| INTELLECTUAL PROPERTY HOLDINGS, LLC Patent applications |
| Patent application number | Title | Published |
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| 20120125294 | FUEL INJECTOR CONNECTOR DEVICE AND METHOD - A connector device and method of converting an engine to operate using an alternative fuel is disclosed. In one embodiment, the connector device comprises an outlet portion, a first injector portion, and a second injector portion. The outlet portion is configured to mate with a fuel injector opening of the engine. The outlet portion comprises an outlet channel in fluid communication with a combustion chamber of the engine when the connector device is installed in the fuel injector opening. The first injector portion is configured to receive a first fuel injector and comprises a first injector opening and a first injector channel. The second injector portion is configured to receive a second fuel injector and comprises a second injector opening and a second injector channel. The second injector channel is curved to provide a laminar flow of fuel through the second injector channel. | 05-24-2012 |
| 20120000010 | ENERGY-ABSORBING PADS - An energy-absorbing pad structure includes an energy-absorbing pad that is encapsulated by a polymeric film. The polymeric film is sufficiently air-permeable to permit air to escape during rapid compression of the pad structure, such as from a high-speed dynamic impact, but nonetheless is water resistant under ordinary conditions. It is desirable that the polymeric film is made from an elastic polymer. The air-permeability can be provided from a series of perforations such that the film's elastic quality tends to contract the perforations thereby impeding the progress of water through them under normal conditions. The energy-absorbing pad can be a semi-rigid viscoelastic foam. | 01-05-2012 |
| 20110184079 | FIRE-RETARDANT POLYURETHANE FOAM AND PROCESS FOR PREPARING THE SAME - A process for preparing a polyurethane foam that contains particles of expandable graphite and a halogenated fire-retardant additive which surprisingly impart excellent fire-retardant properties to the foam and provide a stable isocyanate-reactive component having improved pot life for industrial scale production purposes. The polyurethane foam can be prepared by mixing a single isocyanate-reactive component containing the graphite and halogenated additives along with all of the polyols and other ingredients with an isocyanate component in a two-component mixing machine such as a high-pressure mixing device for applying the reaction mixture into a suitable container. | 07-28-2011 |
| 20100282062 | ARMOR PROTECTION AGAINST EXPLOSIVELY-FORMED PROJECTILES - A hybrid armor architecture is provided that is effective against explosively-formed and other high-energy ballistic projectiles. The architecture includes at least one laminate reactive armor panel including a layer of non-explosively reactive material sandwiched between outer layers of a ductile material, an armor plate disposed behind the laminate reactive armor panel, and a flyer plate disposed behind the armor plate. The flyer plate or a portion thereof is configured to move toward and impact a body panel that is being protected on impact of a high-energy ballistic projectile with the flyer plate or the portion thereof, to thereby increase the total area of impact with the body panel relative to the projectile alone. | 11-11-2010 |
| 20100207290 | BODY PANEL HAVING IMPROVED STIFFNESS AND METHOD OF MAKING - A damping system includes a base substrate, a constraining substrate and a non-foam damping layer between them. The base substrate has greater lateral dimensions than the constraining substrate. Consequently, the damping system is provided in a localized region of the base substrate. The damping system can be provided, for example, at a region of the base substrate where a longitudinal projection or moving linkage extends through an opening in the base substrate, such as a steering column through a dashboard panel. In this embodiment, a composite opening is provided through the damping system to accommodate the extending projection or linkage, and the damping system is effective to provide localized damping against vibrations due to the through-the-panel linkage. The damping system provides these benefits without increasing the overall thickness of the body part, and without providing damping and constraining layers across its entire lateral expanse, saving cost and weight. Methods of making such a damping system are also provided. | 08-19-2010 |
| 20090183821 | CONSTRAINED LAYER DAMPING SYSTEM AND METHOD OF MAKING THE SAME - A method of producing a constrained layer damping system including a constraining layer, a damping layer, a viscous thermally-activated decoupler (VTAD) layer and a base blank layer. The method includes the steps of blanking a constraining layer, applying a damping layer to the constraining layer to form a constraining/damping construct. A VTAD layer can be applied onto the damping layer to form a layered constraining/damping/VTAD construct in which the VTAD layer has at least one exposed surface. The exposed surface of the VTAD layer on the constraining/damping/VTAD construct is pressed onto a cleansed side of a base blank layer to form a constrained layer damping system. | 07-23-2009 |
| 20080236378 | AFFIXABLE ARMOR TILES - Affixable armor that can be used to provide additional protection for a surface is described. The affixable armor includes polygonal ceramic tiles that can be attached directly to a surface, or first attached to a carrier sheet which is then attached to a surface. A visco-elastic polymer can be used to help absorb projectile impact. The ceramic tiles include a substantially conical or pyramidal deflecting front surface to provide additional protection. The ceramic tiles can be placed so that they are spaced to provide a gap with a width that is less than the diameter of an expected ballistic threat in order to provide additional projection. The affixable armor can be configured for rapid removal and replacement, or it may be permanently affixed to the surface. | 10-02-2008 |
