Patent application number | Description | Published |
20120318589 | BELT TENSIONING ASSEMBLY FOR AN ENGINE SYSTEM HAVING A MOTOR-GENERATOR UNIT - A system for maintaining tension in a drive belt comprises a first belt tensioner that comprises a first pulley mounted on a first lever arm, and a second belt tensioner that comprises a second pulley mounted on a second lever arm. The first belt tensioner is configured and positioned to bias the first pulley against the drive belt at a first location following a departure of the drive belt from a pulley coupled to a motor-generator unit and to thereby maintain tension on the drive belt during both driving and driven modes of the motor-generator unit. The second belt tensioner is configured and positioned to bias the second pulley against the drive belt at a second location prior to an approach of the drive belt toward the pulley and to thereby maintain tension on the drive belt at the second location during both driving and driven modes. | 12-20-2012 |
20130095966 | FLEXIBLE ROTARY BELT DRIVE TENSIONER - A rotary belt drive tensioner including a damping mechanism decoupled from the torque output and pulley alignment of the tensioner such that the damping force and the torque output may be independently variable. The damping mechanism includes a shoe plate and at least one shoe set includes a damping shoe and a shoe spring. The shoe plate is operatively attached to one of the arm and the base, and the shoe spring exerts a radial load on the damping shoe in sliding engagement with the other of the arm and the base to generate a flexible damping force. In one embodiment, the rotary belt drive tensioner includes a damping mechanism containing three damping shoe sets positioned generally equidistant from each other on the shoe plate. | 04-18-2013 |
20130284139 | ENGINE CRANKSHAFT ISOLATOR ASSEMBLY - An engine assembly includes an engine structure, a crankshaft rotationally supported on the engine structure, a crankshaft isolator assembly and a belt. The crankshaft isolator assembly includes a hub fixed for rotation with the crankshaft, a crankshaft isolator pulley coupled to the hub, and a mechanical clutch. The mechanical clutch is engaged with the hub and the crankshaft isolator pulley. The mechanical clutch fixes the hub for rotation with the crankshaft isolator pulley during a first operating condition and allows relative rotation between the hub and the crankshaft isolator pulley during a second operating condition. The belt is engaged with the crankshaft isolator pulley and an accessory drive system. | 10-31-2013 |
20140017101 | CLUTCH SUBASSEMBLY AND CLUTCHED SUPERCHARGER MADE USING THE SAME - A clutch subassembly for a supercharger is disclosed. The clutch assembly includes a clutch subassembly housing, the clutch subassembly housing having an input shaft end, a supercharger end and a longitudinal axis. The clutch subassembly also includes a clutch input shaft rotatably disposed within the input shaft end. The clutch subassembly further includes a selectively rotatable clutch assembly disposed in the supercharger end, the clutch assembly comprising a rotating portion that is operably coupled to the clutch input shaft and a selectively rotatable portion that is selectively engageable with the rotating portion through a clutch, the selectively rotatable portion comprising a rotatable hub, the rotatable hub having a shaft engagement feature. | 01-16-2014 |
20140020649 | MULTI-DIRECTIONAL ASYMMETRIC SURFACES FOR HOUSINGS AND HOUSING COVERS AND INTERNAL COMBUSTION ENGINES COMPRISING THE SAME - In one embodiment, a housing is disclosed. The housing includes an asymmetric surface portion having a periphery, the asymmetric surface portion comprising a plurality of asymmetric surface sections disposed about the periphery, each asymmetric surface section having a surface contour differing from the surface contours of the other surface sections. In another embodiment, an engine front cover is disclosed. The engine front cover includes a substantially circular asymmetric surface portion disposed concentrically about a crankshaft bore, the asymmetric surface portion comprising a plurality of asymmetric surface sections disposed substantially concentrically about the crankshaft bore, each asymmetric surface section having a surface contour differing from the surface contours of the other surface sections. | 01-23-2014 |
20140096362 | SCREW ASSEMBLY WITH LINKING MEMBER FOR TORQUE TRANSFER - A screw assembly for operatively connecting a first component to a second component is provided such that the first and the second components are separated by a clearance when operatively connected by the assembly. The assembly includes a screw member defining a screw opening and a linking member defining a link opening. A fastener is configured to transfer a driving torque to the linking member when the fastener is rotatably driven into the link opening. A threaded portion of the fastener is configured to engage with the link opening. The linking member is configured to transfer the driving torque to the screw member, thereby moving the screw member until a second screw end of the screw member contacts a mounting face of the second component. The fastener may be configured to pass through the linking member and enter a second cavity in the second component. | 04-10-2014 |
20140163839 | SYSTEMS AND METHODS FOR CONTROLLING CYLINDER DEACTIVATION AND ACCESSORY DRIVE TENSIONER ARM MOTION - A control system for an engine includes a torque modifier module that selects one of a plurality of torque modifier values based on variations in an accessory load. A torque calculating module calculates a maximum torque value for operation in a cylinder deactivation mode based on the selected one of the plurality of torque modifier values. A torque control module selectively switches the engine between the cylinder deactivation mode and a cylinder activation mode based on the maximum torque value. | 06-12-2014 |
20140251273 | OIL PUMP CONTROL SYSTEMS AND METHODS FOR NOISE MINIMIZATION - An engine control system includes a cylinder control module and a pump control module. The cylinder control module selectively deactivates cylinders of an engine. In response to a determination that at least one of the cylinders is deactivated, the pump control module: selectively increases a target displacement for an oil pump that is driven by a balance shaft of the engine; and selectively adjusts displacement of the oil pump based on the target displacement. | 09-11-2014 |