Disclosed is an electrical connecting apparatus for supplying power to cars which are coupled to one another, including a first plug-in connector to which at least one cable is connected, and a corresponding second plug-in connector which is intended to be fastened to a car wall, in particular in a vertical lateral wall. The first plug-in connector and the second plug-in connector are each provided with one or more corresponding first contact elements or second contact elements which can be plug-connected in an insertion direction (A), and the cable of the first plug-in connector exits from the first plug-in connector in a first cable outlet direction (B) which is angled away in relation to the insertion direction (A). Also disclosed is a rail vehicle having at least two coupled cars, wherein each of the two coupled cars is provided with at least one electrical connecting apparatus as above described.

An electrical connection device for connecting a plug, preferably a HV pin header, to a printed circuit board in a motor vehicle, having the following: at least one first electrical connection-device for contacting at least one assigned plug-connector contact; at least one second electrical connection-device contact for contacting at least one assigned printed-circuit-board contact wherein at least one first connection-device contact at least one second connection-device contact are connected to one another, wherein the electrical connection device is configured in such a manner that at least one printed-circuit-board contact is able to be selectively connected to assigned plug-connector contacts which differ in terms of the relative disposal thereof in relation to the printed-circuit-board contact and/or differ from one another in that said plug-connector contacts are a component part of plug connectors which differ from one another in terms of the configuration of the respective plug-connector contacts thereof.

An electrical plug connector, in particular built-in plug connector, includes a housing with a connecting flange having through holes for feeding through fasteners; a flange plate with mounting bores for connecting to a device wall; a control panel, or similar; and a seal inserted therebetween. The outer edge of the flange plate is bent towards the housing and overlaps the outer edge of the connecting flange. The seal protrudes with a circumferential sealing lip into the insertion opening and has an edge bent towards the housing, which edge overlaps circumferential edge of the connecting flange and which, itself, is overlapped by the outer edge of the flange plate. In the assembled state, the circumferential edge of the flange plate extends at maximum to the height of the rear side of the connecting flange and the edge of the seal is higher than the rear surface of the connecting flange.

An electrical power and/or electronic data unit is mountable in a floor, and is fitted with an upper bezel that is openable and closable to provide selective access to an interior of the unit, which is optionally fitted with one or more electrical power or data outlets. A lower insert including an intumescent block is supported below an upper housing, and is angularly adjustable relative to the upper housing. One or more bores or openings formed in the lower insert allow the passage of cords into a pass-through opening in the upper housing, and out through an upper bezel cover.

Disclosed is a modular water sports device. The modular water sports device comprises a surfboard module, the surfboard module comprising a board body; a driving module, the driving module comprising an electric motor and a propeller connected to a driving shaft of the electric motor, and the driving module being detachably connected to the board body; and a power module, the power module comprising a battery, the power module being detachably connected to the board body, and the battery and the electric motor being electrically connected. The modular water sports device in the present invention integrates the components related to the same function into corresponding functional modules, such as the surfboard module, the driving module and the power module, and the driving module and the power module are both detachably connected to the surfboard module. Compared with a method for directly and loosely assembling the components, the present embodiment can reduce the difficulty of assembly and facilitate later disassembly and maintenance.

An electrical connector including a mounting flange defining a mounting hole extending therethrough that is configured to receive a threaded fastener and a deformable crush rib extending from the mount flange and surrounding the mounting hole is presented herein. A method of assembling an electrical connector to a panel including the steps of inserting a fastener within a mounting hole of a mounting flange defining the mounting hole extending therethrough and a crush rib surrounding the mounting hole, applying a clamping force to the mounting flange via the fastener, and deforming the crush rib via the clamping force applied by the fastener such that the deformed crush rib at least partially fills a gap between an inner wall of the mounting hole and the fastener is also presented herein.

A seal arrangement for a plug-in connector for establishing electrical connections via a housing, in particular a device for driving a compressor. The seal arrangement exhibits a mounting element to accommodate plug-in connectors for transmitting electrical energy and data, and a sealing element located between the housing and the mounting element. The mounting element is designed with a flange with a sealing surface facing in the direction of the housing. The sealing surface of the flange thus exhibits a first contour and the housing exhibits a second contour in the area of the location of the sealing surface surrounding a pass-through opening.

A device connector (10) is to be mounted on a case (1) of a device and includes a housing (20) configured to fit into a mounting hole (2) in the case (1). A wire (40) is pulled out from the housing (20) in parallel to an outer surface (4) of the case (1). A shield (50) includes a wire-side mounting portion (53) that is configured to cover the wire (40), and a connecting member (60) configured to coaxially arrange and directly connect a case-side mounting portion (3) projecting in a direction intersecting a pull-out direction of the wire (40) from the outer surface (4) of the case (1) and the wire-side mounting portion (53).

An electrical connector for making electrical contact with at least one lead of an electronic device. The connector includes a mounting flange portion and a connector housing portion. The connector also includes at least one conductor having a pin end and a terminal end, wherein the terminal end includes a lead opening that receives the lead and a fastener hole oriented substantially transverse to the lead opening. A fastening element is used to engage the fastener hole and contacts the lead to form electrical contact between the conductor and the lead. The connector further includes a conductor carrier that extends through the connector housing and mounting flange. The conductor carrier includes a base portion and at least one extended portion that extends from the base portion to form a staggered arrangement. The base and extended portions each include a plurality of channels wherein each channel includes a conductor.

A high current terminal assembly, including a terminal including a first end, a second end, and a radially outward facing surface, and a shroud at least partially surrounding the terminal, the shroud including a third end arranged proximate to the first end, a fourth end forming a first flange, and a first hole forming a radially inward facing surface, wherein the terminal is arranged in the first hole and the radially inward facing surface is operatively arranged to engage the radially outward facing surface.