Entries |
Document | Title | Date |
20100194185 | ELECTRIC PARKING BRAKE CONTROL SYSTEM - An electric parking brake control system for automatically controlling one or more parking brakes in a vehicle. The parking brake control system includes an electric brake switch in communication with a low-pressure switch for automatically applying the parking brakes. The electric brake switch is preferably a latching type mechanism, which is capable of controlling a solenoid air valve external to the vehicle cab. The low-pressure switch automatically monitors an air reservoir for a low-pressure condition. The electric brake switch incorporates a time delay upon release of the switch, in order to prevent inadvertent application of the parking brakes due to a momentary loss of vehicle electrical power. | 08-05-2010 |
20100237687 | ARRANGEMENT FOR VENTING OF HYDRAULIC SYSTEM IN MOTOR VEHICLE - An arrangement for venting of a hydraulic circuit, particularly a hydraulic brake circuit for a vehicle, comprises a master cylinder which via a pipe system communicates with a number of slave cylinders each arranged to act upon a respective powered unit, such as a brake, for a vehicle wheel, whereby each slave cylinder has a venting nipple with a closable venting valve. The arrangement comprises a venting valve with an associated drain line connectable to the nipple and comprising a check valve which opens towards the receiving vessel. The drain line has a branch line comprising a check valve which opens towards the nipple, and the branch line is connected to a storage vessel for fresh hydraulic fluid. | 09-23-2010 |
20110006593 | BRAKE CONTROL APPARATUS - In a brake control apparatus ( | 01-13-2011 |
20110049970 | BRAKE HYDRAULIC PRESSURE CONTROL APPARATUS - A brake hydraulic pressure control apparatus includes a reservoir, a brake hydraulic pressure supply device, a hydraulic pump, a plurality of wheel cylinders, a cut valve, a plurality of pressure-increasing solenoid valves, a plurality of pressure-decreasing solenoid valves, a discharge passage including a plurality of relief passages and a circulating passage, a controlling device bringing a brake hydraulic pressure to be applied to the wheel cylinders from the hydraulic pump by disconnecting the brake hydraulic pressure supply device from the wheel cylinders by the cut valve while the pressure-increasing solenoid valves are in an open state, and bringing the brake fluid within the wheel cylinders to be circulated to the reservoir via the discharge passage by operating the pressure-decreasing solenoid valves, and a pulsation transmission decreasing device provided at the discharge passage and decreasing a transmission of a pressure pulsation generated by at least one of the pressure-decreasing solenoid valves. | 03-03-2011 |
20110049971 | BRAKE SYSTEM - In a brake system, when setting a control origin position for a resolver for detecting a moved position of a booster piston, communication between a master cylinder and wheel cylinders is interrupted by cut valves. Thereafter, the booster piston is moved forward by an electric actuator in a direction in which a hydraulic pressure is generated so that a position detected by the resolver upon detection of generation of the hydraulic pressure by a hydraulic pressure sensor (position at a time of generation of hydraulic pressure) is obtained. A position obtained by moving backward the position at the time of generation of hydraulic pressure by a predetermined amount is set as the control origin position. | 03-03-2011 |
20110062773 | PUMP ASSEMBLY - A pump assembly including a housing, a pump unit having a low pressure portion and a high pressure portion and accommodated in a pump unit receiving portion which is formed in the housing, a suction passage, a low pressure chamber communicated with the suction passage and the low pressure portion, and a discharge passage, wherein when the pump unit is accommodated in the pump unit receiving portion, the low pressure chamber is formed between the pump unit and a wall surface of the housing which defines the pump unit receiving portion, and the discharge passage is formed by a communication pipe which extends through the low pressure chamber and communicates the housing and the high pressure portion of the pump unit with each other. | 03-17-2011 |
20110074205 | PUMP UNIT FOR ELECTRONICALLY CONTROLLED BRAKE SYSTEM - Disclosed is a pump unit for an electronically controlled brake system. The pump unit is operated by a motor having a shaft to be rotated about a rotating axis, and the shaft includes a concentric shaft portion and an eccentric portion integrally formed with each other. An eccentric bearing is coupled to the concentric shaft portion and a concentric bearing is coupled to the eccentric portion, to reduce hydraulic pulsation during operation of pumps and achieve rapid generation of hydraulic pressure. | 03-31-2011 |
20110074206 | PUMP UNIT FOR ELECTRONICALLY CONTROLLED BRAKE SYSTEM - Disclosed is a pump unit for an electronically controlled brake system. In the electronically controlled brake system having a motor unit to drive the pump unit, the motor unit includes a motor body having a rotating shaft, and a shaft separably coupled to the rotating shaft. The motor unit and pump unit may be assembled to each other in a simplified manner. | 03-31-2011 |
20110127829 | BRAKE CONTROL SYSTEM FOR VEHICLE - A brake control system that is received in a waterproof case and can be easily assembled even when a plurality of electric wires or hydraulic pipes is connected thereto is provided. A brake control system for a vehicle is connected to hydraulic brakes through a plurality of brake pipes | 06-02-2011 |
20110140508 | Method for operating a hydraulically working brake system, and brake system - A method for operating a hydraulically working brake system of a vehicle, in particular a motor vehicle, having at least one brake line assigned to at least one wheel brake, the brake line being connected or connectable via a switchable valve to the high pressure side of a pump unit for brake fluid. It is provided that the valve is closed when an unexpected pressure drop is detected in the brake line. Also described is a brake system for a vehicle, in particular a motor vehicle. | 06-16-2011 |
20110148185 | BRAKE CONTROLLER, BRAKE CONTROL SYSTEM, AND BRAKE CONTROL METHOD - A brake controller reduces a hydraulic pressure applied to a wheel cylinder by opening or closing a pressure-reducing linear control valve, a regulator cut valve, and a master cut valve arranged in a hydraulic circuit. A brake ECU detects a state of a vehicle, estimates a degree of influence of noise due to reduction in wheel cylinder pressure on the vehicle on the basis of the detected state of the vehicle, and then selects any of the electromagnetic valves, that is, the pressure-reducing linear control valve, the regulator cut valve and the master cut valve, to reduce the wheel cylinder pressure on the basis of the estimated result. | 06-23-2011 |
20110175436 | HYDRAULIC BRAKE UNIT AND CONTROL METHOD FOR SUCH A HYDRAULIC BRAKE UNIT - A hydraulic brake unit ( | 07-21-2011 |
20110285200 | VEHICLE BRAKE DEVICE - When brake fluid of a first wheel cylinder ( | 11-24-2011 |
20120025599 | HYDRAULIC BRAKE SYSTEM - Disclosed is a hydraulic brake system capable of reducing pressure pulsation caused by operation of a piston pump driven by a hydraulic motor in operation of the hydraulic brake system. The hydraulic brake system includes a master cylinder generating braking hydraulic pressure by operation of a brake pedal, a wheel brake provided to each of front right and left wheels and rear right and left wheels of a vehicle and receiving the braking hydraulic pressure from the master cylinder to generate braking force, an electronic valve provided to each of an inlet and an outlet of each of the wheel brakes to to control flow of the braking hydraulic pressure, a low pressure accumulator temporarily storing oil, which is ejected from the wheel brake during a pressure reduction braking operation in which the electronic valves are operated, a pump compressing the oil stored in the low pressure accumulator such that the oil is ejected towards the wheel brake or the master cylinder as needed, an orifice disposed near an outlet port of the pump, a first hydraulic circuit connecting a first port of the master cylinder to two wheel brakes to control transmission of hydraulic pressure, and a second hydraulic circuit connecting a second port of the master cylinder to the remaining two wheel brakes to control transmission of hydraulic pressure, wherein a damper unit is disposed between the outlet port of the pump and the orifice to relieve a pulsation phenomenon. Here, the damper unit allows main flow passages of the first and second hydraulic circuits to communicate with each other therethrough. | 02-02-2012 |
20120228924 | BRAKE SYSTEM - When an electrical fluid pressure generator fails and a wheel cylinder is operated by brake fluid pressure generated by a master cylinder, if a first fluid pressure system leading to a rear fluid chamber of the electrical fluid pressure generator fails and is opened to the atmosphere, braking is performed by brake fluid pressure of a second fluid pressure system transmitted from the master cylinder through a front fluid chamber of the electrical fluid pressure generator to a wheel cylinder. At this time, a front supply port, which communicates through a front second cup seal, does not communicate with the master cylinder but with a reservoir. Such configuration prevents leakage of the brake fluid pressure generated by the master cylinder through the front supply port, the front second cup seal and the rear fluid chamber, thereby ensuring braking by the second fluid pressure system. | 09-13-2012 |
20120256477 | BRAKE SYSTEM - A brake system including: (a) a manual hydraulic pressure source; (b) a power hydraulic pressure source; (c) a high pressure generator for generating high pressure, by utilizing pressure of the power hydraulic pressure source; (d) a common passage to which first and second brake cylinders and the high pressure generator are connected; (e) a high-pressure-generator cut-off valve disposed between the common passage and the high pressure generator; (f) a first manual-pressure-source passage connecting a first individual passage and the manual hydraulic pressure source; (g) a first manual-pressure-source cut-off valve provided in the first manual-pressure-source passage; (h) a first valve provided between the second brake cylinder and a connected portion of the first individual passage which is connected to the first manual-pressure-source passage; and (i) a pressure-supply control device for controlling supply of pressure to the brake cylinders, by controlling the high-pressure-generator cut-off valve, first valve and first manual-pressure-source cut-off valve. | 10-11-2012 |
20120292982 | RESERVOIR TANK AND BRAKE SYSTEM USING THE RESERVOIR TANK - [Problem] To provide an inexpensive reservoir tank in which a light-out fluid level can be moved even farther away from a lead switch while reliably moving a float up and down and stabilizing the operation of the lead switch. | 11-22-2012 |
20120306259 | VEHICLE COMPRESSED AIR SUPPLY DEVICE - Disclosed is a vehicle compressed air supply device, comprising pressure maintenance valves for service brakes, which are positioned between a junction chamber and compressed air channels for primary brakes; a pressure maintenance valve for the parking brake, which is positioned between the junction chamber and a compressed air channel for the parking brake; and a pressure maintenance valve, positioned on a supply path that connects the pressure maintenance valve for the parking, brake with the junction chamber, and which is closed until the pressure of the compressed air that is supplied to the compressed air channels for the primary brakes reaches a prescribed pressure value. The pressure maintenance valve has the same structure as the pressure maintenance valves for service brakes and the pressure maintenance valve for the parking brake. | 12-06-2012 |
20120326491 | VEHICLE BRAKE APPARATUS - A vehicle brake apparatus in which a self-locked state of a cut-off valve is quickly relieved if the valve becomes stuck in the self-locked state. The vehicle brake apparatus comprises a master cylinder to have wheel cylinders generate a braking force, master cut-off valves of a normally open type, a slave cylinder electrically driven to apply a braking force to the wheel cylinders. The apparatus also includes pressure sensors for detecting brake fluid pressures generated by the master cylinder and the slave cylinder, and out-valves through which the brake fluid pressure on the wheel cylinders is reduced. If the brake fluid pressure corresponding to a depressing stroke of a brake pedal becomes higher than a valve openable pressure on the master cut-off valves while the brake pedal is being operated, the brake fluid pressure on the wheel cylinders is reduced through the out-valves. | 12-27-2012 |
20130009455 | METHOD FOR OPERATING A BRAKE SYSTEM OF A VEHICLE, AND BRAKE SYSTEM - A brake system, and a method for operating a brake system of a vehicle. To reduce a braking force, brake fluid is able to be discharged from the braking device via a cross-section adjusting member which connects a delivery deice to the braking device, in a controlled and/or regulated manner, into an intermediate reservoir and is delivered to the main brake cylinder using the delivery device. The discharge of the brake fluid from the braking device of the brake system takes place, at least at times, at a discharge volume flow that is greater than the maximum delivery volume flow of the delivery device, and when a certain operating state of the braking system occurs, the discharge volume flow is reduced. | 01-10-2013 |
20130033097 | METHOD FOR OPERATING A BRAKING SYSTEM - A system and method for operating a hydraulic braking system) for motor vehicles with an electrically controllable pressure provision device), a high-pressure accumulator, which can be connected to the pressure provision device via a hydraulic connection), in which an electrically controllable shutoff valve is arranged, wheel brakes, which can be supplied with pressure medium by means of the pressure provision device and/or the high-pressure accumulator. An electronic control and regulating unit is provided for actuating the electrically controllable pressure provision device and/or the electrically controllable shutoff valve so as to regulate the hydraulic pressure which is provided by the pressure provision device and the high-pressure accumulator If a pressure buildup is carried out by activation of the pressure provision device, the high-pressure accumulator is connected only temporarily by at least partial opening of the shutoff valve. | 02-07-2013 |
20130076114 | BRAKE BOOSTER - A brake booster for use in a hydraulic braking system having a brake pedal, a master cylinder, and a hydraulic control unit includes a housing, a screw drive arrangement positioned at least partially in the housing, a motor coupled to the housing for actuating the screw drive arrangement, and a piston assembly positioned in the housing. The piston assembly and the housing together at least partially define a first fluid chamber having an opening for providing fluid communication with the master cylinder, and a second fluid chamber having an opening for providing fluid communication with the hydraulic control unit. The screw drive arrangement is operable to move a piston of the piston assembly for varying the volume of the second fluid chamber, and movement of the piston does not vary the volume of the first fluid chamber. | 03-28-2013 |
20130076115 | BRAKE BOOSTER - A brake booster for use in a hydraulic braking system having a brake pedal, a master cylinder, and a hydraulic control unit includes a housing, a screw drive arrangement positioned at least partially in the housing, a motor coupled to the housing for actuating the screw drive arrangement, and a piston assembly positioned in the housing. The piston assembly and the housing together at least partially define a first fluid chamber having an opening for providing fluid communication with the master cylinder, and a second fluid chamber having an opening for providing fluid communication with the hydraulic control unit. The screw drive arrangement is movable relative to a piston of the piston assembly between an engaged position, in which the first fluid chamber is isolated from the second fluid chamber, and a disengaged position in which the first fluid chamber is not isolated from the second fluid chamber. | 03-28-2013 |
20130082513 | VACUUM BOOSTER, BRAKE SYSTEM EQUIPPED WITH THE VACUUM BOOSTER, AND METHOD OF MANUFACTURING PLATE PLUNGER FOR VACUUM BOOSTER - A plate plunger | 04-04-2013 |
20130127237 | HYDRAULIC BRAKE SYSTEM AND METHOD AS WELL AS CONTROL DEVICE FOR ITS OPERATION - A hydraulic brake system has: a force-pressure conversion element, which is in hydraulic connection with at least one wheel brake cylinder of at least one wheel; a volume-adaptation element in hydraulic connection with the at least one wheel brake and the force-pressure conversion element; and as an actuating unit for actuating the force-pressure conversion element, which actuating unit has an input element. The pressure in the at least one wheel brake cylinder is adjusted by operating the volume-adaptation unit and/or the actuating unit. For this purpose an actuating state of the input element is maintained by operating the actuating unit when the volume-adaptation unit is being operated. | 05-23-2013 |
20130127238 | Vehicle Brake Device - A vehicle brake device includes a master cylinder having a master piston moved by servo pressure in a servo chamber and master pressure of a master chamber is changed by movement of the master piston. A mechanical servo pressure generating unit is connected to a high pressure source and the servo chamber, and generates a servo pressure within the servo chamber according to pilot pressure within a pilot chamber based on brake fluid pressure of the high pressure source. An electrical pilot pressure generating unit is connected to the pilot chamber and generates desired pilot pressure within the pilot chamber, and a master chamber-to-pilot chamber brake fluid line connects the master chamber with the pilot chamber so pilot pressure is generated by the pilot pressure generating unit during normal operation of a power supply system, and the master pressure is used as pilot pressure when the power supply system fails. | 05-23-2013 |
20130162010 | VEHICLE CONTROL APPARATUS - A vehicle control apparatus includes: first pistons which are first braking force generating sections that are arranged to be actuated by a hydraulic pressure, and that are provided, respectively, to wheel cylinders; a second braking force generating section provided to one of the wheels, and arranged to mechanically regulate a position of one of the first pistons, and thereby to provide the braking force to one of the wheels; a braking force control switching section configured to switch the first braking force generating section to a non-actuation state when a predetermined condition is satisfied, and then to switch the second braking force generating section from the non-actuation state to an actuation state; and a vehicle forward and backward movement suppressing section configured to suppress a movement of the vehicle in forward and backward directions at the switching of the braking force control section switching section. | 06-27-2013 |
20130175851 | HYDRAULIC BOOSTER AND HYDRAULIC BRAKE SYSTEM USING THE SAME - A hydraulic brake system is proposed which includes a hydraulic booster for boosting brake operation, and a circulation type pressure control unit. The hydraulic brake system further includes a hydraulic booster including an auxiliary hydraulic pressure source, a pressure regulator for adjusting the hydraulic pressure supplied therefrom to a value corresponding to an operating amount of a brake operating member and introducing the thus adjusted hydraulic pressure into a boost chamber, and a boost piston for actuating a master piston with a force boosted by an assisting force generated by the hydraulic pressure introduced into the boost chamber. The hydraulic booster further includes a hydraulic line bypassing the pressure regulator and extending from the boost chamber to the auxiliary hydraulic pressure, and a check valve provided in the hydraulic line and configured to allow only a discharge of hydraulic pressure from the boost chamber into the auxiliary hydraulic pressure source. | 07-11-2013 |
20130187441 | Brake System and Method for Operating Same - A brake system for motor vehicles of “brake-by-wire” type without a brake booster, having a hydraulic activation device which can be activated by means of a brake pedal and to which wheel brakes are connected, and a simulation device which can be activated hydraulically and has at least one elastic element which gives the driver of a vehicle a pleasant pedal sensation is intended to have a functional capacity which can be checked during the normal braking function and to give the driver a pedal sensation which is familiar from a conventional hydraulic brake system. For this purpose, the activation device is connected via a hydraulic connection to the simulation device, wherein the hydraulic connection is connected via an electrically controllable check valve to a pressure medium reservoir which is at atmospheric pressure. | 07-25-2013 |
20130193747 | BRAKE CONTROL DEVICE FOR VEHICLE - A brake control device for a vehicle includes: a hydraulic brake device including a master cylinder, a wheel cylinder, a differential pressure control valve, and a pump; and a differential pressure control unit that operates the pump and transmits a differential pressure instructing output to the differential pressure control valve to perform a differential pressure control such that a differential pressure is generated; wherein the differential pressure control unit includes a correcting unit, wherein the correcting unit calculates a differential pressure instructing correction amount, based on an increased amount of the differential pressure which is generated by the differential pressure control valve when the increased amount of the differential pressure during the differential pressure control and then corrects the differential pressure instructing output based on the differential pressure instructing correction amount such that the differential pressure instructing output becomes larger than the increased amount of the differential pressure. | 08-01-2013 |
20130214587 | ELECTRIC BRAKE SYSTEM FOR VEHICLES - The electric brake system for vehicles includes a pressure supplier connected to a reservoir through a hydraulic passage to receive the oil, the pressure supplier outputting a brake will of a driver as an electric signal through the pedal displacement sensor, when the driver puts the brake pedal, to operate a motor and convert a rotational force of the motor into linear motion, a hydraulic control unit including a first circuit including at least one first vehicle wheel and a second circuit including at least one second vehicle wheel to receive a hydraulic pressure with a force generated by the pressure supplier and thereby perform braking, a blocking valve to control the hydraulic pressure from the master cylinder to a wheel cylinder disposed in each vehicle wheel, a simulation device connected to the master cylinder, to provide a reaction force response to the pedal effort of the brake pedal, and an electronic control unit to control the motor and the valves, based on pressure information and pedal displacement information. | 08-22-2013 |
20130214588 | Valve Device, Brake System and Vehicle - A valve device for brake control of a different pressure medium-operated vehicle brake systems comprises a housing that has pressure medium ducts. A relay valve provides a pneumatic control pressure, which is fed to the relay valve via at least one of the pressure medium ducts at a higher flow rate. At least one insert is pneumatically connected to at least two of the pressure medium ducts, which can be pneumatically connected to each other by the insert. The two pressure medium ducts define a pressure medium path, the profile of which differs based on the housing that is in each case selected and/or switched based on the selected insert. The housing is selected from a set of housings having different pressure medium ducts, in particular bores, but which are otherwise essentially similar. The insert is selected from a set of different inserts. | 08-22-2013 |
20130241272 | INTEGRATED ELECTRONIC HYDRAULIC BRAKE SYSTEM - Disclosed is an integrated electronic hydraulic brake system including an actuator having a master cylinder and a pedal simulator, electronic stability control (ESC), and hydraulic power unit (HPU) which are configured as a single unit. | 09-19-2013 |
20130241273 | INTEGRATED ELECTRONIC HYDRAULIC BRAKE SYSTEM - An integrated electronic hydraulic brake system provided with an actuator including a master cylinder and a pedal simulator, an electronic stability control (ESC) and a hydraulic power unit (HPU) in a single unit. | 09-19-2013 |
20130241274 | HYDRAULIC UNIT - The invention relates to an hydraulic unit for a motor vehicle brake system which operates according to the feedback principle, for which purpose a low-pressure accumulator is provided between the outlet valves of the wheel brakes and a pump, and the piston of which low-pressure accumulator, in the basic position, disconnects the hydraulic connection between a pressure medium chamber and a connection leading to the pump such that, in the empty state of the low-pressure accumulator, the wheel brakes are reliably disconnected from the suction side of the pump. | 09-19-2013 |
20130241275 | HYDRAULIC BRAKE SYSTEM - A mechanical pressurization device is connected to a common passage, and brake cylinders provided respectively for front left and right and rear left and right wheels are connected to the common passage respectively via pressure holding valves. Each of the pressure holding valves in the front is a normally open valve, and each of the pressure holding valves in the rear is a normally closed valve. In the event of an abnormality in which a hydraulic pressure in the common passage cannot be controlled using a hydraulic pressure produced by a power hydraulic pressure source, a hydraulic pressure in the mechanical pressurization device is supplied to the front brake cylinders provided respectively for the front left and right wheels. | 09-19-2013 |
20130249274 | HYDRAULIC BRAKE SYSTEM - Two pressure chambers of the master cylinder and brake cylinders provided respectively for front left and right wheels are respectively connected directly to each other by master passages. Provided respectively in the master passages are master cut-off valves each as a normally-closed electromagnetic open/close valve. As a result, when the brake pedal is not operated and when no current is supplied to solenoids of the respective master cut-off valves, the pressure chambers and the brake cylinders are respectively disconnected to each other, preventing an outflow of the working fluid from the pressure chambers, i.e., fluid chambers of a master reservoir to the brake cylinders. | 09-26-2013 |
20130270894 | INITIAL FLOW INCREASING MODULE FOR REDUCING DELAY OF BRAKE RESPONSE - There is provided an initial flow increasing module. The initial flow increasing module is connected with an electronic stability control (ESC) system having a first hydraulic channel and a second hydraulic channel each for controlling a liquid pressure transmitted to two wheels, and includes a hydraulic circuit that includes a pressure source in which oil is stored so as to increase a braking initial flow and a flow control valve connected with the pressure source so as to control a flow of oil transmitted to a wheel brake provided in each wheel from the pressure source. | 10-17-2013 |
20130292997 | HYDRAULIC VEHICLE BRAKE SYSTEM - A hydraulic vehicle brake system, preferably a slip-controlled hydraulic vehicle brake system, includes two brake circuits to which wheel brakes of front wheels are attached. The brake system further includes an additional brake circuit, which is not attached to the main brake cylinder, but is provided with a hydraulic pump for power braking. Wheel brakes of vehicle wheels are attached to the additional brake circuit and are configured to be driven by an electric motor. The electric motor is operated as a generator during a braking operation to compensate for the braking moment generated in the additional brake circuit. | 11-07-2013 |
20130307322 | ELECTRO-HYDRAULIC BRAKE SYSTEM - Disclosed is an electro-hydraulic brake system including a master cylinder to generate hydraulic pressure according to pedal force applied to a brake pedal, a reservoir provided at an upper portion of the master cylinder to store oil, an intermediate pressure accumulator to store hydraulic pressure, a first motor and a first pump to suction oil through a channel connected to the reservoir and discharge the suctioned oil to the accumulator to create hydraulic pressure in the intermediate pressure accumulator in braking, a second motor and a second pump provided at an output side of the intermediate pressure accumulator to increase responsiveness in braking, two hydraulic circuits, each of the hydraulic circuits being connected to two wheels, and a flow control valve and a pressure reducing valve provided between the intermediate pressure accumulator and the two hydraulic circuits to control pressure transmitted from the intermediate pressure accumulator to a wheel cylinder installed at each of the wheels. | 11-21-2013 |
20130320750 | INTEGRATED ELECTRONIC HYDRAULIC BRAKE SYSTEM - Disclosed is an integrated electronic hydraulic brake system including an integrated hydraulic control device including a master cylinder having two hydraulic circuits to generate hydraulic pressure, a reservoir coupled to an upper part of the master cylinder to store oil, an accumulator to store a predetermined level of pressure, flow control valves and pressure reducing valves to control pressure transmitted from the accumulator to wheel cylinders installed at wheels of a vehicle, a pedal simulator connected to the master cylinder to provide reaction force of the brake pedal, and a simulation valve to control connection between the master cylinder and the pedal simulator and a power source unit including a pump to suction oil from the reservoir and discharge the suctioned oil to the accumulator to generate pressure in the accumulator and a motor to drive the pump, wherein the power source unit is configured as a separate unit to remove noise generated from the power source unit, and the integrated hydraulic control device and the power source unit are connected to each other via an external pipe. | 12-05-2013 |
20140028083 | BRAKING SYSTEM AND METHOD FOR CONTROLLING A BRAKING SYSTEM - A braking system includes a brake pressure provision device for providing brake pressure using a brake medium; a brake pressure compensation device; a wheel brake circuit including a wheel brake cylinder for braking a wheel, the wheel brake circuit being connected via a first actuator to the brake pressure provision device and via a second actuator to the brake pressure compensation device; and a control unit for controlling the actuators and the brake compensation device in such a way that the volume of the brake medium is adapted to a desirable brake pressure in the wheel brake circuit as a function of a predefined parameter, the brake pressure in the wheel brake circuit being reduced with the aid of the brake pressure compensation device and by opening the second actuator and closing the first actuator. | 01-30-2014 |
20140035353 | VEHICLE BRAKE SYSTEM - A vehicle brake system has a plurality of hydraulic brake circuits via which wheel brake units are supplied with brake pressure. At least one wheel brake unit is connected to at least two brake circuits and supplied with brake pressure via these two brake circuits. | 02-06-2014 |
20140062177 | Hydraulic Unit of a Vehicle Brake System - In a hydraulic unit of a vehicle brake system having a first pump element, which is assigned to a first brake circuit, and a second pump element, which is assigned to a second brake circuit, the second pump element has a different delivery from the first pump element. | 03-06-2014 |
20140084674 | BRAKE SYSTEM - Disclosed herein is a brake system capable of reducing periodic pressure pulsation generated by operation of a pump. The brake system includes a damper member provided with a cylinder having a step portion and a piston to reciprocate between the cylinder and the cap. The piston may be prevented from being excessively pushed toward one side of the damper member, and pressure pulsation generated by operation of the pump may be attenuated. Therefore, overall operating noise may be reduced during control the brake and product reliability may be increased. | 03-27-2014 |
20140110995 | Braking Apparatus for Work Machines and Method of Actuating Said Braking Apparatus - A braking apparatus for work machines has at least two brakes, each having at least one braking circuit. The braking circuits can each be actuated via at least one control valve, and the control valves can be controlled independently of one another. A processing unit, by which the control valves can be controlled or regulated, an operating circuit, via which the braking circuits can be controlled or regulated manually, and at least one pressure supply are provided, and the control valves can be controlled or regulated under predetermined conditions by the processing unit. | 04-24-2014 |
20140117747 | ELECTRIC BRAKE SYSTEM FOR VEHICLE - Disclosed herein is an electric brake system for a vehicle including a reservoir, an input rod, and a pedal displacement sensor to sense a displacement of a brake pedal. The electric brake system includes a pressure supply unit connected to the reservoir and a hydraulic channel and to output an electrical signal through the pedal displacement sensor, a hydraulic control unit provided with a first circuit and a second circuit, a shut-off valve to control the hydraulic pressure transferred to a wheel cylinder, a switching valve connected to a channel connecting the pressure supply unit to the hydraulic control unit, a compliance unit installed in a channel connected to the shut-off valve and the switching valve and including a compliance chamber, a piston and an elastic member, a simulator connected to the master cylinder to provide reaction force, and an electronic control unit to control the motor and the valves. | 05-01-2014 |
20140203625 | Slip Control Braking Pump Having A High Pressure Sealing Structure - A vehicular hydraulic braking pump includes a sleeve having an inner bore defining an inner bore surface and a piston having a stop collar and a ramped seal face. The stop collar, ramped seal face, and the inner bore cooperating to define a seal pocket which traps a high pressure seal therein. The ramped seal face provides contact of the high pressure seal to the sleeve inner bore that is proportional to fluid pressure acting on the high pressure seal. | 07-24-2014 |
20140210253 | HYDRAULIC-PRESSURE PRODUCING DEVICE AND HYDRAULIC BRAKE SYSTEM - In a hydraulic brake system including a cylinder device that includes a front chamber and a rear chamber located on front and rear sides of a pressurizing piston, respectively, presence or absence of liquid leakage from a brake line is detected based on a hydraulic pressure in the rear chamber. Where a state in which a subtraction value obtained by subtracting an actual rear hydraulic pressure from a target rear hydraulic pressure is larger than a first malfunction determination threshold value has continued for a time not shorter than a first malfunction determination time, and then an increase of the actual rear hydraulic pressure at a rate not lower than a set rate has caused the subtraction value to become smaller than a return determination threshold value, it is determined that the pressurizing piston has been bottomed due to liquid leakage from the front chamber. | 07-31-2014 |
20140217809 | ACTUATOR FOR CONTROLLING BRAKE FLUID PRESSURE - The brake actuator includes a housing, a differential pressure control valve, pressure increase control valves, a reservoir, pressure decrease control valves, a pump, an intake system pipeline, and a check valve. The differential pressure control valve is provided in a main pipeline divided into first and second pipelines. The check valve is included in a communication path formed within the housing. The check valve includes a cylindrical pipe member with a hollow portion and an opening portion. A valve body is disposed on the outer circumference of the pipe member. A first path configuring a portion of the intake system pipeline is formed in the pipe member. In the communication path, a gap configuring a portion of the second pipeline is formed outside the pipe member. The check valve allows brake fluid to flow from the first pipeline to the second pipeline through the pipe member and the opening portion. | 08-07-2014 |
20140265543 | CONTROL OF HYDRAULIC BRAKE SYSTEM AND METHOD - A hybrid or electric vehicle includes a hydraulic brake system having an active vacuum booster with an active boost control valve actuated by at least one controller. An isolation valve is disposed in a fluid circuit that fluidly connects a master cylinder to hydraulic brakes. A brake pedal is capable of moving in an initial deadband displacement range when initially depressed by an operator of the vehicle. While in the initial deadband displacement range, the controller selectively activates the isolation valve to inhibit fluid flow from at least a portion of the fluid circuit to the master cylinder based at least upon an operating state of the active boost control valve. | 09-18-2014 |
20140265544 | Vehicle Brake System With Plunger Assembly - A brake system includes a plunger assembly for actuating wheel brakes during a normal brake apply. The plunger assembly includes a motor mounted on the housing for driving an actuator. A first piston is connected to the actuator. The first piston is slidably mounted within the housing for pressurizing a first fluid chamber in the housing. A second piston is slidably mounted within the housing for pressurizing a second fluid chamber in the housing. A pump-less control valve arrangement includes a first control valve regulating the flow of fluid between a first fluid chamber and the first wheel brake. A second control valve regulates the flow of fluid between a second fluid chamber and the second wheel brake. An isolation valve arrangement switches the brake system between the normal braking mode and the manual push-through mode. | 09-18-2014 |
20140306514 | BRAKING SYSTEM FOR A VEHICLE AND METHOD FOR OPERATING THE BRAKING SYSTEM - A braking system for a vehicle includes: a brake input element for an actuation to input a brake pressure signal by a driver; a brake master cylinder coupled to the brake input element and supplied with hydraulic fluid from a hydraulic fluid reservoir fluidically connected to the brake master cylinder; and a first brake circuit. The first brake circuit has: a switchover valve with controllable through flow rate for the hydraulic fluid; a pressure regulating valve with controllable through flow rate for the hydraulic fluid; a hydraulic pump for optionally building up an elevated hydraulic fluid pressure in the first brake circuit; at least one first wheel brake cylinder exerting a braking torque on a first vehicle wheel coupled to the wheel brake cylinder; and a first fluid line from the hydraulic fluid reservoir being fluidically connected to the pressure regulating valve and to the hydraulic pump. | 10-16-2014 |
20140319902 | METHOD FOR OPERATING A BRAKE SYSTEM FOR A VEHICLE AND CONTROL DEVICE FOR A BRAKE SYSTEM OF A VEHICLE - A method for operating a brake system for a vehicle, the brake system including a master brake cylinder coupled to an electromechanical brake booster having a booster body. The method involves: From an initial position, displacing the booster body relative to the master brake cylinder by an adjusting travel in the direction towards the master brake cylinder into an end position; from the end position, displacing the booster body relative to the master brake cylinder by the same adjusting travel in an opposite direction away from the master brake cylinder back into the initial position; during the step of displacing the booster body from the end position back into the initial position, sucking hydraulic fluid from wheel brake devices that coupled in a fluid manner with the brake system and assigned to wheels of the vehicle, for the reduction of a hydraulic fluid pressure existing in the wheel brake devices. | 10-30-2014 |
20140354035 | CONTROL AND DELIVERY OF HYDRAULIC FLUID IN VEHICLE BRAKING SYSTEM - A braking system in a hybrid vehicle is provided. The braking system includes a master cylinder having a first outlet, a second outlet, and a piston disposed therein and translatable from a proximal end to a distal end in response to brake pedal displacement. A brake fluid reservoir supplies hydraulic fluid to the master cylinder. A first fluid circuit connects the first outlet of the master cylinder to the brake fluid reservoir. A second fluid circuit connects the second outlet of the master cylinder to wheel brakes and supplies hydraulic fluid from the master cylinder to the wheel brakes in response to brake pedal displacement. The first outlet of the master cylinder is disposed between the second outlet and the proximal end of the master cylinder such that initial brake pedal displacement transfers brake fluid from the master cylinder to the fluid reservoir to inhibit hydraulic braking during regenerative braking. | 12-04-2014 |
20140354036 | ELECTRONIC HYDRAULIC BRAKE DEVICE - Exemplary embodiments of the present invention relate to an electronic hydraulic brake device, including: a pedal cylinder configured to generate an oil pressure by a pressure of a pedal; a master cylinder configured to generate the oil pressure by sensing the pedal; wheel cylinders configured to be each mounted at a plurality of wheels and provide a braking force to the wheels; a storage configured to store a fluid; a mixing circuit configured to connect the pedal cylinder to some of the wheel cylinders, and communicate with the storage and the master cylinder; a master circuit configured to connect the master cylinder to the wheel cylinder and communicate with the storage; and a hydraulic compartment configured to connect the mixing circuit to the master circuit and limit a movement of the fluid. | 12-04-2014 |
20150015059 | HYDRAULIC BRAKE SYSTEM AND HYDRAULIC PRESSURE CONTROLLER - A hydraulic brake system includes: a master cylinder including a pressurizing piston; a brake cylinder for a hydraulic brake operable by a hydraulic pressure in a front pressure chamber defined in front of the pressurizing piston; and a rear-hydraulic pressure controller connected to a rear chamber defined at a rear of the pressurizing piston. The rear-hydraulic pressure controller controls a hydraulic pressure in the rear chamber and includes: a regulator, operable by at least one of the hydraulic pressure in the front pressure chamber and a control pressure controlled electrically, for supplying an output hydraulic pressure to the rear chamber; and a master-pressure-operating-state detector configured to, when the output hydraulic pressure is greater than a threshold value, detect that the regulator is in a master-pressure operating state in which the regulator is operated by at least the hydraulic pressure in the front pressure chamber. | 01-15-2015 |
20150021976 | HYDRAULIC BRAKE DEVICE FOR VEHICLE - A vehicle hydraulic brake system of the brake-by-wire type includes input piston and a master piston configured to be actuated under hydraulic pressure introduced into a second fluid chamber and mounted in the housing so as to be movable relative to each other through a partition wall and a first fluid chamber. The piston defines therein a communication passage which extends from a fourth fluid chamber to the first fluid chamber and in which a check valve is mounted. When the piston is advanced under hydraulic pressure introduced into the second fluid chamber, the volume of the fourth fluid chamber decreases, while the volume of the first fluid chamber increases. This allows brake fluid in the fourth fluid chamber to be quickly released into the first fluid chamber through the communication passage and through a pipe line in which an electromagnetic on-off valve are mounted. | 01-22-2015 |
20150035350 | Biased Double Check Valve for Brake System - A brake system and a valve device for a brake system are provided which provide at least partial front brake actuation in the event of a failure in the front brake pneumatic supply circuit. The valve device may be configured as a biased orifice double check valve which permits compressed air flow from the front brake pneumatic supply circuit to a front brake actuator during normal brake operation, but in the event of lack of sufficient front brake pneumatic pressure permits compressed air to be supplied to the front brake actuator from a rear brake pneumatic supply circuit, as well as permitting compressed air in the front brake actuator to be ventilated back through the rear brake pneumatic supply circuit when the brake is released. | 02-05-2015 |
20150102658 | HYDRAULIC BRAKE SYSTEM - A hydraulic brake system includes: a hydraulic pressure source provided for a vehicle, and including a hydraulic-pressure generating device and a reservoir; a plurality of hydraulic brakes provided for respective wheels of the vehicle, and configured to restrain rotations of the respective wheels; and a control valve device including at least one hydraulic-pressure control valve group disposed between the hydraulic-pressure generating device and at least one of brake cylinders of the hydraulic brakes and/or between the reservoir and the at least one of the brake cylinders. Each of the at least one hydraulic-pressure control valve group includes (a) at least one ON/OFF control valve and (b) at least one linear control valve that are disposed in parallel with each other. | 04-16-2015 |
20150360659 | PRESSURE SUPPLY DEVICE FOR A HYDRAULIC BRAKING SYSTEM, HYDRAULIC BRAKING SYSTEM FOR A VEHICLE AND METHOD FOR OPERATING A HYDRAULIC BRAKING SYSTEM OF A VEHICLE - A pressure supply device is provided for a hydraulic braking system of a vehicle including a first pressure chamber and a second pressure chamber, which are delimited by at least one piston of the pressure supply device, a motor and a gear unit, with the aid of which the at least one piston is displaceable at least in a first direction with the aid of an operation of the motor, an exceeding of a predefined maximum pressure difference between a chamber pressure present in the first pressure chamber and a reservoir pressure present in the brake fluid reservoir being preventable with the aid of a reservoir isolating valve, which is connectable to a brake fluid reservoir of the braking system, hydraulically connected to the first pressure chamber via an opening of the reservoir isolating valve. Also described here is a hydraulic braking system for a vehicle. In addition, a method is provided for operating a hydraulic braking system of a vehicle. | 12-17-2015 |
20150367828 | BRAKE APPARATUS - There is provided a brake apparatus configured to identify a fluid leak spot while generating a braking force. The brake apparatus is configured to drive pump | 12-24-2015 |
20160121868 | BRAKE DEVICE FOR VEHICLE - A master cylinder includes pressurizing chambers and atmospheric pressure chambers which are in communication with a reservoir provided upstream. The pressurizing chambers of the master cylinder are connected to a brake fluid pressure control valve device through master pressure pipes provided with master cut valves. The atmospheric pressure chambers of the master cylinder bypass the master cut valves and are connected to the brake fluid pressure control valve device through bypass pipes provided with check valves. A pump constituting a brake fluid pressurizing section of the brake hydraulic control valve device suctions the brake fluid from the reservoir preferentially through the bypass pipes provided with the check valves and pressurizes the brake fluid to supply a brake fluid pressure to brake fluid pressure adjust sections. | 05-05-2016 |
20160200307 | Brake System for Motor Vehicles | 07-14-2016 |
20220135015 | METHOD AND CONTROL UNIT FOR OPERATING A HYDRAULIC BRAKING SYSTEM, BRAKING SYSTEM, AND MOTOR VEHICLE - A method for operating a hydraulic braking system, which includes at least one actuatable actuator for generating a hydraulic brake pressure using brake fluid. A first leakage loss of the brake fluid in the braking system is ascertained as a function of a volume of a pressure chamber of the actuator at a starting pressure at the beginning of a braking process and the volume of the pressure chamber when the starting pressure is reached at the conclusion of the braking process. A second leakage loss of the braking fluid is continuously calculated while the braking process is carried out. The first leakage loss is compared to the second leakage loss for the plausibility check after a braking process was carried out. | 05-05-2022 |