A connector (10) configured to bring an object (70) into conduction comprises: a pair of fitting bodies fittable to each other; and a filler (60) with which at least one fitting body of the pair of fitting bodies is loaded, wherein a fitting body of the pair of fitting bodies includes an accommodating portion (35a) configured to accommodate an end of the object (70), and the filler (60) is configured to cover the end of the object (70) in the accommodating portion (35a).

This disclosure provides a method and apparatus for connecting and disconnecting a first wire to a second wire. More specifically, an apparatus that includes a first electrical contact, a second electrical contact, an insulated housing, and a male contact prong (i.e., a shunt) is disclosed. In an embodiment, the first and second electrical contacts conductively connect with a first and second wire, respectively, via an insulation displacement connector. Furthermore, the male contact prong conductively connects (i.e., shunts) the first and second electrical contacts together. A wire-to-wire contact with shunt allows for two wires to be quickly and efficiently connected and disconnected.

This disclosure provides a method and apparatus for connecting and disconnecting a first wire to a second wire. More specifically, an apparatus that includes a first electrical contact, a second electrical contact, an insulated housing, and a male contact prong (i.e., a shunt) is disclosed. In an embodiment, the first and second electrical contacts conductively connect with a first and second wire, respectively, via an insulation displacement connector. Furthermore, the male contact prong conductively connects (i.e., shunts) the first and second electrical contacts together. A wire-to-wire contact with shunt allows for two wires to be quickly and efficiently connected and disconnected.

This disclosure provides a method and apparatus for connecting and disconnecting a first wire to a second wire. More specifically, an apparatus that includes a first electrical contact, a second electrical contact, an insulated housing, and a male contact prong (i.e., a shunt) is disclosed. In an embodiment, the first and second electrical contacts conductively connect with a first and second wire, respectively, via an insulation displacement connector. Furthermore, the male contact prong conductively connects (i.e., shunts) the first and second electrical contacts together. A wire-to-wire contact with shunt allows for two wires to be quickly and efficiently connected and disconnected.

Provided is a terminal for an electric wire connector including: a central erection piece configured to have cutting portions inclined downward and outward on both sides of its upper portion; a pair of outer erection pieces configured to be spaced apart at a desired interval on both sides of the central erection piece and have cutting portions that are inclined downward on the upper portion; a connector configured to connect the central erection piece and lower portions of the pair of outer erection pieces; an electrical wire entry portion configured to be a space through which the cutting portions face each other and be a path under which the electrical wire enters; and a core wire connector configured to be arranged on the lower portion communicating with the electric wire entry portion and be a space to connect the central erection piece and the outer erection piece.

Provided is a terminal for an electric wire connector including: a central erection piece configured to have cutting portions inclined downward and outward on both sides of its upper portion; a pair of outer erection pieces configured to be spaced apart at a desired interval on both sides of the central erection piece and have cutting portions that are inclined downward on the upper portion; a connector configured to connect the central erection piece and lower portions of the pair of outer erection pieces; an electrical wire entry portion configured to be a space through which the cutting portions face each other and be a path under which the electrical wire enters; and a core wire connector configured to be arranged on the lower portion communicating with the electric wire entry portion and be a space to connect the central erection piece and the outer erection piece.

This disclosure provides a method and apparatus for connecting and disconnecting a first wire to a second wire. More specifically, an apparatus that includes a first electrical contact, a second electrical contact, an insulated housing, and a male contact prong (i.e., a shunt) is disclosed. In an embodiment, the first and second electrical contacts conductively connect with a first and second wire, respectively, via an insulation displacement connector. Furthermore, the male contact prong conductively connects (i.e., shunts) the first and second electrical contacts together. A wire-to-wire contact with shunt allows for two wires to be quickly and efficiently connected and disconnected.

Provided is a terminal for an electric wire connector including: a central erection piece configured to have cutting portions inclined downward and outward on both sides of its upper portion; a pair of outer erection pieces configured to be spaced apart at a desired interval on both sides of the central erection piece and have cutting portions that are inclined downward on the upper portion; a connector configured to connect the central erection piece and lower portions of the pair of outer erection pieces; an electrical wire entry portion configured to be a space through which the cutting portions face each other and be a path under which the electrical wire enters; and a core wire connector configured to be arranged on the lower portion communicating with the electric wire entry portion and be a space to connect the central erection piece and the outer erection piece.

Provided is a terminal for an electric wire connector including: a central erection piece configured to have cutting portions inclined downward and outward on both sides of its upper portion; a pair of outer erection pieces configured to be spaced apart at a desired interval on both sides of the central erection piece and have cutting portions that are inclined downward on the upper portion; a connector configured to connect the central erection piece and lower portions of the pair of outer erection pieces; an electrical wire entry portion configured to be a space through which the cutting portions face each other and be a path under which the electrical wire enters; and a core wire connector configured to be arranged on the lower portion communicating with the electric wire entry portion and be a space to connect the central erection piece and the outer erection piece.

An electric motor includes a rotor and a stator including a stator core and coils. The coils are defined by a winding wire including winding wire ends electrically contacted with a printed circuit board at an end surface through connectors. The connectors each include at least two insulation displacement contacts receiving a winding wire end of a stator winding. Each connector includes a single electrical connection to the printed circuit board. The connector includes a base body with an underside in contact with the printed circuit board. Each of the at least two insulation displacement contacts includes a clamping slot perpendicular to the underside of the base body. The clamping slots are defined by spaced legs extending from the base body, at least two of the spaced legs being resilient.