A wire harness producing device configured to produce a wire harness by displaying a wire laying-out drawing in a full size in a length direction on a plurality of display devices, and laying-out electric wires along the wire laying-out drawing. The device includes a displaying control section configured to look up operation recipe information configured as a database capable of identifying wire laying-out order numbers of the electric wires, and in turn display wire laying-out position indicators configured to indicate positions of the electric wires to be laid out, on the plurality of display devices, according to a wire laying-out order of the electric wires. The operation recipe information includes coordinate information for indicating displaying positions for the wire laying-out position indicators. The displaying control section is configured to display the wire laying-out position indicators, in the displaying positions indicated by the coordinate information on the plurality of display devices.

The present invention provides an identifiable armored cable sheath. In accordance with an aspect of the present invention, there is provided an identifiable armored cable sheath comprising: an armored cable sheath having an outer surface, and a visual indicia applied on the outer surface of the cable sheath in a patterned arrangement, wherein the visual indicia possesses visibility features in low light. Another aspect of the present invention provides a method of making an identifiable armored cable sheath comprising: providing an armored cable sheath, and applying a visually distinctive tape to the outer surface of the sheath in a patterned arrangement.

The present invention provides an identifiable armored cable sheath. In accordance with an aspect of the present invention, there is provided an identifiable armored cable sheath comprising: an armored cable sheath having an outer surface, and a visual indicia applied on the outer surface of the cable sheath in a patterned arrangement, wherein the visual indicia possesses visibility features in low light. Another aspect of the present invention provides a method of making an identifiable armored cable sheath comprising: providing an armored cable sheath, and applying a visually distinctive tape to the outer surface of the sheath in a patterned arrangement.

A wire harness producing device configured to produce a wire harness by displaying a wire laying-out drawing in a full size in a length direction on a plurality of display devices, and laying-out electric wires along the wire laying-out drawing. The device includes a displaying control section configured to look up operation recipe information configured as a database capable of identifying wire laying-out order numbers of the electric wires, and in turn display wire laying-out position indicators configured to indicate positions of the electric wires to be laid out, on the plurality of display devices, according to a wire laying-out order of the electric wires. The operation recipe information includes coordinate information for indicating displaying positions for the wire laying-out position indicators. The displaying control section is configured to display the wire laying-out position indicators, in the displaying positions indicated by the coordinate information on the plurality of display devices.

The present invention provides an identifiable armored cable sheath. In accordance with an aspect of the present invention, there is provided an identifiable armored cable sheath comprising: an armored cable sheath having an outer surface, and a visual indicia applied on the outer surface of the cable sheath in a patterned arrangement, wherein the visual indicia possesses visibility features in low light. Another aspect of the present invention provides a method of making an identifiable armored cable sheath comprising: providing an armored cable sheath, and applying a visually distinctive tape to the outer surface of the sheath in a patterned arrangement.

The present invention provides an identifiable armored cable sheath. In accordance with an aspect of the present invention, there is provided an identifiable armored cable sheath comprising: an armored cable sheath having an outer surface, and a visual indicia applied on the outer surface of the cable sheath in a patterned arrangement, wherein the visual indicia possesses visibility features in low light. Another aspect of the present invention provides a method of making an identifiable armored cable sheath comprising: providing an armored cable sheath, and applying a visually distinctive tape to the outer surface of the sheath in a patterned arrangement.

The present invention provides an identifiable armored cable sheath. In accordance with an aspect of the present invention, there is provided an identifiable armored cable sheath comprising: an armored cable sheath having an outer surface, and a visual indicia applied on the outer surface of the cable sheath in a patterned arrangement, wherein the visual indicia possesses visibility features in low light. Another aspect of the present invention provides a method of making an identifiable armored cable sheath comprising: providing an armored cable sheath, and applying a visually distinctive tape to the outer surface of the sheath in a patterned arrangement.

A fabric sleeve in the form of a strip of material having compatible attachment members along its lateral edges, is applied to a cable by a device located at a site where the cable can be introduced into a conduit. The device includes a beam carried by a post. The beam carries a plurality of formers which receive the sleeve and the cable from rolls and which progressively fold the sleeve around the cable. The beam also carries an attachment device which receives the sleeve and cable from the formers and which connects the attachment members of the sleeve to confine the cable therein. The attachment device can be opened so that the sleeved cable can be removed. The device is operated at the site until the sleeved cable reaches a downstream installation site and the process is repeated at that downstream site.

A fabric sleeve in the form of a strip of material having compatible attachment members along its lateral edges, is applied to a cable by a device located at a site where the cable can be introduced into a conduit. The device includes a beam carried by a post. The beam carries a plurality of formers which receive the sleeve and the cable from rolls and which progressively fold the sleeve around the cable. The beam also carries an attachment device which receives the sleeve and cable from the formers and which connects the attachment members of the sleeve to confine the cable therein. The attachment device can be opened so that the sleeved cable can be removed. The device is operated at the site until the sleeved cable reaches a downstream installation site and the process is repeated at that downstream site.

A fabric sleeve in the form of a strip of material having compatible attachment members along its lateral edges, is applied to a cable by a device located at a site where the cable can be introduced into a conduit. The device includes a beam carried by a post. The beam carries a plurality of formers which receive the sleeve and the cable from rolls and which progressively fold the sleeve around the cable. The beam also carries an attachment device which receives the sleeve and cable from the formers and which connects the attachment members of the sleeve to confine the cable therein. The attachment device can be opened so that the sleeved cable can be removed. The device is operated at the site until the sleeved cable reaches a downstream installation site and the process is repeated at that downstream site.