Entries |
Document | Title | Date |
20080200301 | Hydraulic pressure control device of an automatic transmission and hybrid drive device having the hydraulic pressure control device - A hydraulic control apparatus for an automatic transmission includes a forward travel engaging element, a reverse travel engaging element, a first signal electromagnetic valve, a first switching valve, and a second switching valve. The hydraulic control apparatus is structured so as to change the output state of the signal pressure of the first signal electromagnetic valve when changing from the reverse travel shift position and/or shift range to the non-travel shift position and/or shift range and when changing from the forward travel shift position and/or shift range to the non-travel shift position and/or shift range, and to enable quick draining of hydraulic pressure of the hydraulic servo of the reverse travel engaging element and hydraulic pressure of the hydraulic servo of the forward travel engaging element. | 08-21-2008 |
20090062059 | Boosting assist hydraulic hybrid combination - A hydraulic hybrid system having an internal combustion engine and a hydraulic motor where the hydraulic hybrid system includes a boost device and at least one hydraulic storage device. The boost device is operatively connected to the internal combustion engine. The at least one hydraulic storage device is in operative fluid communication with the boost device and the hydraulic motor for selectively providing power by way of a controller to the hydraulic motor, the boost device, and the internal combustion engine under predetermined operator demand conditions. | 03-05-2009 |
20100311538 | HYDRAULIC PRESSURE SUPPLY DEVICE OF AUTOMATIC TRANSMISSION - A hydraulic pressure supply device of an automatic transmission which supplies working oil to the automatic transmission capable of utilizing the oil pressure to make any of a plurality of frictional engagement devices selectively engaged, thereby performing gear shift to transmit the power from an engine to driving wheels of a vehicle is disclosed. The device includes: a hydraulic pressure supply mechanism at the driving of the engine which supplies the working oil to the automatic transmission by the power from the engine; an accumulator for pressure accumulation which accumulates the pressure of the working oil; and a start-up hydraulic pressure supply control mechanism which supplies the working oil pressure-accumulated in the accumulator for pressure accumulation to a frictional engagement device for startup made to be engaged at the startup of the vehicle among a plurality of frictional engagement devices if the restart of the engine is performed after the automatic stop of the engine, wherein the start-up hydraulic pressure supply control mechanism supplies the working oil to the frictional engagement device for startup by a system separate from the hydraulic pressure supply mechanism at the driving of the engine. | 12-09-2010 |
20110111919 | Transmission Having Planetary Gear Drive With Variable Speed Reduction - A transmission for transferring torque from a prime mover includes a first input shaft adapted to be driven by the prime mover, a second input shaft and an output shaft. A compound planetary gearset includes a sun gear driven by the first input shaft, first pinion gears being driven by the sun gear, a ring gear fixed for rotation with the second input shaft and being meshed with second pinion gears, and a carrier driving the output shaft. A reaction motor drives the second input shaft. A controller controls the reaction motor to vary the speed of the second input shaft and define a gear ratio between the first input shaft and the output shaft based on the second input shaft speed. | 05-12-2011 |
20120129648 | INTEGRATED HYDRAULIC HYBRID DRIVETRAIN SYSTEM - A hybrid drivetrain for a motor vehicle includes an automated mechanical transmission (AMT) having an output shaft. The drivetrain includes an alternative energy source including a motor and an energy storage unit and two torque transfer arrangements. The first transfer arrangement is separate from engageable gear sets of the AMT for transferring torque from the output shaft to a motor when the energy storage unit is being charged and for transferring torque from the motor to the output shaft when the energy storage unit is being discharged. Additionally, an alternative energy source clutch for selectively coupling the first torque transfer arrangement to the output shaft is included. The second torque transfer arrangement is for transferring torque from the output shaft to a driven axle of the motor vehicle. At least one of the first and second torque transfer arrangements has different first and second torque transfer ratios. | 05-24-2012 |
20120208670 | MULTI-RATIO ROTORCRAFT DRIVE SYSTEM AND A METHOD OF CHANGING GEAR RATIOS THEREOF - A multi-ratio rotorcraft drive system and a method of changing gear ratios thereof are disclosed. According to one embodiment, the multi-ratio rotorcraft drive system comprises a rotor system comprising one or more rotors and one or more engines. Each engine of the one or more engines is coupled to the rotor system through a multi-ratio transmission. The multi-ratio transmission comprises an output shaft coupled to the rotor system, an input shaft coupled to a respective engine of the one or more engines, a high speed clutch integrated into a high speed gear train, and a low speed clutch integrated into a low speed gear train. The high speed clutch and the low speed clutch are freewheeling clutches without a friction plate and are capable of disconnecting the output shaft and the input shaft in an overrunning condition when the output shaft spins faster than the input shaft. | 08-16-2012 |
20140087916 | HYDRAULIC REGENERATION APPARATUS - A hydraulic motor/pump regenerator system for recovering energy from the moving vehicle having high efficiency and precise control, thereby allowing the maximum amount of energy to be recovered and reused, is described. Three, fixed-displacement pump/motors are used to enable the system to recover and reapply energy at efficiencies expected to be above 70% in most circumstances. The invention is not limited to the use of three fixed displacement hydraulic units since using more units may in some drive cycles further improve efficiency. By selecting an appropriate combination of pump/motor units for providing the driveshaft torque required by the driver, embodiments of the present invention generate high recovery efficiency at any speed. | 03-27-2014 |