Disclosed is a blended rope having an outer sheath (8) enclosing at least a strength member (7), the strength member (7) having high-strength synthetic fibers, the strength member (7) being a blended strength member (7) formed with a combination of ARAMID fibers and HMPE fibers, the blended strength member comprising a non-homogeneous distribution of the ARAMID and HMPE fibers, wherein the weight ratio of ARAMID to HMPE in the strength member (7) is preferably a minimum of 80:20.

The disclosure provides embodiments of a fishing line that includes renewable natural fibers, and a renewable natural coating. Some of the embodiments of the disclosed fishing line include, for example, a single strand line, or a braided or plaited line made from multiple threads, strands or yarns. Other embodiments of the disclosed fishing line are degradable over a predetermined timeline. These embodiments are preferred because of the low environmental impact of the disclosed fishing lines.

The invention is directed to a synthetic hoisting rope comprising a solid core surrounded by a first braided layer of a first set of strands that is surrounded by a second braided layer of a second set of strands.

A bale identification assembly for use with an agricultural baler (18) includes a first supply roll mounted on the baler providing a binding material (52) used by the knotter system to bind the formed bale, the binding material (52) on the first supply roll comprising identification tags (62) at spaced intervals along the binding material. The bale identification assembly includes a second supply roll mounted on the baler (18) providing a binding material without identification tags, wherein the knotter system combines the binding material with identification tags (62) from the first supply roll with the binding material without identification tags from the second supply roll to bind the formed bale. The bale identification assembly includes a read module with one or more antennas configured to transmit interrogator signals and also receive authentication replies from the identification tags (62).

A bale identification assembly includes binding material used by a knotter system to bind a formed bale, the binding material including identification tags at spaced intervals along the binding material. A read module transmits interrogator signals and also receives authentication replies from the identification tags. A position sensor is used to predict passage of identification tags through the knotter mechanism and a bale length sensor provides a signal representing bale length. A controller receives signals from the bale length sensor and the position sensor and generates a signal to alter the length of the bale by causing an additional flake to be added to the bale by the plunger or the bale to be finished with fewer flakes to prevent the knotter system from tying a knot in the binding material such that the identification tag is positioned in a portion of the binding material used to form the knot.

Improved fishing lines, and specifically fly lines, and methods of manufacture are shown. The line includes a copolyester ether material monofilament core line portion and a polyethylene copolymer coating portion providing highly improved toughness, line clarity and reel memory characteristics.

Embodiments disclose a utility model which is related to an advance utility paracord where a first plurality of strands and a second plurality of strands are braided. The first plurality of strands is braided and are made of one or more non-metallic materials. The second plurality of strands has a braided PE fishing line, a tinder line, and a thread. A non-transparent sheath encapsulates the first plurality of strands and the second plurality of strands.

A bale identification assembly includes binding material (52) used by a knotter system to bind a formed bale (14), the binding material (52) comprising identification tags (62) at spaced intervals along the binding material. A read module (66) transmits interrogator signals and also receives authentication replies from the identification tags. A position sensor is used to predict passage of identification tags (62) through the knotter mechanism and a bale length sensor provides a signal representing bale length. A controller receives signals from the bale length sensor and the position sensor and generates a signal to alter the length of the bale (14) by causing an additional flake to be added to the bale by the plunger (34) or the bale to be finished with fewer flakes to prevent the knotter system from tying a knot in the binding material such that the identification tag is positioned in a portion of the binding material used to form the knot.

A production method for a headline sonar cable characterized by steps of: a. providing a first strength member (14); b. coupling to strength member (14) a conductor (122); c. forming a layer of polymeric material about the combination of strength member (14) and conductor (122) while ensuring that the conductor remains slack; d. forming a flow shield around the layer of polymeric material, thus forming an elongatable internally located conductive structure; and e. braiding a strength-member jacket layer (52) of polymeric material around the elongatable internally located conductive structure while ensuring that the conductor is slack when surrounded by the jacket layer (52).

For another embodiment, an optical fibre is wrapped around the exterior of the layer of polymeric material within which is enclosed a braided conductor formed about the first strength member (14). Other embodiments employ further thermo-plastic layers and further sheaths and further conductors.

A rope severing guard is engageable around a rope or flexible member to protect it from severing by a chainsaw cutting chain. The guard has a flexible body having a rope passage through which a protected rope is positioned. An interior cavity in the body of the rope severing guard is filled flexible fibers which if contacted by a moving cutting chain of a chainsaw, will form clogging engagements with the cutting chain and the chain support it moves upon or with the cutting chain and the motor drive gear powering it.