A simplified wire bending machine is provided comprising a bending head with an integrated wire cutoff mechanism. The bending head comprises an inner portion, wherein the inner portion includes a wire bending channel; and an outer portion, wherein the outer portion includes a cutting edge and one or more bending pins. The outer portion is rotatable about the inner portion such that a bending pin is capable of bending a wire around the inner portion. Further, the outer portion is movable from a first position to a second position in which the cutting edge is configured to engage and shear a wire.

A gauge cutting system and method are described herein. The gauge cutting system includes a cutting apparatus coupled to a track for cutting a wire and a movable measurement apparatus spaced from the cutting apparatus and coupled to the track. The measurement apparatus for measuring a length of wire extending from the cutting apparatus by looping said wire around said measurement apparatus and returning a cut end of the wire to the cutting apparatus, wherein a distance of the measurement apparatus from the cutting apparatus is proportional to the length of wire to be cut.

A gauge cutting system and method are described herein. The gauge cutting system includes a cutting apparatus coupled to a track for cutting a wire and a movable measurement apparatus spaced from the cutting apparatus and coupled to the track. The measurement apparatus for measuring a length of wire extending from the cutting apparatus by looping said wire around said measurement apparatus and returning a cut end of the wire to the cutting apparatus, wherein a distance of the measurement apparatus from the cutting apparatus is proportional to the length of wire to be cut.

A handheld loop former for beading wire is provided. The loop former comprises a cutting lever, a slotted forming platform, a forming lever, and two scissors links. The cutting lever has a combination shear blade/forming die at its distal end. The slotted forming platform has a medially located slot, a shearing ledger, and a forming stanchion. The forming lever has a second forming die at its distal end. The cutting lever, forming platform at the medially located slot, and forming lever are journaled together with a pivot pin. Each of the forming lever and the cutting lever is journaled to one of the scissors links. Both scissors links are journaled to the forming platform. The sheer blade/forming die passes closely to the shearing ledger and with the second forming die envelops the forming stanchion when the forming lever and cutting lever are urged together. The forming platform is drawn proximally.

A cutting device for bead core steel wire includes a first holder that holds a first blade body, a second holder that holds a second blade body, and a driver that moves one of the first holder and the second holder relative to the other of the first holder and the second holder. At least one of the first blade body and the second blade body is rod-shaped and includes a plurality of cutting edges arranged on a periphery of the at least one of the first blade body and the second blade body.

A cutter for cutting a linear element includes a support frame, a pair of blade holders disposed opposite to each other and movably disposed on the support frame, a pair of blades facing each other and each disposed on one of the pair of blade holders, a pair of holding blocks facing each other and each disposed on one of the pair of blade holders, and a driving device disposed on the support frame. The driving device drives the pair of blade holders to move synchronously in a direction approaching each other or a direction separating away from each other. The pair of holding blocks clamp the linear element and the pair of blades cut off the linear element clamped by the pair of holding blocks while the pair of blade holders move synchronously in the direction approaching each other.

Method and means of manufacturing ties, fasteners and rods (15) having a plurality of longitudinal threads by forcing a coil of roll-profiled feed-wire made of steel (11) through a twisting-die made of plastic (1). Also described is: a twisting-die made of plastic (1) that is suitable for twisting profiled feed-wire (11) made of steel; a method of forming a plastic twisting die (1) using an driven tap (31) in the form of a twisted rod (15); and a helically-shaped member (15) having lead measurements (X) along the length of the helical thread that vary less than pitch measurements (Y) along the lengths of the helical threads.

Method and means of manufacturing ties, fasteners and rods (15) having a plurality of longitudinal threads by forcing a coil of roll-profiled feed-wire made of steel (11) through a twisting-die made of plastic (1). Also described is: a twisting-die made of plastic (1) that is suitable for twisting profiled feed-wire (11) made of steel; a method of forming a plastic twisting die (1) using an driven tap (31) in the form of a twisted rod (15); and a helically-shaped member (15) having lead measurements (X) along the length of the helical thread that vary less than pitch measurements (Y) along the lengths of the helical threads.

A spring forming machine includes: a forming tool slide mechanism including a slider with a forming tool; a first lifting mechanism including a slider with a pitch tool; a second lifting mechanism including a slider with a cutting tool; a fixing base to which the wire feeder and the forming tool slide mechanism are attached; a lifting base to which the cored bar, the first lifting mechanism, and the second lifting mechanism are attached; a plurality of servo motors serving as drive sources; a controller controlling the servo motors; an individual drive control unit individually driving the servo motors; and an interlocking control unit that, when the servo motor of the lifting base is individually operated, interlocks the servo motors of the lifting base and the first lifting mechanism and, when the servo motor of the first lifting mechanism is individually operated, does not interlock the servo motors thereof.

A coiling machine includes a laser heating machine configured to irradiate a wire formed into a helical shape with laser light to thereby heat a part of the wire, and cutting components configured to cut a portion of the wire after the irradiation of the laser light is stopped, a temperature of the portion being higher than before irradiated with the laser light.