Patent application number | Description | Published |
20080314347 | ROCKER ARM ASSEMBLY - A two step rocker assembly is provided having a lever body, a first roller assembly mounted to the lever body, and a center shaft extending through the first roller assembly. A second shaft extends through the lever body and defines a first pivot point. A coupling lever is pivotally connected to the second shaft and has an opening for receiving the center shaft. The coupling lever is rotatable about the first pivot point. A latch pin is mounted to the lever body. A second roller assembly is mounted on the center shaft. A spring lever is pivotally connected to the second shaft and is connected to the center shaft. The spring lever is rotatable about the first pivot point. A spring member is mounted on the lever body and engages the spring lever to bias the spring lever and the center shaft into the first position. | 12-25-2008 |
20100043737 | Rocker Arm Assembly - An engine assembly may include an engine structure, a rocker arm assembly supported by the engine structure, a camshaft rotatably supported on the engine structure and engaged with the rocker arm assembly, and a valve member engaged with the rocker arm assembly. The rocker arm assembly may include a lever body having a first end engaged with the valve member and a second end defining a pivot point and having an opening therethrough, an arm assembly including a first end rotatably coupled to the first end of the lever body and a second end including a latch, and a locking mechanism located within the opening in the lever body and including a latch pin having a recess therein and a guide holder including a finger extending into the recess preventing rotation of the latch pin relative to the guide holder. | 02-25-2010 |
20100236525 | ENGINE ASSEMBLY INCLUDING CENTRALLY LOCATED FUEL RAIL - An engine assembly may include an engine block, a cylinder head, a fuel injector, and a fuel rail. The engine block may define a cylinder bore. The cylinder head may be coupled to the engine block and may define an intake port, an exhaust port, and a centrally located fuel injector opening between the intake port and the exhaust port. The fuel injector opening may be in direct communication with the cylinder bore. The fuel injector may be located within the fuel injector opening. The fuel rail may overlay the fuel injector opening and may be in communication with a fuel supply and the fuel injector. | 09-23-2010 |
20110220044 | CAMSHAFT INCLUDING WEIGHT REDUCING FEATURES AND METHOD OF FORMING - A camshaft assembly may include a assembly and a shaft. The cam assembly may include a hollow structure with an interior surface and an exterior surface. A plurality of projections may be located on the exterior surface of the hollow structure. The interior surface of the cam assembly may define a recess axially aligned with at least one of the plurality of projections. At least one of the plurality of projections may define an undercut portion. The cam assembly may be coupled with the shaft. | 09-15-2011 |
20120097120 | ENGINE INCLUDING CAMSHAFT WITH PARTIAL LOBE - An engine assembly may include a camshaft rotationally supported on an engine structure. The camshaft may include a first shaft, a second shaft located in and rotatable relative to the first shaft and a partial cam lobe located on the first shaft. The partial cam lobe may include a peak region and may define a partial bore. A radial distance defined by the partial bore between first and second circumferential ends of the partial bore may be greater than or equal to a radial width of the first shaft. The partial cam lobe may define a recess extending in a radial direction through the partial bore and into the partial cam lobe. The camshaft may include a sleeve located within a radial passage defined by the second shaft and the recess in the partial cam lobe and radially locating the partial cam lobe relative to the second shaft. | 04-26-2012 |
20130014714 | CAMSHAFT INCLUDING WEIGHT REDUCING FEATURES AND METHOD OF FORMING - A camshaft assembly may include a assembly and a shaft. The cam assembly may include a hollow structure with an interior surface and an exterior surface. A plurality of projections may be located on the exterior surface of the hollow structure. The interior surface of the cam assembly may define a recess axially aligned with at least one of the plurality of projections. At least one of the plurality of projections may define an undercut portion. The cam assembly may be coupled with the shaft. | 01-17-2013 |
Patent application number | Description | Published |
20090285846 | MUTANTS OF CHOLESTEROL-DEPENDENT CYTOLYSINS AND USES THEREOF - Mutants of cholesterol-dependent cytolysins comprising at least one amino acid substitution in at least one of Loop 1, Loop 2, or Loop 3 of Domain 4, nucleic acids encoding such polypeptide mutants, and compositions and vaccines comprising such polypeptide mutants. | 11-19-2009 |
20110052494 | H-ANTIGEN BINDING POLYPEPTIDES AND METHODS OF USE - Polypeptides having high specific binding for H-antigen, particularly Lewis y and Lewis b antigens are described. The polypeptides are useful in making conjugates with diagnostic reporter molecules or therapeutic agents such as anticancer agents for binding to epithelial derived tumors or cancer cells which overexpress such antigens. | 03-03-2011 |
20120148624 | MUTANTS OF CHOLESTEROL-DEPENDENT CYTOLYSINS AND USES THEREOF - Mutants of cholesterol-dependent cytolysins comprising at least one amino acid substitution in at least one of Loop 1, Loop 2, or Loop 3 of Domain 4, nucleic acids, vectors, and host cells encoding such polypeptide mutants, and compositions and vaccines comprising such polypeptide mutants. | 06-14-2012 |