A connector (10) includes a wire (W) having a core (W1) coated with an insulation coating (W2). A core accommodating portion (21) accommodates the exposed core (W1). A terminal (30) includes a core connecting portion (32) connected to the core (W1) exposed inside the core accommodating portion (21), and a terminal connecting portion (31) projects from the core connecting portion (32) in a direction intersecting a linear direction of the coated wire (W). A terminal accommodating portion (40) accommodates the terminal (30) and is connected to the core accommodating portion (21). A coating fixing portion (22) fixes the insulation coating (W2) and is connected to the core accommodating portion (21). The core (W1) is movable in the intersecting direction in the core accommodating portion (21). The terminal (31) is movable in the intersecting direction in the terminal accommodating portion (40) as the core (W1) moves.

A wind-protection casing includes a plastic shell having a first partial shell and a second partial shell, wherein the first partial shell and the second partial shell surround an accommodating space and form a first and second line opening, which connect the accommodating space with the surrounding region outside the accommodating space. A retaining means is provided with an accommodating geometry for a line plug connector, which is arranged on the first partial shell and is designed in such a way that a line plug connector accommodated by the accommodating geometry is retained in the accommodating space at a distance from the first partial shell and the second partial shell via an air gap. A plug-connector device including such a wind-protection casing of this type is also provided, wherein a line plug connector is accommodated in the accommodating geometry.

A wind-protection casing includes a plastic shell having a first partial shell and a second partial shell, wherein the first partial shell and the second partial shell surround an accommodating space and form a first and second line opening, which connect the accommodating space with the surrounding region outside the accommodating space. A retaining means is provided with an accommodating geometry for a line plug connector, which is arranged on the first partial shell and is designed in such a way that a line plug connector accommodated by the accommodating geometry is retained in the accommodating space at a distance from the first partial shell and the second partial shell via an air gap. A plug-connector device including such a wind-protection casing of this type is also provided, wherein a line plug connector is accommodated in the accommodating geometry.

An electrical multi-connector feedthrough panel for sealing a penetration in a structure across a pressure differential, the panel including a frame having a first environmental interface surface and a second environmental interface surface configured to couple with the structure so that the first environmental interface surface and the second environmental interface surface span the penetration so as to at least in part seal the penetration, and a plurality of electrical connector insert shells monolithically formed with the frame, each of the plurality of electrical connector insert shells being configured to sealingly couple with at least one electrical connector, where the first environmental interface surface is disposed between the plurality of connector shells so as to be in fluid communication with a first pressurized environment, and the second environmental interface surface is disposed between the plurality of connector shells so as to be in fluid communication with a second pressurized environment.

An electrical multi-connector feedthrough panel for sealing a penetration in a structure across a pressure differential, the panel including a frame having a first environmental interface surface and a second environmental interface surface configured to couple with the structure so that the first environmental interface surface and the second environmental interface surface span the penetration so as to at least in part seal the penetration, and a plurality of electrical connector insert shells monolithically formed with the frame, each of the plurality of electrical connector insert shells being configured to sealingly couple with at least one electrical connector, where the first environmental interface surface is disposed between the plurality of connector shells so as to be in fluid communication with a first pressurized environment, and the second environmental interface surface is disposed between the plurality of connector shells so as to be in fluid communication with a second pressurized environment.

A bushing comprises an insulating body having a first body end portion, a second body end portion, and a body center portion connecting the first body end portion and the second body end portion, and a bushing conductor coaxially extending within and mechanically coupled to the insulating body. The bushing conductor includes a first connecting portion having a first end face at the first body end portion, a second connecting portion having a second end face at the second body end portion, and a center portion electrically and mechanically connecting the first connecting portion and the second connecting portion. The first connecting portion is elastically deformable with respect to the first body end portion along a radial direction and/or the second connecting portion is elastically deformable with respect to the second body end portion along the radial direction.

A tolerance absorbing structure of a first power supply distribution box includes a connection terminal to which one end part of a flat distribution member is connected and fixed; a storage case including a connection opening member into which the connection terminal is inserted and fixed to a vehicle body; an elastic support member configured to support the connection terminal freely movably in a three-dimensional direction with respect to the connection opening member; and a flexible conductor configured to connect a substrate connection part of a circuit conductor stored in the storage case and the connection terminal with an extra length.

A tolerance absorbing structure of a first power supply distribution box includes a connection terminal to which one end part of a flat distribution member is connected and fixed; a storage case including a connection opening member into which the connection terminal is inserted and fixed to a vehicle body; an elastic support member configured to support the connection terminal freely movably in a three-dimensional direction with respect to the connection opening member; and a flexible conductor configured to connect a substrate connection part of a circuit conductor stored in the storage case and the connection terminal with an extra length.

A coupler for use in a liquid heater includes a male connector and a female socket connector. The male connector includes a connecting wall and an annular cylindrical wall formed around the connecting wall. The female socket connector comprises an end wall joined with the connecting wall of the male connector and a peripheral wall formed around the end wall and arranged perpendicularly to the end wall. The surface of the end wall joined with the connecting wall is gradually lowered from the center towards the periphery and is convex-hull shaped. The peripheral wall includes arced sections and gapped sections connected between two arced sections. When the male connector is coupled with the female socket connector, this allows the arced sections to be coupled with the annular cylindrical wall and forms no coupling between the gapped sections and the annular cylindrical wall.

A contact assembly for an electrical plug connector includes: at least one contact element with a first end region for connecting to a corresponding plug connector, and a second end region facing away from the first end region; a load line, an end section of an insulating-sleeve-free region of the load line being connectable to the second end region of the at least one contact element; and a heat capacity element arrangeable at least in regions on the insulating-sleeve-free region of the load line.