A self-binding equipment tie may include a bendable core, a flexible cover surrounding the bendable core, and a cavity that surrounds the bendable core within the cover. The bendable core may retain a shape when bent into the shape. The bendable core may be bendable by hand. The bendable core may be unrestrained within the cavity such that the bendable core is moveable within the cavity along two degrees of freedom. The two degrees of freedom may be perpendicular to a length of the flexible cover. The bendable core may be adjacent to an interior surface of the flexible cover, where the interior surface defines the cavity.

A method for joining adhesive tape to an object includes providing a piece of adhesive material, the piece of adhesive material having an adhesive surface covered with a removable cover on a first side and a non-tacky surface on a second side. The method further includes placing the piece of adhesive material in a mold and extruding an extrudable material over the adhesive tape, the extrudable material contacting the non-tacky surface of the adhesive material in the mold. The method further includes molding an object in the mold from the extrudable material and bonding the non-tacky surface to the object, the bonding resulting from the heat of the extrudable material.

A method for joining adhesive tape to an object includes providing a piece of adhesive material, the piece of adhesive material having an adhesive surface covered with a removable cover on a first side and a non-tacky surface on a second side. The method further includes placing the piece of adhesive material in a mold and extruding an extrudable material over the adhesive tape, the extrudable material contacting the non-tacky surface of the adhesive material in the mold. The method further includes molding an object in the mold from the extrudable material and bonding the non-tacky surface to the object, the bonding resulting from the heat of the extrudable material.

A cable tie arrangement for bundling one or more elongate members, and which includes a continuous strap having a planar surface free of any racks and a separate locking head defining an opening and having a metal locking element comprising a pair of opposed teeth extending into the opening and arranged to engage the strap in the opening. In use, the strap comprises a looped section arranged to bundle one or more elongate members on a first side of the locking head, and the looped section has an end section and a supply section extending through the locking head to a second side of the locking head in a first direction. Further, the opposed teeth are arranged to engage the planar surface of the end section and the supply section to prevent movement of the end section and the supply section in a second direction opposed to the first direction and to allow movement of the supply section in the first direction, and wherein the opposed teeth extend towards one another in the opening to press the end section and the supply section together in the opening.

A cable tie arrangement for bundling one or more elongate members, and which includes a continuous strap having a planar surface free of any racks and a separate locking head defining an opening and having a metal locking element comprising a pair of opposed teeth extending into the opening and arranged to engage the strap in the opening. In use, the strap comprises a looped section arranged to bundle one or more elongate members on a first side of the locking head, and the looped section has an end section and a supply section extending through the locking head to a second side of the locking head in a first direction. Further, the opposed teeth are arranged to engage the planar surface of the end section and the supply section to prevent movement of the end section and the supply section in a second direction opposed to the first direction and to allow movement of the supply section in the first direction, and wherein the opposed teeth extend towards one another in the opening to press the end section and the supply section together in the opening.

A load-rated tool tether has a gate and a serrated surface strap integrally formed with the gate and extending from the gate. The gate has a channel therethrough between an entrance and an exit and a locking tang operably interfacing the channel between the entrance and the exit for the feed in and one-way non-releasable engagement of the strap therethrough in use. The tether has a securement ring integrally formed with the gate and extending from between the entrance and the connection edge of the gate at an angle with respect to the longitudinal axis of the channel. When the strap is tightened around a tool, the securement ring is resiliency held by the integrally formed gate secured either side thereof by the strap between the integral connection edge and the entrance in a spaced apart configuration and the undersurface bears tangentially against the tool.

A load-rated tool tether has a gate and a serrated surface strap integrally formed with the gate and extending from the gate. The gate has a channel therethrough between an entrance and an exit and a locking tang operably interfacing the channel between the entrance and the exit for the feed in and one-way non-releasable engagement of the strap therethrough in use. The tether has a securement ring integrally formed with the gate and extending from between the entrance and the connection edge of the gate at an angle with respect to the longitudinal axis of the channel. When the strap is tightened around a tool, the securement ring is resiliency held by the integrally formed gate secured either side thereof by the strap between the integral connection edge and the entrance in a spaced apart configuration and the undersurface bears tangentially against the tool.

A cable-tie carrier is disclosed herein that includes a chip holder with a recess cavity for holding an electronic chip and a cable that is removably attached to the chip holder. The electronic chip stores identification information or testing data that may be used to identify and track the part. External computing devices (e.g., smart phone, tablet, scanner) may access the stored identification information or testing data for a user. The electronic chip is fastened, magnetically attached, or stuck with adhesive to the chip holder to position a transmitter (or antenna) to face out of the recess cavity.

A cable-tie carrier is disclosed herein that includes a chip holder with a recess cavity for holding an electronic chip and a cable that is removably attached to the chip holder. The electronic chip stores identification information or testing data that may be used to identify and track the part. External computing devices (e.g., smart phone, tablet, scanner) may access the stored identification information or testing data for a user. The electronic chip is fastened, magnetically attached, or stuck with adhesive to the chip holder to position a transmitter (or antenna) to face out of the recess cavity.

A cable tie includes a band having a first end and a second end. The cable tie also includes a housing, affixed to the band near the second end, with a first opening to receive the first end of the band, configured to lock the first end of the band in place when the housing receives the first end via the first opening. The band includes an ear clamp. The ear clamp includes: a front wall perpendicular to a top surface of the band; a rear wall perpendicular to the top surface of the band; and a top panel parallel to the top surface of the band and perpendicular to both the front wall and the rear wall. One end of the front wall is adjoined to the first end; one end of the rear wall is adjoined to the second end; one end of the top panel is adjoined to the other end of the front wall; and the other end of the top panel is adjoined to the other end of the rear wall. When the band is wrapped about one or more items, the first end is inserted into the housing, and the band is tightened about the items, the cable tie is in a closed configuration.