Patent application number | Description | Published |
20080197578 | Multi-piece seal - A multi-piece seal has an outer member and an inner member partly disposed in the outer member. In cross section, the outer member has a C-shape and defines a channel, and the inner member is round and has a pair of lobes extending away from its body. | 08-21-2008 |
20080252020 | RING SEAL WITH AXIALLY-OPPOSED RADIALLY-OFFSET SEAL BEADS - A ring seal includes a sealing ring including an asymmetric body portion having axially-opposed and radially-offset seal beads. The ring seal may also include a reinforcement ring carried at least partially in the sealing ring to distribute load across the seal beads. The ring seal may further include a skirt depending generally axially from the body portion and defining an inner diameter of the sealing ring and preferably having frusto-conical cross-sectional shape. | 10-16-2008 |
20090058015 | RING SEAL HAVING SEALING LOBES - A ring seal includes a body portion and a tail portion extending therefrom. The body portion has, when viewed in cross-section and in an uncompressed state, an axially outboard surface and an axially inboard surface. The outboard surface defines a first sealing lobe, and the inboard surface defines a second sealing lobe that shares an axial centerline with the first sealing lobe. | 03-05-2009 |
20100116366 | FUEL TANK ASSEMBLIES, COMPONENTS, AND METHODS OF MANUFACTURE - A fuel tank assembly includes a fuel tank to contain fuel therein, and a carrier assembly disposed in the fuel tank. The carrier assembly includes a plurality of application-specific fuel system products, a carrier common to a plurality of different fuel tank assemblies to carry the products, and a plurality of common components to mount the products with respect to the carrier in application-specific positions. | 05-13-2010 |
20120222806 | FUEL TANK AND METHOD FOR REDUCING VAPOR PERMEATION THROUGH A FUEL TANK - A method of reducing fuel vapor permeation through a multi-layer tank includes providing a multi-layer overlay onto at least a portion of a structural layer of the multi-layer tank. The multi-layer overlay preferably comprises at least one structural layer composed of a polymeric material that is compatible with one or more of the polymeric structural layer(s) of the multi-layer tank. The multi-layer overlay further comprises at least one barrier layer composed of a vapor barrier material resistant to hydrocarbon permeation therethrough. The multi-layer overlay may be secured to the multi-layer tank by, for example, applying a suitable amount of heat and pressure thereto or by molding the multi-layer overlay to the tank body during a tank forming process. | 09-06-2012 |
Patent application number | Description | Published |
20090035618 | SYSTEM AND METHOD FOR RECIRCULATING UNUSED FUEL IN FUEL CELL APPLICATION - A system and method for delivering an input fluid stream through a fuel cell stack and discharge an unused fluid stream is provided. An inlet of the fuel cell stack is adapted to receive the fluid stream. An ejector is configured to combine the supply fluid stream and the unused fluid stream to generate the input fluid stream and control the flow of the input fluid stream to the fuel cell stack. A blower is configured to control the flow of the unused fluid stream to the ejector. A bypass valve is configured to control the flow of the unused fluid stream to the blower and to the ejector. | 02-05-2009 |
20090142644 | HYDROGEN RECIRCULATION SYSTEM USING INTEGRATED MOTOR GENERATOR ENERGY - A system for delivering a supply fluid stream to a fuel cell stack that discharges an unused fluid stream is provided. A fuel supply is adapted to provide a pressurized supply fluid stream. An expander is in fluid communication with the fuel supply and is configured to receive the pressurized supply fluid stream to reduce the pressure of the pressurized supply fluid stream and to generate mechanical energy in response to reducing the pressure of the pressurized supply fluid stream. An electric machine is operably coupled to the expander and for selectively converting the mechanical energy generated by the expander into electrical energy. A compressor/blower is capable of being driven by at least one of the mechanical energy and the electrical energy to control the flow of the unused fluid stream to the fuel cell stack for recirculating the unused fluid stream back to the fuel cell stack. | 06-04-2009 |
20090208789 | SYSTEM AND METHOD FOR PURGING WATER FROM A FUEL CELL STACK - A system for delivering an input fuel stream to a fuel cell stack to generate electrical current and to discharge an unused fuel stream is provided. A supply produces a supply fuel stream. An ejector combines a purged fuel stream and the supply fuel stream and controls the flow of the input fuel stream to the fuel cell stack. A purging arrangement receives the unused fuel stream which includes impurities and purges the impurities from the unused fuel stream to generate the purged fuel stream. A bypass valve is capable of delivering the purged fuel stream to the ejector. A blower is capable of delivering the purged fuel stream to the ejector. A controller controls one of the bypass valve and the blower for delivering the purged fuel stream to the ejector based on the amount of electrical current generated by the fuel cell stack. | 08-20-2009 |
20100183936 | MODULAR FUEL CELL POWER SYSTEM - A modular fuel cell power system includes a coolant source, a reactant source and a plurality of fuel cell modules. Each of the fuel cell modules includes a fuel cell stack and a fluid distribution plant in fluid communication with the reactant source, coolant source and fuel cell stack. The fluid distribution plant controls the flow of reactant between the reactant source and fuel cell stack. The fuel cell stacks are configured to be selectively electrically connected. | 07-22-2010 |
20140212776 | VARYING WALL GEOMETRY EJECTOR - An apparatus for delivering a primary fuel stream to a fuel cell stack is provided. The apparatus includes an ejector that is configured to receive the primary fuel stream from a fuel supply. The apparatus is further configured to receive the recirculated fuel stream from the fuel cell stack to provide a combined fluid stream for delivery to the fuel cell stack. The ejector includes an elastic conduit for varying a flow of the combined fluid stream based on a power level of the fuel cell stack. | 07-31-2014 |
20140255814 | Fuel Cell Purge Line System - A combined water and anode knock-out purge line for a fuel cell including an inlet portion having an inlet portion lower surface, an outlet portion having an outlet portion lower surface, a middle portion having a lower surface and extending between the inlet portion and the outlet portion. Each lower surface of the inlet portion and outlet portion is raised relative to the lower surface of the middle portion in a generally longitudinal direction. | 09-11-2014 |
20140377671 | PURGE ASSEMBLY FOR A FUEL CELL SYSTEM - A fuel cell purge apparatus for a fuel cell system has a separator defining a chamber for receiving a recirculated fuel stream including a fluid and impurities. The apparatus has a drain conduit with an outer passage connected to the chamber. The outer passage forms a fluid trap to collect the fluid. The drain conduit also has an inner passage nested within the outer passage through the fluid trap for delivering the impurities to a purge valve. The inner passage has a free end extending into the chamber of the separator. | 12-25-2014 |
Patent application number | Description | Published |
20090317653 | METHOD OF COMPACTING A FIRST POWDER MATERIAL AND A SECOND POWDER MATERIAL - One embodiment includes providing a first layer including a first powder material and a second layer including a second powder material over the first layer, and compacting the first powder material and the second powder material using at least a first magnetic field. | 12-24-2009 |
20100243197 | PRESSURE CASTING OF ELECTRIC ROTORS - A rotor for an induction motor and a method of preparing same. The method includes making a squirrel-cage rotor made up of a cage and a laminate stack by forming a mold around the stack, heating the stack and introducing a molten metal into the mold such that the molten metal substantially fills a space defined in the stack that corresponds to the cage. In one form, the space includes slots or related channels formed in the stack that upon filling with the molten metal become longitudinal bars that form electric current loops with end rings of the cage. By heating the stack and maintaining it at a temperature high enough to keep the molten metal in a substantially molten state at least long enough for it to flow through the slots of the stack, premature freezing of the molten metal is avoided. In addition, by providing low pressure to the molten metal in conjunction with the elevated temperature in the stack, flow is promoted to ensure a substantially porosity-free, fully dense squirrel-cage for the rotor. | 09-30-2010 |
20110175484 | METHODS OF MANUFACTURING INDUCTION ROTORS WITH CONDUCTOR BARS HAVING HIGH CONDUCTIVITY AND ROTORS MADE THEREBY - Squirrel cage rotors of aluminum based material end rings joined with high conductive and durable material (such as copper) conductor bars for use in electric motors and methods of making them are described. The methods include forming conductor bars by casting or other metal forming methods in the slots of laminate steel stack, or positioning the preformed or premade solid conductor bars in the longitudinal slots of the stacked laminated steel, with bar ends extending out of the laminated steel stack ends, optionally coating the extended part of the conductors (bars) with a latent exoergic coating containing Al and one or more conductor bar chemical elements, positioning the laminated steel stack having conductors (bars) in a casting mold that forms the cavity of both end rings of the rotor, filling the end ring cavities with aluminum melt, and allowing the end rings to solidify under pressure. Alternatively, the conductor bars and end rings can be made separately and mechanically joined together. | 07-21-2011 |
20110198964 | INVESTMENT CASTING OF INDUCTION MOTOR ROTORS - A procedure for casting a shorted structure around a plurality of induction motor rotors is described. The method comprises forming a wax representation of the shorted structure around a lamination stack; mounting a plurality of such lamination stacks in a mounting fixture and attaching a suitable gating and runner system; forming an investment by coating the structure with refractory followed by melting out the wax; casting molten metal into the investment while it is rotating and aligning the mold to allow the centrifugal force generated to promote mold filling; and, continuing to rotate the investment until solidification is substantially complete. | 08-18-2011 |
20110284138 | METHOD, MOLD, AND MOLD SYSTEM FOR FORMING ROTORS - A mold for forming a plurality of rotors includes a plurality of lamination stacks, wherein each lamination stack defines at least one void therethrough; a tube having a central longitudinal axis, wherein each lamination stack is concentrically spaced apart from the tube to define a channel therebetween; a plurality of washers each having a shape defined by a first diameter and a second diameter that is greater than the first diameter, wherein each washer is configured to concentrically abut the tube and define a feed conduit interconnecting with the channel; and a shell disposed in contact with each lamination stack and concentrically spaced apart from each washer to define a plurality of ducts, wherein each duct is interconnected with the at least one void of at least one lamination stack. A mold system and a method of forming a plurality of rotors are also described. | 11-24-2011 |
20120085228 | DIESEL PISTON WITH BI-METALLIC DOME - A diesel piston with a cast bi-metallic dome and a method of making the piston. In one form, the dome may include a laminate of a relatively high-temperature material, for example, stainless steel, and a relatively low temperature material, for example, aluminum or aluminum alloys, such that the portion of the dome made from the relatively high-temperature material is directly exposed to combustion within a cylinder into which the piston is placed. In another form, an aluminum coated stainless steel ring is used to form the dome. In one form, an ablation casting process may be used to manufacture the dome. | 04-12-2012 |
20120097354 | SAND CASTING A DIESEL PISTON WITH AN AS-CAST, REENTRANT COMBUSTION BOWL - A diesel engine piston and a method of making the piston. The method involves casting the piston with complex geometries, including undercut features. The casting uses an aggregate disposable mold that can be removed from the as-cast part. In one form, the complex geometry includes an undercut combustion bowl formed in the piston dome, while in another, it may include an internal cooling passage. The undercut bowl and internal passages may be produced using the aggregate disposable mold. | 04-26-2012 |
20120180749 | PISTON WITH BI-METALLIC DOME - A piston with a cast bi-metallic dome feature and a method of making the piston. In one form, the piston is for use in a diesel engine, while in another, the piston is for use in a gasoline engine. The dome feature may include a laminate of a relatively high-temperature material (such as stainless steel) and a relatively low temperature material (such as aluminum or aluminum alloys) such that the portion of the dome made from the relatively high-temperature material is directly exposed to combustion within a cylinder into which the piston is placed. In another form, an aluminum coated stainless steel layer is used to form the dome. In one form, an ablation casting process may be used to manufacture the dome. | 07-19-2012 |
20130000482 | Sand Casting An Aluminum Diesel Piston With An As-Cast, Reentrant Combustion Bowl For Light Or Medium Duty Diesel Engines - An aluminum-based diesel engine piston and a method of making the piston. The method involves casting the piston with complex geometries, including undercut or reentrant features. The casting uses an aggregate disposable mold that can be removed from the as-cast part. In one form, the complex geometry includes an undercut combustion bowl formed in the piston dome, while in another, it may include an internal cooling passage. The undercut bowl and internal passages may be produced using the aggregate disposable mold. | 01-03-2013 |
20130269647 | VALVE SEAT INSERT - A valve seat insert including an annular body disposed about a central axis. The annular body includes a radially inward face that defines an orifice and a radially outward face that is opposite the radially inward face. Additionally, the annular body includes a top face, and a bottom face that is opposite the top face. The valve seat insert further includes a plurality of heat transfer protrusions that extend from the radially outward face of the annular body. | 10-17-2013 |