Class / Patent application number | Description | Number of patent applications / Date published |
476009000 | FLUID CONTROL | 28 |
20080287250 | ELECTRONICALLY-CONTROLLED HYDRAULICALLY-ACTUATED COUPLING - A power transmission device includes a friction clutch operable to selectively transfer torque between an input member and an output member. An actuator is operable to provide an actuating force to the friction clutch. The actuator includes an electric motor having an output shaft drivingly coupled to a pump. The pump is operable to provide pressurized fluid to a piston acting on the friction clutch. | 11-20-2008 |
20090170656 | FRICTION DRIVE DEVICE AND TRANSMISSION USING THE FRICTION DRIVE DEVICE - A friction drive device transmits torque by frictional contact between rollers. The friction drive device includes a casing, a drive roller that is supported for relative rotation with respect to the casing, a driven roller that is supported for relative rotation with respect to the casing, a cam mechanism that presses the drive roller and the driven roller into contact with each other, and a damper. The cam mechanism includes a surface that is disposed at an angle with respect to a tangent of the contact between the drive roller and the driven roller, and includes a rotational support part that is disposed on the surface and supports one of the drive roller and the driven roller such that displacement along the surface by the rotational support part maintains the frictional contact for transmitting the torque. The damper reducing vibration of the rotational support part. | 07-02-2009 |
20090318259 | Arrangement for control of a continuosly variable transmission - The invention relates to an arrangement for controlling a variator in a continuously variable transmission such as a vehicle transmission. The arrangement comprises a user operable ratio control part such as a lever ( | 12-24-2009 |
20100125018 | HYDRAULIC CONTROL APPARATUS OF CONTINUOUSLY VARIABLE TRANSMISSION OF HYBRID VEHICLE - A hydraulic control apparatus of a continuously variable transmission of a hybrid vehicle may include a D-N control valve that converts a state, in which a hydraulic pressure is supplied from a line regulator valve to a solenoid feed valve through a second regulator valve according to changes of a driving pulley control pressure and a clutch lubrication control pressure with respect to driven pulley control pressure, and a state, in which the hydraulic pressure from the line regulator valve is directly supplied to the solenoid feed valve, into each other. | 05-20-2010 |
20110045946 | CONTINUOUSLY VARIABLE GEARBOX - The invention relates to a continuously variation gearbox formed by a casing ( | 02-24-2011 |
20110105272 | Hydraulic variator control arrangement - In a continuously-variable-ratio-device (“variator”) of the type having races ( | 05-05-2011 |
20110269597 | OPEN-LOOP TORQUE CONTROL WITH CLOSED-LOOP FEEDBACK - A variator torque control system adjusts a variator output so that the actual output torque of the variator closely matches an expected output torque. In an example, pressure values of an existing torque control map are supplemented in real time with calculated pressure supplement values based on the current operation of the variator. The pressure supplement value for each mapped pressure value may be derived based on a prior application of the same or another map value. | 11-03-2011 |
20130123061 | VARIATOR TRACTION CONTROL ARRANGEMENT - A fraction control arrangement for a variator ( | 05-16-2013 |
20130196815 | VARIATOR ASSEMBLY - A variator assembly for a transmission includes an input shaft, an input disc, an output disc, a roller, a trunnion, a piston, and a connection member. The input shaft defines an axis of rotation and the input disc is rotationally coupled to the input shaft and coaxial with the axis of rotation. The roller is disposed between the input disc and the output disc to provide a speed ratio between the input disc and the output disc. The trunnion is connected to the roller and includes a connecting feature. The piston defines a central bore. The connection member has a head portion, a shaft portion, and a connecting portion, where the connecting portion is connected to the connecting feature of the trunnion, the head portion abuts the piston, and the shaft portion is disposed in the central bore of the piston. | 08-01-2013 |
20140066249 | System and Method for Multiplexing Gear Engagement Control and Providing Fault Protection in a Toroidal Traction Drive Automatic Transmission - An apparatus for multiplexing gear engagement control in an automatic transmission is provided. At least two friction engagement devices are configured to selectively engage and disengage a different gear ratio of the transmission. A trim system is configured to selectively supply engagement and disengagement pressures to at least one fluid passageway. A first control valve is fluidly coupled directly to the at least one fluid passageway and directly to each of the at least two friction engagement devices. The first control valve is configured to selectively route the engagement and disengagement pressures through the first control valve directly to the at least two friction devices. | 03-06-2014 |
20160016650 | Variable Coupler Drive - The inventive technology described herein generally relates to the field of power transmission, more particularly power transmission through a mechanical drive system. More specifically, in certain embodiments the inventive technology includes methods and apparatus for a variable coupler drive utilizing, in one embodiment a dynamic drive-ratio gearing system to transmit a drive input for application with a variety of output uses. In a preferred embodiment, such a variable coupler drive may be used to transmit a rotational drive input to a drive shaft to power, for example, a variety of commercial and industrial applications, and may be particularity suited to power rotational propeller based propulsion systems. | 01-21-2016 |
20190143252 | Transmission Oil Filter Assembly | 05-16-2019 |
476010000 | Of toroidal transmission | 16 |
20080242497 | HYDROSTATIC CONTINUOUSLY VARIABLE TRANSMISSION - A hydrostatic continuously variable transmission is configured by connecting a swash plate type plunger hydraulic pump P and a swash plate type plunger hydraulic motor via a hydraulic closed circuit. A continuous shift control is executed by variably controlling an inclined angle of the swash plate of the hydraulic motor. A valve spool movably arranged in a spool hole axially extends in a shaft that supports the hydraulic pump and the hydraulic motor and is configured by coupling a first spool member provided with a guide land fitted in a guide member and a second spool member provided with a central land and a left land and provided with a valve that connects and cuts off a clutch oil passage on the high pressure side and a clutch oil passage on the low pressure side according to axial movement by a coupling pin. | 10-02-2008 |
20080287251 | Power Transmission Device - A power transmission system having a positive displacement pump which is driven by a prime mover, and an output member which is driven by a fluid discharged from the positive displacement pump, characterized by comprising a rotational direction switching mechanism for switching a rotational direction of the output member between forward direction and backward direction. The rotational direction switching mechanism comprises a mechanism for switching a direction of a torque applied to the output member through the fluid between forward direction and backward direction. | 11-20-2008 |
20100035720 | TOROIDAL CONTINUOUSLY VARIABLE TRANSMISSION - A toroidal continuously variable transmission includes: an input disk; an output disk; a plurality of power rollers; a plurality of trunnions; an oil pump; a pressing hydraulic mechanism that moves and brings the input disk and output disk closer to each other; a shifting hydraulic mechanism that moves the trunnions forward and rearward; and a hydraulic control device that controls the pressing hydraulic mechanism and the shifting hydraulic mechanism by oil pressure. The hydraulic control device has an oil pressure regulation unit that sets an oil pressure in a shifting hydraulic line that is a hydraulic source of the shifting hydraulic mechanism to an oil pressure at which shifting control can be performed by the shifting hydraulic mechanism till the transmission of power between the input disk and output disk is interrupted when the operation of the oil pump is stopped. | 02-11-2010 |
20110105273 | CONTINUOUSLY VARIABLE TRANSMISSION - A continuously variable transmission includes a transmission ratio changing unit that can change a transmission ratio as a rotation speed ratio of an input disc and an output disc by tiltably rotating a power roller, a nip-press unit that can apply nip-pressure that nips the power roller between the input disc and the output disc by a pressure of a working medium supplied from a hydraulic pressure controlling unit that controls the pressure of the working medium to a nip-pressure generation hydraulic chamber via a coupling oil passage, and a pressure release unit which is disposed to the coupling oil passage and can release the pressure of the working medium of the nip-pressure generation hydraulic chamber via the release unit in response to an operation state, wherein since the release unit is positioned upward in a vertical direction of the nip-pressure generation hydraulic chamber in a state that the pressure release unit is mounted on a vehicle, the pressure release unit can appropriately prevent an unintentional transmission shift. | 05-05-2011 |
20110143882 | System and Method for Multiplexing Gear Engagement Control and Providing Fault Protection in a Toroidal Traction Drive Automatic Transmission - An apparatus for multiplexing gear engagement control in an automatic transmission is provided. At least two friction engagement devices are configured to selectively engage and disengage a different gear ratio of the transmission. A trim system is configured to selectively supply engagement and disengagement pressures to at least one fluid passageway. A first control valve is fluidly coupled directly to the at least one fluid passageway and directly to each of the at least two friction engagement devices. The first control valve is configured to selectively route the engagement and disengagement pressures through the first control valve directly to the at least two friction devices. | 06-16-2011 |
20110152031 | SYSTEM AND METHOD FOR CONTROLLING ENDLOAD FORCE OF A VARIATOR - A system and method for controlling the endload force of a variator includes reducing a net force applied to a variator input disc of the variator. The variator includes an endload chamber, a subtraction chamber, and a valve fluidly coupled between the endload chamber and the subtraction chamber. Each of the endload chamber and the subtraction chamber applies an opposing force to the variator input disc. The valve is activateable to reduce the net force applied to the variator input disc. The valve may be activated based on the variator ratio, the position of the variator roller, and/or other parameters of the variator or operation thereof. | 06-23-2011 |
20120202643 | VARIATOR MULTIPLEX VALVE SCHEME FOR A TORROIDAL TRACTION DRIVE TRANSMISION - An apparatus and method are disclosed for controlling fluid flow to a variator which responsive to separate high and low pressure fluids to control an output torque thereof. A first trim valve may be responsive to a first control signal to supply a first fluid at a fluid outlet thereof. A second trim valve may be responsive to a second control signal to supply a second fluid at a fluid outlet thereof. A variator switching sub-system may controllably supply the high pressure fluid and the low pressure fluid to the variator. A multiplex valve may be fluidly coupled to the outlets of the first and second trim valves, and may supply the first fluid as the high pressure fluid to the variator switching sub-system during at least one predefined operating condition and may otherwise supply the second fluid as the high pressure fluid to the variator switching sub-system. | 08-09-2012 |
20130053211 | TOROIDAL CONTINUOUSLY VARIABLE TRANSMISSION - The present invention provides a toroidal continuously variable transmission capable of setting loading pressure at low pressure while avoiding a problem of excessive pressing with centrifugal hydraulic pressure. | 02-28-2013 |
20130225359 | VARIATOR FAULT DETECTION SYSTEM - A variator fault detection system for a continuously variable transmission is incorporated into a hydraulic control circuit that controls fluid pressure applied to a variator of the continuously variable transmission. The hydraulic control circuit for the variator includes a number of electrically-controlled shift valves and pressure control valves. Sensing devices are multiplexed to these valves to detect a number of different possible fault states relating to the variator shift valves and the variator pressure control valves. | 08-29-2013 |
20130288849 | NESTED ENDLOAD ASSEMBLY FOR A VARIATOR - A transmission includes a toroidal variator including a nested endload assembly. The nested endload assembly has two chambers configured to develop a clamping force on components of the variator. The endload assembly includes a housing, a backing plate, a piston positioned adjacent the backing plate and cooperating with the backing plate to define a first chamber for receiving pressurized fluid to act on the piston. The endload assembly also includes a load plate and an input race that cooperate to define a second chamber. The input race of the variator is acted upon by the piston when the piston is acted upon by pressurized fluid in the first chamber. The input race is also acted upon by pressurized fluid in the second chamber. | 10-31-2013 |
20130310214 | CONTINUOUSLY VARIABLE TRANSMISSION - Inventive embodiments are directed to components, subassemblies, systems, and/or methods for continuously variable accessory drives (CVAD). In one embodiment, a skew-based control system is adapted to facilitate a change in the ratio of a CVAD. In another embodiment, a skew-based control system includes a skew actuator coupled to a carrier member. In some embodiments, the skew actuator is configured to rotate a carrier member of a CVT. Various inventive traction planet assemblies can be used to facilitate shifting the ratio of a CVT. In some embodiments, the traction planet assemblies include legs configured to cooperate with the carrier members. In some embodiments, a traction planet assembly is operably coupled to the carrier members. Embodiments of a shift cam and traction sun are adapted to cooperate with other components of the CVT to support operation and/or functionality of the CVT. Among other things, shift control interfaces for a CVT are disclosed. | 11-21-2013 |
20150011356 | Variator Switching Valve Scheme For a Torroidal Traction Drive Transmission - An apparatus for controlling a variator having at least one roller between two torroidal disks may include at least one actuator responsive to fluid pressure at separate high side and low side fluid inlets thereof to control torque applied by the at least one roller to the disks. First and second variator switching valves may each receive a first fluid at a first pressure and a second fluid at a second lesser pressure. The first and second variator switching valves supply the first fluid to the high side fluid inlet and the second fluid to the low side fluid inlet during two of four different operational states together defined by the variator switching valves, and supply the second fluid to the high side fluid inlet and the first fluid to the low side fluid inlet during each of the remaining two of the four different operational states. | 01-08-2015 |
20150080171 | VARIATOR - A toroidal variator having an input surface and an output surface coaxially mounted for rotation on a shaft defining a variator axis and two rollers in driving engagement with the input and output surfaces, a take-off drive operatively engaged with the output surface and disposed radially of the variator axis whereby a radial contact force perpendicular to and intersecting the variator axis is generated and wherein the rollers are located such that the points of contact of the rollers with the input and output surfaces at one particular ratio within the operating range of the variator lie generally in a plane which is substantially perpendicular to the direction of the radial contact force. This plane lies on or close to the neutral axis of bending of the variator structure whereby both normal contact loads between the discs and the two rollers will be generally the same. | 03-19-2015 |
20150080172 | VARIATOR CONTROL WITH TORQUE PROTECTION - A transmission includes an electro-hydraulic controller that includes redundancy in the hydraulic circuit that permits single fault failures to be compensated for by changing the flow path of hydraulic fluid to bypass the single fault failure. The redundancy results in the ability of the transmission to maintain full operation in all modes. | 03-19-2015 |
20160169376 | System and Method for Multiplexing Gear Engagement Control and Providing Fault Protection in a Toroidal Traction Drive Automatic Transmission | 06-16-2016 |
20160178036 | TOROIDAL INFINITELY VARIABLE TRANSMISSION | 06-23-2016 |