| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 303015000 | Fluid and electric | 64 |
| 20080290726 | Brake system - A brake system includes a tandem-type master cylinder, a tandem-type slave cylinder with front and rear fluid pressure chambers and front and rear pistons arranged such that fluid pressure is generated in the fluid pressure chambers when the rear piston is advanced by an actuator, wheel cylinders connected to the fluid pressure chambers of the master cylinder, respectively, and a regulator which regulates a maximum distance between the front and rear pistons. The regulator prevents excessive increase in the volume of the rear fluid pressure chamber. | 11-27-2008 |
| 20080303340 | AUTOMOTIVE BRAKING SYSTEM WITH MASTER CYLINDER FORCE SIMULATOR - A brake-by-wire automotive braking system includes a master cylinder connected to a number of wheel cylinders, with the master cylinder being actuated by a brake pedal assembly operatively connected with a master cylinder force simulator simulating the resistive force/displacement characteristics of the master cylinder itself. An electronically controlled compliance device selectively immobilizes the master cylinder force simulator so that the resistive force provided by the simulator may be applied selectively to the brake pedal. This produces a transparency in the brake pedal's operational feel, notwithstanding the presence or absence of force provided by the master cylinder force simulator. | 12-11-2008 |
| 20080309154 | Method For Controlling a Pneumatic Braking System - A method for controlling a pneumatic braking system of a utility vehicle that includes a service brake and an electric parking brake, an electronic control unit being provided for controlling the electric parking brake. The parking brake assists a brake intervention of the utility vehicle when there is a circuit failure of the service brake. | 12-18-2008 |
| 20080309155 | Two-Stage Electromechanically Controlled Braking System for a Multiaxle Road Vehicles - A brake system ( | 12-18-2008 |
| 20090026835 | Hydraulic Braking Device - The first control is to displace the primary piston by the amount obtained by multiplying the input rod displacement quantity by a proportional gain. The second control is to propel the primary piston by a prescribed offset thereby executing the first control. The third control is to displace the primary piston by the amount obtained by multiplying the input rod displacement quantity by a proportional gain specifically at a pressure decrease request. The brake force control device properly selects a control method from the first to third control methods to control the primary piston based on the automatic braking release conditions and a driver's brake request when a driver executes a brake operation during the automatic braking. | 01-29-2009 |
| 20090051215 | METHOD FOR OPERATING A BRAKE SYSTEM FOR MOTOR VEHICLES - The invention relates to a method for operating a braking system for motor vehicles with electrically actuated hydraulic valves, the coils of which are powered up, at least in phases, with currents which modify the currentless state of the hydraulic valves, in order to heat the hydraulic fluid present in the system. The hydraulic fluid is heated via a heating profile which, in accordance with the hydraulic fluid temperature, activates the heating phase of the hydraulic fluid. The heating profile consists of a first heating phase and, subsequent thereto, a second heating phase. During the first heating phase, the coils are powered up in such a way that the coil temperature at the end of the first heating phase corresponds to a pre-defined temperature value of the coil which is at least approximately maintained during the second heating phase when powering up the coils. | 02-26-2009 |
| 20090127926 | Compressed Air Supply System for a Utility Vehicle - A compressed air supply system for a utility vehicle includes a compressor that can be driven by a drive by a pneumatic clutch, and a valve that can be actuated by an electrical signal for the selective supply of compressed air to a control input of the clutch. The electrical signal is provided by an electronic control system to which signals indicating an operating state of a compressed air preparation system and various vehicle states can be supplied. | 05-21-2009 |
| 20090195057 | BRAKE CONTROL APPARATUS - An electronic control unit for a brake control apparatus has a pressure-command-signal memorizing portion, which outputs a pressure command signal to a brake force control unit, when a braking operation is not carried out by a vehicle driver, in order to gradually increase brake fluid pressure. The memorizing portion memorizes the pressure command signal as a gap-zero pressure signal sent to the brake force control unit when vehicle deceleration exceeds a predetermined value. A pre-charge control portion outputs the gap-zero pressure signal to carry out a pre-charge control, when the braking operation is not carried out, so that a gap between a friction element and a non-friction element is reduced to a desired amount before an actual braking operation by the vehicle driver. | 08-06-2009 |
| 20100141024 | BRAKING ENERGY RECOVERY SYSTEM FOR A VEHICLE AND VEHICLE EQUIPPED WITH SAME - A braking energy recovery system adapted for use on a vehicle and a vehicle having such a system installed. The vehicle has an engine-transmission assembly, a driveshaft, a braking system and an auxiliary system. The energy recovery system comprises a first pump, a hydraulic accumulator and a hydraulic motor. The first pump is a variable displacement hydraulic pump. The hydraulic accumulator is connected to the first pump and is operative to store hydraulic fluid under pressure. The hydraulic motor is hydraulically connected to the accumulator to receive hydraulic fluid. The motor is adapted to drive a second hydraulic pump, which is hydraulically connected to the auxiliary system, using hydraulic energy stored in the accumulator. | 06-10-2010 |
| 20100164276 | Master Cylinder System for an Automotive Hydraulic Brake System and Automotive Hydraulic Brake System - The present invention relates to a master cylinder arrangement for a motor vehicle hydraulic brake system comprising a housing, in which two adjacent cylinder bores are provided, two piston arrangements, wherein a first piston arrangement is received in a first of the cylinder bores so as to be displaceable along a first bore longitudinal axis and wherein a second piston arrangement is received in a second of the cylinder bores so as to be displaceable along a second bore longitudinal axis, a force input piston, which is connectable or connected to a brake pedal, wherein in accordance with a movement of the force input piston the first piston arrangement and the second piston arrangement are displaceable, wherein the first piston arrangement with the housing delimits a first pressure chamber, which is fluidically connected to a hydraulic brake system, and wherein the second piston arrangement with the housing delimits a second pressure chamber, which is fluidically connected to the hydraulic brake system. In this master cylinder arrangement it is provided that between the first piston arrangement as well as the second piston arrangement and the force input piston a separate transmission element is disposed, which is movable into joint abutment with the first piston arrangement and the second piston arrangement. | 07-01-2010 |
| 20100164277 | Servo Brake - A brake booster for a motor vehicle brake system of the brake-by-wire type, which can be activated both by means of a brake pedal and as a function of a driver's request, as well as independently of the driver's wish by means of an electronic control unit, wherein the coupling of the brake pedal, or of a force transmitting part which is permanently connected to the brake pedal, to an input member of the brake booster is embodied in such a way that the brake pedal or the force transmitting part can carry out a limited relative movement with respect to the input member. In order to minimize the friction which occurs between the force transmitting part and the input member when the brake booster is activated, the force transmitting part, and/or the input member of the brake booster are/is provided in the region of the relative movement of the two parts with respect to one another with means which reduce friction which occurs during the relative movement of the parts with respect to one another. | 07-01-2010 |
| 20100244550 | Electrical Parking Brake System for a Utility Vehicle and Operating Method - An electrical parking brake system and method for a commercial vehicle includes a valve device, which connects a compressed-air supply with a spring brake cylinder without an intermediate connection of a hand brake valve. The valve device aerates the spring brake cylinder in a first switching state and deaerates the spring brake cylinder in a second switching state. The system further includes a pressure sensor, which measures a pressure on the compressed air supply side, and an electronic control unit for directly or indirectly controlling the valve device, acquiring a signal supplied by the pressure sensor, and acquiring an indicator signal for the presence of an individual in a cab of the vehicle. The valve device can only be transferred to its first switching state by the control unit if the pressure on the compressed air supply side exceeds a pressure threshold value and if the presence of an individual in a cab of the vehicle is indicated. | 09-30-2010 |
| 20100253135 | BRAKE SYSTEM FOR MOTOR VEHICLES - A brake system for motor vehicles having a brake master cylinder that can be operated by a brake pedal, a fluid reservoir assigned to the brake master cylinder, a hydraulic booster stage which is operatively connected to the inlet side of the brake master cylinder, with a booster piston which is subjected to a hydraulic boost pressure supplied by a pressure source and which in all operating modes allows a direct mechanical action by the brake pedal on a hydraulic piston of the brake master cylinder, and having an electrically controllable pressure regulating valve arrangement for metering the boost pressure. In order to provide a brake system of simple design, which is cost-effective to produce and which functions reliably, the pressure regulating valve arrangement can be hydraulically controllable. | 10-07-2010 |
| 20100295365 | BRAKING CONTROL APPARATUS - A master cylinder includes a first piston, a second piston, and a cylinder for housing the first piston and the second piston slidably in the axial direction. A first fluid pressure chamber, having a passage communicating with a reservoir tank, generates the fluid pressure when communication with the reservoir tank is interrupted at displacement of the first piston by a first stroke. Similarly, a second fluid pressure chamber, having a passage communicating with the reservoir tank, generates the fluid pressure when communi9cation with the reservoir tank is interrupted at displacement of the second piston by a second stroke which is smaller than the first stroke. A stroke simulator communicates with the fluid pressure chamber. A braking control apparatus is structured such that the second piston is first displaced when a brake pedal is pressed. | 11-25-2010 |
| 20110025121 | ELECTRO-HYDRAULIC BRAKE SYSTEM - Disclosed herein is an electro-hydraulic brake system. The electro-hydraulic brake system includes a master cylinder to transmit brake oil, a high-pressure accumulator to transmit brake oil independently of the master cylinder, first and second circuits connected respectively to the master cylinder, at least one first wheel to be braked by the first circuit, and at least one second wheel to be braked by the second circuit. The first circuit is connected to the high-pressure accumulator, to control the first wheel. The second circuit is connected to the first circuit, to control the second wheel. | 02-03-2011 |
| 20120007419 | "BRAKE-BY-WIRE" TYPE BRAKE SYSTEM - A “brake-by-wire” type brake system for a motor vehicle, having a brake pressure sensor which can be activated by a brake pedal of a pedal unit and can be connected to wheel brakes of the vehicle outside the “brake-by-wire” operating mode, having a pressure source which can be actuated by an electronic control unit and can be connected to the wheel brakes of the vehicle in the “brake-by-wire” operating mode, and having a pedal travel simulator which interacts with the brake pedal and is formed by at least one simulator element, and a restoring force which acts on the brake pedal independently of the actuation of the pressure source can be simulated in the “brake-by-wire” operating mode. In order to provide a simpler and more cost-effective “brake-by-wire” type brake system, a force/travel characteristic of the pedal travel simulator is provided in a controllable fashion. | 01-12-2012 |
| 20120091788 | BRAKE SYSTEM FOR A VEHICLE AND METHOD FOR OPERATING A BRAKE SYSTEM FOR A VEHICLE - A brake system for a vehicle includes: a brake activation element; an input piston displaceable by at least a predefined minimum actuator travel distance when the brake activation element is operated; an output piston to which a driver braking force is transmittable from the brake activation element via the displaced input piston such that an internal pressure in a piston-cylinder unit of the brake system is increased; a first brake booster; and a spring device which, when the brake activation element is operated for an actuator travel distance which is less than the minimum actuator travel distance, is deformed in such a way that transmission of the driver braking force to the output piston is prevented. | 04-19-2012 |
| 20120286563 | BRAKE ARRANGEMENT OF A RAIL VEHICLE - A brake arrangement of a railway vehicle includes an electrical brake device having an electronic brake controller and having an electro-pneumatic regulator with a pressure sensor. An emergency brake device has a pressure reducer in series with a valve device. A shuttle valve device is also present at a pneumatic output of the electrical pneumatic braking device and a pneumatic output of the emergency brake system and is connected at the inputs thereof. The output of the valve device is connected to a control valve device connected upstream of a brake cylinder. The brake arrangement can be a direct braking arrangement and can be converted in a simple manner to an indirect braking arrangement. The valve device is an electromagnetic emergency stop valve working according to the principle of de-energizing to close, and the pressure sensor of the electro-pneumatic regulator is connected to the output of the shuttle valve device. | 11-15-2012 |
| 20120299368 | MULTI-CHANNEL PRESSURE CONTROL MODULE HAVING ONLY ONE PRESSURE SENSOR - An electromagnetic pressure control module for a pressure-medium-actuated brake system of a motor vehicle, having at least two channels, the module being controlled electrically in undisrupted operation and pneumatically in the event of a fault in the electrics, and also from a method for operating the electropneumatic pressure control module. | 11-29-2012 |
| 20130221735 | System with Valve Device for a Pneumatically Operated Brake System, Valve Device, Brake Actuation Device, Trailer Control Valve Device, and Device for Controlling for the System, Brake System, Vehicle, Use of a Component, and Method for Retrofitting a Brake System - The invention relates to a system ( | 08-29-2013 |
| 20140159475 | Electromechanical Brake Power Assist Unit - An electromechanical brake power assist unit of a vehicle braking system has a master brake cylinder with a piston rod, displaceable by a brake pedal and, in the process, building up brake pressure. The piston rod is also displaceable by an electric motor. The piston rod is supported on a pedal lever, which is formed by the brake pedal itself or an intermediate element pivotable about an axis of rotation by the brake pedal. The piston rod is displaced by a pivotal movement of the pedal lever. An axis of rotation of the pedal lever is displaceable by the electric motor in a moving direction of the piston rod. The pedal ratio is selected such that the driver can slightly displace the piston rod by forces customary in the case of a conventional effective brake power assistance also without an activation of the electric motor, and the pedal path which is large, because of such a pedal ratio without an activation of the electric motor, will then be reduced to a normal extent by the electric-motor-driven displacement of the pedal lever axis rotation. | 06-12-2014 |
| 20140319903 | BRAKE DEVICE - Provided is a vehicle brake system including a master cylinder which generates a master hydraulic pressure through an operation of a brake pedal by an operator, and a cylinder body which houses a first and second slave pistons driven by an electric motor operated in accordance with an operation amount of the brake pedal, and is formed with a first hydraulic chamber and a second hydraulic chamber for generating a slave hydraulic pressure through operations of the first and second slave pistons. Further, the cylinder body includes a first bleeder and a second bleeder which are configured to be switchable between open states in which a first hydraulic chamber and a second hydraulic chamber are in communication with an external of the cylinder body and closed states in which the first hydraulic chamber and the second hydraulic chamber are not in communication with the external of the cylinder body. | 10-30-2014 |
| 20150021977 | HYDRAULIC BRAKE DEVICE FOR VEHICLE - A vehicle brake system includes a first fluid chamber whose volume changes corresponding to the amount of advancement and retraction of the input piston, a second fluid chamber into which hydraulic pressure from a hydraulic pressure source is introduced after adjustment in a pressure regulator, a third fluid chamber kept at the atmospheric pressure, a stroke simulator which generates a reaction force to the brake operation corresponding to a change in volume of the first fluid chamber, a master cylinder, a partition member partitioning each of the second and third fluid chambers from the first fluid chamber, first and second seal members disposed in respective fitting gaps, and an annular member having both ends abutting respective seal members. The annular member divides a space into first and second space portions whose volumes respectively increases and decreases by the same amount when the annular member moves in one axial direction. | 01-22-2015 |
| 20150021978 | METHOD FOR OPERATING A BRAKE SYSTEM, AND BRAKE SYSTEM - A method and system for operating a brake system for motor vehicles, including a plurality of wheel brakes for which wheel-individual nominal pressure includes an electrically controllable pressure supply device, to provide a brake system pressure for actuating the wheel brakes. The brake system pressure provided by the pressure supply device can be determined. An electrically controllable inlet valve and electrically controllable outlet valve per wheel brake adjust wheel-individual brake pressures. At least one outlet valve is analogized for analog-controlled and is controlled by an electric control variable, wherein at least one valve-specific control characteristic and/or a valve-specific parameter is determined for the analogized or analog-controlled outlet valve by the brake system, and wherein the analogized or analog-controlled outlet valve is controlled as a function of the valve-specific control characteristic and/or the valve-specific parameter for the degradation of the brake pressure in the wheel brake associated with the outlet valve. | 01-22-2015 |
| 20150028667 | ELECTRONICALLY CONTROLLABLE BRAKE ACTIVATION SYSTEM - The invention relates to an electronically regulable brake system, with an actuating device, in particular a brake pedal, a main brake cylinder arrangement with at least two parallel arranged piston cylinder units and a reservoir, which are connected via hydraulic lines and valves to wheel brakes, and with a servo mechanism. According to the invention an electrically drivable valve device (BV | 01-29-2015 |
| 20150035352 | VEHICLE BRAKING CONTROL DEVICE - A vehicle braking control device includes a control unit that, when a characteristic representing the relationship between an estimated amount of fluid consumed by braking, which is estimated based on the amount a brake pedal is operated, and an actual master-cylinder pressure detected by a master-cylinder pressure detection unit is different from that of a preset characteristic in a reference map indicating representing the relationship between the amount of fluid consumed by braking and the master cylinder pressure, corrects a target value of a degree of relative displacement between an input member and an assist member by a target relative displacement-amount correction unit in a direction in which the difference between characteristics is reduced. | 02-05-2015 |
| 20150035353 | METHOD FOR OPERATING A BRAKE SYSTEM AND A BRAKE SYSTEM - A method and system for operating a motor vehicle brake system, actuated in a “Brake-by-Wire” operating mode both by the vehicle driver and also independent of the vehicle driver, preferably operated in the “Brake-by-Wire” operating mode, and which can be operated in at least one fall-back operating mode, in which only operation by the vehicle driver is possible. The brake system has an electrohydraulic pressure and volume setting device, which electronically emits a brake system pressure under control, and a pressure modulation unit having, for each wheel brake, inlet and outlet valves for setting wheel-specific brake pressures. For setting wheel-specific brake pressures, the inlet and outlet valves are actuated analogously by being energized by different electrical currents, in order to assign a pressurizing agent volume flow provided by the pressure and volume setting device to the wheel brakes that have a pressure change requirement. | 02-05-2015 |
| 20150061364 | BRAKING DEVICE - A first slave piston and a second slave piston are disposed in tandem in series within a cylinder body, and the pistons are arranged so that part of the shaft section of the second slave piston overlaps with the inner periphery of an opening section provided in the backward side, in the displacement direction, of the first slave piston. A long hole extending along the axial direction of the second slave piston is provided in the shaft section, and a connection pin which regulates the initial position of the second slave piston is inserted into the long hole. | 03-05-2015 |
| 20150061365 | BRAKE SYSTEM - A brake system includes a brake apparatus. This brake apparatus is configured to keep a vehicle braked by an electric mechanism in response to a parking brake request signal, and brake the vehicle by supply of a hydraulic pressure from a hydraulic source in response to an operation performed on a brake pedal. The brake system further includes a controller configured to drive the electric mechanism until a target pressing force is acquired to establish a brake holding state in response to the parking brake request signal. The controller is configured to change the target pressing force according to a change in a hydraulic pressure in the brake apparatus after starting driving the electric mechanism in response to the parking brake request signal. | 03-05-2015 |
| 20150061366 | ELECTRIC BRAKE DEVICE - An electric brake device includes: a motor cylinder device that generates a hydraulic pressure in accordance with a brake operation of a driver with an electric motor; a rotational angle sensor that detects a rotor rotational angle θ of the electric motor; and a motor control section that controls an output torque of the electric motor corresponding to the rotor rotational angle θ and controls the electric motor by advancing a detection value of the rotational angle sensor. The current phase setup section sets a current phase to an advanced side as an electrical advance control. The current phase setup section inhibits the advancing the detection value when the electric motor performs reversed rotation, or sets the current phase to a retarded side. | 03-05-2015 |
| 20150084401 | VALVE SYSTEM OF BRAKING DEVICE - A valve system of a braking device provided with a stroke simulator that is connected via a connection passage with a pipe for making a master cylinder communicate with a wheel cylinder; and a third shut-off valve that is a solenoid valve and performs opening and closing of a communication between the master cylinder and the stroke simulator, wherein the third shut-off valve is a normally closed valve; and the valve system opens the third shut-off valve by applying a start-up voltage, thereafter keeps the open state of the third shut-off valve by alternately applying a holding voltage that is lower than the start-up voltage and the start-up voltage, in order to prevent heat generated in the valve from becoming excessively high even while keeping the open state of the valve. | 03-26-2015 |
| 20150323070 | BRAKING SYSTEM - The present disclosure relates to a braking system and, more particularly, to a braking system for engaging a brake mechanism as a waiting brake for a load carrying vehicle. The braking system utilises an electrohydraulic brake control mechanism comprising at least one automatic retard control valve to engage the brake mechanism, which is activated by a dual function apparatus which also controls another operation of the vehicle. | 11-12-2015 |
| 20160001757 | VEHICLE BRAKING SYSTEM - The instant disclosure describes a braking system for braking at least a first wheel of a motor vehicle comprising a first brake, a hydraulic circuit for controlling the first brake and a first electric motor for controlling the first brake, which brake and motor can be actuated at least partially simultaneously using one and the same actuating member. | 01-07-2016 |
| 20160009263 | Brake Actuation Unit | 01-14-2016 |
| 20160016568 | BRAKE DEVICE - Both characteristics of brake fluid pressure output from an M/C with respect to an operation amount of a brake operating member, and characteristics of brake fluid pressure with respect to an operation force of the brake operating member can be varied. Adjustment dials are provided in a position that can be operated by a driver, and based on operation of the adjustment dials, F-P characteristics or St-P characteristics and St-F characteristics can be changed. In this manner, it is possible to adjust braking characteristics in accordance with a requirement of the driver. Then, by setting the operation of the adjustment dials to an adjustable range that takes into account safety of a vehicle, the driver can freely change the braking characteristics within that range in accordance with his/her own preferences. In this manner, it is possible to provide a new and comfortable driving environment for the driver. | 01-21-2016 |
| 20160016569 | BOOSTER, RESISTANCE FORCE APPLYING APPARATUS, AND STROKE SIMULATOR - The present invention controls an electric motor according to a stroke that an input rod performs in response to an operation performed on a brake pedal, and thrusts a primary piston, thereby generating a brake hydraulic pressure in a master cylinder. The brake hydraulic pressure is fed back to the input rod via an input piston and an input plunger. The present invention applies a sliding resistance against the stroke of the input rod by pressing a frictional member of a resistance force applying mechanism against a tapering sliding portion of the input rod with the aid of a spring force of a spring member. A taper angle of the sliding portion allows the sliding resistance to change at a varying ratio according to a position of the input rod, which can lead to stable application of a desired sliding resistance. | 01-21-2016 |
| 20160039398 | Method for Operating a Brake System for Motor Vehicles and a Brake System in Which the Method is Carried Out - An electrohydraulic brake system method for motor vehicles having a wheel-specific brake control function (ABS, ESC, TCS) and hydraulically actuable wheel brakes ( | 02-11-2016 |
| 20160046272 | BRAKE SYSTEM FOR A VEHICLE - A brake system for a vehicle, including: a master brake cylinder having a first chamber, a rod piston, which, together with at least one first hydraulically active surface area, bounds the first chamber, a second chamber and a floating piston; the rod piston being configured with or couplable to a second hydraulically active surface area; the second hydraulically active surface area bounding an auxiliary chamber of the master brake cylinder or of another brake cylinder, and the auxiliary chamber being attached to an accumulator chamber and/or to the hydraulic reservoir via a first nonreturn valve and a restrictor that is configured in a further fluid line. | 02-18-2016 |
| 20160082937 | BRAKE APPARATUS - A hydraulic brake system includes a first actuator for a regeneration coordination brake control and a second actuator for maintaining the stability of a vehicle in a hydraulic pressure passage between a master cylinder and a wheel cylinder. The first actuator is controlled by a first ECU, and the second actuator is controlled by a second ECU. When a failure occurs in the first actuator or the first ECU, the second ECU operates the second actuator according to the amount of a brake operation, and assists braking of a wheel. | 03-24-2016 |
| 20160082940 | Brake System having an Electric Servo Brake - A brake system includes a master cylinder, an electric servo brake, and an electric motor. The electric motor drives a screw that engages a pair of helical gears which are each mounted on a respective shaft. Each shaft further mounts a gear that meshes with a respective gear rack. The electric servo brake includes a body that defines rails which guide the gear racks. A lever is supported on each end by one of the gear racks, and is connected to a support via a pivot point. The support lies flat against a side of a reaction disk that lies against a push rod that actuates the master cylinder. | 03-24-2016 |
| 20160101767 | Electrohydraulic Servo Brake - An electrohydraulic servo brake includes a master brake cylinder, which is controlled by a push rod. The push rod is configured to be actuated by a first auxiliary piston via a reaction disk. A plunger piston presses on the reaction disk. An end of the push rod is connected to the first auxiliary piston by a connection apparatus. The connection apparatus includes a rest for a rated compression spring, which rest is rigidly connected to the push rod, and a central piston, which rests against the reaction disk along an axis and is surrounded by a second auxiliary piston, which is placed against the reaction disk and is moved by the spring and is held in an end position by the central piston. The second auxiliary piston is configured to recede in relation to the central piston rigidly connected to the push rod. | 04-14-2016 |
| 20160107626 | HYDRAULIC UNIT OF ELECTRONIC CONTROL BRAKE SYSTEM - A hydraulic unit of an electronic control brake system is disclosed. The hydraulic unit of the electronic control brake system includes a modulator block having a plurality of accommodating bores in which a plurality of valves and pressure sensors coupled to a master cylinder to control braking hydraulic pressure supplied towards vehicle wheels are installed. Passages connecting between the accommodating bores are formed in the modulator block, and the passages are formed to be divided into two layers. | 04-21-2016 |
| 20160121866 | VEHICULAR BRAKE DEVICE - The vehicular brake device according to the present invention is provided with a first flow passage connecting a first electromagnetic valve and a wheel cylinder, a second flow passage connecting a reservoir portion capable of storing brake fluid and the first flow passage and a second electromagnetic valve disposed in the second flow passage. A pressure differential generating portion generates a predetermined pressure differential by moving a master piston by a drive pressure generating portion after an execution of an advancement control to advance the master piston so that the stroke position of the master piston is within an advanced side area. A second electromagnetic valve control portion places the second electromagnetic valve in an open state for a period including at least a portion of the period of time in an execution period of the advancement control. | 05-05-2016 |
| 20160137181 | HYBRID ELECTRO-MECHANICAL BRAKE AND SYSTEM HAVING THE SAME - A hybrid electro-mechanical brake (EMB) includes an actuator mounted at one side of a housing and generating a motor clamping force. A primary piston is connected to a spindle, which rotates by a motor clamping force of the actuator, to linearly move when the spindle rotates. A secondary piston linearly moves and is mounted between the housing and the primary piston to form a hydraulic chamber between the second piston and the primary piston. The hybrid EMB system generates a brake force by using the motor clamping force of the actuator and a hydraulic pressure in a hydraulic chamber. The actuator actuates to move the primary piston toward a front end of the secondary piston to increase a pressure in the hydraulic chamber, which is sealed, so that the brake force transferred to the secondary piston increases. | 05-19-2016 |
| 20160144842 | METHOD OF CONTROLLING BRAKING SYSTEM USING BRAKING DEVICE HAVING ELETROMECHANICAL PARKING FUNCTION - A method of controlling a braking system using a brake device having an electromechanical parking function uses a brake device having an electromechanical parking function includes: a parking release and preliminary braking step of releasing a limitation of an operation location of an electromechanical element, pressing a secondary piston by a primary piston by operating the electromechanical element, and generating a braking force in the front wheel and the rear wheel by operating a hydraulic pump that is connected to a hydraulic circuit system; a primary piston backward moving step of allowing oil inflow of an accumulator for a complex caliper unit and separating the primary piston from the secondary piston by moving the primary piston; and a primary piston forward pressing step of blocking oil inflow of an accumulator for the complex caliper unit and pressing the secondary piston by moving the primary piston by the electromechanical element. | 05-26-2016 |
| 20160152219 | Method for Providing Haptic Information for a Driver of a Motor Vehicle, and Brake System | 06-02-2016 |
| 20160159331 | ELECTRIC BRAKE SYSTEM - An electric brake system includes a reservoir, a master cylinder including first and second hydraulic ports, a simulation device providing reaction force in response to foot force applied to a brake pedal, a hydraulic-pressure supply device, a hydraulic-pressure control unit, and an electronic control unit (ECU). The hydraulic-pressure supply device converts rotational force of a motor into rectilinear motion upon receiving an electric signal from the pedal displacement sensor, and moves a double-acting piston designed to perform reciprocating motion within a hydraulic cylinder. The double-acting piston moves in both directions to generate hydraulic pressure by pressing a first hydraulic chamber provided in one end thereof, and moves in another direction to generate hydraulic pressure by pressing a second hydraulic chamber provided in the other end thereof. | 06-09-2016 |
| 20160159332 | ELECTRIC BRAKE SYSTEM - An electric brake system includes a reservoir, a master cylinder including first and second hydraulic ports, a simulation device providing reaction force in response to foot force applied to a brake pedal, a hydraulic-pressure supply device, a hydraulic-pressure control unit, and an electronic control unit (ECU). The hydraulic-pressure supply device converts rotational force of a motor into rectilinear motion upon receiving an electric signal from the pedal displacement sensor, and moves a double-acting piston designed to perform reciprocating motion within a hydraulic cylinder. The double-acting piston moves in both directions such that the first hydraulic chamber located at one side or the second hydraulic chamber located at the other side are pressed, resulting in formation of hydraulic pressure. | 06-09-2016 |
| 20160200309 | METHOD FOR CONTROLLING A HYDRAULIC BRAKE SYSTEM OF A MOTOR VEHICLE | 07-14-2016 |
| 20160375886 | ELECTRO-HYDRAULIC BRAKE SYSTEM INCLUDING ISOLATED CIRCUITS AND METHOD OF CONTROLLING THE SAME - Disclosed are electro-hydraulic brake system and control method. The system may include a braking input unit to provide a braking input according to an operation of a driver, a control unit to control generation of braking oil pressure according to the braking input of the braking input unit, a pressure generating unit to generate the braking oil pressure, wheel clamping units to generate braking forces to corresponding wheels, and oil supply lines to transfer the braking oil pressure to corresponding wheel clamping units. Each oil supply line is fluidly connected to the pressure generating unit. For each oil supply line, a split valve is installed in a connection portion of the pressure generating unit and the oil supply line. When the split valve is closed, the split valve blocks the braking oil pressure supplied from the pressure generating unit to the oil supply line. | 12-29-2016 |
| 20160375887 | Method for Checking the Braking Force in a Vehicle - A method for checking the braking force in a vehicle includes adjusting a brake piston with a vehicle hydraulic brake that has a braking force booster and with an electromechanical braking device that has a brake motor so as to generate a braking force. The hydraulic braking medium volume that corresponds to the displacement of the brake piston via the brake motor is compared to a hydraulic reference volume. | 12-29-2016 |
| 20170232849 | VEHICLE BRAKE SYSTEM | 08-17-2017 |
| 20180022332 | Brake Apparatus | 01-25-2018 |
| 20190144017 | ECP Overlay System for W-Type Triple Valve | 05-16-2019 |
| 20190144018 | ECP Overlay System for UIC-type Distributor Valve | 05-16-2019 |
| 20190144019 | ECP Overlay System for Russian Distributor Valve | 05-16-2019 |
| 303016000 | Automatic electric | 8 |
| 20100045097 | BRAKE CONTROL DEVICE FOR TWO-WHEELED MOTOR VEHICLE - To improve brake force in front and rear combined brake control, a brake control device includes a front wheel brake caliper having at least two front wheel cylinders, and a rear wheel brake caliper having a rear wheel cylinder. A front wheel brake conduit is disposed between a front wheel master cylinder and one of the front wheel cylinders, and a rear wheel brake conduit is disposed between a rear wheel master cylinder and the rear wheel cylinder. A pressure amplification conduit branches from a first position in the rear wheel brake conduit and merges with the rear wheel brake conduit at a second position downstream of the first position. A combined brake conduit branches from a third position in the rear wheel brake conduit positioned downstream of the first position and is coupled to the other of the front wheel cylinders. A first switch control valve is disposed between the first position and the third position in the rear wheel brake conduit. A second switch control valve in disposed in the pressure amplification conduit. A hydraulic pump is provided in the pressure amplification conduit, and a controlling device is provided that controls the opening and closing of the valves and actuation of the hydraulic pump. | 02-25-2010 |
| 20100148571 | REGENERATIVE BRAKING ACTUATOR APPARATUS - An actuator apparatus includes a booster creating an infinite boost ratio while a plunger valve does not contact with a reaction disc, and an oil reservoir and a pedal simulator unit forming a hydraulic circuit to follow hydraulic hysteresis characteristics. Therefore, it is possible to achieve insensibility of pedal changes transmitted from a master cylinder, minimize changes in pedal feel according to changes of pedal effort correspondingly generated, while blocking vibration transmitted to the pedal when achieving regenerative braking, and provide pedal feel following or simulating the hydraulic hysteresis characteristics. | 06-17-2010 |
| 20150008727 | VEHICLE BRAKE SYSTEM - A vehicle brake system includes a slave cylinder configured to drive an electric motor and generate a brake fluid pressure by moving pistons with a ball screw shaft; normally open type master cut valves that communicate/shut off between the slave cylinder and a master cylinder; and a control unit that controls the electric motor to close the master cut valves and limit a displacement of the ball screw shaft on the basis of a reference position during operation of a VSA device. | 01-08-2015 |
| 303017000 | Electric impulse | 5 |
| 20090127927 | DEVICE FOR CONTROLLING HYDRAULIC BRAKING OF A TRAILER HITCHED TO A TRACTOR - A hydraulic circuit having a brake pipe suitable for being connected to a pressurized fluid source or to a pressure-free reservoir, i.e. to a reservoir without excess pressure, via a proportional pressure reducer controlled by an electronic control unit (ECU). The circuit includes link solenoid-valve means suitable for connecting the proportional pressure reducer to the reservoir or, via a calibrated pressure reducer, to the pressurized fluid source. | 05-21-2009 |
| 20090140572 | PRESSURE SENSOR - The present invention relates to a pressure sensor employed in a stability control apparatus for a vehicle. According to an aspect, there is provided a pressure sensor installed to a hydraulic unit and being in contact with a circuit board of an electronic control unit to sense brake oil pressure. The pressure sensor comprises a connecting terminal formed on the circuit board of the electronic control board and comprising a press-fit terminal; a press-fit being in slidable and movable contact with the press-fit terminal; and a spring connecting the press-fit and the press-fit terminal. | 06-04-2009 |
| 20090256416 | BRAKE SYSTEM FOR A VEHICLE - The invention relates to a brake system ( | 10-15-2009 |
| 20100072810 | VALVE UNIT, BRAKE CONTROL DEVICE, VEHICLE BRAKE SYSTEM AND VEHICLE - The invention relates to an electropneumatic brake control device for controlling an air-quantity-boosting valve device ( | 03-25-2010 |
| 20110043030 | ARRANGERMENT FOR SWITCHING VALVES IN AXLE MODULES OF A UTILITY VEHICLE - A circuit arrangement for switching two backup valves in a rear axle module of an electronic brake system of a utility vehicle is provided, in which the circuit arrangement includes a switch at which pulse width modulation for controlling magnetic fields of inductors of the two backup valves is applied, and a diode for a slow discharge of the two backup valves in correlation with a predetermined operating state of the two backup valves, in which the diode is connected in parallel with two branches, each containing an inductor of the two backup valves, of the circuit arrangement, and in which the diode switches the two backup valves simultaneously in correlation with the predetermined operating state. | 02-24-2011 |
