An appliance power connector includes a terminal block having a base. The base includes an upper surface and a lower surface. The base includes a pocket. The terminal block includes an upper shroud and a lower shroud. The upper shroud has upper shroud walls extending from the base forming an upper chamber above the upper surface. The lower shroud has lower shroud walls extending from the base forming a lower chamber below the lower surface. The appliance power connector includes a power terminal coupled to the terminal block. The power terminal includes a main body, an upper stud extending from a top of the main body and a lower stud extending from a bottom of the main body. The main body is received in the pocket. The upper stud is located in the upper chamber above the base for connection to an upper power cable terminal. The lower threaded stud is located in the lower chamber below the base for connection to a lower power cable terminal.

An appliance power connector includes a terminal block having a base. The base includes an upper surface and a lower surface. The base includes a pocket. The terminal block includes an upper shroud and a lower shroud. The upper shroud has upper shroud walls extending from the base forming an upper chamber above the upper surface. The lower shroud has lower shroud walls extending from the base forming a lower chamber below the lower surface. The appliance power connector includes a power terminal coupled to the terminal block. The power terminal includes a main body, an upper stud extending from a top of the main body and a lower stud extending from a bottom of the main body. The main body is received in the pocket. The upper stud is located in the upper chamber above the base for connection to an upper power cable terminal. The lower threaded stud is located in the lower chamber below the base for connection to a lower power cable terminal.

A terminal block receiving non-stripped wire ends includes an insulating casing, a conductive part installed within the casing, and a displacement tool. The conductive part includes a cooperating slot defined by two cooperating blades forming an insulation-displacement contact connection of a non-stripped wire end. The cooperating blades are parallel to a connection axis of the connection part. The displacement tool displaces the non-stripped wire end in a direction of the connection axis from a disconnected position to a connected position. In the connected position, the two cooperating blades are in electrical contact with a central conducting core of the non-stripped wire end. The displacement tool is attached to the insulating casing by a connection element of the terminal block.

A terminal block receiving non-stripped wire ends includes an insulating casing, a conductive part installed within the casing, and a displacement tool. The conductive part includes a cooperating slot defined by two cooperating blades forming an insulation-displacement contact connection of a non-stripped wire end. The cooperating blades are parallel to a connection axis of the connection part. The displacement tool displaces the non-stripped wire end in a direction of the connection axis from a disconnected position to a connected position. In the connected position, the two cooperating blades are in electrical contact with a central conducting core of the non-stripped wire end. The displacement tool is attached to the insulating casing by a connection element of the terminal block.

A submersible cable connector for connecting a plurality of cable ends is provided. The submersible cable connector includes a connector body and an encapsulation member covering the connector body. The connector body has one or more cable receiving apertures or cavities and one or more fastener receiving apertures in communication with the cable receiving apertures. The encapsulation member includes integrally molded tubular cable ports in communication with the cable receiving apertures, spaced apart tubular fastener ports in communication with the fastener receiving apertures, and tethered sealing cap assemblies monolithically or integrally formed into the encapsulation member, and each configured to seal respective one of the fastener ports.

A conductor connection terminal, having an insulating material housing, a busbar, a clamping spring and an operating lever which is pivotably received in the insulating material housing over a pivoting range and can be pivoted between an open position and a closed position, wherein the clamping spring has an operating arm which is deflected via a spring driver of the operating lever at least in the open position, characterized in that the operating lever is supported in the open position at a first and a second support point spaced from the first, and that the operating lever is pulled against the first and the second support point by a tensile force of the clamping spring acting on the spring driver from the operating arm.

A conductor terminal, including an insulating housing, the insulating housing having a conductor insertion opening for inserting an electrical conductor in a conductor insertion direction, including a busbar and including a clamping spring, the clamping spring having a contact leg for contact with a part of the conductor terminal, the contact leg transitioning into a spring bend, and the spring bend transitioning into a clamping leg, the clamping leg forming a clamping point with the busbar for the electrical conductor, and including an actuating element, the actuating element being configured to open the clamping point, the actuating element being able to be transferred from an initial position into an actuating position, and the clamping point being opened in the actuating position.

Provided is a molding method of a sealing cover, realized by setting up a sealing cover mold, the mold includes a cavity and a core group arranged in the cavity, including setting up a first core and a second core, the mold opening direction of the first core and the second core are not parallel. The present application does not need a process hole to perform the injection molding of the sealing cover with a fastening structure, whose sealing is also better.

A connector including: (a) a terminal block; (b) an elongated busbar which is inserted in an insertion hole provided in the terminal block so as to be held by the terminal block in a cantilever manner; (c) a seal member which is disposed between the busbar and a wall surface of the insertion hole and which closes a gap defined between the busbar and the wall surface of the insertion hole; and (d) a protection member which is disposed in the gap defined between the busbar and the wall surface of the insertion hole and which is located between the seal member and an opening of the insertion hole.

A connector including: (a) a terminal block; (b) an elongated busbar which is inserted in an insertion hole provided in the terminal block so as to be held by the terminal block in a cantilever manner; (c) a seal member which is disposed between the busbar and a wall surface of the insertion hole and which closes a gap defined between the busbar and the wall surface of the insertion hole; and (d) a protection member which is disposed in the gap defined between the busbar and the wall surface of the insertion hole and which is located between the seal member and an opening of the insertion hole.