A connector assembly includes a first electrical connector, a second electrical connector detachably plugged to the first electrical connector and an elastic engaging component including a mount part, a bent part, an arm part, an engaging part and a press part. The mount part includes an insertion plate configured to be inserted into the retaining groove and a movable plate connected to the insertion plate. The arm part is connected to the mount part via the bent part. The arm part and the mount part are located at the same side of the bent part. The engaging part is located at the arm part and is movable along with the arm part. the engaging part is configured to be engageable with the second electrical connector. The press part is connected to the arm part, and the arm part is movable by pushing the press part.

A connector assembly includes a first electrical connector, a second electrical connector detachably plugged to the first electrical connector and an elastic engaging component including a mount part, a bent part, an arm part, an engaging part and a press part. The mount part includes an insertion plate configured to be inserted into the retaining groove and a movable plate connected to the insertion plate. The arm part is connected to the mount part via the bent part. The arm part and the mount part are located at the same side of the bent part. The engaging part is located at the arm part and is movable along with the arm part. the engaging part is configured to be engageable with the second electrical connector. The press part is connected to the arm part, and the arm part is movable by pushing the press part.

The presentation invention relates to a first electrical connector element for a modular construction element and/or system, including a first connector part having a plurality of electrical contacts electrically connected to a plurality of electrical conductors. The first electrical connector is adapted to connect with a second electrical connector element, and includes a strain relief part to securely hold the plurality of electrical conductors thereby securing the plurality of electrical conductors to the first electrical connector element. The first electrical connector also includes a number of lock and release elements for engaging with the second electrical connector element when mechanically and electrically coupled together and releasing the coupling of the first and the second electrical connector elements when subjected to one or more pull forces above a predetermined release threshold.

A charging plug connector includes a power contact component having a first connecting region for galvanic connection to a corresponding connection region of the connecting device; a second connecting region electrically coupled to a charging cable, wherein the power contact component provides electrical energy from the charging cable to the first connecting region; a charging plug housing covering the power contact component; and a compressed air connector mechanically coupled to the charging plug housing; wherein the charging plug connector guides a compressed air stream provided to the compressed air connector to the power contact component for cooling it.

The invention relates to a plug-in connection, comprising: an electrical connector having an electrical connector housing (1); and a mating electrical connector (17), which can be plugged together with the electrical connector. The electrical connector has a superstructure (4), and the superstructure (4) receives a locking element (8) in a pre-latching position and in a final latching position. The electrical connector has first detent elements and the locking element (8) has first detent elements corresponding thereto. The mating electrical connector (17) has additional detent elements and the locking element (8) has additional detent elements corresponding thereto. The locking element (8) is first fastened to the electrical connector in the pre-latching position by means of the first detent elements corresponding to one another before the mating electrical connector is inserted into the electrical connector, and the additional detent elements corresponding to one another are actuated by the insertion of the mating electrical connector into the electrical connector, whereby the locking element (8) can be moved into its final latching position. The electrical connector housing (1) and the locking element (8) have third detent elements corresponding to one another, by means of which additional locking of the locking element (8) to the electrical connector is effected when the locking element has been moved into its final latching position. The superstructure (4) has a cut-out (7), and the locking element (8) has a detent protrusion (21), which can be moved into the cut-out (7). The locking element (8) has an elongate extension arm (9), at the one end of which an actuation pan (10) is arranged. The first detent elements are arranged in the front end region of the extension arm (9) remote from the actuation part and the third detent elements of the locking element (7) are arranged in the region of the extension arm (9) that adjoins the actuation part (10). The plug-in connection is characterized in that the extension arm (9) has two laterally arranged pins (13) in the region between the first, front detent elements and the third, rear detent elements, the electrical connector housing (1) having, at the height of each pin (13), a contact web (25) for an end face of the pin (13) in question, each contact web (25) being spaced apart from the electrical connector housing (1) by a slot (26).

A plug connector includes a plug housing including a mating end and a cable end perpendicular to the mating end. The contact assembly includes an array of contacts each having a mating end and a terminating end. The contacts are right-angle contacts terminated to an end of a conductor of a cable. The plug connector includes a latch coupled to the plug housing. The latch includes a main body and a latch member extending from the main body. The main body has an actuator is configured to actuate the latch. The latch member includes a securing base coupled to the plug housing to secure the latch to the plug housing. The latch member includes a latching tab configured to be latchably coupled to the mating connector to secure the plug connector to the mating connector.

A locking connector system for releasably locking a first connector in mechanical engagement with a second connector. The locking connector system generally includes a first connector including a female coupler and a second connector including a male coupler, with the first and second connectors being adapted to mechanically connect to each other. The first connector includes an adjustable latch which selectively engages with a catch portion on the male coupler to lock the connectors together. The latch may be pressed downwardly, such as by use of a connected button, to release the latch from the catch portion and disconnect the connectors. The first connector is adapted to provide audible, visual, and tactile feedback to confirm when the latch engages with the catch portion.

The housing has a locking portion, which is positioned within the range between the circuits positioned at the outermost ends in the strip width direction of the flat-type conductor and is lockable to the counterpart electrical connector, and a holding space, which holds the retainer along with the front end section of the flat-type conductor, the front end section of the flat-type conductor has formed therein a pass-through portion extending through the flat-type conductor in the thickness direction of said flat-type conductor at a location at least partially overlapping with the locking portion in the strip width direction, and the retainer has a protrusion that protrudes in the thickness direction of the flat-type conductor and enters the pass-through portion of the flat-type conductor, thereby making it possible to limit the rearward movement of the flat-type conductor with the help of said protrusion.

A plug connector assembly for a cable includes a plug-in unit, a mating plug-in unit and a securing unit with a base part. A housing of the plug-in unit has a latching element having a free end with a latch that can be latched to a latching seat. In a released position of the securing unit, the base part abuts a bar of the plug-in unit so that movement into a locked position is blocked. The mating plug-in unit has a deflection element that deflects the base part and positions a groove in alignment with the bar, so that the bar is insertable into the groove, and the securing unit is movable into the locked position in which a locking element blocks a movement of the free end, and prevents the latch from leaving the latching seat.

An electrical connector with a flat-type conductor 1 for matingly connecting a front end section of a flat-type conductor C with a strip-like configuration extending in the forward-backward direction to a counterpart electrical connector 2, said electrical connector with a flat-type conductor 1 comprising the flat-type conductor C and a housing 10 holding the front end section of the flat-type conductor C, wherein the housing 10 has a locking portion 11E lockable to the counterpart electrical connector 2 and receiving spaces 10D for receiving counterpart terminals 30 provided in the counterpart electrical connector 2, and the locking portion 11E, along with being positioned differently from the position of the receiving spaces 10D when viewed in the thickness direction of the flat-type conductor C, is positioned so as to at least partially overlap with the receiving spaces 10D in the thickness direction of the flat-type conductor C.