A reversible fuse support block includes a molding, a terminal, and a fuser interface. The molding may be installed within a housing in a first position and a second position, wherein the second position is rotated 180 degrees relative to the first position. The terminal couples to the molding and includes a plurality of apertures disposed in a pattern. The fuse interface receives a first end of a fuse. The fuse interface couples to the terminal in a first arrangement and a second arrangement such that when the fuse interface is installed in the first arrangement and the molding is installed in the first position, the fuse interface is disposed in substantially the same position relative to a corresponding fuse interface on a fuse support block as when the fuse interface is installed in the second arrangement and the molding is installed in the second position.

A reversible fuse support block includes a molding, a terminal, and a fuser interface. The molding may be installed within a housing in a first position and a second position, wherein the second position is rotated 180 degrees relative to the first position. The terminal couples to the molding and includes a plurality of apertures disposed in a pattern. The fuse interface receives a first end of a fuse. The fuse interface couples to the terminal in a first arrangement and a second arrangement such that when the fuse interface is installed in the first arrangement and the molding is installed in the first position, the fuse interface is disposed in substantially the same position relative to a corresponding fuse interface on a fuse support block as when the fuse interface is installed in the second arrangement and the molding is installed in the second position.

The invention relates to a circuit board arrangement for electrical separation of leads, comprising a fuse board configured to hold an electrical fuse, wherein the fuse board has electrical leads and openings formed between adjacent electrical leads; and comprising an insulating member configured to receive the fuse board, wherein the insulating member has separators, wherein the separators are configured to insert into the openings and electrically separate the leads

The present invention discloses an anti-electric shock mechanism for a power converter comprising a protective tube provided in the power converter and further comprising a locking guide block provided in the power converter, and a protective holder for mounting the protective tube, wherein a locking groove is formed on the protective holder, and a locking part inserted into the locking groove is provided on the locking guide block. The anti-electric shock mechanism for the power converter provided by the present invention can prevent the risk of electric leakage and electric shock when the power converter is used, whether the protective tube has not been pulled out, is partially pulled out or has been completely pulled out, so as to improve the safety of the power converter.

A dual element electrical fuse includes at least one high overcurrent fusible element and a low overcurrent fusible element connected to one another inside a housing. The low overcurrent fusible element includes a single sided circuit board and a releasable conductive element that more simply provides low overcurrent protection and manufacturing efficiency with improved quality.

A power distribution assembly which may be a fuse clip or a switch includes a lug mounted to a block in association with a spring clip which confronts one side of the lug. A portion of the spring clip is mounted to the block and an upper spring arm of the clip is positioned on one side of the lug. The lug is mounted to the block and includes a downwardly projecting tang which is inserted through a slot in the bottom portion of the assembly to thereby couple the spring arm to the lug and block and to receive the end of the fuse or a blade between the spring arm and the lug.

A connector includes a housing body, a shield shell that externally covers the housing body, a first connection terminal that is housed in the housing body, electrically connected to a first wire in the housing body, and electrically connected to a counterpart terminal when the connector is connected to a counterpart connector, and a circuit protection component that is interposed, in the housing body, between the first connection terminal and the first wire, and connects the first connection terminal and the first wire in series to protect a circuit. The housing body includes at least one thermal conductor that performs thermal conduction with the circuit protection component by being in contact with the circuit protection component.

Fuse assemblies in the form of fuse blocks and fuse holders include embedded permanent magnet arc suppression features that facilitate higher voltage operation of fusible circuit protection without increasing the size of the fuse assemblies. The embedded magnets apply an external magnetic field upon an overcurrent protection fuse and produce an arc deflection force to enhance arc quenching capability of the fuse without increasing its form factor.

The present disclosure provides a high voltage connector capable of detachably and stably fastening a fuse without using a separate component. A high voltage connector includes a first housing having an open rear portion, a fuse provided inside the first housing, a bus bar clip provided inside the first housing including a first wire connecting hole connected to a first wire, and a first fixing clip configured to detachably fasten the fuse, a bus bar clip terminal provided inside the first housing including a second fixing clip configured to form a clip shape and to detachably fasten the fuse, and a first terminal connected to a power source, and a male terminal provided inside the first housing including a second wire connecting hole connected to a second wire, and a second terminal connected to the power source.

The present disclosure provides a high voltage connector capable of detachably and stably fastening a fuse without using a separate component. A high voltage connector includes a first housing having an open rear portion, a fuse provided inside the first housing, a bus bar clip provided inside the first housing including a first wire connecting hole connected to a first wire, and a first fixing clip configured to detachably fasten the fuse, a bus bar clip terminal provided inside the first housing including a second fixing clip configured to form a clip shape and to detachably fasten the fuse, and a first terminal connected to a power source, and a male terminal provided inside the first housing including a second wire connecting hole connected to a second wire, and a second terminal connected to the power source.