Abstract:
A plug-in connector is provided that can be released easily and reliably from an assigned mating connector, and has increased lifetime. The plug-in connector includes a plug head and a sliding sleeve. The plug head has a hollow body with at least one cable connector, and at least two locks located on at least one surface of the body. The locks are connected by a bridge, and extend in a sliding direction. Each lock includes at least one free end. The sliding sleeve includes an opening to receive the plug head in a sliding direction and is movable in an axial direction relative to the plug head. An unlocking element is located on an inner side of the opening and positioned to contact the bridge of the plug head. The unlocking element pushes against the locks when the sliding sleeve moves in the sliding direction.
Abstract:
An electric plug having a first connection region, a second connection region, and a contact carrier. The first connection region, having at least one vertical contact, is provided for connecting at least one electrical conductor, while the second connection region includes at least one horizontal contact for contacting a counter connector which is to be connected to the electric plug. The contact carrier includes an upper surface on which the vertical and horizontal contacts are provided, with the contact carrier being configured to electrically interconnect the first and second connection regions. Furthermore, the contact carrier is arranged in a housing, forming a datum plane on the lower side of the housing in the plug-in direction, with the upper surface of the contact carrier is arranged in an inclined position with respect to the datum plane.
Abstract:
The invention relates to a plug connector with a housing for accepting an electrical cable with at least an electric wire and a sheathing. On the housing, a holding element is fixed that has a holding tab, the holding tab being arranged at an angle to a longitudinal direction of the electrical cable, and an edge of the holding tab being provided for engaging the sheathing of the cable.
Abstract:
A plug (10) for connecting to a plug socket comprises a plug contact region (18) having one or more contacts for producing one or more electrical connections between the plug (10) and the plug socket. The plug also comprises a latch spring (32) having a first plug latching element (36) for connecting the plug (10) to a first socket latching element of the plug socket and a second plug latching element (38) for latching the plug (10) to a second socket latching element of the plug socket.
Abstract:
A terminal unit with a housing and a cover is described, a cable receiving opening for a terminal module being provided in the cover. Contact members are arranged in the housing and held pivotably on the housing. The contact members have contacts which make electric contact with an electrical lead when the contact member is swivelled from an open position into a contact position. The contact members have seating surfaces which form a receiving chamber for a printed circuit board. The printed circuit board is part of the terminal module which can be slid into the aperture in the cover, conductors of the board making electric contact with the contacts of the contact members.
Abstract:
A plug (10) for connecting to a plug socket comprises a plug contact region (18) having one or more contacts for producing one or more electrical connections between the plug (10) and the plug socket. The plug also comprises a latch spring (32) having a first plug latching element (36) for connecting the plug (10) to a first socket latching element of the plug socket and a second plug latching element (38) for latching the plug (10) to a second socket latching element of the plug socket.
Abstract:
A shielded connection arrangement is provided for electrically connecting at least one multiple-conductor shielded electrical wire to a circuit carrier or the like, in particular for connecting an Ethernet line to an electrical device. The connection arrangement includes an electrically insulating housing 101 having a securable cover 102 and, located therein, insulation displacement contacts 103 for making contact with wire conductors 141 of the at least one electrical wire 14. Within the insulating housing 101 and/or below the cover 102 there is an electrically conductive shield plate 121 for shielding 12 the interior of the housing in a manner which is largely closed.
Abstract:
An electrical interconnection system for electronic modules that are mountable on a support and stackable against other similar modules where the interconnection system allows for pivotable attachment of the modules to the support and electrical contacting with adjacent modules, such that power and data transmissions can occur therebetween, through an interconnection that protects the contacts during pivoting attachment of the module to the support and assures a reliable and easily established interconnection therebetween.
Abstract:
The invention relates to a receptacle for standard connections in industrial information networks, in particular an RJ45 jack for Ethernet-based applications. The receptacle includes a socket which opens against a plug-in direction and a plurality of spring contacts. The spring contacts each form a first inclined lead in surface projecting into the socket in the plug-in direction. To allow a downwardly compatible, vibration-resistant connection, it is proposed according to the invention that the spring contacts each form a further second inclined lead in surface offset in the plug-in direction from the first inclined lead in surface.
Abstract:
An electric plug having a first connection region, a second connection region, and a contact carrier. The first connection region, having at least one vertical contact, is provided for connecting at least one electrical conductor, while the second connection region includes at least one horizontal contact for contacting a counter connector which is to be connected to the electric plug. The contact carrier includes an upper surface on which the vertical and horizontal contacts are provided, with the contact carrier being configured to electrically interconnect the first and second connection regions. Furthermore, the contact carrier is arranged in a housing, forming a datum plane on the lower side of the housing in the plug-in direction, with the upper surface of the contact carrier is arranged in an inclined position with respect to the datum plane.