A strip light has a strip lighting body and a lighting end cover fixedly arranged at both ends of the strip lighting body, the strip lighting has a connection mechanism fixedly disposed in the lighting end cover and one end of which electrically connected to the PCB board in the strip lighting body, and an installation module that is electrically connected to other end of the connection mechanism and detachably connected to the lighting end cover for easy replacement. Compared with the prior art, the strip lighting features a variety of installation methods of the lighting and the lighting angle can be adjusted 360 degrees, thereby improving the competitiveness and availability of the lighting.

A strip light has a strip lighting body and a lighting end cover fixedly arranged at both ends of the strip lighting body, the strip lighting has a connection mechanism fixedly disposed in the lighting end cover and one end of which electrically connected to the PCB board in the strip lighting body, and an installation module that is electrically connected to other end of the connection mechanism and detachably connected to the lighting end cover for easy replacement. Compared with the prior art, the strip lighting features a variety of installation methods of the lighting and the lighting angle can be adjusted 360 degrees, thereby improving the competitiveness and availability of the lighting.

An apparatus according to one embodiment includes a landing pad having a mating portion configured to mate with a mating feature of a removable element as the removable element approaches the landing pad in a first direction. The apparatus also includes a mount along which the landing pad is movable in a second direction. A lever is positionable between a disengaged position and an engaged position, the lever being coupled to the landing pad for translating the landing pad along the mount in the second direction during movement thereof from the disengaged position toward the engaged position. The first direction is different than the second direction.

A method for charging an electric vehicle may include (a) a step of determining, by a vehicle-side controller, whether to exchange cooling fluid between the vehicle and electric vehicle service equipment (EVSE), when a charge port of the vehicle and a connector of the electric vehicle service equipment are connected together, (b) a step of providing, by the vehicle-side controller, a signal for requesting the exchange of the cooling fluid to a charger-side controller when determining to exchange the cooling fluid, and (c) a step of controlling, by the vehicle-side controller, a cooling line of the vehicle through which cooling fluid of the vehicle circulates, to cause the cooling fluid of the vehicle to flow into a cooling line of the electric vehicle service equipment through the charge port.

It is aimed to provide a female terminal capable of suppressing the rattling of a tab. A female terminal (10) of the present disclosure is fit to a male terminal (20) and includes a bottom wall (26), a resilient contact piece (14) and rattling suppressing portions (18). The resilient contact piece (14) is cantilevered from the bottom wall (26) and resiliently contacts the male terminal 20 by being displaced toward the bottom wall (26). The rattling suppressing portions (18) can contact the male terminal (20) when the male terminal (20) is displaced toward the bottom wall (26).

A socket connector includes an array of socket contacts arranged in rows and columns. The socket contacts have upper mating interfaces for mating with a first electronic package and lower mating interfaces for mating with a second electronic package. The socket contacts are configured to electrically connect the first and second electronic packages. Each socket contact includes an upper cap, a lower cap, and a spring beam helically coiled between the upper cap and the lower cap. The spring beam is compressible. The upper cap, the lower cap and the spring beam are additive manufactured such that the upper cap, the lower cap and the spring beam form a unitary, three-dimensional conductive structure to electrically connect the first and second electronic packages.

The invention relates to a connection element for electrically connecting an individual line which has a concentric conductor arrangement (32) and a central passage (33) for a cooling fluid. The connection element comprises an electrically conductive housing (2) with a sleeve-shaped pressing portion which is suitable for producing a press connection to the concentric conductor arrangement (32). The electrically conductive housing (2) here has an internal cooling passage (10) with a connection opening (11) for an external cooling line, said cooling passage leading into a space surrounded by the sleeve-shaped pressing portion. In addition, the connection element comprises a counterpressure element (3) which can at least partially lie in the space surrounded by the sleeve-shaped pressing portion. The counterpressure element (3) is furthermore configured to support the concentric conductor arrangement (32) on the inner side thereof when the sleeve-shaped pressing portion is compressed during the production of a press connection. The invention furthermore relates to a fluid-coolable individual line unit and to a charging cable having a charging connector.

The present disclosure provides an aerosol delivery device and a cartridge for an aerosol delivery device. In various implementations, the aerosol delivery device comprises a control device that includes an outer housing defining a cartridge receiving chamber, and further includes a power source and a control component, and a cartridge that includes a mouthpiece, a tank, a heating assembly, and a bottom cap. The mouthpiece defines an exit portal in an end thereof, and the tank is configured to contain a liquid composition therein. The cartridge is configured to be removably coupled with the receiving chamber of the control device, and the heating assembly defines a vaporization chamber and is configured to heat the liquid composition to generate an aerosol. The heating assembly comprises a substantially planar heating member and a liquid transport element, wherein the heating member is installed in a bowed orientation.

The invention relates to an assembled electrical cable (1). The cable (1) has a cooling channel (2) extending along the center axis (M) of the cable (1) and at least one inner conductor (4) extending along the outer surface of the cooling channel (2). The cable (1) furthermore has a cable sheath (7) guiding the inner conductor (4) and the cooling channel (2) within itself and a contact element (9) for an electrical plug connector (10), wherein the contact element (9) is electrically and mechanically connected to at least one portion of the inner conductor (4) exposed from the cable sheath (7). According to the invention, the inner conductor (4) is integrally joined to the contact element (9) or is compacted in a planar manner in order to form the contact element (9).

An electrical connector, comprising a connector main body, a cable, a connecting housing, a limiting member, and a housing. The connector main body comprises a plugging side and a connecting side. One end of the cable is electrically connected with the connector main body, while the other end protrudes from the connecting side of the connector main body. The connecting housing is disposed at one side of the connector main body. The cable protrudes from one side of the connecting housing close to the connecting side. The limiting member is disposed at one side of the connecting housing close to the plugging side. The housing is disposed at one side of the connecting housing close to the plugging side. The plugging side of the connector main body is disposed in the housing. The connecting housing is assembled to the housing through the cooperation of the limiting member and the housing.