The invention relates to a labeling profile for marking electrical installations, comprising a labeling region which has a cover surface to be labeled, and comprising a support region which connects to the labeling region facing away from the cover surface, wherein, when viewed in a cross-section transverse to the longitudinal extension, at least sections of the support region have a smaller width than the labeling region, wherein the labeling profile has a constant cross-section when viewed along its longitudinal extension and wherein the labeling profile has spaced-apart, optically detectable position markers on at least one surface facing away from the cover surface, wherein intermediate regions are formed between the position markers and wherein the position markers have in particular reflective properties which differ from the intermediate regions.

Provided is an at-home, do-it-yourself (DIY) printable label sheet comprising removable labels with a printable area and attachment portion on the same side of the individual labels. The attachment portion includes an adhesive for attachment of the label to the backside of an item, such as a badge, and a film that protects the adhesive prior to use. The film allows for an adhesive to be positioned on the front side of a printed label while preventing any potential damage to the printer due to exposed adhesive. The individual labels may also include a perforated tab. The label sheet may be inserted into a printer with a particular image printed thereon. The printed individual labels may be removed from the label sheet by using the perforated tab. The back of the individual label is free of adhesive. The perforated tab may be removed from the individual label along the perforation and the film may be removed from the adhesive on the individual label to apply the label to an item.

Multi-part label systems, and methods for their assembly. A carrier material with a first label and a second label removably adhered thereto is provided. The first label and second label are dispensed from the carrier material and applied to a surface simultaneously.

A dual label combination is provided. The label combination includes a label substrate, and the label substrate is die cut with at least three separate labels. The label combination also includes a liner substrate attached to a back side of the label substrate. The label substrate including at least two die cuts with one of the die cuts defining a liner label that corresponds to one of the at least three labels of the label substrate. A back side of the liner substrate includes a coating for imaging on the liner substrate with: inkjet, laser, direct thermal, or thermal transfer printing. The liner label and the corresponding label of the label substrate separable from the label combination by a manufactured pull tab substantially centered at a bottom of the liner label of the liner substrate and the corresponding label of the label substrate.

A combination wristband and label form. The form includes a polyester section having a single-ply wristband defined by die cuts therein. The wristband includes a foldable portion having a first panel and a second panel. An outer surface of one of the first panel and the second panel is coated with a coating configured for receiving printed indicia. An outer surface of at least the other of the first panel and the second panel has adhesive to allow for the first panel to be adhesively secured to the second panel after the coating has received the printed indicia. The void exposes the coating on the outer surface of one of the first panel and the second panel to allow the printed indicia to be printed on the coating through the void. Upon folding the foldable portion, the printed indicia is sandwiched between the first panel and the second panel.

A label sheet assembly and method is disclosed for improving the process of feeding label sheets through a printer. The label sheet assembly may include a facestock layer and a liner sheet. The facestock layer may include an adhesive layer along at least a portion of a first side and include a label surface along at least a portion of the second side opposite the adhesive layer. The liner sheet layer may include at least one surface feature provided along a back side of the liner sheet. In another embodiment, the facestock layer may include at least one surface feature provided along the front of the facestock layer. The surface features may create a zone of increased friction or increase tactile sensitivity along the various surfaces of the label sheet assembly to improve printer processing.

The invention relates to a method for selecting a face material for a printable label and to a printed label comprising the face material, which is selected by the method. According to an embodiment the method comprises preselecting steps, printing step(s) comprising printing of the preselected face materials using printing method(s) providing a human-readable information and a machine-readable information, evaluating steps, and a final selecting step comprising selecting of the face material, which comprises the human-readable information exhibiting a halftone resolution at least 30 L/cm and the machine-readable information exhibiting final data area module size less than 1.0 mm.

A cable marker strip includes two rows of cable markers which are arranged behind one another in a cable direction. The cable marker strip includes a labeling track which has one labeling surface for each cable marker, wherein one fastening structure is provided for each cable marker on a fastening surface of the labeling track. The fastening surface lies opposite the labeling surface and has a connecting track and two holding limbs which are connected to the connecting track, which lie opposite one another, and together define a cable receptacle. Starting from the connecting track, spacing the holding limbs from one another decreases in the region of the cable receptacle so that the cable receptacle tapers. A printer for printing the cable marker strip and a method for printing the cable marker strip by way of the printer are also provided. The printer includes a print head which is arranged above pressure bars for the rows of cable markers.

A label web including a substrate is provided. The label web includes a first label removably affixed to a first side of the substrate. The first label is fabricated from a first material. A second label is removably affixed to the first side of the substrate adjacent to the first label in a side-by-side relationship. The second label is fabricated from a second material which differs from the first material. The first labels may be utilized to print desired information thereon and the second labels may fabricated from a transparent, protective material coating which may positioned on the first labels to discourage damage to the first labels from exposure to water or handling when the first labels are affixed to corresponding products.

A printer includes a conveyor to convey a tape having a plurality of marks in a conveyance direction, the marks including a first mark, and a second mark formed downstream of the first mark in the conveyance direction, a print head to print an image on the tape, a reflection sensor to detect the marks on the tape by emitting light toward the tape and receiving reflected light from the tape, and output a detection signal according to the reflected light when detecting the marks, and a controller. The controller is configured to set a threshold to be variable based on a level of the detection signal when the reflection sensor detects the second mark, and identify a position of the first mark based on a result of comparison between the threshold and a level of the detection signal when the reflection sensor detects the first mark.