A self-laminating rotating cable marker label is constructed of a transparent film having a first adhesive area, an adhesive-free smooth area, and a second adhesive area. A print-on area forms one side of the transparent film, the print-on area adapted to receive indicia identifying the cable about which the marker label is applied. A perforation extends across the transparent film providing a line of separation of the transparent film. When wrapped around a cable, the second adhesive area overlies the print-on area such that the cable identifying indicia is visible through the transparent second adhesive area. As the transparent film is wrapped around the cable, the first adhesive area adheres to the cable. The remainder of the transparent film is rotated, breaking the perforation, whereby the smooth area of the film in contact with the cable provides smooth rotation of the label around the cable.

A self-laminating rotating cable marker label is constructed of a transparent film having a first adhesive area, an adhesive-free smooth area, and a second adhesive area. A print-on area forms one side of the transparent film, the print-on area adapted to receive indicia identifying the cable about which the marker label is applied. A perforation extends across the transparent film providing a line of separation of the transparent film. When wrapped around a cable, the second adhesive area overlies the print-on area such that the cable identifying indicia is visible through the transparent second adhesive area. As the transparent film is wrapped around the cable, the first adhesive area adheres to the cable. The remainder of the transparent film is rotated, breaking the perforation, whereby the smooth area of the film in contact with the cable provides smooth rotation of the label around the cable.

Various embodiments of the present disclosure are directed to methods and systems for producing plastic profiles. In one example embodiment, a method is disclosed including the steps of plasticizing a starting material in an extruder on an extrusion line, pressing the starting material through an extrusion die, cooling and calibrating the extruded material in a dry calibration and/or a wet calibration, and cutting the extruded material to length to form individual profile rods, cutting to length one or more profile samples can be requested intermittently at any point in time, applying, via a labeling device, on the profile samples characteristic information relating to the current extrusion process, taking into account the transit time of the profile.

Wire rope tube tags are described that include chemically etched wire rope information on an outer surface of the tube tag. A flat sheet of metal may be etched to include wire rope-related information on a surface of the flat sheet of metal that may then be folded into a desired shape, such as a cubic tube, spherical tube, triangular tube, etc., to create a wire rope tube tag with the wire rope information on the outer surface of the tag. Several methods for attaching the folded tube tag are provided, including one or more holes located through the body of the tube tag through which a wire thread or zip tie may pass and one or more tabs extending from the tube tag that may be bent toward or angled toward the wire rope sling to pinch the wire rope and hold the tag in place.

A label has a front surface and a back surface provided on an opposite side to the front surface and capable of being wrapped around a cable extending in a first direction. The label includes: a first part; and a second part adjacent to the first part in the first direction. The first part has a first protruding portion further protruding than the second part in a second direction perpendicular to the first direction and having a first adhesive surface on the back surface, and wherein the second part has a second protruding portion further protruding than the first part in a third direction opposite to the second direction and having a second adhesive surface on the back surface.

A label is to be wrapped around an adherend after being printed. The adherend has a diameter equal to or smaller than a prescribed diameter. In the label, a base material has a printing surface. An adhesive layer is provided on an opposite side surface of the base material from the printing surface. A release material is bonded to the adhesive layer with a portion of the adhesive layer exposed. The release material has a higher stiffness than the base material. A mark for alignment is to be used when bonding together exposed sections of the adhesive layer or an exposed section of the adhesive layer with the release material in order to form the label into a loop shape. The mark is provided at a position for forming the label in the loop shape having an inner diameter greater than the prescribed diameter.

A medium is configured to be mounted in and printed with a printer. The medium includes: a release material; and a printing label. The release material is provided with a cut-out area. The cut-out area is surrounded by a hole or a cut or a series of holes or a series of cuts and has at least a first side and a second side. The first side and the second side oppose each other. The printing label is affixed to the release material so as to extend across the first side and the second side of the cut-out area. The first side and the second side are configured to include different types of the holes or the cuts or the series of holes or the series of cuts from each other.

A method for adhering a label, lettering, ink, a tattoo, sketch, design or color (“indicia”) to a substrate comprising the steps of: providing an indicia-bearing backing paper; moistening the indicia-bearing backing paper to form a moistened indicia-bearing layer; providing an adhesive layer between the moistened indicia-bearing layer and the substrate; placing the moistened indicia-bearing layer on the adhesive layer; allowing the indicia to become separated from the backing paper, leaving the indicia upon the substrate; and drying on the substrate.

A method and apparatus for avoidance of damage to concealed mechanical elements during construction or repair of a structure. In one embodiment, a tag is provided for installation on a plumbing or similar element prior to such element being concealed by further construction. The tag is adapted to engage a concealed element in such a way that an indicator portion of the tab remains visible after further concealing structure is installed. The visible tab's location identifies the location of concealed elements and is preferably provided with indicia identifying such purpose. In a further embodiment of the invention, adhesive indicator tape is used in conjunction with an indicator tab. The indicator tape is adapted to be applied over concealing structure to generally identify the location and extent of concealed elements that may be susceptible to puncture or damage during subsequent construction or repair phases of a project.

The flag label for attachment around an elongated object has a pair of faces oppositely facing from one another surrounded by a peripheral edge, One of the pair of faces is bifurcated into uneven portions at a line. Those uneven portions include an adhesive-bearing portion having adhesive received thereon and further include a non-adhesive bearing portion not having adhesive thereon. The non-adhesive bearing portion may be larger in surface area than the adhesive bearing portion such that, when folded onto one another, there is little to no possibility that adhesive remains exposed about the periphery of joining due to imperfect alignment of the edges of the two contacting portions.