A coding apparatus is mounted on a jumper cable. The coding apparatus includes a plurality of coding symbols. A selection mechanism is part of the coding apparatus and is operable to reveal a selected plurality of coding symbols of the plurality of coding symbols. The selected plurality of coding symbols, in combination, provide a code identifying a connection location for the jumper cable.

A device (100) for providing a tube arranged or arrangeable in a circumferentially closed manner around a prolate object (102), preferably around a conductor, as a marking (101) of the object (102) is described. The device (100) comprises a printer (200) for outputting a printed tube (214) in longitudinal direction (210) or a material interface (156) for receiving a printed tube (214) output from a printer (200) in longitudinal direction (210). Further, the device (100) comprises a cutting unit (120) configured to cut through the printed tube (214) at a cutting position of the tube (214) in a transverse direction (121) transverse, preferably perpendicular, to the longitudinal direction (210) of the tube. At least at the intersection, an upper half of the tube and a lower half of the tube, terminally or insidely, abut on each other or are connected to each other. Further, the device (100) comprises an opening unit (122) for opening the upper and lower halves of the tube. The opening unit comprises at least two opening rollers (123), each rotatable about a rotational axis (123A). The respective rotational axis (123A) is perpendicular or substantially perpendicular to the longitudinal direction (210) and the transverse direction (121). The at least two opening rollers (123) abut against the cut and printed tube on opposite sides in the transverse direction (121).

A wire harness electric wire length correcting device, which corrects a design value of an electric wire length of an electric wire included in a wire harness, includes an electric wire identifying means including an identification mark, which is attached to an end portion of the electric wire, and which is to be cut off from the electric wire when the wire harness is installed on an installation target object, so as to use the identification mark to identify which electric wire an end cut off from the electric wire has been cut off from, a measuring means for measuring a length of the cut off end, and a correcting means for, for the electric wire identified by the electric wire identifying means, correcting the design value of the electric wire length of that electric wire, based on the length of the cut off end measured by the measuring means.

Devices for identification and marking of electrical cables and apparatuses in an industrial cabinet include a plate on which is present a bidimensional code, wherein the code presents a possible number of combinations equal to at least 10.sup.6. A system for the identification and marking of electric cable in industrial cabinets includes a set of devices; an apparatus capable of reading the bidimensional codes; and a processor capable of exchanging data with the reading apparatus, and wherein the electrical scheme of the industrial cabinet is charged. A method for identification and marking of electrical cables and apparatuses in an industrial cabinet making use of the above defined system includes installing a device a cable apparatus reading the bidimensional code using the reading apparatus; associating the bidimensional code to an alpha-numeric code defined in the electrical scheme.

The invention relates to a method for producing an electric cable (2), according to which method the electric cable (2) is successively processed in independent processing modules (46, 47, 48). According to the invention, the electric cable (2), a sheath clamp (49) fixed on a cable sheath (18) of the cable (2), and/or a cable carrier (4) associated with the electric cable (2) during the processing thereof is rendered identifiable with an information carrier (9, 10), wherein documentation (13) of the processing of the electric cable (2) for at least one processing process of one of the processing modules (46, 47, 48) is created and associated with the electric cable (2).

The present disclosure describes cable cuffs. A cable cuff may include a first half including a main body with a first cable recess and a first securing feature, and a second half including a main body with a second cable recess and a second securing feature. The first cable recess may include a first flex retention section and the second cable recess may include a second flex retention section. The first half and the second half may be connected via a hinge. The first half is mated with the second half such that the first and second cable recesses form a pocket for receiving and grasping a cable. The first and second securing features engage to maintain the first half and the second half in a mated condition. The first and second flex retention sections reside within and extend into the pocket to engage a cable grasped therein. Cable management systems are also provided herein.

The present disclosure relates to a color-coded cable identification assembly and a cable. The cable identification assembly comprises: a support element including a fixing element adapted to fix the support element to a cable; and a plurality of identification elements, which are detachably mounted on the support element with the cable being located between the support element and the plurality of identification elements. Each identification element has a predetermined color so that the plurality of identification elements are capable of forming a predetermined color code to identify the cable. The cable identification assembly according to the present disclosure can be very easily and rapidly mounted to the cable, thereby greatly saving the installation time of workers and thus reducing the labor cost and the chance of making a mistake. Compared with a conventional adhesive tape, the cable identification assembly according to the present disclosure can meet the requirements such as anti-ultraviolet, anti-aging and reuse, thereby further reducing the cost of the cable identification assembly.

A method for applying a label to an electrical cable having an outermost sheath with convolutions defining alternating peaks and valleys, the method including attaching the label to the sheath. The label includes a label substrate, the label substrate includes an attaching side, the attaching side being attached through an adhesive; and the label attaches to the peaks and spans across the valleys and circumferentially wraps around the sheath.

A connector marker for identifying an electrical conductor includes a marker body formed of a synthetic plastic material and a pair of generally planar half sections normally arranged in an initial open condition in horizontal coplanar side-by-side relation. At least one of the half sections has an upper surface carrying labeling indicia. At least one integral film hinge device connects the adjacent side edges of the half sections, thereby to afford pivotal displacement of the half sections about a given pivot axis from the open condition toward a closed condition enclosing the electrical conductor to be marked. At least one non-skid element extends from the hinge device for non-skid engagement with the outer peripheral surface of the conductor as the half sections are pivotally displaced from the open condition to the closed condition, thereby to prevent longitudinal slipping of the marker body relative to the conductor.

An apparatus for attaching a label to a moving cable, the apparatus comprising: a roller for pressing a label against the moving cable, wherein the label has a first attaching edge and a second attaching edge and wherein the roller comprises: a first roller for pressing the label against the moving cable, wherein the label is pressed against the moving cable with the first attaching edge and the second attaching edge of the label on opposites sides of the moving cable; a first roll down roller for folding the second edge of the label against the moving cable; and a second roll down roller for folding the first edge of the label against the moving cable.