Entries |
Document | Title | Date |
20090007877 | Systems and Methods to Control Torsional Vibration in an Internal Combustion Engine with Cylinder Deactivation - The present disclosure utilizes deactivated cylinders in a variable displacement engine to control the torsional vibration of a crankshaft. In a deactivated mode, deactivated cylinders are compressed and expanded by a reciprocating piston, but they are doing no net work and still causing an oscillating torque on the crankshaft. The present disclosure utilizes this oscillating torque to counter torque from the active cylinders. This is done through controlling the gas pressure in the deactivated cylinders by using intake and exhaust values to equalize the pressure between the cylinder and ports. The optimum gas pressure in deactivated cylinders to minimize total torque fluctuations is approximately one-half that of the active cylinders. A closed control loop adjusts gas pressure in the deactivated cylinders to cancel out torque from the active cylinders. | 01-08-2009 |
20090120401 | Flywheel Assembly - A system for a flywheel assembly for use in conjunction with an internal combustion engine is disclosed. The flywheel assembly includes a flywheel in rotational association with a crankshaft of the internal combustion engine. The flywheel assembly further includes a cooling fan mounted over the flywheel, and capable of rotation therewith. The cooling fan and the flywheel are secured in a constant axial position relative to the crankshaft by virtue of a drive-cup and a retaining nut. Further, the flywheel includes a plurality of integrally formed, intersecting support ribs, for providing excellent dynamic stiffening (e.g., damping) capabilities to the flywheel assembly for substantially reducing and/or eliminating radiated noise. | 05-14-2009 |
20090241890 | DAMPING FORCE VARIATOR - The present invention provides a damping force variator that can damp a vibration even if the frequency of the vibration is high. The damping force variator, which applies a magnetic field to a magnetic fluid flowing through an orifice to vary the magnitude of a damping force, has a float that moves in the orifice when the magnetic fluid flows. If the damping force variator has a cylinder that is filled with the magnetic fluid, and a piston that slides in the cylinder to apply a pressure to the magnetic fluid, the damping force variator functions as a damper that damps a vibration transmitted from the cylinder or the piston. | 10-01-2009 |
20100012072 | REDUCING NOISE, VIBRATION, AND HARSHNESS IN A VARIABLE DISPLACEMENT ENGINE - A method for operating an engine of a vehicle, the engine having one or more deactivatable cylinders, the method including controlling the stability of a vehicle in response to vehicle acceleration, and reactivating or deactivating combustion in at least a cylinder in response to vehicle acceleration. | 01-21-2010 |
20100065006 | PULSER PLATE MOUNTING STRUCTURE - A pulser plate mounting structure is provided in which a key groove ( | 03-18-2010 |
20110265755 | CRANKSHAFT DAMPER AND TONE WHEEL ASSEMBLY HAVING NOISE REDUCING CONFIGURATION - This disclosure provides crankshaft damper and tone wheel assembly having a low noise characteristic. The crankshaft damper and tone wheel assembly can provides both damping of vibrations excited in a crankshaft of an internal combustion engine and an indication of the rotational speed or position of the crankshaft. The crankshaft damper including a hub portion and a ring-shaped portion connected to the hub portion by plural spokes, and the ring-shaped portion has an inner circumference that surrounds an area including the hub portion and the plural spokes. The tone wheel includes an annular-shaped portion connected to the crankshaft damper and having an inner diameter, an outer diameter, plural teeth arranged at an equal pitch along the outer diameter, and a same rotational axis as the crankshaft damper. To reduce transmitting noise of vibrations excited in the crankshaft, the annular-shaped portion does not overlap a substantial amount of the area defined by the inner circumference of the ring-shaped portion when viewed along a direction of the rotational axis. | 11-03-2011 |
20120067317 | ANTI-COGGING APPARATUS AND METHODS FOR REDUCING COGGING OF ROTATING SHAFT - An anti-cogging apparatus improves rotation of a rotatable shaft about an axis. The shaft has a cyclical cogging torque acting thereon in a first direction. The anti-cogging apparatus includes a first anti-cogging member and a second anti-cogging member that rotate relative to each other in concert with rotation of the shaft, and the anti-cogging members interact to provide an anti-cogging torque to the shaft in a second direction to at least partially offset the cogging torque. | 03-22-2012 |
20120247417 | INTERNAL COMBUSTION ENGINE WITH BEARING CAP DAMPENING - An internal combustion engine has an engine block including a crankshaft which is mounted on the engine block by at least a first and a second main bearings, wherein the main bearings each include a first bearing portion and a second bearing portion, the second bearing portion being part of a bearing cap, wherein at least the first bearing cap is connected to the engine block or to the second bearing cap by at least one dampening structure, the structure including a first support portion fixed on the bearing cap, a second support portion fixed on the engine block or on an adjacent bearing cap, and a dampening portion including an elastomeric material which connects the two support portions. | 10-04-2012 |
20120272933 | THREE-CYLINDER ENGINE - A three cylinder engine includes a vibration alleviation unit for alleviating vibrations in a vehicle. The vibration alleviation unit is disposed at least one of upon the crankshaft and upon a part that operates in unison with the crankshaft. The three cylinder is supported by engine mounts that are positioned upon at least both ends of the engine in the direction of the crankshaft axis. Given that K | 11-01-2012 |
20130087115 | OPPOSED PISTON ENGINE - An opposed piston engine has an outer piston and an inner piston, which are disposed in a cylinder and are driven in opposite directions and delimit a common combustion chamber. The inner piston drives a crankshaft via a connecting rod and the outer piston drives the crankshaft via a pair of traction connecting rods. The outer piston is supported by a connecting rod that is guided linearly in a guide block, and the connecting rod protrudes from a bridge that is connected at both end portions to a traction connecting rod. Accordingly, it is provided that each traction connecting rod contains a U-shaped curved piece of tube, preferably with parallel legs, which with its U-shaped curved portion encloses a part of the circumference of the pivot bearing supported by the bridge and is fixed, especially bolted, with its leg ends onto a traction connecting rod bearing mounted on the crankshaft. | 04-11-2013 |
20130255618 | INERTIA INCREMENTAL APPARATUS FOR FLYWHEEL OF ENGINE - An inertia incremental apparatus for a flywheel of an engine, may include a drive plate integrally connected to a crankshaft, a flywheel rotatably connected to the camshaft, receiving a rotational force from the drive plate through a planetary gear set, and rotating relatively to the crankshaft, and a stiffness-providing unit disposed on a path of transmitting the rotational force from the drive plate to the flywheel. | 10-03-2013 |
20140041616 | ARRANGEMENT FOR AND A METHOD OF MAINTAINING THE ALIGNMENT OF AN INTERNAL COMBUSTION ENGINE, AND A METHOD OF ALIGNING AN INTERNAL COMBUSTION ENGINE AND MAINTAINING ITS ALIGNMENT - An arrangement and method for maintaining an alignment of an internal combustion engine by utilizing an arrangement includes a number of fluid springs by means of which the engine is mounted on a foundation thereof, control valves arranged in communication with each fluid spring, at least three position sensors in communication with the engine, and an electronic control unit. The electric control unit is provided with preset engine position values. The method includes collecting engine position information to the electric control unit, comparing the position information to preset position values, determining, if the position information differs from the preset position values, such control valves that need to be operated, calculating the corrective measures, and giving corrective instructions to the control valves. | 02-13-2014 |
20140102398 | DRIVE SYSTEM FOR A VEHICLE - A drive system for a vehicle comprises an internal combustion engine switchable between operating modes of different performance capability, and a torsional vibration damping arrangement that comprises a primary side preferably coupled to a crankshaft and a secondary side rotatable with respect to the primary side against the action of a damper element arrangement. The damper element arrangement has a stiffness which increases as the load torque to be transmitted increases, and the primary side and the secondary side are in a limiting relative rotational position with respect to one another during transmission of a maximum torque which can be delivered in an operating mode with lower performance capability at a maximum torque rotational speed, and the damper element arrangement provides a limiting stiffness in the limiting relative rotational position such that a natural frequency of the torsional vibration damping arrangement is below the maximum torque speed. | 04-17-2014 |
20140165951 | STRUCTURE TO REDUCE NOISE AND VIBRATION IN AN ENGINE SYSTEM - Adding dome-shaped protuberances, or polydomes, to an engine system increases the structural integrity of the engine component to which they are added and allows noise radiated in the engine system to be reduced in certain regions of the frequency spectrum without incurring a significant increase in the mass of the engine part to which they are added, which may result in a longer solidification time during the mold injection process. The size and spatial arrangement of polydomes relative to one another can be further adjusted to reduce noise within the engine system and polydomes may be reinforced with ribs to increase the structural stiffness of plastic engine components. Because plastic engine components are created using an injection mold process during the manufacturing process, added surface features (e.g. polydomes and ribs) are continuous with the underlying planar surface to which they are added. | 06-19-2014 |
20140165952 | MAGNET-BASED ANTI-COGGING APPARATUSES AND SYSTEMS FOR APPLYING AN ANTI-COGGING TORQUE ON A ROTATING SHAFT - An anti-cogging apparatus includes a first support member, a second support member, a first set of magnets, and a second set of magnets. The first support member is configured to be connected to and rotate with a rotatable shaft. The second support member does not rotate and is configured not to move with the first support member. The first set of magnets is mounted on the first support member in an alternating polarity or a non-alternating polarity configuration. The second set of magnets is mounted on the second support member in an alternating polarity configuration or a non-alternating polarity configuration. The first set of magnets magnetically interacts with the second set of magnets to provide an anti-cogging torque on the rotatable shaft. | 06-19-2014 |
20140165953 | ANTI-COGGING APPARATUS AND METHODS FOR REDUCING COGGING OF ROTATING SHAFT - An apparatus improves rotation of a rotatable shaft. The rotatable shaft has a cyclical cogging torque acting thereon in a first direction. The apparatus includes a support member, first and second anti-cogging members, a cam surface and an abutment member. The support member is adjacent the rotatable shaft. The rotatable shaft is operable to rotate relative to the support member. The second anti-cogging member is coupled to the rotatable shaft for rotation with the rotatable shaft. The cam surface is included on one of the first anti-cogging member and the second anti-cogging member. The abutment member is coupled to the other one of the first anti-cogging member and the second anti-cogging member. The abutment member is operable to abut against the cam surface to provide an anti-cogging torque to the rotatable shaft in a second direction that opposes the first direction to at least partially offset the cogging torque. | 06-19-2014 |
20150068484 | ROTOR FOR A HYDRAULIC CAMSHAFT PHASER | 03-12-2015 |
20150362042 | DRIVE SYSTEM FOR A VEHICLE - A drive system for a vehicle comprises an internal combustion engine and a torsional vibration damping arrangement. The internal combustion engine is switchable between operating modes of different performance capability, and the torsional vibration damping arrangement comprises a flywheel mass arrangement and at least one deflection mass pendulum unit with a deflection mass carrier and a deflection mass arrangement supported at the deflection mass carrier such that it can deflect out of a basic relative position with respect to the latter by means of a deflection mass coupling arrangement. | 12-17-2015 |
20160010720 | CRANKSHAFT PENDULUM ASSEMBLY HAVING KIDNEY-SHAPED TRACK | 01-14-2016 |