Class / Patent application number | Description | Number of patent applications / Date published |
303014000 | Double heading | 40 |
20090212621 | Electrohydraulic Braking System Comprising Vehicle Dynamics Control - An electrohydraulic brake system with driving dynamics control comprising a master cylinder that is operable by a brake pedal and includes at least one piston, which is displaceably arranged in a housing of the master cylinder and delimits a hydraulic pressure chamber together with the housing, the pressure chamber being connectable to an unpressurized pressure fluid reservoir by way of a pressure fluid reservoir connection and a pressure fluid channel and to wheel brakes to by way of an outlet, with a pressure fluid supply device supplying pressure fluid from the pressure fluid reservoir in the direction of the wheel brakes in the case of driving dynamics control. | 08-27-2009 |
20100117446 | TWO-STAGE MASTER BRAKE CYLINDER - A two stage master brake cylinder uses a primary and secondary piston to displace an initial large volume of hydraulic fluid during a first stage and a second stage that continues brake actuation by displacing a reduced volume of hydraulic fluid determined by the secondary piston. A by-pass control valve is adjustable to vary transition from the first stage to the second stage. | 05-13-2010 |
20100176654 | THREE-WAY VALVE SIMULATOR FOR A VEHICLE BRAKE SERVO WITH PLAY COMPENSATION - The three-way valve simulator ( | 07-15-2010 |
20100244549 | Vehicle braking system and master cylinder - Provided are a vehicle braking system and a master cylinder which are capable of providing a good pedal feel. A valve-opening pressure for a pressure-reducing valve of the master cylinder is set higher than a hydraulic pressure which is obtained with a pressing force on a brake pedal being 500 N and lower than a hydraulic pressure obtained at a time when a booster reaches a full-load point in case of failure of the booster so as to be specialized for improving pedal feel. Required performance in case of failure of the booster is realized by a pressure-intensifying unit. | 09-30-2010 |
20110089755 | TRAIN BRAKING DEVICE - To provide a train braking device including a controller that controls a brake cylinder pressure acting on a brake cylinder based on a service brake command or an emergency brake command, the train braking device includes a supply valve for supplying compressed air to the brake cylinder and an exhaust valve for adjusting a pressure of the supplied compressed air. The controller includes an electromagnetic-valve drive circuit, which includes a first switch circuit that a first switch for slide control is connected in parallel to ends of a serially connected circuit of a first switch for emergency brake and a first switch for service brake control with its one end being connected to a circuit power supply and the other end being connected to the supply valve, and a second switch circuit that a second switch for slide control is connected in parallel to ends of a serially connected circuit of a second switch for emergency brake and a second switch for service brake control with its one end being connected to the first switch circuit and the other end being connected to the exhaust valve. | 04-21-2011 |
20110175437 | BRAKE CONTROL APPARATUS - A brake control apparatus is equipped with a plurality of fluid pressure adjusting valves that have opening degrees thereof adjusted through energization control to adjust the fluid pressures, a plurality of valves that are provided in series with at least two of the fluid pressure adjusting valves are closed during stoppage of energization to hold the fluid pressures, and a brake ECU. The brake ECU controls fluid pressure adjustment achieved by supplying the fluid pressures to the wheel cylinders respectively, opening the communication valves and adjusting the opening degrees of the fluid pressure adjusting valves to adjust the fluid pressures respectively, and fluid pressure holding achieved by closing the communication valves opening the fluid pressure adjusting valves and holding the fluid pressures by means of the communication valves respectively. | 07-21-2011 |
20110316329 | Brake Control Device - According to the present invention, limited electric power is consumed so as to achieve long-lasting use of electric power during brake control with the use of an auxiliary power supply source when there is a malfunction of a vehicle power supply source. In addition, a brake control device for ensuring responsivenss at the beginning of braking or when emergency braking is necessary is provided. The brake control device of the present invention is a brake control device for detecting electric signals generated depending on the degree of brake-pedal operation and calculating the driver's demanded braking force based on the electric signals so as to generate the demanded braking force, which comprises an auxiliary power supply source for supplying electric power to the brake control device when there is a malfunction of a vehicle power supply source and controls braking deppending on the charged capacity of the auxiliary power supply source. | 12-29-2011 |
20120019054 | Braking Control System - A braking control system comprising a first source of pressurised fluid ( | 01-26-2012 |
20120091787 | BRAKE CONTROL APPARATUS - A brake control apparatus for a vehicle includes: a master cylinder for raising a wheel cylinder pressure according to operation of a brake pedal; a booster for raising the wheel cylinder pressure by operating the master cylinder independently of operation of the brake pedal; a pressure regulator provided with a hydraulic pump for raising the wheel cylinder pressure independently of operation of the master cylinder; and a control section including: a first controller for controlling the booster; and a second controller for controlling the pressure regulator. The control section detects that at least one of the booster and the first controller is in a state of malfunction; selects one of backup modes according to the state of malfunction, wherein the backup modes restrict operation of at least one of the booster and the pressure regulator in different manners; and controls the wheel cylinder pressure in the selected backup mode. | 04-19-2012 |
20120161506 | VEHICLE BRAKE SYSTEM - In a brake-by-wire vehicle brake system that uses a solenoid shut-off valve ( | 06-28-2012 |
20120193975 | VEHICLE BRAKE APPARATUS - A vehicle brake apparatus causes the brake control ECU to shut down control of the slave cylinder and the master cut valve in a failure mode in which the slave cylinder becomes inoperative due to a failure in the power supply, thereby allowing a brake fluid pressure generated by a master cylinder through operation of the brake pedal to actuate the wheel cylinder. The brake control ECU shuts down control of the slave cylinder and the master cut valve when the first monitoring device detects a failure in the power supply and the second monitoring device detects an interruption of the communication between the brake control ECU and other vehicle control devices that are provided independently of the brake control ECU. | 08-02-2012 |
20120223572 | HYDRAULIC BRAKE ARCHITECTURES FOR AIRCRAFTS FOR BRAKING AT LEAST ONE WHEEL OF THE AIRCRAFT - Aircraft hydraulic parking architecture, including a brake with a wheel braking hydraulic actuator, a pressure source (Alim) of high-pressure fluid, a normal braking hydraulic circuit (C | 09-06-2012 |
20120306260 | VEHICLE BRAKE DEVICE AND VEHICLE BRAKE DEVICE CONTROL METHOD - In a BBW type vehicle brake device, first and second fluid paths that are connected to each other are both connected to a slave cylinder with a simple structure equipped with a single fluid pressure chamber, thereby enabling wheel cylinders having two lines to be operated and eliminating the need for a complicated tandem type slave cylinder. When the slave cylinder becomes inoperable due to malfunction of the power supply, by opening first and second master cut valves and closing the communication control valve, braking is carried out by brake fluid pressure generated by a master cylinder. In this process, since the interconnection between the first and second fluid paths is blocked by closing the communication control valve, even if the wheel cylinder of one of the brake lines suffers from a liquid leakage malfunction, the other remained brake line is enabled to ensure a braking force. | 12-06-2012 |
20130043718 | BRAKING SYSTEM FOR MOTOR VEHICLES - A braking system for motor vehicles. The system comprises a brake pedal, a travel simulator which is coupled via actuating-forces transmitting first mechanical connecting means to the brake pedal. A brake master cylinder having at least one pressure chamber and one piston. The pressure chamber is connected or connectable via a pressure line to at least one hydraulically actuable wheel brake, and an electrically controllable electromechanical drive device with which the piston of the brake master cylinder is actuable via a second mechanical connecting means. The electromechanical drive device is arranged between the brake pedal on one side and the brake master cylinder and the travel simulator on the other side. The first mechanical connecting means extends from the brake pedal through the drive device to the travel simulator. | 02-21-2013 |
20130082514 | BRAKE CONTROL DEVICE - With use of electric power supplied from a vehicle power source, an electric motor is controlled based on a movement amount of an input rod by a master-pressure control device. A primary piston is thrust through an intermediation of a hall-screw mechanism to generate a brake fluid pressure in a master cylinder. The brake fluid pressure generated by the master cylinder is fed-back by an input piston through an intermediation of the input rod to a brake pedal. When system end conditions such as the OFF state of the ignition switch are satisfied, the master-pressure control device executes power-supply interruption control to interrupt the vehicle power source and supply necessary electric power from an auxiliary power source, to thereby continue brake control with the electric power stored in the auxiliary power source. | 04-04-2013 |
20130113271 | BRAKE ACTUATING UNIT FOR ACTUATING A MOTOR VEHICLE BRAKE SYSTEM - Disclosed is a brake actuating unit for actuating a motor vehicle brake system of the ‘brake-by-wire’ type. The system includes a brake booster which is operable in response to the driver's wish both by a brake pedal and by an electronic control unit. A device is provided to decouple a force-transmitting connection between the brake pedal and the brake booster in the ‘brake-by-wire’ operating mode. A master brake cylinder connected downstream of the brake booster, a device to detect a deceleration request of the driver, and a pedal travel simulator which interacts with the brake pedal and due to which a resetting force acting on the brake pedal can be simulated in the ‘brake-by-wire’ operating mode independently of an actuation of the brake booster, and which can be enabled in the ‘brake-by-wire’ operating mode when the force-transmitting connection between the brake pedal and the brake booster is decoupled and can be disabled outside the ‘brake-by-wire’ operating mode. The pedal travel simulator ( | 05-09-2013 |
20130127240 | Vehicle Brake Device - A vehicle brake device is provided with a master piston which is driven to generate a master cylinder pressure. The device includes a pressure accumulation portion that accumulates the brake fluid under pressure; a servo pressure generation portion that is configured to be able to generate the servo pressure using the brake fluid in the pressure accumulation portion regardless of the operation of the brake operation member; brake fluid consumption correlative value detection means for detecting a brake fluid consumption correlative value relating to a consumption of the brake fluid in the pressure accumulation portion; and failure detection means for driving the master pistons only by the servo pressure using the servo pressure generation portion in a state where the brake operation member is not operated, and detecting a failure of a master system, based on a brake fluid consumption correlative value detected by the brake fluid consumption correlative value detection means at that time. | 05-23-2013 |
20130127241 | Vehicle Brake Device - A vehicle brake device includes a failure detection means for driving the master piston only by the operation force of the brake operation member along with the operation of the brake operation member, thereby to detect a failure of a master system, when a master cylinder pressure correlation value correlated to the master cylinder pressure is less than a predetermined value, in a case where an operation amount of the brake operation member is a predetermined amount or in a case where the operation force of the brake operation member is a predetermined force; and a driving control means for driving the master piston by force corresponding to the servo pressure in the servo chamber generated by the servo pressure generation portion, when the operation amount of the brake operation member is greater than a predetermined amount, or when the operation force of the brake operation member is greater than a predetermined force, in the operation of the brake operation member in which the failure detection means detects the failure of the master system. | 05-23-2013 |
20130134769 | BRAKE CONTROL DEVICE - A brake control device includes: a relay valve that generates a first drive pressure for driving a brake, from an air pressure generated by a first air supply source, based on an pilot pressure applied; a double check valve that connects the relay valve and a second air supply source that generates a second drive pressure separate to the first air supply source, and that communicates the drive pressure which is generated in either the relay valve or the second air supply source, with the brake; a variable load valve that outputs a first pressure according to a pressure of an air spring fitted on a vehicle side; a first solenoid valve group which generates the pilot pressure from the air pressure during service operation; and a second solenoid valve group which outputs, as the pilot pressure, a second pressure according to the first pressure output from the variable load valve during emergency operation. | 05-30-2013 |
20130140879 | METHOD FOR OPERATING A HYDRAULIC BRAKING SYSTEM OF A VEHICLE AND CONTROL UNIT FOR A HYDRAULIC BRAKING SYSTEM OF A VEHICLE - A method and control unit for operating a hydraulic braking system of a vehicle, including: receiving an input, provided by an on board control system, with regard to a setpoint pressure change in at least one wheel brake cylinder of the hydraulic braking system which is connected to a brake master cylinder via at least one brake circuit; displacing at least one sealing element into a sealing position with regard to at least one connecting channel of the brake master cylinder to a brake medium reservoir of the hydraulic braking system; establishing a setpoint conveying variable for at least one brake medium conveying element of the hydraulic braking system for conveying a brake medium volume between at least one storage volume of the hydraulic braking system and a storage-external volume of the at least one brake circuit, taking into consideration the received input; and activating the at least one brake medium conveying element according to the established setpoint conveying variable. | 06-06-2013 |
20130147259 | Brake System for Motor Vehicles - A brake system for motor vehicles comprising a brake master cylinder which can be activated by means of a brake pedal and to which wheel brakes are connected. The brake system also comprises an electrically controllable pressure-generating device, a pressure-regulating valve arrangement to regulate a wheel brake pressure set at a wheel brake, a first electronic control and regulating unit which controls at least one of the pressure-generating device, the pressure-regulating valve arrangement, and an electrically controllable auxiliary pressure-generating device by means of which the brake master cylinder can be activated by means of which a pressure in an intermediate chamber of the brake master cylinder can be controlled or regulated. | 06-13-2013 |
20130162013 | Brake System for Motor Vehicles - A brake system for motor vehicles, which in a “brake by wire” mode, can be activated both by the vehicle driver and also independently of the vehicle driver, which is operated preferentially in the “brake by wire” operating mode and can be operated in a fall-back mode. A pedal force actuating element connected to a brake pedal is guided in a retaining piston forming a retaining chamber. Dividing piston devices interact with the retaining piston and connected to vehicle wheel brakes. The first dividing piston and the second dividing piston surface are formed on a first dividing piston portion and the first dividing piston surface, together with a third dividing piston surface formed on a second dividing piston portion form an intermediate chamber connected to electrohydraulic pressure generating device. A pressure modulation valve enables both a build-up of pressure in and also a discharge of pressure from the intermediate chamber. | 06-27-2013 |
20130234502 | Brake System for Motor Vehicles - The invention relates to a brake system for motor vehicle. A piston-cylinder arrangement can be actuated by means of a brake pedal, a controllable pressure source and brake pressure modulation valves. In order to provide a piston-cylinder arrangement which is easy to implement and axially short, the invention proposes that the piston of the piston-cylinder arrangement is directly guided in a housing that accommodates further components of the brake system according to the invention. | 09-12-2013 |
20130270895 | VEHICLE BRAKE SYSTEM - Upon occurrence of a change in the load versus fluid loss property, the braking force for the given brake pedal operation amount is changed so that the vehicle operator is enabled to perceive the change in the load versus fluid loss property. In a vehicle brake system comprising a motor actuated cylinder, wheel cylinders, a stroke sensor for detecting a brake pedal operation amount, a target value setting circuit for setting a target stoke of the motor actuated cylinder, and a fluid pressure compensating circuit for correcting the target stoke upon detection of a deviation between a brake fluid pressure reference value corresponding to the brake pedal operation amount and an actual brake fluid pressure in a direction to reduce the deviation, a stroke limiting circuit restricts a compensation value produced by the fluid pressure compensation circuit according to the brake pedal operation amount. | 10-17-2013 |
20130320751 | DUAL CIRCUIT PNEUMATIC FOOT VALVE WITH ELECTRONICALLY CONTROLLED PROPORTIONAL MODULATOR (ECPM) AND OPERATOR INPUT SENSING - A foot valve that can be activated either by the driver or an electronic control unit, wherein the foot valve can be the central driving device for automated braking applications such as Hill Start Aid and Work Brake Systems. Pneumatic pressure delivered by an electronically controlled proportional modulator to the foot valve activates either primary and/or secondary portions of the brake valve. The driver can mechanically override the electronic intervention when he presses on the brake pedal. For applications such as ESC and ATC, driver demand can be sensed by sensors in the foot valve and transmitted to the braking system electronic controller on the vehicle. | 12-05-2013 |
20140159473 | BRAKE SYSTEM PEDAL SIMULATOR CONNECTION - A vehicle braking system includes a master cylinder configured to receive an input from a brake pedal. At least one wheel cylinder is operable to provide a braking force on a wheel when supplied with pressurized hydraulic fluid. A control valve is in fluid communication with both the master cylinder and the at least one wheel cylinder, and the control valve includes a piston movable by an ancillary braking actuator to provide pressurized hydraulic fluid to the at least one wheel cylinder. A pedal feel simulator is configured to provide a simulated reaction force to the brake pedal. The control valve is configured to establish fluid communication between the master cylinder and the pedal feel simulator when the piston is moved by the ancillary braking actuator. | 06-12-2014 |
20140159474 | Safety Circuit for Blocking Drive of a Brake Booster - The invention relates to a brake system having a brake booster, in which pressure medium can be guided by means of at least one switchable valve ( | 06-12-2014 |
20140183935 | Vehicle Braking System - A vehicle braking system includes a brake actuator, a braking control valve assembly and an emergency apply valve having a control port which is connected to the supply line by a further control line. The braking system also includes an electrically operable brake apply valve that is movable between a first position in which fluid flow along further control line is permitted and a second position in which fluid flow along the further control line is substantially prevented and the control of the emergency apply valve is connected to a low pressure region. | 07-03-2014 |
20140232178 | Braking Method and Braking Device for a Vehicle and Hydraulic Brake System and Vehicle Associated Therewith - A braking device for a vehicle, comprises a main brake cylinder, which provides, in response to the actuation thereof, an operating brake pressure in at least one operating brake circuit for the actuation of an operating brake A hydraulic fluid pressure intake connected to a hydraulic circuit, which contains a hydraulic fluid having a built-up hydraulic circuit pressure. Through the hydraulic fluid pressure intake, the hydraulic fluid is provided at the hydraulic circuit pressure. The braking device further comprises a valve device, which actively controls a main brake cylinder actuation pressure and/or a parking brake release pressure by means of the hydraulic fluid that is provided. The main brake cylinder is actuated by means of the main brake cylinder actuation pressure for an active brake engagement. Alternatively or additionally, a parking brake is hydraulically released by means of the parking brake release pressure. | 08-21-2014 |
20140265545 | BRAKING SYSTEM FOR A VEHICLE - A braking system for a vehicle having a hydraulic brake device for applying a friction brake force to at least one wheel of the vehicle includes a master cylinder and a mechanically controlled backup hydraulic cylinder. The master cylinder is in fluid communication with a reserve of brake fluid and in fluid communication with hydraulic brake device. The master cylinder is operative to control the hydraulic brake device upon actuation. The mechanically controlled regulation backup cylinder is in fluid communication with the reserve of brake fluid and in fluid communication with the master cylinder. The backup hydraulic cylinder is mechanically controlled to move brake fluid therein and thereby actuate the master cylinder by delivering brake fluid to the master cylinder. | 09-18-2014 |
20140368027 | METHOD FOR OPERATING A BRAKE SYSTEM FOR MOTOR VEHICLES, AND BRAKE SYSTEM - A system and method for operating a brake system for motor vehicles, includes a master brake cylinder actuated by a brake pedal and separably connected to at least one hydraulically acutuatable wheel brake by at least one brake circuit, a hydraulically operable pedal travel simulator is connectable to the master brake cylinder, an electrically controllable pressure provision apparatus is separably connected to the brake circuit, and an electronic open-loop and closed-loop control unit. Upon brake pedal actuation, a pressure of the pressure provision apparatus is applied to the brake circuit in a first operating mode and the pressure of the master brake cylinder is applied to the brake circuit in a second operating mode. In the event of transition from the second operating mode to the first operating mode while the brake pedal is actuated, the actuation travel of the brake pedal is adjusted by electronic open-loop or closed-loop control. | 12-18-2014 |
20150008726 | VEHICLE BRAKING FORCE CONTROL DEVICE - A vehicle braking force control device includes a braking force control unit. The braking force control unit is configured to shift to a drive state so as to use an auxiliary power source when a main power source fails, and to limit current outputted to an electric actuator of a braking device for producing braking hydraulic pressure when a transition is made to the drive state using the auxiliary power source. The braking force control unit has two current limit values used during actuation of the electric actuator by the auxiliary power source, the current limit values being a first current limit value for ensuring increased-braking-hydraulic-pressure characteristics, and a second current limit value for ensuring a necessary minimum braking hydraulic pressure, the second current limit value being less than the first current limit value. | 01-08-2015 |
20150028666 | POWER BRAKE SYSTEM - The invention relates to a spring-force brake system having a brake operating unit, having at least one sensor for detecting a driver braking demand upon operation of the brake operating unit by the driver, having at least one actuation unit for setting and regulating a braking force. For this purpose, it is provided according to the invention that at least one primary electronic control and regulating unit is provided which is connected at the signal input side to at least one sensor and which activates the actuation unit as a function of or on the basis of the signals of the sensor, and that at least one secondary control and regulating unit is provided which is connected at the signal input side to at least one sensor and which activates the actuation unit on demand on the basis of or as a function of signals of the sensor. | 01-29-2015 |
20150061363 | BRAKING DEVICE - A braking device includes a guide piston which surrounds the outer periphery of a rod part of a second slave piston, a cup seal which is mounted on the second slave piston, and a seal member which is provided on the guide piston. The second slave piston includes an enlarged diameter portion which comes into contact with an axial-direction surface of the guide piston when the second slave piston is in the initial position, and the enlarged diameter portion is provided with a cut-out section which extends in the internal diameter direction of the second slave piston. | 03-05-2015 |
20150069828 | PRESSURE REGULATOR AND HYDRAULIC BRAKE SYSTEM EQUIPPED WITH THE PRESSURE REGULATOR - A pressure regulator, including a housing; a piston axially movably disposed in the housing; a high-pressure chamber; a low-pressure chamber; a regulated-pressure chamber whose pressure biases the piston in a first direction in an axial direction of the housing; a first pilot chamber whose pressure biases the piston in a second direction opposite to the first direction; a second pilot chamber whose pressure biases the piston in the second direction; and a valve mechanism configured such that, by a movement of the piston in the second direction, communication between the regulated-pressure chamber and the high-pressure chamber is permitted while communication between the regulated-pressure chamber and the low-pressure chamber is shut off and such that, by a movement of the piston in the first direction, the communication between the regulated-pressure chamber and the high-pressure chamber is shut off while the communication between the regulated-pressure chamber and the low-pressure chamber is permitted. | 03-12-2015 |
20150097418 | ELECTRONIC HYDRAULIC BRAKE DEVICE - An electronic hydraulic brake device may include: a reservoir storing brake oil; a reaction cylinder connected to the reservoir, and changing a pedal force and brake oil pressure in connection with motion of a pedal; a reaction valve installed between the reservoir and the reaction cylinder so as to control transfer of brake oil; a wheel brake restraining rotation of each wheel in connection with the operation of the reaction cylinder; and a brake valve installed on a connection pipeline for connecting the wheel brake and the reaction cylinder so as to control transfer of brake oil. | 04-09-2015 |
20150137588 | ELECTRONIC HYDRAULIC BRAKE SYSTEM - An electronic hydraulic brake system may include: a main master cylinder driven by a motor in response to control of an electronic control unit (ECU), and supplying oil pressure to wheel cylinders; and a backup master cylinder forming a reaction force on a brake pedal in response to pressure of the brake pedal. When power of the ECU is cut off, the backup master cylinder may supply oil pressure to the main master cylinder. | 05-21-2015 |
20150344013 | Electrohydraulic Motor Vehicle Brake System and Method for Operating the Same - The invention relates to an electrohydraulic motor vehicle brake system. The brake system comprises a master cylinder, an electromechanical actuator for actuating a piston, which is accommodated in the master cylinder, in a brake-by-wire (BBW) mode of the brake system, and a mechanical actuator, which can be actuated by means of a brake pedal, for actuating the piston in a push-through (PT) mode of the brake system. In the BBW mode, a gap having a defined gap length is present in a force transmission path between the brake pedal and the piston for decoupling the brake pedal from the piston. The brake system is configured such that in the BBW mode the gap length is dependent on a pedal travel of the brake pedal. | 12-03-2015 |
20160059837 | Hydraulic Vehicle Braking System With Electromechanical Actuator, and Method For Operating Such A Hydraulic Vehicle Braking System - A hydraulic vehicle braking system comprises a master cylinder having at least one piston displacably accommodated therein, a mechanical actuator that is coupled, or can be coupled, to a brake pedal for actuating the piston, and an electromechanical actuator. The electromechanical actuator is likewise provided for actuating the piston and can be activated, at least for boosting or generating brake force, when the brake pedal is actuated. Furthermore, a valve arrangement is provided, which has a first valve per wheel brake for selectively uncoupling the wheel brake from the master cylinder, and a second valve for selectively reducing the brake pressure at the wheel brake. The valve arrangement can be controlled at least within the framework of an ABS control mode. | 03-03-2016 |
20160152223 | Hydraulic braking system and method | 06-02-2016 |