The present disclosure provides a multi-station rotating terminal crimping machine head, including a machine table, a supporting device, a punching head, a rotating seat, a plurality of station seats, a first driving motor, and a first right-angle speed reducer. The supporting device is fixedly disposed on the machine table. The punching head is disposed on the supporting device. The rotating seat is rotatably disposed on the machine table. The plurality of the station seats are disposed on the rotating seat and rotate along with the rotating seat. The first driving motor and the first right-angle speed reducer are disposed on the machine table.

A punching head for terminal crimping machine, includes a supporting device, a driving motor, a right-angle speed reducer, a first sliding rail, a second sliding rail, a sliding block, a stamping component, a turntable, an eccentric shaft, a driving disc, and a racetrack-shaped driving cavity. The driving motor is fixedly disposed on the supporting device, the right-angle speed reducer is connected to the driving motor, the first sliding rail is fixedly disposed on the supporting device, the second sliding rail is fixedly disposed on the supporting device and is opposite to the first sliding rail, the sliding block slides up and down between the first sliding rail and the second sliding rail, and the stamping component is disposed at a bottom of the sliding block and moves up and down along with the sliding block.

A punching head for terminal crimping machine, includes a supporting device, a driving motor, a right-angle speed reducer, a first sliding rail, a second sliding rail, a sliding block, a stamping component, a turntable, an eccentric shaft, a driving disc, and a racetrack-shaped driving cavity. The driving motor is fixedly disposed on the supporting device, the right-angle speed reducer is connected to the driving motor, the first sliding rail is fixedly disposed on the supporting device, the second sliding rail is fixedly disposed on the supporting device and is opposite to the first sliding rail, the sliding block slides up and down between the first sliding rail and the second sliding rail, and the stamping component is disposed at a bottom of the sliding block and moves up and down along with the sliding block.

A crimp machine is provided and includes an anvil having a lower die having a lower forming surface. The anvil is configured to support a crimp barrel of a terminal that receives a wire. The crimp machine includes a press having an upper die having an upper forming surface. The press is movable relative to the anvil during a crimping process to connect the crimp barrel to the wire. A crimp zone is defined between the upper forming surface and the lower forming surface. The crimp machine includes a vision system positioned to view the crimp zone. The vision system includes an imaging device configured to image the crimp barrel of the terminal and the wire. The vision system operates the imaging device to capture an image prior to the crimping process for performing a validation pre-check prior to the crimping process.

A crimp machine is provided and includes an anvil having a lower die having a lower forming surface. The anvil is configured to support a crimp barrel of a terminal that receives a wire. The crimp machine includes a press having an upper die having an upper forming surface. The press is movable relative to the anvil during a crimping process to connect the crimp barrel to the wire. A crimp zone is defined between the upper forming surface and the lower forming surface. The crimp machine includes a vision system positioned to view the crimp zone. The vision system includes an imaging device configured to image the crimp barrel of the terminal and the wire. The vision system operates the imaging device to capture an image prior to the crimping process for performing a validation pre-check prior to the crimping process.

A first alternative of the application first defines a one-piece metal blank that will make it possible to produce a connector sub-assembly ready to be directly crimped to an insulated and shielded cable, prepared beforehand. A second alternative of the application first defines a pre-assembled connector sub-assembly that incorporates front and rear crimping portions with different electrical and/or mechanical characteristics, and which is ready to be directly crimped to an insulated and shielded cable, prepared beforehand. Either of the two alternatives makes it possible to minimize assembly steps and associated risks such as those due to the processes of fitting together a great many components according to the prior art.

A device (10) for inverse crimping a terminal (12), held on an infeed belt (24), onto a core (14) includes: a crimp anvil (16) that supports the terminal (12) during the crimping process, a crimper (18) that reshapes to-be-reshaped regions (20) of the terminal (12) supported on the crimp anvil (16) during the crimping process when the crimp anvil (16) and the crimper (18) move relative to each other, and an infeed-belt guide device (46) for guiding the infeed belt (24). During the crimping process, the crimp anvil (16) is moved together with the terminal (12) supported in or on the crimp anvil (16), and the infeed-belt guide device (46) is moved at least temporarily relative to the crimper (18) before and/or during the crimping process.

A device (10) for inverse crimping a terminal (12), held on an infeed belt (24), onto a core (14) includes: a crimp anvil (16) that supports the terminal (12) during the crimping process, a crimper (18) that reshapes to-be-reshaped regions (20) of the terminal (12) supported on the crimp anvil (16) during the crimping process when the crimp anvil (16) and the crimper (18) move relative to each other, and an infeed-belt guide device (46) for guiding the infeed belt (24). During the crimping process, the crimp anvil (16) is moved together with the terminal (12) supported in or on the crimp anvil (16), and the infeed-belt guide device (46) is moved at least temporarily relative to the crimper (18) before and/or during the crimping process.

A device for soldering an electrical conductor with a connection device includes a base plate having a passageway and an anvil mounted on the base plate and at least partially housed in the passageway. The anvil is electrically insulated from the base plate and positioned to allow an electrical current to pass through the electrical conductor and/or the connection device.

A terminal crimping device includes a lower mold and an upper mold. The lower mold has a lower contact face onto which a crimping and forming part is to be mounted, and a lower mold recessed part that is recessed in an opposite direction to a crimping direction and a lower mold projecting part that projects in the crimping direction, respectively from both end parts of the lower contact face in width directions when viewed in front-rear directions. The upper mold has an upper contact face, an upper mold recessed part and an upper mold projecting part.