Patent application number | Description | Published |
20120307501 | LED PLASTIC HEAT SINK AND METHOD FOR MAKING AND USING THE SAME - In an embodiment, heat sink system can comprise: an integrally formed plastic heat sink and a printed circuit board package, wherein the plastic heat sink comprises a thermally conductive plastic having a thermal conductivity of at least 1.0 W/mK. In another embodiment, hybrid heat sink system, comprising: an integrally formed plastic heat sink and an insert, wherein the plastic heat sink comprises a thermally conductive plastic, the plastic heat sink and the insert each having a cylindrical shape, and wherein the insert comprises a feature of lancing provisions, corrugations, embossing, holes, or a combination comprising at least one of the foregoing features. | 12-06-2012 |
20130055849 | STEERING APPARATUS THERMAL MANAGEMENT - A steering wheel system can comprise: an armature comprising a rim comprising a plastic core, a covering between the plastic core and the protective outer layer, and a thermal management provision; a hub with a bush; and a spoke connecting the rim to the hub. A method for making a thermal management steering wheel can comprise: forming a plastic rim with a core having a channel with ribs, wherein during use, the ribs induce a change in direction and a change in velocity of a fluid flow through the channel; laser direct structuring electrically conductive material onto the core; disposing a foam material around the core; and disposing a protective material around the foam material. | 03-07-2013 |
20130088885 | MOUNTING STRUCTURE FOR A HEADLAMP REFLECTOR - In some embodiments, a headlamp assembly can comprise: a reflector, a mounting bracket, a housing, and a light source. The reflector can have a lip at a light source opening and a peripheral rim with a reflector portion extending from the lip to a peripheral rim. The mounting bracket can be configured to attach to the reflector. The mounting bracket can comprise attachment structures configured to mate with the lip, and adjustment features that enable horizontal, vertical, and pivotal adjustment. The light source can extend into the reflector through the light source opening. | 04-11-2013 |
20130193698 | ENERGY ABSORBING ASSEMBLY AND METHODS OF MAKING AND USING THE SAME - In an embodiment, an energy absorbing assembly comprises a foam stage having a first surface and a second surface, wherein the second surface comprises a recess; and a thermoplastic stage comprising a frame and crush lobes; wherein the crush lobes extend from the frame of the thermoplastic stage into the recess. In another embodiment, a method of making an energy absorbing assembly comprises forming a foam stage having a first surface and a second surface, wherein the second surface comprises recesses; forming a thermoplastic stage having a frame and crush lobes protruding from the frame; and engaging the recesses and the crush lobes to form the energy absorbing assembly. | 08-01-2013 |
20130221917 | Energy Absorbing System for Electric Vehicle Charging Station and Methods for Making and Using the Same - In one embodiment, an electric vehicle charging station comprises a base and a body extending from the base along a major axis of the electric vehicle charging station; and an energy absorbing system comprising a first wall, a second wall, and a connecting wall disposed therebetween the first wall and the second wall creating a compartment; wherein the body receives the energy absorbing system; and wherein the energy absorbing system is configured to engage an impacting object. | 08-29-2013 |
20130234663 | ENERGY ABSORBING SYSTEM FOR ELECTRIC VEHICLE CHARGING STATION AND METHODS FOR MAKING AND USING THE SAME - In one embodiment, an electric vehicle charging station comprises a body attached to a base, wherein the base is operably connected to a deflector mechanism, wherein the body moves from a rest position disposed along a major axis of the electric vehicle charging station to an impact position, with an articulation angle disposed therebetween, upon an impact having a force greater than or equal to 5 kiloNewtons. | 09-12-2013 |
20140063829 | HEAT DISSIPATING SYSTEM FOR A LIGHT, HEADLAMP ASSEMBLY COMPRISING THE SAME, AND METHOD OF DISSIPATING HEAT - In an embodiment, a heat dissipating system for a light can include: a light source comprising an LED; a reflector adjacent the LED; a housing around the LED module; and a flexible conductive connector attached at one end to a heat sink and at another end to the light source, and configured to conduct heat away from the light source and to the heat sink. The heat sink is located remote from the light source. In an embodiment, a method of dissipating heat away from a LED module can include: conducting heat from the LED module through a flexible conductive connector to a heat sink, wherein a lamp comprises the LED module, a housing, and a reflector, and wherein the heat sink is located external to the LED housing. | 03-06-2014 |
20140092530 | POWER INVERTER - In an embodiment, a power inverter casing, comprises: a body having a first component removably attached to a second component, wherein, when joined, a recess is formed therebetween; a member removably attached to the first component and the second component opposite the recess; and a handle located in the recess and removably attached to the first component and the second component; wherein the member contains a first member illuminating element, and/or the recess contains a recess illuminating element, and/or the handle contains a handle illuminating element. | 04-03-2014 |
20140270937 | ROAD BARRIER ENERGY ABSORBER MECHANISM - A road barrier energy absorber system, comprising: an energy absorber unit comprising outer walls with a stiffening element located between the outer walls; wherein the energy absorber unit has a size and shape to be located on at least one side of a road barrier; and wherein upon an impact, the energy absorber unit will absorb, e.g., up to 300 kJ of energy. | 09-18-2014 |
20140272119 | FUNCTIONALLY GRADED POLYMER ARTICLES AND METHODS OF MAKING SAME - Disclosed herein are methods for manufacturing a functionally graded polymer material. The methods comprise preparing a melted polymer mixture comprising a thermoplastic polymer and a magnetic filler dispersed in the thermoplastic polymer, molding the melted polymer mixture and applying a magnetic field to a portion of the melted polymer mixture to form a functionally graded polymer material. The resulting functionally graded polymer material has a magnetic filler gradient formed through a thickness of the material. | 09-18-2014 |