The invention relates to a grounding device (10) for a battery (100) of a vehicle, comprising a connection section (20) for connecting electric wiring (110) to the battery (100), a grounding section (30) for connecting to a ground (120) of the vehicle, and a contact section (40) for connecting to an external power source, characterized in that the contact section (40) is embodied at least sectionally by way of folding over the material of the grounding device (10).

The invention relates to a grounding device (10) for a battery (100) of a vehicle, comprising a connection section (20) for connecting electric wiring (110) to the battery (100), a grounding section (30) for connecting to a ground (120) of the vehicle, and a contact section (40) for connecting to an external power source, characterized in that the contact section (40) is embodied at least sectionally by way of folding over the material of the grounding device (10).

A two-way crimpless butt connector is provided. The butt connector includes a cylindrical housing including a pair of open ends providing two-way entry into the housing, a cylindrical conduit including a pair of open ends each configured to receive an end of a wire therein, and a fastener configured to secure and adjoin the pair of wire ends in the conduit. The fastener includes bendable teeth disposed on the open ends of the conduit. The teeth protrude radially inwardly and form an opening including a diameter smaller than a diameter of the wire ends. When a wire end is inserted into the conduit, the teeth bend with the wire end, thereby engaging the wire end and securing it within the conduit. In this way, the wire ends may be inserted into the housing, adjoined, and locked in the conduit without the use of a crimper, thereby establishing an electrical connection therebetween.

A two-way crimpless butt connector is provided. The butt connector includes a cylindrical housing including a pair of open ends providing two-way entry into the housing, a cylindrical conduit including a pair of open ends each configured to receive an end of a wire therein, and a fastener configured to secure and adjoin the pair of wire ends in the conduit. The fastener includes bendable teeth disposed on the open ends of the conduit. The teeth protrude radially inwardly and form an opening including a diameter smaller than a diameter of the wire ends. When a wire end is inserted into the conduit, the teeth bend with the wire end, thereby engaging the wire end and securing it within the conduit. In this way, the wire ends may be inserted into the housing, adjoined, and locked in the conduit without the use of a crimper, thereby establishing an electrical connection therebetween.

A cable assembly includes a cable having a conductive core, an electromagnetic wave shielding layer, and an internal insulation layer between the conductive core and the electromagnetic wave shielding layer, a connector connected to one end of the cable, and a ground terminal portion disposed at the connector and having a first terminal electrically connected to the electromagnetic wave shielding layer and a second terminal disposed to expose from the connector, wherein the first terminal and the second terminal are connected by bending. The cable assembly provides an advantageous effect of implementing a grounding arrangement at the cable assembly coupled to the motor in a vertical direction that is parallel with the shaft direction of the motor by forming the first terminal and second terminal of the ground terminal portion by bending.

A cable assembly includes a cable having a conductive core, an electromagnetic wave shielding layer, and an internal insulation layer between the conductive core and the electromagnetic wave shielding layer, a connector connected to one end of the cable, and a ground terminal portion disposed at the connector and having a first terminal electrically connected to the electromagnetic wave shielding layer and a second terminal disposed to expose from the connector, wherein the first terminal and the second terminal are connected by bending. The cable assembly provides an advantageous effect of implementing a grounding arrangement at the cable assembly coupled to the motor in a vertical direction that is parallel with the shaft direction of the motor by forming the first terminal and second terminal of the ground terminal portion by bending.

A connector includes wire-side terminals having the same shape and an insulation housing (30) for holding these terminals. The insulation housing (30) has terminal accommodating chambers (C11, . . . ), and terminal locking portions are provided in the respective terminal accommodating chambers (C11, . . . ). The terminal locking portions are classified into a first group that have a high holding force and a second group that have a low holding force. At least the terminal locking portions in the terminal accommodating chambers (C11, C18, C31, C38) located on both outer sides in a maximum diameter direction belong to the first group and at least the terminal locking portions provided in the terminal accommodating chambers (C24, C25) closest to a center (O) of the array of the terminal accommodating chambers belong to the second group.

A connector includes wire-side terminals having the same shape and an insulation housing (30) for holding these terminals. The insulation housing (30) has terminal accommodating chambers (C11, . . . ), and terminal locking portions are provided in the respective terminal accommodating chambers (C11, . . . ). The terminal locking portions are classified into a first group that have a high holding force and a second group that have a low holding force. At least the terminal locking portions in the terminal accommodating chambers (C11, C18, C31, C38) located on both outer sides in a maximum diameter direction belong to the first group and at least the terminal locking portions provided in the terminal accommodating chambers (C24, C25) closest to a center (O) of the array of the terminal accommodating chambers belong to the second group.

A connector includes a contact connected to a member to be connected and brought into contact with a wire so as to electrically connect the member to be connected and the wire. The contact includes contact portions coming into contact with the wire when the wire moves in a perpendicular direction perpendicular to a wire extending direction in which the wire extends, and movement restriction members for restricting a movement of the wire on the contact in a state where the wire is in contact with the contact portions. The contact further includes a movement regulation member for regulating a movement of the wire in the perpendicular direction in the state where the wire is in contact with the contact portions.

A connector includes a contact connected to a member to be connected and brought into contact with a wire so as to electrically connect the member to be connected and the wire. The contact includes contact portions coming into contact with the wire when the wire moves in a perpendicular direction perpendicular to a wire extending direction in which the wire extends, and movement restriction members for restricting a movement of the wire on the contact in a state where the wire is in contact with the contact portions. The contact further includes a movement regulation member for regulating a movement of the wire in the perpendicular direction in the state where the wire is in contact with the contact portions.