Techniques for implementing and/or operating a system that includes a pipe fitting and a swage machine. The swage machine includes a grab plate having a grab tab that matingly interlocks with a grab notch on the pipe fitting to facilitate securing the swage machine to the pipe fitting and a die plate having a die seat that enables a set of die segments to be used to conformally deform the pipe fitting around the tubing of the pipe segment to be loaded in the swage machine. The die plate and the grab plate include a base plate section, a hinge plate secured to the base plate section via a hinge fastener such that the hinge plate directly abuts the base plate section, and a pivotable plate section secured to the hinge plate via a hinge fastener such that the hinge plate directly abuts the pivotable plate section.

A charging device for a tool holder disposed in a holder grabber includes a wireless signal module disposed at the tool holder, a plurality of charging contacts disposed at the tool holder, and a charging module disposed also at the holder grabber. Each of the plurality of charging contacts is connected with the wireless signal module. The charging module includes a plurality of charging pins. When the tool holder is positioned at the holder grabber, each of the plurality of charging pins contacts at the corresponding charging contact for charging the tool holder.

A charging device for a tool holder disposed in a holder grabber includes a wireless signal module disposed at the tool holder, a plurality of charging contacts disposed at the tool holder, and a charging module disposed also at the holder grabber. Each of the plurality of charging contacts is connected with the wireless signal module. The charging module includes a plurality of charging pins. When the tool holder is positioned at the holder grabber, each of the plurality of charging pins contacts at the corresponding charging contact for charging the tool holder.

The invention relates to an adjustable intelligent digital-display plate punching device with inclined holes positioning which includes a base, a movable pressing plate, a fixed pressing plate, an adjusting plate and a supporting device. The base is provided with a chamber, an eclectic cylinder, a rack, and a first T-shaped chute. Two protruding plates are disposed on the movable pressing plate. A ratchet mechanism is provided between the protruding plates. The ratchet mechanism meshes with the rack. Two ends of the adjusting plate are provided with a curved plate. The adjusting plate and the fixed pressing plate are slidably connected to each other. The supporting device includes a first supporting plate with a curved structure, a second supporting plate provided with a through hole, and a supporting rod. The adjustable intelligent digital-display plate punching device with inclined holes positioning of the invention has simple and reasonable structure, easy to use, high intelligence, and high versatility, etc., which effectively solves the problems of low precision and inconvenience of punching angles adjustment for existing plate punching devices.

A tool gripper assembly arrangement for holding a tool accurately in a holder plate. An elongated gripper bore opening is arranged within the holder plate, for receipt of an elongated tool within that gripper bore opening. A pair of thin, flexible, curvilinear gripper wings arranged between the wedge receiving channel and the gripper bore opening. An elongated gripper-wing pressing-wedge arranged within the elongated gripper wedge receiving channel; and a wedge and wedge-channel-engaging adjustment bolt is arranged between adjacent surfaces of the wedge and the wedge receiving channel arranged to bias both the wedge and the pair of gripper wings radially inwardly toward a longitudinal axis of the gripper bore opening, so as to form a perfect tool gripping-circle around and move the tool held within the elongated gripper bore.

A tool gripper assembly arrangement for holding a tool accurately in a holder plate. An elongated gripper bore opening is arranged within the holder plate, for receipt of an elongated tool within that gripper bore opening. A pair of thin, flexible, curvilinear gripper wings arranged between the wedge receiving channel and the gripper bore opening. An elongated gripper-wing pressing-wedge arranged within the elongated gripper wedge receiving channel; and a wedge and wedge-channel-engaging adjustment bolt is arranged between adjacent surfaces of the wedge and the wedge receiving channel arranged to bias both the wedge and the pair of gripper wings radially inwardly toward a longitudinal axis of the gripper bore opening, so as to form a perfect tool gripping-circle around and move the tool held within the elongated gripper bore.

A punching mold device capable of rotating a workpiece includes an upper mold base, a lower mold base opposite to the lower mold base, an indexing rotation plate, a servo motor and a position-fixing element. The lower mold base includes a clamping portion for fixedly clamping a workpiece. The indexing rotation plate is formed with holes which collectively form a circular contour. The servo motor is connected to the indexing rotation plate and the workpiece, and synchronously rotates the indexing rotation plate and the workpiece. The position-fixing element includes a positioning pin which aims towards and is pluggably connected to one of the holes for stopping the rotation of the indexing rotation plate and the workpiece. The upper mold base includes a punching head module aligned with the clamping portion for punching the workpiece.

A punching mold device capable of rotating a workpiece includes an upper mold base, a lower mold base opposite to the lower mold base, an indexing rotation plate, a servo motor and a position-fixing element. The lower mold base includes a clamping portion for fixedly clamping a workpiece. The indexing rotation plate is formed with holes which collectively form a circular contour. The servo motor is connected to the indexing rotation plate and the workpiece, and synchronously rotates the indexing rotation plate and the workpiece. The position-fixing element includes a positioning pin which aims towards and is pluggably connected to one of the holes for stopping the rotation of the indexing rotation plate and the workpiece. The upper mold base includes a punching head module aligned with the clamping portion for punching the workpiece.

A device for forming bow springs in a one-piece centralizer includes a swing arm that is configured to receive the one-piece centralizer. The device and process using the device include mechanically applying, with a press, an external load onto an un-formed bow spring positioned on a form of the swing arm. When the load is applied with the device, the un-formed centralizer is forced downward to allow the bow spring to take the desired form/shape/geometry, length, and height of a formed bow spring.

A device for forming bow springs in a one-piece centralizer includes a swing arm that is configured to receive the one-piece centralizer. The device and process using the device include mechanically applying, with a press, an external load onto an un-formed bow spring positioned on a form of the swing arm. When the load is applied with the device, the un-formed centralizer is forced downward to allow the bow spring to take the desired form/shape/geometry, length, and height of a formed bow spring.