Patent application number | Description | Published |
20080200076 | Electric plug connector - An electric plug connector includes a guide sleeve, a plug connector part attachable to the guide sleeve, a bayonet ring on the connector part for rotatably engaging with the guide sleeve to move between unlocked and locked positions, and a locking button arranged on the bayonet ring to slide with the ring as the ring moves. While the connector part is attached to the guide sleeve the ring locks the attachment by engaging with the guide sleeve when the ring is in its locked position. The button is displaceable relative to the guide sleeve between inactivated and activated positions. The button includes a latching hook and a pin that interact with the sleeve to enable the button to move between its inactivated and activated positions. The latching hook and the pin engage with the sleeve when the button is in its activated position to secure the locking of the attachment. | 08-21-2008 |
20110076901 | POWER TERMINAL - An electrical connector formed to have at least one or more pairs of opposing legs extending from a body portion where each leg extends to a contact point where an inner surface of each opposing leg contact. A spring clip can be positioned over one or more of the opposing legs to increase a compressive force. The spring clip may include an alignment feature to limit clip rotating and/or pitching. | 03-31-2011 |
20120077376 | Plug-In Connector for Connecting to a Coaxial Cable - A cable assembly includes a coaxial cable and a plug-in connector. The cable has inner and outer conductors and an insulation layer between the conductors. The connector has first and second tubular components. The first tubular component is inserted between the insulation layer and the outer conductor at a free end section of the cable and the second tubular component is connected to the first tubular component and encloses the outer conductor whereby the plug-in connector is connected to the cable. The second tubular component forms a sleeve that opens toward the free end section of the cable. | 03-29-2012 |
20120129407 | POWER TERMINAL - An electrical connector formed to have at least one or more pairs of opposing legs extending from a body portion where each leg extends to a contact point where an inner surface of each opposing leg contact. A spring clip can be positioned over one or more of the opposing legs to increase a compressive force. The spring clip may include an alignment feature to limit clip rotating and/or pitching. | 05-24-2012 |
20130023137 | ELECTRICAL CONNECTOR - An electrical connector includes an electrical terminal and a housing having a front end and a back end with an opening configured to receive the electrical terminal therethrough. The housing includes a first lock system configured to allow insertion of the electrical terminal into the housing and prohibit removal of the electrical terminal from the housing. The housing is configured such that the first lock system is accessible from the front of the housing to release the electrical terminal from the first lock system. A second lock system is configured for insertion into the housing to prohibit removal of the electrical terminal from the housing independently from the first lock system. | 01-24-2013 |
20130045630 | TOUCH PROOF END CAP FOR A LEADING END OF A CONDUCTING CONNECTOR - A touch proof connector is contemplated. The connector may be comprised of a conducting body with a non-conducting end cap. The touch-proof connector may be included within a charging receptacle of a vehicle to facilitate establishing electrical connection with a connector assembly of a plug-in charging system. The non-conducting end cap may be configured to facilitate insulating a tip of the touch-proof connector from human contact. | 02-21-2013 |
20130090012 | CONNECTOR HAVING OPTIMIZED TIP - A connector having an optimized tip is disclosed. The tip may be optimized to facilitate insulating the connector and/or providing a low friction surface to facilitate insertion. The tip may be optimized with a non-conducting and/or low friction end cap configured to be positioned over the tip. | 04-11-2013 |
20140038463 | SUBMERGIBLE FUSED RECEPTACLE ASSEMBLY FOR A VEHICLE CHARGING INLET - A receptacle assembly for a vehicle charging inlet is provided having a base with apertures formed through, an external receptacle extending from the base in a first direction for receiving a charging cable connector, and an internal receptacle extending from the base in a second direction, opposite the first direction, for receiving a plurality of wires from a wire harness. The internal receptacle defines an internal cavity having at least one terminal receptacle formed about one of the apertures and at least one fuse receptacle. The internal receptacle includes wire channels for routing a wire having an inline fuse from the terminal receptacle to the fuse receptacle and from the fuse receptacle to a wire outlet. The inline fuse is received by the fuse receptacle. | 02-06-2014 |
20150079859 | Electrical Terminal Assembly - An electrical terminal assembly has a base and a spring member. The base defines an axis and including a plurality of base beams deflectable in a radial direction relative to the axis. The spring member has a main portion disposed over the base. The spring member includes a plurality of spring beams extending from a front end of the main portion. The spring beams bias the base beams radially inwardly towards the axis. The main portion is made from a folded blank having a first edge that is permanently secured to a second edge such that the edges cannot be pulled apart from one another. | 03-19-2015 |
Patent application number | Description | Published |
20100273085 | Method for the Electrochemical Deposition of Catalyst Particles Onto Carbon Fibre-Containing Substrates and Apparatus Therefor - The present invention describes a method and an apparatus for the electrochemical deposition of fine catalyst particles onto carbon fibre-containing substrates which have a compensating layer (“microlayer”). The method comprises the preparation of a precursor suspension containing ionomer, carbon black and metal ions. This suspension is applied to the substrate and then dried. The deposition of the catalyst particles onto the carbon fibre-containing substrate is effected by a pulsed electrochemical method in an aqueous electrolyte. The noble metal-containing catalyst particles produced by the method have particle sizes in the nanometer range. The catalyst-coated substrates are used for the production of electrodes, gas diffusion electrodes and membrane electrode units for electrochemical devices, such as fuel cells (membrane fuel cells, PEMFC, DMFC, etc.), electrolysers or electrochemical sensors. | 10-28-2010 |
20100297904 | Ultrahydrophobic substrate provided on its surface with metallic nanoparticles, method of production and use of same - A method of producing a ultrahydrophobic substrate provided on its surface with metallic nanoparticles comprising the steps of furnishing a ultrahydrophobic substrate, applying a precursor layer on said substrate with deposition of metallic nanoparticles from the precursor layer on the substrate. The precursor layer is preferably free of electronic conductive particles and the particles are preferably deposited electrochemically from the precursor layer. | 11-25-2010 |
20110308939 | ELECTRODE FOR ELECTROLYTIC PRODUCTION OF CHLORINE - The present invention relates to an electrode that includes an electrically conducting substrate based on a valve metal having a main proportion of titanium, tantalum or niobium, and an electrocatalytically active coating comprising up to 50 mol % of a noble metal oxide or noble metal oxide mixture and at least 50 mol % of titanium oxide. The coating includes a minimum proportion of oxides of anatase structure determined by a ratio of the signal height of the most intensive anatase reflection in an x-ray diffractogram (Cu | 12-22-2011 |
20120103828 | ELECTRODE FOR ELECTROLYTIC CHLORINE PRODUCTION - The present invention relates to an electrode comprising an electrically conductive substrate and a catalytically active layer, wherein the catalytically active layer is based on two catalytically active components and comprises iridium, ruthenium or titanium as metal oxide or mixed oxide or mixtures of the oxides, wherein the total content of ruthenium and/or iridium based on the sum of the elements iridium, ruthenium and titanium is at least 10 mol %, and wherein the electrode comprises at least one oxidic base layer which is applied to the electrically conductive substrate and is impermeable to aqueous electrolytes comprising NaCl and/or NaOH and/or HCl. | 05-03-2012 |
20130087461 | CATALYST COATING AND PROCESS FOR PRODUCING IT - An improved catalyst coating comprising electrocatalytically active components based on ruthenium oxide and titanium oxide, especially for use in chloralkali electrolysis, is described. A production process for the catalyst coating and a novel electrode is also described. | 04-11-2013 |
20130168254 | Electrochemical Deposition of Nanoscale Catalyst Particles - A process for the electrochemical deposition of nanoscale catalyst particles using a sacrificial hydrogen anode as counter electrode for the working electrode is disclosed, whereby a concurrent development of hydrogen at the working electrode is mostly or completely avoided. | 07-04-2013 |