A binding machine includes a wire feeding unit configured to feed a wire to be wound on an object to be bound, a cutting unit configured to cut the wire wound on the object to be bound, and a binding unit configured to twist the wire wound on the object to be bound. The cutting unit includes a pair of blade parts configured to interpose the wire therebetween and cut the wire. One or both of the pair of blade parts include a delay part which is configured to delay cutting a part of the wire as compared to a remaining part of the wire.

A binding machine includes a wire feeding unit configured to feed a wire to be wound on an object to be bound, a cutting unit configured to cut the wire wound on the object to be bound, and a binding unit configured to twist the wire wound on the object to be bound. The cutting unit includes a pair of blade parts configured to interpose the wire therebetween and cut the wire. One or both of the pair of blade parts include a delay part which is configured to delay cutting a part of the wire as compared to a remaining part of the wire.

An opening and closing drive mechanism allows the ring-shaped claw portions on the outer peripheries of the opening rollers to press against the base end portion of the exposed braid via the opening and closing blocks, in this state, the rotation body is rotated by the rotation drive mechanism, and the opening rollers attached to the opening and closing blocks revolve around the outer periphery of the braid, so that the tip end side of the exposed braid is opened outward in a radial direction.

The disclosure relates to an apparatus (10) for removing, at least in sections, at least one constituent part (6, 7) of a cable arrangement (1), comprising: a positioning unit (11) having an insertion region (12), into which an end region of a cable arrangement (1) can be inserted; an air stream supply device (64), which is designed to direct an air stream onto the cable arrangement (1); and a processing unit (16), which can be displaced relative to the positioning unit (11); wherein a cutting region (50) is provided at at least one of the processing unit (16) and the positioning unit (11); and wherein the cutting region (50) is arranged in such a way that, in the context of the relative displacement, a predetermined constituent part (6, 7) of the cable arrangement (1) can be brought into contact with the cutting region (50) in order to separate, at least in sections, said constituent part (6, 7) from the cable arrangement (1). The disclosure further relates to a method for removing, at least in sections, at least one constituent part (6, 7) of a cable arrangement (1).

A method for removing insulation from inner conductors of a cable having a first section with a cable sheath removed and a second section with the cable sheath not removed utilizes a stripping device to perform the following steps: inserting the first section between a first rotatable roller and a second rotatable roller of the stripping device; moving the first roller and/or the second roller toward each other to clamp the first section between the rollers; moving the cable in a first direction that moves the second section away from the rollers; moving the cable in a second direction opposite the first direction that moves the second section toward the rollers; moving stripping blades toward the first section to cut into the insulation of the inner conductors; and moving the cable in the first direction to remove at least part of the insulation from the inner conductors.

A method of removing an inner sheath of electrical conductors of a multicore cable (K) having a film located between a shielding or an insulation and the inner conductors. The method comprising the steps of clamping of the cable (K), cutting of the inner sheath, establishing a connection with a pull-off means (5), and subsequently pulling off a cut or a cut-off sheath in a longitudinal direction of the cable (K).

The present invention relates to a method and a device for aligning prefabricated cable ends (111, 121) of a cable strand (100), twisted in particular, with at least two cables (110, 120) in the correct rotational position, wherein the entire cable strand (100) is rotated by means of a rotary gripping device (30) on a section (101) which is connected to the cable ends and is rotated by means of a rotary gripping device (30) in particular, and each cable (110) that has already been aligned remains secured in its ideal rotational position in a section (112) of its free cable end (111), in particular untwisted, by means of a respective cable grip (10, 20).

A rotary cable arranging tool is disclosed. The rotary cable arranging tool is used for untwisting a first and a second cable. The rotary cable arranging tool includes a first annular structure, a first and a second assembly member, and a first and a second hole. The first and the second holes are assembled by the cooperation of the first and the second assemblies so as to be pressed to change a width of an inner diameter. When the first and second cables are in a twisted state, the first and second assemblies are counter-rotated together, so that the first and the second cables are untwisted and enter the first and second holes respectively. Then the first and second holes are tightly combined with the first and second cables, and the first and the second cable are pulled out to be straightened.

Cable processing equipment for processing cable cores of a multi-core cable includes separating elements that are introducible between the cable cores and are movable along the cable cores with combing effect. The separating elements are arranged in star shape and are movable in a radial direction relative to the longitudinal axis of the cable. The cable processing equipment further includes a forming tool for preshaping the core ends, which ends are separated by the separating elements, of the cable cores of the multi-core cable. The forming tool includes a forming die with core receptacles for receiving the cable cores and a guide sleeve for embracing the cable cores.

A device for removing a sheath of electrical conductors of a preferably multicore cable (K), preferably comprises at least one holding arrangement/clamping device for clamping the cable (K), and a blade arrangement (1), which can preferably be rotated about the longitudinal cable axis, for the sheath. A pull-off device (A) for the at least partially cut sheath is integrated into the device. This pull-off device (A) comprises pull-off mechanism (5), which is designed for connection to the sheath and for exertion of a force on the sheath parallel to the cable axis. The invention further relates to a method of removing an inner sheath of electrical conductors of a multicore cable (K).