A plug connector housing is provided having at least two oppositely arranged locking pins protruding from the outside, wherein each locking pin includes a metallic component which is overmolded at least in some regions with a plastic material.

A plug connector housing is provided having at least two oppositely arranged locking pins protruding from the outside, wherein each locking pin includes a metallic component which is overmolded at least in some regions with a plastic material.

The present disclosure relates to an electric vehicle charging connector, in which a heat sink is provided to effectively cool the electric vehicle charging connector during charging of an electric vehicle, heat generated in an interface between an electric vehicle cable and a conductor of a connector connection unit is quickly absorbed by the heat sink, and a cooling fluid flows in the heat sink to cool an electric vehicle charging cable and is collected in an electric vehicle charger after cooling of the heat sink, and an electric vehicle charging assembly.

A connector includes a terminal and a housing. The terminal is configured to be connected to an electric wire. The housing is configured to contain the terminal. The housing includes a heat sink configured to absorb heat generated in the terminal. The heat sink is a part of a skeleton component forming the housing.

A connector includes: an electric wire; a terminal connected to the electric wire; a housing having a housing space to house a connection portion of the electric wire and the terminal; a seal member to seal an opening portion of the housing space to isolate the connection portion housed in the housing space from an outside; and a heat storage member located in the housing space.

An electrical connector assembly includes a connector housing defining a cylindrical terminal cavity, an electrical terminal having a cylindrical portion, and an electrical terminal seal. The electrical terminal seal includes a base formed of a compliant material and a cylindrical protrusion integrally formed with the base and extending from a major surface of the base. The electrical terminal seal defines a cylindrical aperture extending through the protrusion. The protrusion includes a first circumferential rib that is integrally formed with the protrusion. The first circumferential rib extends into the aperture from an inner surface of the protrusion.

An air blow guide member 100 for cooling an electrical component accommodated in an electrical component socket 10 is configured to guide flowing air K supplied from a ventilation unit 3 toward the electrical component socket 10. Further, a test device unit 2 including the air blow guide member 100 and the electrical component socket 10 is configured so that the flowing air K supplied from the air ventilation unit 3 is guided toward the electrical component socket 10 by the air blow guide member 100. Further, a test device includes a plurality of the test units 2 arranged from an upstream side toward a downstream side of the flowing air K supplied from the ventilation unit 3.

An air blow guide member 100 for cooling an electrical component accommodated in an electrical component socket 10 is configured to guide flowing air K supplied from a ventilation unit 3 toward the electrical component socket 10. Further, a test device unit 2 including the air blow guide member 100 and the electrical component socket 10 is configured so that the flowing air K supplied from the air ventilation unit 3 is guided toward the electrical component socket 10 by the air blow guide member 100. Further, a test device includes a plurality of the test units 2 arranged from an upstream side toward a downstream side of the flowing air K supplied from the ventilation unit 3.

An arrangement for plug-connecting electrical connections through a housing, in particular a device for driving a compressor. The arrangement exhibits at least one plug-in connection with at least one plug-in connector for transmitting electrical energy, as well as one mounting element for mounting the at least one plug-in connector. The mounting element can be fixed on the housing. The mounting element exhibits on one inner surface of the housing, which encloses the volume, an opening for mounting a fastening element for fixing the mounting element on the housing. The opening is produced in such a way that it starts from the inner surface, extends into the mounting element and ends in the mounting element. The fastening element is arranged in such a way that it is inserted into the opening from the volume enclosed by the housing through a pass-through opening, that is produced in the housing.

An adapter with a heat dissipation layer applied in locations of high electric current and provided for using in high-current electrical appliances, the adapter is provided with a heat dissipation fan on one side or on two sides at the same time, the heat dissipation fan is activated by a small amount of electric power from the adapter, so that the heat dissipation fan is capable of performing heat dissipation function for the adapter, and a guide rod in the adapter is sleeved with an embossed heat dissipation layer, which makes the adapter's heat dissipation effect better, thereby preventing the adapter from deteriorating due to high heat, maintaining product stability, prolonging service life, and reducing work accidents.