Automatic Braking Including Speed Governor Or Hydraulic Retarder Patents (Class 303/125)
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Patent number: 11247722Abstract: A motorised vehicle comprises a first wheel located laterally on a first side of the vehicle, and a second wheel located laterally on a second side of the vehicle opposite the first side. The vehicle comprises a steering system configured to modify the orientation of the wheels and to turn the vehicle. The vehicle comprises a trajectory modifier configured to vary the speed of rotation of the first wheel and to modify the trajectory of the vehicle in the event of failure of the steering system.Type: GrantFiled: June 12, 2018Date of Patent: February 15, 2022Assignee: FOUNDATION BRAKES FRANCEInventor: Thierry Pasquet
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Patent number: 9969369Abstract: A vehicle brake system includes a master cylinder that generates a hydraulic pressure according to an operation amount of a brake pedal, a vehicle stabilization device that generates a hydraulic pressure in response to a hydraulic pressure generation command received from a brake controller, and front brake operation sections and rear brake operation sections that are actuated by the hydraulic pressure generated by the master cylinder or by the vehicle stabilization device and that generate braking force on the vehicle. A brake controller actuates automatic braking when an impact has been detected by a collision detection sensor, and actuates the automatic braking with smaller braking force when an engine is stopped than when the engine is running.Type: GrantFiled: April 26, 2016Date of Patent: May 15, 2018Assignee: HONDA MOTOR CO., LTD.Inventor: Shotaro Odate
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Patent number: 9764719Abstract: A method and a device for avoiding a possible subsequent collision and for reducing the accident consequences of a collision, in which after a first collision of the vehicle with a further road user has taken place, an automatic braking intervention by a vehicle safety system is released according to a braking model by ascertaining vehicle data from the handling of the host vehicle, buffering the vehicle data ascertained in a memory, inferring the category of the road being traveled on at the moment from the buffered vehicle data, determining an initial distance as a function of the road category determined, and ascertaining the condition for releasing the brake using this initial distance.Type: GrantFiled: May 15, 2014Date of Patent: September 19, 2017Assignee: ROBERT BOSCH GMBHInventors: Ulf Wilhelm, Sybille Eisele
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Patent number: 9562607Abstract: A system for artificially interlocking an automatic transmission includes an engine RPM sensor and a vehicle speed sensor. A pair of ultrasonic sensors measure a relative velocity of a vehicle to a neighbor vehicle, and an angle measuring sensor measures a degree of an angle variation of a steering wheel. An ECU determines whether an accelerator pedal is erroneously operated by monitoring sensing signals of the engine RPM sensor and the vehicle speed sensor, to determine whether the accelerator pedal is erroneously operated by using sensing signals of the ultrasonic sensors, and to determine whether the accelerator pedal is erroneously operated by monitoring a signal of the angle measuring sensor. A transmission control unit (TCU) performs an artificial interlock control of the automatic transmission when a determination signal, which informs that the accelerator pedal is erroneously operated, is received from the ECU.Type: GrantFiled: November 20, 2015Date of Patent: February 7, 2017Assignee: HYUNDAI MOTOR COMPANYInventor: Sung Hoon Bang
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Patent number: 9387855Abstract: A vehicle control apparatus executes automated cruise control under which a steering apparatus is controlled to make a vehicle perform automated cruise. The vehicle control apparatus sets a curvature radius difference threshold used in a process for determining whether to start automated cruise control, based on a transverse deviation of the vehicle. The vehicle control apparatus does not start the automated cruise control when the absolute value of a curvature radius difference is larger than the curvature radius difference threshold. The curvature radius difference is a difference between a travelling path curvature radius and a lane curvature radius, the travelling path curvature radius being a curvature radius of a travelling path of the vehicle and the lane curvature radius being a curvature radius of a lane in which the vehicle is travelling.Type: GrantFiled: December 10, 2014Date of Patent: July 12, 2016Assignee: JTEKT CORPORATIONInventor: Atsushi Ishihara
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Patent number: 9302657Abstract: A method for operating a motor vehicle hydraulic braking system having at least one electric motor-operated braking pressure generator. The output power of the electric motor-operated braking pressure generator is restricted during normal driving/braking situations and the restriction is temporarily deactivated upon identification of a critical driving situation, such as an overstressing of the brake system to include brake fade.Type: GrantFiled: December 21, 2012Date of Patent: April 5, 2016Assignees: Ford Global Technologies, LLC, Robert Bosch GmbHInventors: Rudolf Daniels, Ian Moore, Thomas Svensson, Joerg Riethmueller, Herbert Vollert, Timo Jahnz
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Patent number: 9272693Abstract: A vehicle brake controller is capable of executing limit control when a driver is performing a brake pedal operation during turning of a vehicle, to limit an increase in a braking force applied to an inner wheel that is a wheel positioned on the inner side of the turn. The vehicle brake controller is configured to start the limit control when a wheel state value that becomes greater as deceleration of the inner wheel becomes greater exceeds a start determination value that is set to a value greater than zero.Type: GrantFiled: March 18, 2013Date of Patent: March 1, 2016Assignee: ADVICS, CO., LTD.Inventors: Yusuke Takeya, Takuya Inoue, Masato Terasaka
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Patent number: 8843254Abstract: Systems and methods are disclosed for detection of dragging brakes for use in, for example, an aircraft. A method is provided comprising calculating, by a brake controller, a slip ratio based upon an aircraft speed and a speed of an aircraft wheel, determining, by the brake controller, that the slip ratio is above a threshold value, and sending, by the brake controller and in response to the slip ratio being above the threshold value, a dragging brake signal to an aircraft component.Type: GrantFiled: July 11, 2012Date of Patent: September 23, 2014Assignee: Goodrich CorporationInventors: Eric D. Cahill, Dale Prentice
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Patent number: 8768595Abstract: A vehicle braking force control device which, at a normal time, performs antilock brake control when the slip ratio of a wheel has become equal to or greater than a predetermined threshold. The control device acquires from the engine control unit an accelerator pedal position signal corresponding to an accelerator pedal position, a clutch connection signal corresponding to a state of connection of a clutch, and a power transmission signal corresponding to a state of power transmission of a transmission. When engine braking is large on the basis of the accelerator pedal position signal, the clutch connection signal, and the power transmission signal, the vehicle braking force control device changes the predetermined threshold value to an offset threshold value that makes it harder to perform the antilock brake control than at the normal time.Type: GrantFiled: September 3, 2009Date of Patent: July 1, 2014Assignee: Bosch CorporationInventors: Takahiro Ogawa, Kazuhiro Yamada
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Patent number: 8751128Abstract: Disclosed is a driving assistance device capable of appropriately performing deceleration control in a moving vehicle having a variable wheelbase length. A driving assistance device 1 includes a wheelbase length detection sensor 11 which detects the wheelbase length of a moving vehicle X having a variable wheelbase length, a laser radar 10 which detects an obstacle in front of the moving vehicle X, and an ECU 15. In the driving assistance device 1, when an obstacle is detected by the laser radar 10, deceleration control of the moving vehicle X is performed depending on the wheelbase length detected by the wheelbase length detection sensor 11. Therefore, it is possible to suppress the disturbance of the behavior of the moving vehicle X due to the wheelbase length when deceleration control is performed.Type: GrantFiled: June 17, 2009Date of Patent: June 10, 2014Assignee: Toyota Jidosha Kabushiki KaishaInventor: Makoto Morita
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Patent number: 8706372Abstract: In a method for adjusting a brake system of a vehicle, braking power is automatically built up in the event of a collision. The automatic buildup of the braking power may be terminated by a defined driver response when the actuation of a driving pedal of the vehicle at a defined intensity and for a minimum period of time is maintained by the driver.Type: GrantFiled: August 25, 2009Date of Patent: April 22, 2014Assignee: Robert Bosch GmbHInventors: Ferah Cetinkaya, Sybille Eisele, Michael Schmid, Ralf Schaeffler
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Patent number: 8589045Abstract: A system for determining a safe maximum speed of an vehicle has a processor and a global positioning system receiver in communication with the processor. The processor is configured to determine a grade and distance to an end of an upcoming or a current road segment the vehicle is traveling on based on the global positioning system information received from the global positioning system receiver. The processor is further configured to determine the safe maximum speed of the vehicle based on the distance to the end and pitch of the grade of the upcoming or current road segment the vehicle is traveling on and the braking efficiency of the vehicle.Type: GrantFiled: February 18, 2011Date of Patent: November 19, 2013Assignee: Continental Automotive Systems, IncInventors: Shafer Seymour, David Pivonka
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Patent number: 8540324Abstract: The invention relates to a brake system which comprises an actuating device (26), especially a brake pedal (30), and a control/regulation device (22). Said control/regulation device (22) controls at least one electromotive drive device (7a, 7b, 8) in response to the movement and/or position of the actuating device (26). The drive device adjusts a piston (1, 1a, 1b) of a piston/cylinder system via a non-hydraulic transmission device, thereby adjusting a pressure in the working compartment (4?, 4?a, 4b?) of the cylinder. Said working compartment is connected to a wheel brake (15, 17) via a pressure conduit (13, 13a). A valve (14, 14a, 15, 15a, 14?, 14a?) is interposed between the brake cylinder of the wheel brake and the working compartment of the piston/cylinder system. The control/regulation device opens the valve for pressure suppression or pressure build-up in the brake cylinder and closes it in order to maintain the pressure in the brake cylinder.Type: GrantFiled: April 20, 2006Date of Patent: September 24, 2013Assignee: IPGate AGInventors: Heinz Leiber, Thomas Leiber
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Patent number: 8510009Abstract: The invention relates to a vehicle braking system, the slip of which can be regulated electronically, for which, in the event of an automatic braking process, the activation of the foot pedal by the driver, does not result in a significant actuating path. The driver therefore disadvantageously perceives different pedal actuating characteristics in the foot actuated and automatic braking operations. According to the invention, a method is proposed for controlling a vehicle braking system, the slip of which is regulated electronically, and with which pedal actuating characteristics, which are largely uniform in the different operating states of the vehicle braking system can be produced. To achieve this, a valve unit is controlled in such a way that a pressure medium flows from the wheel brake to the pressure medium reservoir and the drive motor of the pressure generator is controlled in parallel.Type: GrantFiled: January 27, 2009Date of Patent: August 13, 2013Assignee: Robert Bosch GmbHInventors: Karl-Heinz Willmann, Karl-Heinz Senger
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Patent number: 8423253Abstract: A torque applying device is provided for applying a driving torque to at least a pair of wheels, and a torque restraining device is provided for restraining the torque created on the wheels to be applied with the torque by the torque applying device. A friction braking device is provided for applying a braking torque to each wheel in response to operation of a brake pedal. An automatic braking control device automatically actuates the friction braking device independently of operation of the brake pedal, to apply the braking torque to each wheel. And, a torque restraining cancellation device is provided for cancelling the torque restraining operation for a time period determined in response to a vehicle speed decreasing state, after a condition for initiating the automatic braking control was fulfilled.Type: GrantFiled: September 22, 2006Date of Patent: April 16, 2013Assignee: Advics Co., Ltd.Inventors: Yukio Mori, Koicho Kokubo
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Patent number: 8352142Abstract: A brake control apparatus includes: a master cylinder; a wheel cylinder; a hydraulic pressure source; a control valve arranged to increase or reduce the pressure of the wheel cylinder; an outside gate valve arranged to connect or disconnect between the master cylinder and the wheel cylinder; a brake operation sensing section configured to sense a driver's brake operation; and a control unit configured to control the hydraulic pressure source, the control valve, and the outside gate valve, to perform an automatic-brake pressure-increasing control to control the outside gate valve in a valve closing direction, to drive the hydraulic pressure source, and thereby to increase the pressure of the wheel cylinder in accordance with a vehicle condition, and to increase a driving quantity of the hydraulic pressure source when the brake operation is sensed during the automatic-brake pressure-increasing control.Type: GrantFiled: June 18, 2009Date of Patent: January 8, 2013Assignee: Hitachi, Ltd.Inventor: Shinichiro Nishida
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Method for controlling the desired speed in an overrun condition for a vehicle comprising a retarder
Patent number: 8306716Abstract: A method for controlling a desired speed of a vehicle having a retarder operating in an overrun condition is proposed, such that the desired speed of the vehicle is controlled by a continuously adjustable retarder braking system and/or an engine braking control system.Type: GrantFiled: March 31, 2008Date of Patent: November 6, 2012Assignee: ZF Friedrichshafen AGInventors: Hugo Burkhart, Bernd Aumann -
Patent number: 8141959Abstract: A vehicle brake hydraulic pressure control unit including a base body including a brake fluid flow path and a mounting hole portion having a bottom sealing surface and an inner circumferential sealing surface and an assembled part which is assembled into the mounting hole portion so as to communicate with the flow path. The assembled part includes a lower end sealing portion hermetically contacting with the bottom sealing surface of the mounting hole portion to form a lower side sealing portion and an outer circumferential sealing portion hermetically contacting with the inner circumferential sealing surface of the mounting hole portion to form a circumferential sealing portion. A hermetic accommodation space is defined by the lower side sealing portion and the circumferential sealing portion.Type: GrantFiled: October 11, 2007Date of Patent: March 27, 2012Assignee: Nissin Kogyo Co., Ltd.Inventor: Kazuhiro Ota
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Patent number: 8014927Abstract: An object of the present invention is to provide an antilock brake system control device that can realize an accurate constant speed running control by cooperating an ABS control and a constant speed running. The control device includes: an ABS control hydraulic circuit that controls an ABS of each wheel; constant speed running controllers 213, 271 that supply hydraulic pressure to a rear brake 12 when a vehicle runs down a slope; wheel rotation speed detectors 13FL, 13FR, 13RL, 13RR; a monitor 67 that monitors a set speed under constant speed running control; a monitor 61 that monitors actual speed of the vehicle; a judging unit 68 that judges whether running speed is being kept constant or not based on the set speed and the actual speed; and a regulator 69 that regulates decompression by the ABS control when it is judged that the running speed is not being kept constant.Type: GrantFiled: July 31, 2006Date of Patent: September 6, 2011Assignee: Komatsu Ltd.Inventor: Koji Uematsu
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Patent number: 7941261Abstract: A brake controller function to optimally brake a wheel of a vehicle in motion, such as an aircraft. The brake pressure control self regulates by means of applying brake pressure in accordance with vehicle acceleration information and the change in acceleration over time in the horizontal plane. Vehicle acceleration and information about its change enable a brake pressure control function to determine the brake pressure associated with maximum obtainable retardation for a vehicle at that given point in time. By continuously monitoring acceleration change and detecting retardation pinnacles, the culmination and turning points of retardation, with their associated brake pressure, maximum braking ability is assured at any given time. By applying acceleration data in real time as a controls reference in a brake logic control function to increase or reduce brake pressure, such a brake control function will assure a brake pressure perfectly fit with net of all the forces that a vehicle is subjected to.Type: GrantFiled: April 15, 2005Date of Patent: May 10, 2011Inventor: Oddvard Johnsen
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Patent number: 7869927Abstract: A retarder control system for a working vehicle includes: an input shaft revolution speed detector (121) for detecting an input shaft revolution speed of a transmission; a running state acquirer (33) for acquiring a running state of the working vehicle; a threshold map storage (321) for storing a plurality of threshold maps of an input shaft revolution speed at which the retarder braking control starts or ends in accordance with a predetermined running state of the working vehicle; a threshold map selector (34) for selecting a threshold map from the threshold maps stored in the threshold map storage based on the running state acquired by the running state acquirer; and a braking controller (35) for retarder braking control based on the input shaft revolution speed of the transmission detected by the input revolution speed detector (121) and the threshold map selected by the threshold map selector (34).Type: GrantFiled: July 7, 2006Date of Patent: January 11, 2011Assignee: Komatsu Ltd.Inventor: Koji Uematsu
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Publication number: 20100049415Abstract: A control system for a vehicle brake comprises a compensation module that determines a compensated brake value based on a vehicle mass and at least one of a pedal force and a pedal displacement, and a brake control module that selectively adjusts a fluid pressure supplied to the vehicle brake based on the compensated brake value. The compensation module determines the compensated brake value based on a comparison of the vehicle mass and a predetermined mass value. A related method for controlling the vehicle brake based on vehicle mass is also provided.Type: ApplicationFiled: August 25, 2008Publication date: February 25, 2010Applicant: GM GLOBAL TECHNOLOGY OPERATIONS, INC.Inventor: PAUL A. BAUERLE
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Publication number: 20100033008Abstract: A motor vehicle fitted with a control system for applying braking effect to foundation brakes acting on each wheel of the vehicle, when the braking effect provided by auxiliary brakes, acting on the driven wheels, is lost or significantly reduced is described. Sudden loss of auxiliary brake force can be felt as very bad drivability of the vehicle, a situation that typically occurs in case of low friction between road and tires or if the auxiliary brakes are down controlled to avoid engine stop. By use of a control system, these situations can be avoided. The control system includes a sensor, and a computer for computing and applying the braking effect to the foundation brakes to compensate for the loss of auxiliary braking force. Disclosed is also a method for applying braking effect to the foundation brakes of a motor vehicle.Type: ApplicationFiled: December 9, 2005Publication date: February 11, 2010Applicant: VOLVO LASTVAGNAR ABInventors: Mats Sabelström, Peter Lingman
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Patent number: 7580785Abstract: In a vehicle dynamics control apparatus capable of balancing a vehicle dynamics stability control system and a lane deviation prevention control system, a cooperative control section is provided to make a cooperative control between lane deviation prevention control (LDP) and vehicle dynamics stability control (VDC). When a direction of yawing motion created by LDP control is opposite to a direction of yawing motion created by VDC control, the cooperative control section puts a higher priority on VDC control rather than LDP control. Conversely when the direction of yawing motion created by LDP control is identical to the direction of yawing motion created by VDC control, a higher one of the LDP desired yaw moment and the VDC desired yaw moment is selected as a final desired yaw moment, to prevent over-control, while keeping the effects obtained by both of VDC control and LDP control.Type: GrantFiled: April 29, 2008Date of Patent: August 25, 2009Assignee: Nissan Motor Co., Ltd.Inventors: Shinji Matsumoto, Genpei Naito, Satoshi Tange
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Publication number: 20090112434Abstract: Disclosed are an electronic hydraulic pressure control system and a control method thereof, capable of detecting an error in differential pressure between a master cylinder and a wheel cylinder. The control method includes the steps of acquiring pressure of a master cylinder and pedal pressure according to a stroke distance of a pedal, detecting a time point at which the pressure of the master cylinder and the pedal pressure reach predetermined reference pressure, and determining that an error occurs if the time point exceeds a predetermined reference time point.Type: ApplicationFiled: October 28, 2008Publication date: April 30, 2009Applicant: MANDO CORPORATIONInventor: Man Bok PARK
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Publication number: 20090102277Abstract: A stepwise brake control is automatically performed when TTC obtained according to a relative distance and a relative speed between a vehicle and an object is lower than a predetermined value. For example, a brake pattern is modified according to the weight of a cargo and passengers. Alternatively, a driver selects a brake pattern of different (rapid or slow) speed reduction according to the type or weight of the passengers and cargo. Furthermore, the driver's psychology is acquired according to the alarm distance between vehicles set by the driver and an optimal brake pattern is selected according to this. Alternatively, an operation state of the vehicle by the driver is detected and if the detection result does not satisfy a predetermined condition, the set value of the TTC is increased. For example, the predetermined condition indicates the normal state of the driving by the driver.Type: ApplicationFiled: August 8, 2006Publication date: April 23, 2009Inventors: Toshiki Ezoe, Shuji Narada, Naoshi Ichinose, Koichi Okamoto, Hirokazu Okuyama
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Publication number: 20090077963Abstract: A master cylinder includes a housing and a first secondary piston disposed in the housing. The first secondary piston cooperates with the housing to define a first secondary chamber which changes volume as the first secondary piston moves in the housing. A second secondary piston is disposed in the housing and cooperates with the housing to define a second secondary chamber which changes volume as the second secondary piston moves in the housing. A stepped primary piston is disposed in the housing. The primary piston cooperates with the housing to define a primary chamber which changes volume as the primary piston moves in the housing. The primary piston defines an abutment surface which can be driven into abutment with the first secondary piston and the second secondary piston to move the first secondary piston and the second secondary piston. A primary piston spring maintains a restorative force on the primary piston when actuated.Type: ApplicationFiled: June 29, 2006Publication date: March 26, 2009Inventor: Blaise Ganzel
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Patent number: 7475953Abstract: A method is provided for applying a soft-stop control to the vehicle brake actuators of a vehicle during a vehicle stop operation. A brake apply operation is detected. A determination is made whether the vehicle speed is below a first threshold stopping speed. Braking pressure to the vehicle actuators is reduced as a function of vehicle speed, vehicle deceleration, and brake apply pressure if the vehicle speed is below the first threshold stopping speed.Type: GrantFiled: February 3, 2006Date of Patent: January 13, 2009Assignee: Kelsey-Hayes CompanyInventors: Douglas Charles Osborn, James Andrew Techentin
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Patent number: 7358864Abstract: In a parking assist control apparatus for assisting a driver with parking a vehicle, when a brake control ECU detects that a door is open based on a detection signal from a door open/close sensor during parking assist control, the brake control ECU determines whether the open door is a door other than the driver side door. If the open door is a door other than the driver side door, the vehicle is automatically stopped, thus enabling occupant safety to be ensured.Type: GrantFiled: May 26, 2005Date of Patent: April 15, 2008Assignee: Advics Co., Ltd.Inventors: Yukio Mori, Kazutaka Kato, Kazuhiro Kamiya, Masahiro Matsuura
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Patent number: 7354119Abstract: A brake system for a vehicle has a brake pedal and at least one rotational part. The brake system further includes a shaft connectable to the rotational part, and a first fluid control unit configured for being filled with fluid and actuating in response to manipulation of the brake pedal. In addition, at least two cylinders in fluid communication with the first fluid control unit are provided. Each cylinder has a first cylinder end having an associated reciprocating piston and a second cylinder end configured for connection to the vehicle. The brake system also includes a linkage, connected to the at least one first cylinder end of a respective reciprocating piston and to the shaft to provide balanced operation of the reciprocating pistons upon rotation of the shaft.Type: GrantFiled: September 27, 2005Date of Patent: April 8, 2008Inventor: Joel Nazara
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Patent number: 7249810Abstract: A stepped braking system is used as a function of the required braking torque in this method for maintaining a desired braking torque in a vehicle equipped with stepped and infinitely-variable permanent braking systems whereby simultaneous activation of the stepped and infinitely-variable braking systems occurs in such manner that the sum of the participations of the different systems provides the required braking torque at any time.Type: GrantFiled: January 19, 2002Date of Patent: July 31, 2007Assignee: ZF Friedrichshafen AGInventors: Bernhard Grupp, Bernhard Reisch, Frank Sauter, Peter Schmidtner
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Patent number: 7237852Abstract: Method and device for controlling and braking an aircraft running on the ground According to the invention, the aircraft (1) comprises two close undercarriage wheel assemblies (2D, 2G) and two distant undercarriage wheel assemblies (3D, 3G), the biggest of the braking commands (FD, FG) can, under certain conditions, be applied not only to the corresponding two undercarriage wheel assemblies, but also to the close undercarriage wheel assembly corresponding to the smallest braking command.Type: GrantFiled: April 8, 2005Date of Patent: July 3, 2007Assignee: Airbus FranceInventors: Rémi Bellouard, Gérard Mathieu
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Patent number: 7225059Abstract: In a method for operating a vehicle having a drive, a value of an internal torque to be supplied by the drive is determined from a positive propulsion torque requested by a user or a control and/or regulating system and the drive is triggered accordingly. Furthermore, the drive may supply a negative propulsion torque. A value of a negative propulsion torque requested by the user or by the control and/or regulating system is determined and then used to determine a value of a corresponding negative internal torque to be supplied by the drive and the drive may be triggered accordingly.Type: GrantFiled: June 25, 2004Date of Patent: May 29, 2007Assignee: Robert Bosch GmbHInventors: Guenter Kettenacker, Juergen Saile, Ulrich Schopf, Hauke Wendt
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Patent number: 6962396Abstract: A method and a device for controlling a brake system of a vehicle, with an automatic braking action being triggered when a threshold value is exceeded. The threshold value is varied as a function of a quantity derived from the distance to an obstacle located in front of the vehicle.Type: GrantFiled: May 10, 2004Date of Patent: November 8, 2005Assignee: Robert Bosch GmbHInventors: Ian Faye, Helmut Wiss
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Patent number: 6932441Abstract: In a method for controlling the speed of a motor vehicle, an acceleration-demand signal is generated which represents a positive or negative setpoint acceleration of the vehicle, and either a control command is output to the engine or a control command is output to braking system of the vehicle as a function of this signal, wherein a signal for preloading the braking system is output when the acceleration-demand signal falls below a threshold value which lies above a value at which the braking system is activated.Type: GrantFiled: February 16, 2002Date of Patent: August 23, 2005Assignee: Robert Bosch GmbHInventors: Manfred Hellmann, Ralph Lauxmann, Albrecht Irion
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Patent number: 6865471Abstract: A vehicle cruise control apparatus is provided for controlling a vehicle to run at a set speed desired by a driver. The apparatus stores a state in which the driver inputs a set speed (for example, the number of times the driver inputs the set speeds and a period at which the driver inputs the set speeds), and calculates a target acceleration/deceleration from the input state and a vehicle speed deviation (calculated by subtracting the actual vehicle speed from the set speed).Type: GrantFiled: April 10, 2003Date of Patent: March 8, 2005Assignees: Hitachi, Ltd., Hitachi Car Engineering Co., Ltd.Inventors: Yasufumi Konishi, Taisetsu Tanimichi, Tatsuya Yoshida, Toshio Manaka, Hidefumi Adachi, Eiichiro Kondo
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Publication number: 20040207257Abstract: A method and a device for controlling a brake system of a vehicle, with an automatic braking action being triggered when a threshold value is exceeded. The threshold value is varied as a function of a quantity derived from the distance to an obstacle located in front of the vehicle.Type: ApplicationFiled: May 10, 2004Publication date: October 21, 2004Inventors: Ian Faye, Helmut Wiss
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Patent number: 6792345Abstract: A lane-keep control system is installed in a host vehicle equipped with an inter-vehicle distance control system. The lane-keep control system is arranged to decrease a threshold to be compared with the vehicle traveling condition for determining the tendency of the lane deviation when the inter-vehicle distance is being executed, so that the deviation avoidance control during execution of the inter-vehicle distance control is started earlier than the deviation avoidance control during inexecution of the inter-vehicle distance is started.Type: GrantFiled: November 21, 2002Date of Patent: September 14, 2004Assignee: Nissan Motor Co., Ltd.Inventors: Shinji Matsumoto, Satoshi Tange, Hiroyuki Yoshizawa
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Publication number: 20040119333Abstract: A device and method for controlling the brakes of a commercial vehicle are provided and include a device for the adaptive regulation of distance and/or driving speed (ACC), which modulates an urgency signal (d) based upon a hazard variable such as the relative speed of and/or distance to a vehicle traveling in front of said commercial vehicle, an electronically controlled brake system, which is designed to distribute a desired amount of braking force to a friction brake system and a retarding brake, and wherein the electronically controlled brake system is further designed in such a way that the distribution of the desired braking force to the friction brake system and the retarding brake is also based upon the urgency signal (d).Type: ApplicationFiled: July 31, 2003Publication date: June 24, 2004Inventor: Thomas Hackl
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Patent number: 6695416Abstract: A method controls a vehicle brake system having a service brake and a retarder in a mutually coordinated manner. The retarder is activated during each braking operation and is controlled as a function of the driver's braking desire as well as of driving condition values, road condition values and operating conditions of the vehicle (integrated operation of the retarder).Type: GrantFiled: July 22, 1999Date of Patent: February 24, 2004Assignee: DaimlerChrysler AGInventor: Michael Reiner
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Patent number: 6655753Abstract: A method for determining parameters for the viscosity or temperature of a brake fluid of a vehicle by way of a predetermined pressure build-up within time limits in at least one defined section of a brake circuit and for detecting a pressure in the said section and/or a time which is required for the build-up of the said pressure.Type: GrantFiled: December 11, 2001Date of Patent: December 2, 2003Assignee: Continental Teves AG & Co. oHGInventor: Jochen Führer
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Publication number: 20030111902Abstract: A distance, speed and direction sensitive processor coupled to a brake controller. The processor executes instructions to compare actual vehicle performance with that of a deceleration profile and modulates the brake controller to bring vehicle performance into agreement with the profile. Distance information is provided by a radar sensor for long ranges, an ultrasonic sensor for medium ranges, and a wheel rotation sensor for short ranges. Speed information is provided by a vehicle mounted sensor or calculated by the processor based on distance. Direction information is provided by a vehicle mounted switch or determined by the processor based on distance. The brake controller includes a hold valve and a dump valve, each of which is modulated with a pulse train signal.Type: ApplicationFiled: December 17, 2001Publication date: June 19, 2003Inventors: David Thiede, Jon P. Beatty, Richard A. Gunderson, John R. McKinley
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Patent number: 6557950Abstract: A hydraulic brake apparatus for a vehicle comprises a master cylinder and an auxiliary hydraulic pressure source. A master cylinder hydraulic pressure outputted from the master cylinder is adjusted by adding a master cylinder hydraulic pressure in response to an operation of a brake operating member to a master cylinder hydraulic pressure at an auto-braking control when the brake operating member is operated during the auto-braking control. The master cylinder hydraulic pressure is adjusted by controlling an operation of a valve means so as to increase a power hydraulic-pressure supplied from the auxiliary hydraulic pressure source to a regulating means corresponding to the amount of the operation of the brake operating member.Type: GrantFiled: January 23, 2002Date of Patent: May 6, 2003Assignee: Aisin Seiki Kabushiki KaishaInventors: Yasuhito Ishida, Yasunori Sakata
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Publication number: 20020180263Abstract: In a system of accelerating a car using a brake operating mechanism, the driver is required to be ready to step on the brake operating mechanism so as to rapidly decelerate the car in order to avoid danger, if necessary, while he is releasing his foot from the brake operating mechanism, which is a burden for the driver. Therefore, a footrest function range and a braking force increasing function range are provided to an operating amount or an operating force of a pedal 13.Type: ApplicationFiled: June 5, 2002Publication date: December 5, 2002Applicant: Hitachi, Ltd.Inventors: Toshimichi Minowa, Satoru Kuragaki, Kazuhiko Satou, Tokuji Yoshikawa
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Patent number: 6474753Abstract: For externally actuating a brake system, both the surroundings of the brake pedal and, if necessary, additional parameters (d,d ,Vref) are monitored a sensor unit (6,10,11). Then the brake pressure (pnom) will be set automatically in an expedient manner in dependence of the individual parameters that were evaluated. Advantageous further embodiments include proposals for precharging the brake or braking slightly or automatically applying a higher brake pressure in dependence of the measuring results, in so far as this is reasonable with respect to road conditions and the driver's wishes as they were assumed by the system.Type: GrantFiled: June 11, 1999Date of Patent: November 5, 2002Assignee: Continental Teves AG & Co., OHGInventors: Peter Rieth, Jochen Burgdorf, Alfred Eckert
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Patent number: 6460942Abstract: When a normal braking is performed, a master cylinder (32) and wheel cylinders (44FR, 44FL, 44RR, 44RL) are set to a conducting state. When an emergency braking is performed, the master cylinder and the wheel cylinders are joined together so that a large brake force can be generated. If the wheel cylinders are connected to an accumulator soon after the emergency braking, an increase in the wheel cylinder pressure can be prevented. Even after the emergency braking, the wheel cylinders and the master cylinder are maintained in the conducting state while the master cylinder pressure is rapidly increasing.Type: GrantFiled: January 15, 1999Date of Patent: October 8, 2002Assignee: Toyota Jidosha Kabushiki KaishaInventors: Satoshi Shimizu, Yoshiyuki Hashimoto
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Patent number: 6421598Abstract: An anti-lock brake control system is provided which applies appropriate antilocking control while at the same time reduce the amount of brake fluid consumption normally experienced in vehicles with anti-lock brake systems. To that end, this invention is designed to provide an anti-lock brake control system where the rear wheel is individually controlled upon activating the brake force distribution control and the rear wheel is controlled on a select-low bases if the brake force distribution control is not activated. Various other methods of control are described.Type: GrantFiled: August 10, 2000Date of Patent: July 16, 2002Assignee: Nisshinbo Industries, Inc.Inventor: Hiroshi Oshiro
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Patent number: 6367891Abstract: An apparatus for determining the direction of locomotive travel while in dynamic braking is disclosed. This direction of travel is derived from current sensors associated with the locomotive traction motors. When in the dynamic braking mode, current flows through the current sensors in a first direction when a train is traveling in the first direction and reverses the direction of flow when the train is traveling in a second direction.Type: GrantFiled: September 25, 2000Date of Patent: April 9, 2002Assignee: General Electric CompanyInventors: Myron Lee Smith, Stephen Matthew Pelkowski
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Patent number: 6364433Abstract: The safety brake system for a motor vehicle continuously monitors for a rear impact collision. If the rear impact is classified as one requiring responsive intervention, the system applies a braking force to the motor vehicle wheels. If the vehicle was stopped with the brake applied at the instant of the rear impact, then the brakes are completely blocked. As a result, the brakes are not released when the driver's foot is forced off the brake pedal upon impact and the resultant forward jerk of the vehicle is reduced or substantially suppressed. If the car was traveling a given speed at the instant of impact, the brakes are applied with a reduced braking force.Type: GrantFiled: May 7, 1999Date of Patent: April 2, 2002Inventor: Werner H. Stemer
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Publication number: 20010035677Abstract: A braking system for a vehicle is responsive to vehicle dynamic operating conditions to provide enhanced braking when vehicle instability is detected. In one version braking force as a function of brake pedal force is increased. In another version an actuator takes up free play in a brake clamping device. The system may additionally respond to operator controls indicating possible full braking action; such as rapid release of an accelerator.Type: ApplicationFiled: May 10, 2001Publication date: November 1, 2001Inventors: Peter Schafer, Dieter Maus, Rudolph Heuer