Abstract: An elongated, marked protective sheath is disclosed which is closed along each side and open at each end and which has an elongated and flexible core material contained within the entire length of the elongated, marked protective sheath and extending from each open end. The elongated, marked protective sheath may be imprinted with anti-theft indicia indicating that elongated, marked protective sheath contains only fiber optic cable and does not contain copper. The core material extending from one end of the sheath may be tied to the front end of a fiber optic cable and then pulled into the sheath—thus pulling the fiber optic cable into the sheath. In this manner, the fiber optic cable will be almost completely contained within the elongated sheath which has the aforementioned markings thereon to alert individuals that the sheath only contains fiber optic cable and does not contain copper.

Abstract: Applicants have discovered that an inexpensive marker tape can be made from some of the components used in applicants Signal Tape disclosed in PCT/US2017/050405. This marker tape, called Spartan Marker Tape, has elongated upper and lower protective layers made from a thermoplastic material which are laminated together with a locating device inside the laminated layers. Various locating devices may be used in the Spartan Marker Tape, such as conventional RF or RFID tags. In addition, magnetic tags, or radioactive tags may be used. Of course, classis marker wire may also be used as a locating device.

Abstract: The invention apparatus for and a method of creating a localized warning to prevent damage to buried pipeline and other buried infrastructure using a new type of marker tape with the trade name signal Tape® [hereinafter referred to as “Signal Tape” ]. The disclosed Signal Tape may incorporate tracer wire and RFID technology to aid in the remote location of the Signal Tape and, thus, the buried infrastructure. Signal Tape may also incorporate Litz wire for use as tracer wire within the Signal Tape. The Signal Tape is designed to be buried just below the surface of the ground and directly over a buried infrastructure such as a pipeline. The Signal Tape incorporates a strong core material which permits the Signal Tape to be bodily removed from the soil when it is struck by excavation equipment.

Abstract: A new use for Litz wire is described. Litz wire is used as “bare” tracer wire, as tracer wire within known woven polyester or aramid fiber pull tape and as tracer wire within a known marker tape. Litz marker tape is described which is a novel type of marker tape is wherein Litz wire is incorporated into the structure of conventional marker tape so that the marker tape may be remotely located and mapped once it has been buried underground. In addition a method is disclosed for determining the proper size of an individual strand of wire in a Litz wire bundle which is going to be used as Litz pull tape or as Litz marker tape. In addition a method of emplacing Litz wire tracer wire or marker tape using a horizontal boring machine is disclosed.

Abstract: A method and apparatus are disclosed for preventing excavation damage to buried infrastructure. A plurality of excavation-sensing modules is buried near the buried infrastructure. The modules protect buried infrastructure by emitting dense clouds of highly visible gas when the modules are activated by impact with excavation equipment. In most cases the visible gas will be brightly colored and it may also have a strong odor and may produce a loud sound when the module is activated. The dense clouds of highly visible gas, the optional odor and loud sound alert construction crews or other workers that their excavation is nearing a protected underground structure. Once installed, no maintenance or active monitoring is required. In a preferred embodiment of the excavation-sensing module, the dense cloud of highly visible gas is produced by ignition of a smoke grenade within the module.

Abstract: A method and apparatus are disclosed for preventing excavation damage to buried infrastructure. A plurality of excavation-sensing modules is buried near the buried infrastructure. The buried infrastructure excavation-sensing modules protect and detect buried infrastructure by emitting dense clouds of visible gas when the excavation-sensing modules are activated by impact with excavation equipment. In most instances, the visible gas will be brightly colored and it may also have a strong odor. In addition to the gas released by the modules, a loud sound may also be produced by the activated excavation-sensing module. This alerts construction crews or other workers that their excavation is nearing a protected underground structure. Once installed, no maintenance or active monitoring is required.