A method of connecting an electric cable to a connector terminal includes arranging a connector terminal in a lower die so that an end portion of the electric cable in which a core wire is exposed from an outer cover is arranged in a barrel portion of the connector terminal, pressing a crimper to the barrel portion to crimp the barrel portion, overlapping the lower die with an upper die to form an injection space around the barrel portion and the end portion of the electric cable, and injecting a resin in an injection space, thereby forming a resin mold that covers and waterproofs the barrel portion and the end portion of the electric cable.

In an armature coil according to the present invention and, more particularly, in an armature coil including a plurality of coil conductors wound around a plurality of slots which are formed in a stator core and opened on the radially inner side, the circumferential width of the plurality of the coil conductors is formed in a substantially trapezoidal shape which gets narrower toward the radially inner side and the cross-sectional areas of the plurality of the coil conductors in the slot are each substantially the same and the circumferential width thereof is formed narrower as the coil conductor is arranged toward the radially inner side; and one coil conductor is formed in a convex shape and another coil conductor is formed in a concave shape along the convex shape.

A terminal locator for holding a terminal in a crimping zone of a terminal crimping device includes a housing configured to be positioned forward of crimp tooling defining the crimping zone. The housing has a terminal cavity extending along a terminal axis configured to receive the terminal such that a crimp barrel of the terminal extends rearward of the housing along the terminal axis into the crimping zone for crimping to a wire. A spacer is held by the housing. The spacer has a spacer blocking surface configured to locate the terminal and block axial rearward movement of the terminal. A latch is held by the housing. The latch is deflectable to allow insertion and removal of the terminal from the terminal cavity, the latch having a latch blocking surface configured to locate the terminal and block axial forward movement of the terminal.

A spin weld apparatus for spin welding a prepared end of a coaxial cable with a coaxial connector includes a cable clamp dimensioned to grip the coaxial cable and a drive collet dimensioned to enclose and rotationally interlock with a lateral surface of the coaxial connector. The drive collet is dimensioned to rotationally interlock with an interlocking portion of a spin welder. The spin welder is dimensioned to axially align the coaxial connector with the coaxial cable for spin welding when the drive collet is rotationally interlocked with the spin welder.

A wire termination apparatus for terminating an electrical terminal to a wire or cable include an upper tooling member which is movable between an open position and a closed position. A lower tooling member is attached to a base member of a frame of the wire termination apparatus. A process analyzer determines if a crimped terminal is properly crimped to a wire or cable. If the process analyzer determines that the terminal has not been properly crimped to the wire cable, the removal of the defectively crimped terminal and wire or cable from the wire termination apparatus is prevented until a code or key is entered.

A terminal crimping machine includes a machine body and a cable diameter fitting mechanism. The machine body includes an installation portion, an adjustment member and a driven member. The driven member is driven by the adjustment member and includes a driven alignment portion. The cable diameter fitting mechanism includes an assembly portion corresponding to the driven alignment portion. The driven member is driven by the adjustment member to move with the adjustment of the adjustment member, and the driven alignment portion moves along with the driven member. The cable diameter fitting mechanism is installed on the installation portion, and the assembly portion is assembled corresponding to the driven alignment portion during the installation process. Accordingly, the terminal crimping machine can achieve the effect of simple and convenient operation.

A crimping tool exchange device exchanges a first crimping tool for a second crimping tool, wherein each crimping tool, when at a processing position in a crimping press, produces a crimp connection connecting a conductor end of a cable to a crimp contact. The device includes first and second exchange units retaining the first and second crimping tools respectively. When one of the exchange units is arranged in an exchange position the retained crimping tool can be moved in a first direction between the processing position and the one exchange unit. The first exchange unit is moved linearly from the exchange position in a second direction, and the second exchange unit is moved linearly from the exchange position in a third direction that is different from the second direction, the second direction being at an angle relative to the third direction.

A method of manufacturing an armature coil includes steps of arranging a plurality of coil conductors of the armature coil between an end metal die and a back portion metal die on a lower metal die; pressing, with the upper metal die in a pressing direction, the plurality of the coil conductors arranged between the end metal die and the back portion metal die on the lower metal die; and removing coil conductors that become formed in a convex shape and a concave shape from the lower metal die. The upper metal die may be provided with an inclined portion on a lower metal die side of the upper metal die, and the upper metal die may be configured to be pressed such that a space is formed by the dies, the space having a width that gets gradually narrower.

A wire clamp includes a base and first and second jaws. The first jaw is pivotally mounted to a first upright portion of the base via a first pivot axle, and the second jaw is pivotally mounted to a second upright portion of the base via a second pivot axle. The first and second jaws crisscross each other at an overlap area, and are spring-biased to pivot relative to the base towards a closed position. Respective hook members of the first and second jaws define a mouth above the overlap area that is configured to receive a wire. A size of the mouth adjusts automatically to a size of the wire within the mouth as the first and second jaws pivot towards the closed position. The wire may be held within the mouth in an in-line orientation with a corresponding terminal to which the wire will be crimped.

The purpose of the present invention is to provide a terminal crimping device and a terminal crimping method which provide improved machining quality. A terminal crimping device is configured to crimp-connect, to an electric wire, each of a pair of adjacent terminals of a plurality of terminals coupled to each other by a carrier, the carrier having a terminal connection section connected to each terminal and a coupling section coupling adjacent terminal connection sections, the terminal crimping device including a carrier cutting unit configured to cut the coupling section, a terminal positioning unit configured to position one terminal of the pair of terminals such that the one terminal is located close to another terminal of the pair of terminals, and crimp dies configured as a pair to crimp-connect each terminal to the electric wire.