A cable tie wrapping device, including a pole, a tie wrapping assembly disposed on a first end of the pole to wrap a cable tie around a cable, and to cut the cable tie in response to the cable tie being tied, and a handle assembly disposed on a second end of the pole to control the tie wrapping assembly in response to manipulation of the handle assembly.

A strapping apparatus has a frame, a single drive motor carried on the frame and having an output shaft, a feed roller connected to the motor and rotatable on the frame, and a tightening roller connected to the motor and rotatable on the frame. A strap from a supply is spanned over and passes between the feed and tightening roller to the object. A lever is pivoted on the frame parallel to the feed and tightening axes for movement between two angularly offset end positions. A feed counter roller freely rotatable on the lever is engageable in one of the end positions with the feed roller to pinch and advance the strap toward the object, and a tightening counter roller rotatable on the lever is engageable in the other of the end positions with the tightening roller to pinch and pull the strap away from the object.

A manual bundling tool has a first operating means that positionally shifts relative to a tool body opposite a handle. A tightening mechanism pulls an other end of a cable tie band in relative to a head part by positionally shifting the first operating means. A holding mechanism holds the other end side of the band part pulled by the tightening mechanism so as to prevent return movement. A second operating means positionally shifts relative to the tool body. A securing mechanism secures the other end side of the band part to the one end side of the band part in response to positionally shifting the second operating means. A release operation means positionally shifts relative to the tool body and a release mechanism releases the hold on the cable tie band part by the holding mechanism in response to a positionally shifting the release operation means.

A manual binding tool has a first operating part opposite a handle unit and is capable of shifting positions relative to the tool body. A tightening mechanism pulls a second end in the lengthwise direction of the cable tie band part relative to a head part via operation of the first operating part. A holding mechanism holds the second end in the lengthwise direction of the band part pulled by the tightening mechanism to prevent a return movement. Second operating parts are provided to shift positions relative to the tool body. A fastening mechanism secures the second end of the band part in response to the operation of the second operating parts. Third operating parts are provided to shift positions relative to the tool body. A cutting mechanism cuts the second end of the band part in the lengthwise direction in response to the operation of the third operating parts.

A cable tie application tool is described that includes an electro-mechanical tensioning system. When the electro-mechanical tensioning system is controlled by a processor to tighten a cable, a reactionary force through a drive nut that is pivotally mounted to a tension bar can be monitored and measured by a strain gauge, a load cell, or other sensing system. This reactionary force is an indication of tension on the cable tie and is monitored by the processor until the tension reaches a predetermined tension, at which point, the processor causes a motor in the tensioning system to stop increasing the tension on the cable tie. The processor activates a cut-off system to cut the cable tie that has been tightened to the predetermined tension.

A power tool that tensions metal locking ties. The power tool includes a base with a drive mechanism and a tool head mounted to the base. The tool head includes a tension mechanism, a gripper assembly secured to the tension mechanism, and a tool nose. The tension mechanism includes a lead screw secured to an electric driver in the base and a lead nut attached to the lead screw. The gripper assembly includes a gripper housing secured to the lead nut. As the lead screw rotates, the lead nut moves along the lead screw pulling the gripper housing toward the base of the tool to tension the metal locking tie.

A flush mount table-top assembly designed to mount an automatic cable tie tool to a work surface. The flush mount assembly includes an overlay plate, a tool cage, and a paddle assembly. The tool cage holds the automatic cable tie tool. The tool cage is suspended from the overlap plate by an integrated insert plate to enable the top of the automatic cable tie tool to protrude above the work surface. The paddle assembly is rotatably mounted to the insert plate. The paddle assembly activates the automatic cable tie tool. When not in use, the flush mount assembly can be configured to restore work surfaces lost due to fixture implementation.

A tool comprises housing, elongated member, trigger, first jaw, and second jaw. Housing comprises housing abutment surface. Elongated member comprises distal end, proximal end, and elongated-member abutment surface. Trigger is pivotally coupled to housing and is coupled to elongated member. Elongated member translates along axis when trigger is moved relative to housing. First jaw abuts housing abutment surface of housing and is configured to engage cable tie. First jaw is located between distal end of elongated member and housing abutment surface. Second jaw abuts elongated-member abutment surface and is configured to engage cable tie. Second jaw translates relative to first jaw along axis when trigger is pivoted with respect to housing.

A slide block-based positioning mechanism and an automatic tie tool having the same. The slide block-based positioning mechanism includes a slide block and a guide rail. The slide block fits the guide rail. The guide rail limits five degrees of freedom of the slide block. The slide block slides in a length direction of the guide rail. A head portion of a tie is arranged at a predetermined position at the slide block. The slide block pushes the tie from the predetermined position to a tie installation position.

Disclosed herein is an externally-powered strapping tool that includes a strapping tool assembly configured to perform one or more strapping operations; and an external power source operatively coupled thereto, the external power source being attached to the strapping tool assembly in a substantially immovable manner. Also disclosed herein is a strapping tool assembly that includes one or more strapping tool subassemblies configured to perform one or more strapping operations; a power transfer subassembly operatively coupled to the one or more strapping tool subassemblies, the power transfer subassembly configured to transfer motive power from the external power source to the one or more strapping tool subassemblies; and attachment means configured to releasably attach the strapping tool assembly to the external power source, the attachment means further configured to hold the external power source in a substantially fixed position relative to the strapping tool assembly when the attachment means is engaged.