An electric wire includes a flat stranded conductor having a flat shape in cross sectional view and configured by a plurality of conductive wires each having a wire diameter of 1.2 mm or less and which are stranded to each other, and a flat covering portion that is an insulator and covers the flat stranded conductor. The flat covering portion has a uniform elongation of 43.5% or more.

An electric wire includes a flat stranded conductor having a flat shape in cross sectional view and configured by a plurality of conductive wires each having a wire diameter of 1.2 mm or less and which are stranded to each other, and a flat covering portion that is an insulator and covers the flat stranded conductor. The flat covering portion has a uniform elongation of 43.5% or more.

A cable that may withstand an increased pulling load may include a plurality of twisted pairs of individually insulated conductors and a metallic pulling element positioned within an outer jacket layer. The metallic pulling element may longitudinally extend parallel to the twisted pairs, and the pulling element may have an elastic modulus greater than that of the twisted pair conductors. As a result of incorporating the metallic pulling element, the cable can withstand a pulling force of 330N with an elongation of less than 0.20 percent.

A cable that may withstand an increased pulling load may include a plurality of twisted pairs of individually insulated conductors and a metallic pulling element positioned within an outer jacket layer. The metallic pulling element may longitudinally extend parallel to the twisted pairs, and the pulling element may have an elastic modulus greater than that of the twisted pair conductors. As a result of incorporating the metallic pulling element, the cable can withstand a pulling force of 330N with an elongation of less than 0.20 percent.

A protective cover for the connector of a power cord is provided. The protective cover has a body that defines an enclosure for protectively housing the connector and any associated built-up portion, as well as the portion of the power cord that interfaces with the connector and/or built-up portion. The protective cover may have a filament extending therefrom to a cord ring that attaches to the power cord itself to act as a lanyard toggle. The protective cover may move between an open position and a closed position for receiving and protecting, respectively, the connector. The protective cover may also have elastic properties enabling it to elastically deform sufficiently to slide onto the connector, wherein a tapered hood of the protective cover shrouds the portion of the power cord that interfaces with the connector and/or built-up portion.

A protective cover for the connector of a power cord is provided. The protective cover has a body that defines an enclosure for protectively housing the connector and any associated built-up portion, as well as the portion of the power cord that interfaces with the connector and/or built-up portion. The protective cover may have a filament extending therefrom to a cord ring that attaches to the power cord itself to act as a lanyard toggle. The protective cover may move between an open position and a closed position for receiving and protecting, respectively, the connector. The protective cover may also have elastic properties enabling it to elastically deform sufficiently to slide onto the connector, wherein a tapered hood of the protective cover shrouds the portion of the power cord that interfaces with the connector and/or built-up portion.

A wiring harness (10) includes wires (20), an exterior material, such as a pipe (30), through which the wires (20) are inserted, and a reinforcing layer (40) formed to cover at least either the wires (20) or the exterior material. The reinforcing layer (40) is constituted by a resin film made of one or more materials selected from polyurea resin, polyurethane resin and mixed resin of the polyurea resin and the polyurethane resin.

A wiring harness (10) includes wires (20), an exterior material, such as a pipe (30), through which the wires (20) are inserted, and a reinforcing layer (40) formed to cover at least either the wires (20) or the exterior material. The reinforcing layer (40) is constituted by a resin film made of one or more materials selected from polyurea resin, polyurethane resin and mixed resin of the polyurea resin and the polyurethane resin.

The present invention discloses a mobile dedicated cable for a medical Computed Tomography (CT) bed, comprising an inner sheath layer, a first Teflon® belt, a signal cable layer, a second Teflon® belt, a braided layer and an outer sheath layer, which are coaxially arranged from inside to outside in sequence. The inner sheath layer comprises a PVC filling strip wrapped by the first Teflon® belt, and a plurality of bulletproof filaments arranged in the center of the PVC filling strip. The signal cable layer comprises a plurality of signal lines evenly arranged therein, each of which are circumscribed with the first Teflon® belt and the second Teflon® belt, and with two signal lines adjacent thereto. The cable of the invention has improved flexibility and working life, thereby being suitable for the medical CT bed.

The present invention discloses a mobile dedicated cable for a medical Computed Tomography (CT) bed, comprising an inner sheath layer, a first Teflon® belt, a signal cable layer, a second Teflon® belt, a braided layer and an outer sheath layer, which are coaxially arranged from inside to outside in sequence. The inner sheath layer comprises a PVC filling strip wrapped by the first Teflon® belt, and a plurality of bulletproof filaments arranged in the center of the PVC filling strip. The signal cable layer comprises a plurality of signal lines evenly arranged therein, each of which are circumscribed with the first Teflon® belt and the second Teflon® belt, and with two signal lines adjacent thereto. The cable of the invention has improved flexibility and working life, thereby being suitable for the medical CT bed.