second direction signal in accordance with whether or not detection light emitted from the light-emitting element to the light-receiving element is blocked by the rotator; a first cutter frame that supports the photosensor; and a cover member that covers the sensor substrate between the cover member and the first cutter frame.

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 printer configured to cut recording paper with a fixed blade and a movable blade has a blade unit including the movable blade and a slider to which the movable blade is attachable, and the slider includes: a contact part configured to contact the movable blade; a flexible part formed thinner than the contact part; and a first protrusion provided on the flexible part and configured to engage with a first opening provided in the movable blade.

The invention relates to a cutter for self-adhesive linerless endless tape labels, said cutter comprising a transport roller, which is rotatable about an axis of rotation, and a blade unit that comprises a blade carriage, which is linearly travelable in parallel with the axis of rotation of the transport roller, and a cutting blade that is rotationally fixedly held at the blade carriage and that is directed in the direction toward the transport roller, wherein the endless tape labels can be led between the transport roller and the blade unit. The blade unit comprises a blade holder that forms an assembly with the cutting blade, in which assembly the cutting blade projects with a fixed overhang over the blade holder, with the assembly being displaceably fastened to the blade carriage and a spring device, in particular a compression spring, being provided that preloads the assembly into an extended position.