A printer includes a conveying device that conveys a printing medium and a cutting device that makes a trim cut in at least one of a plurality of corners of a region where a printed material has been printed. The conveying device conveys the printing medium to the cutting device before the cut is made.

A winding device includes: a separation unit that separates sheets layered and simultaneously transported; a winding unit that winds one of the sheets separated by the separation unit; and a pressure contact unit that presses the one of the sheets wound by the winding unit from outside of the wound sheet toward the winding unit.

A label production method includes a label peeling portion forming step of attaching an active energy ray curable composition to a base material and curing the active energy ray curable composition to form a label peeling portion, in which the label peeling portion is formed 10 ?m or more higher than surroundings in the label peeling portion forming step.

A reusable closure system is disclosed for flexible packaging applications. The system generally includes base and lid portions. The base portion can be bonded to underlying package material and includes first and second fields of touch fasteners separated by a multi-layer buffer zone. The buffer zone can be at least in part co-located with a frangible region of underlying package material. In some embodiments, the buffer zone is substantially free of active bonding agent, such that there is little or no active bonding agent overlapping the frangible region. One of the touch fastener fields of the base can be deployed at least partially within the area defined by the frangible region. The other touch fastener field is deployed around the buffer zone. The lid portion can be bonded to the package material and/or base portion, and includes a hinge and another touch fastener field to mate with the base fields.

A variable gloss heat transfer label includes a carrier, a matting layer on a portion of the carrier and a design layer having a first portion provided over the carrier and a second portion provided over the matting layer. The design layer is configured to separate from the matting layer and the carrier, and transfer and adhere the first and second portions of the design layer to a target object upon application of heat and pressure. The first portion of the design layer that is transferred to the target object from the carrier has a different gloss than the second portion of the design layer that is transferred to the target object from the matting layer. The label can be configured to include a carrier, a glossing layer on a portion of the carrier and a design layer having a first portion provided over the carrier and a second portion provided over the glossing layer.

The invention relates to the label production industry, more specifically to the production of labels with increased performance for improving and amplifying the function of a label. Even more specifically, the invention relates to a system that allows the handling of said label. Said smart label system is characterised in that it is formed by a smart label comprising a) a transparent or translucent film with a print on one of the faces thereof; a film of varnish on said print or on the opposite face, depending on whether the print is on the inside or on the outside, and on said varnish, there is another, different print in a special ink that becomes visible in the event of an attempt to remove the label from the item to which it is stuck, and on this print there is a layer of pressure-sensitive adhesive; b) a chip with an antenna between the varnish and the adhesive; c) an electronic mobile device for communicating with the chip; and ch) an algorithm on the chip and on the electronic mobile device for unique encoded reading (padlock) encryption.

A stand-alone apparatus for cutting a web of media or tag stock into individual units for use downstream of a printer. The apparatus may cut vinyl, plastic, or RFID stock material in both back and forth directions. The apparatus comprises a housing, a carriage assembly and a movable cutter assembly. The cutter assembly is easily interchangeable and comprises a cutting element such as a wheel blade, and a pressure adjusting element for adjusting the amount of pressure applied by the cutting element to the stock material. Alternatively, the cutter assembly may be manufactured with a predetermined pressure load, but still permit an operator to adjust the depth of cut. The apparatus may be powered by and or in hardline or wireless communication with a printer, or may further comprise a computer microprocessor, memory and user interface to function wholly independent from a printer.

A combination printer and cutting device for printing upon and cutting a web of media or tag stock into individual units. The device may cut vinyl, plastic, or RFID stock material as it moves through the printer in both back and forth directions. The device comprises a printer and a cutting apparatus that is further comprised of a carriage assembly and a movable cutter assembly. The cutter assembly is easily interchangeable and comprises a cutting element such as a wheel blade, and a pressure adjusting element for adjusting the amount of pressure applied by the cutting element to the stock material. Alternatively, the cutter assembly may be manufactured with a predetermined pressure load, but still permit an operator to adjust the depth of cut. The cutting apparatus is adaptable for use with both new and existing printers.

A method of reducing label waste that employs a stand-alone or printer attached apparatus for cleanly and efficiently cutting a web of media or tag stock into individual units. The apparatus used by the method may cut vinyl, plastic, or RFID stock material in both back and forth directions without sacrificing cut quality, and preferably comprises a housing, a carriage assembly and a movable cutter assembly. The cutter assembly comprises a cutting element such as a wheel blade, and a pressure adjusting element for adjusting the amount of pressure applied by the cutting element to the stock material. Alternatively, the cutter assembly may be manufactured with a predetermined pressure load, but still permit an operator to adjust the depth of cut. The method involves using the cutting apparatus to make a series of cuts as the label material is incrementally advanced through the cutting apparatus.

A label manufacturing method including: applying an adhesive to a base sheet to form an adhesive layer; applying an acrylate-based bonding adhesive to part of the adhesive layer to cure the adhesive layer so as to form a cured portion; and cutting the cured portion to define labels. A label having an adhesive layer 12 laminated on a base sheet 13. A part of the adhesive layer 12 is cured to form a cured portion 14, wherein the cured portion 14 is cured by an acrylate-based bonding adhesive for enabling cutting labels off the laminated base sheet.