Abstract: A method for controlling braking of a vehicle includes the steps of calculating a first pressure based on a driver request, and providing pressure that does not exceed a predetermined pressure threshold if the vehicle is stationary and the first pressure is less than the predetermined pressure threshold.

Abstract: A hydraulic brake unit applies braking force to a plurality of wheels of a vehicle according to the operation of a brake pedal. A pressure increase linear control valve supplies hydraulic fluid from an accumulator to wheel cylinders of disc brake units of the respective wheels. Pressure-sustaining valves are placed in passages that extend from a first passage to the rear wheel cylinders. A pressure-increase response-delay reduction section closes the pressure-sustaining valves for a predetermined period of time after starting the hydraulic pressure control to temporarily limit the inflow of hydraulic fluid into the wheel cylinders that communicate with the first passage. Thus, the amount of the hydraulic fluid that is supplied to the second passage is increased, and it is possible to reduce the hydraulic pressure response delay in the second passage.

Abstract: A braking system for farm tractors and similar vehicles, has a differential braking system and a hydraulic system for the braking assistance forming a system unit (H) which includes two circuit branches (H1,H2), each circuit branch operating the braking with respect to one side of the vehicle. To the system unit are applied, through connection interfaces (36,37), two control units (C1,C2), each control unit including an electrovalve (20) and a distributor (24) operated by the electrovalve, each distributor controlling the operation of the system unit (H) with respect to one of the circuit branches, and each electrovalve being singularly controlled by an electronic control circuit (EL) provided with sensors of the main vehicle parameters, such as a sensor (V) of the vehicle speed, sensors (R) of the speed of singular wheels, sensors (P) of the positions of the braking pedals and a sensor (A) of the position of the accelerator pedal.

Abstract: Under certain operating conditions, the pressure applied to a vehicle rear brake circuit is increased above the pressure applied to the vehicle front brake circuit to enhance stopping of the vehicle.

Abstract: Systems and methods to prevent dragging of a fluid pressure type disk brake system are described herein. Brake fluid pressure generated by a master cylinder during a braking operation is transmitted to a wheel cylinder via a VSA system. The VSA system includes a low pressure accumulator and an out-valve disposed between the wheel cylinder and the low pressure accumulator. Temporarily opening the out-valve during a braking operation allows part of the brake fluid that would otherwise be supplied to the wheel cylinder to be supplied to the low pressure accumulator. After the braking operation by the driver is completed, brake fluid supplied to the wheel cylinder is returned to the master cylinder. Thus, a piston of the wheel cylinder is withdrawn by an extra amount corresponding to the amount of brake fluid supplied to the low pressure accumulator, thus reliably prevents disk pad dragging in the disk brake system.

Abstract: Device and method for a hydraulic brake system of a land vehicle in order to block a brake circuit of the brake system with regard to a supply of brake pressure generated by a driver, to establish a hydraulic connection between the output side of a wheel brake and the input side of a controllable pump and to generate a predetermined brake pressure at the input side of the wheel brake by means of the pump.

Abstract: The device comprises a leaktight housing which is hydraulically connected between braking elements of the front and rear wheel(s). The housing comprises a body and fittings which enable the hydraulic fluid to flow into the braking elements of the rear wheels until an adjustable set pressure is obtained, after which the pressure is reduced in the braking elements of the rear wheel(s) in a manner which is proportional to the pressure increase in the braking elements of the front wheel(s).

Abstract: In a brake control device and a brake control method, when a shift to a brake mode for backup involving separation of a supply path of working fluid is performed at the time of detection of an abnormality during braking, a differential pressure acting between an outlet opening and an inlet opening of an open-close valve which is provided between a hydraulic pressure source that is used during the backup brake mode and wheel cylinders and which needs to be opened during the backup brake mode is lessened prior to the separation of the supply path of working fluid so that the open-close valve is opened in accordance with a valve-opening command. Therefore, at the time of switch of the control mode, the confinement of wheel cylinder pressure is avoided.

Abstract: A brake force distribution control device which increases a brake force at an operation wheel so that a slip amount of the operation wheel becomes closer to a slip amount of a target wheel, wherein the slip amount of the target wheel is larger than the slip amount of the operation wheel.

Abstract: A brake system for motorcycles and a method for regulating the brake pressure in a motorcycle having an anti-lock function and having an integral brake function are provided. By means of the integral brake function, front wheel brake means are actuated in connection with brake actuation at a rear wheel (RW), and a brake pressure (psollvr) in front wheel brake circuit is regulated on the basis of a predefined dependency (f) of a pressure (pmessHZ RW) caused by the brake actuation at the master brake cylinder of a rear wheel brake circuit. In the event of an anti-lock function at the rear wheel (RW), a higher brake pressure (psollvr) is set in the front wheel brake circuit than is set at the present pressure (pmessHZ RW) at the master brake cylinder on the basis of the dependency (f) in the absence of anti-lock regulating intervention.

Abstract: A brake control valve includes a housing, a quick braking chamber and a piston subject to brake pipe pressure on one side of the piston. A bore in the housing connects the quick braking chamber at a first end and the one side of the piston at a second end. A first valve is in the housing at the first end of the bore. A first operator is in the bore for opening the first valve for a range of positions of the piston. The bore has a first portion of a first diameter and a second portion of a second diameter larger than the first diameter. The first bore portion connects the one side of the piston to the second bore portion. A first operator in the bore is connected to the piston. A seal on the first operator is dimensioned to form a seal with the first bore portion and not with the second bore portion.

Abstract: A method for balancing brake force is disclosed. The method includes determining whether a deceleration value reaches a first deceleration threshold in response to a braking event and determining brake condition and vehicle motion. Based on brake condition and vehicle motion determination and the first deceleration threshold determination, the method determines whether the deceleration value reaches a second deceleration threshold, and applies threshold balancing when the second deceleration threshold is reached.

Abstract: 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 facing rearward with the rear fluid chamber opened to the atmosphere due to the failure, does not communicate with the master cylinder but with a reservoir.

Abstract: A vehicular hydraulic system having a hydraulic pump, a first hydraulic application and a second hydraulic application arranged in series. A relief valve is arranged parallel with the second application to allow fluid to bypass the second application when fluid pressure upstream of the second application exceeds a threshold value. The first and second applications may be a brake assist device and a steering gear assist device. The hydraulic system may also include a priority valve for diverting a portion of the fluid flow to the second application when the pressure upstream of the first application exceeds a threshold value. The threshold value for the first application may be greater than the threshold value for the second application. The hydraulic system may include a pump having a discharge rate that falls within a predefined range. A check valve may also be arranged parallel with the relief valve and second application.

Abstract: A vehicular hydraulic system having a hydraulic pump, a first hydraulic application, a second hydraulic application and a hydraulic reservoir arranged in series. A check valve is positioned to allow the flow of fluid from a point between the second hydraulic application and the pump to a point upstream of the second hydraulic application when the fluid flow upstream of the second application has been significantly reduced. The first and second applications may be a hydraulic brake assist device and a steering gear assist device. The use of such a check valve may also be employed with a hydraulic system having a priority valve for diverting a portion of the fluid flow to the second application when the pressure upstream of the first application is elevated above a threshold value. The hydraulic system may also employ a pump that has a discharge rate that falls within a predefined range.

Abstract: A brake control apparatus includes wheel cylinders which apply braking force to wheels when supplied with hydraulic fluid; a wheel cylinder pressure control system that controls a wheel cylinder pressure independently of a brake operating member operation; a manual hydraulic pressure source that includes first and second hydraulic pressure sources that pressurize the hydraulic fluid; a hydraulic fluid supply path that connects the manual hydraulic pressure source to the wheel cylinders; and a controller. Communication through the hydraulic fluid supply path is interrupted when the wheel cylinder pressure control system controls the wheel cylinder pressure, and the communication is permitted when the wheel cylinder pressure deviates from a target pressure. The controller executes control so that the hydraulic fluid from the first hydraulic pressure source starts to be supplied after the hydraulic fluid from the second hydraulic pressure source starts to be supplied.

Abstract: Braking system including a master cylinder having at least two pressurizing pistons partially defining at least two mutually isolated pressurizing chambers, and wherein a working fluid in each pressurizing chamber is pressurized by an advancing movement of the corresponding pressurizing piston, a hydraulically operable brake cylinder for activating a brake, and a valve device having a first state in which the pressurized fluid is delivered from two pressurizing chambers of the at least two pressurizing chambers to the brake cylinder, and a second state in which the pressurized fluid is delivered from only one of the two pressurizing chambers.

Abstract: A hydraulic pressure regulating device is disposed between a master cylinder and a pair of wheel cylinders included in each of a dual hydraulic circuit. A desired value is provided for a wheel cylinder operatively associated with a wheel to be controlled, on the basis of state variable monitored by a monitor. The desired value for at least one wheel cylinder in a hydraulic circuit including the wheel cylinder for the wheel to be controlled, is modified at least in response to operation of a brake pedal to provide a modified desired value. When the brake pedal is operated, the regulating device is controlled in response to a result of comparison between the modified desired value and the state variable, to regulate the pressure in at least one wheel cylinder included in the hydraulic circuit.

Abstract: Method and device for controlling and braking an aircraft running on the ground According to the invention, the aircraft (1) comprises two close undercarriage wheel assemblies (2D, 2G) and two distant undercarriage wheel assemblies (3D, 3G), the biggest of the braking commands (FD, FG) can, under certain conditions, be applied not only to the corresponding two undercarriage wheel assemblies, but also to the close undercarriage wheel assembly corresponding to the smallest braking command.

Abstract: In a braking device of a motorcycle, in which a rear wheel braking mechanism is operated in conjunction with a front wheel braking operation, accurate determination of a reduction in rear wheel load is provided, and additional reduction of the rear-wheel load is prevented. Determination of a reduction in rear-wheel load is based on vehicle speed in the front wheel braking operation, hydraulic pressure of a brake caliper on the front wheel side, and respective slip ratios of the front and rear wheels. When the rear-wheel load is reducing, hydraulic pressure of a brake caliper on the rear wheel side is controlled so as to keep the slip ratio of the rear wheel at or below a set value. A hydraulic modulator supplies/evacuates the hydraulic pressure to/from the brake caliper on the rear wheel side, and the slip ratio of the rear wheel is controlled by electrically controlling the hydraulic modulator.

Abstract: A road vehicle hydraulic brake system, having a master brake cylinder for generating a master cylinder pressure based on the braking intent of a driver of the vehicle, having a hydraulic unit connected between the master brake cylinder and at least one wheel brake cylinder of at least one wheel, and a method of control thereof are described. The hydraulic unit, with which a brake pressure boost is achievable by generating in the at least one wheel brake cylinder a wheel cylinder pressure greater than the master cylinder pressure, has a system of actuatable valves and at least one hydraulic pump. A differential pressure valve between the master brake cylinder and the hydraulic unit opens or closes the hydraulic connection between the master brake cylinder and the hydraulic unit at a predetermined pressure difference between the master cylinder pressure and the wheel cylinder pressure, to increase the wheel cylinder pressure.

Abstract: A brake control apparatus having a brake pressure controlling unit including normally-open-type electromagnetic valves for preventing a fluid pressure transmitted from a master cylinder to wheel brakes when the valves close and a control unit executing an anti-lock brake control resolving a lock tendency of the wheels by controlling the operation of the brake pressure controlling unit according to a result of judgment of the lock tendency of wheels, and simultaneously executing a brake force distribution control distributing front and rear brake forces by controlling the normally-open-type electromagnetic valves in correspondence with rear wheels to close in such a manner that the normally-open-type electromagnetic valves are opened when the brake force distribution control is finished, wherein the control unit finishes the brake force distribution control after a vehicle stops and a load applied ahead of the vehicle is released.

Abstract: A hydraulic braking system including first and second braking circuits. The first and second braking circuits each include a wheel brake, a pressurized fluid source, and a hydraulic conduit connecting the wheel brake to the fluid source. Each of the hydraulic conduits includes a control valve that operates to selectively prevent fluid flow from the pressurized fluid source to the wheel brake. A connecting conduit connects the first and second braking circuits. A floating piston is disposed within the connecting conduit and is adapted to be displaced by the pressurized fluid provided by the pressurized fluid source in the first braking circuit when the control valve of the first braking circuit is closed. The displacement of the piston generates an additional volume of pressurized fluid in the hydraulic conduit of the second braking circuit that effectively augments the pressurized fluid provided by the second pressurized fluid source.

Abstract: A braking force distribution control device is provided in which wheel speeds of respective wheels of a vehicle are detected. On the basis of the detected wheel speeds, slopes of coefficients of friction ? between the wheels and a road surface are estimated as road surface ? slope values of the respective wheels. On the basis of the estimated road surface ? slope values of the respective wheels, braking forces of the respective wheels are controlled such that the braking forces among the respective wheels are adjusted.

Abstract: An improved braking method and system for a vehicle equipped with an anti-lock brake system (ABS), a traction control or anti-slip regulation system (ASR) and one or more additional systems capable of effecting automatic braking of the vehicle independently of driver control, e.g., an adaptive cruise control system (ACC) or a rollover stability control system (RSC). Automatic braking takes place by admission of brake pressure to the drive axle. To detect a simultaneous braking demand of the driver, the wheel speeds of the non-driven axle or axles are compared with the wheel speeds of the drive axle or axles. If the wheel speeds of the non-driven axle(s) are less than the wheel speeds of the drive axle(s), or less than a vehicle reference speed, the brake pressure injected in response to driver demand is also fed to the brake cylinders of the wheels of the drive axle(s).

Abstract: An arrangement for ensuring the functioning of a brake configuration for a vehicle with a multiplicity of wheels which are arranged on a front axle and at least one rear axle and which support the vehicle. The brake configuration incorporates at least two brake devices, each to act upon one of the wheels, and a brake control with which the brake devices can be activated with a total brake action. A memory stores at least one value of a parameter for the brake devices. The parameter relates to at least one previous braking operation performed by the respective brake device. A control unit distributes the brake action to the brake devices, taking into account the value of the parameter of the respective brake devices when the brake control is actuated. The brake devices are disc brakes.

Abstract: A valve arrangement is disclosed for controlling the pressure in first and second brake actuation outputs (9, 10). First and second air inlet valves (1,3) supply air to respective ones of the actuation outputs; first and second exhaust valves (2,4) are each associated with a respective one of the inlet valves; and a link valve (11) is between the actuation outputs. The arrangement is such that the pressure in each of the actuation outputs is controllable selectively either in mode a) jointly, with the link valve enabling air flow between the actuation outputs or in mode b) independently, with the link valve blocking air flow between the brake actuation outputs.

Abstract: In a vehicle having an ABS control system, a braking control of a right and left rear wheels can be independently carried out when a lateral acceleration exceeds a lateral acceleration value set beforehand. When the ABS control is operated at one of the right and left rear wheels, the control system executes a stepwise pressure increase control which provides a stepwise pressure increase for the other rear wheel up to a braking pressure to be reached at a start of the control.

Abstract: The invention provides an emergency brake apparatus for a vehicle which can brake both of front and rear tire wheels of a vehicle by using an oil pressure, at an emergency time. For this purpose, a pressure oil of a hydraulic power source is changed to a pilot oil pressure which is reduced from a high pressure to a low pressure in correspondence to an operation amount of an emergency brake valve (77) operated at the emergency time, and this pressure is output to a relay valve (3). The pressure oil of the hydraulic power source is increased in an inverse proportional manner from a low pressure to a high pressure in correspondence to the pilot oil pressure, and this pressure is output to a front tire wheel brake (64), thereby urgently braking the front tire wheel.

Abstract: A method and a device for monitoring and controlling the braking system of a vehicle. In this context, for the monitoring, at least one braking variable representing the retarding force of at least one wheel brake is recorded, and is compared to a predefined threshold value. As a function of the comparison and of the driving situation of the vehicle and/or the operating state, at least one vehicle component located in the vehicle carries out at least one suitable measure during a braking procedure which modifies the slowdown at at least one wheel brake. In this context, it is observed that the overall slowdown of the vehicle should be held constant during the modification of the slowdown at the at least one wheel brake, or in any event, should be changed insignificantly.

Abstract: A braking control device for a vehicle executes braking force distribution (BFD) biased to front wheel, taking into account auxiliary braking control such as Braking assist control to be executed when an abrupt or full braking action is done by the driver. In BFD control, braking force on rear wheels is held at a holding braking force and braking force on the front wheels is incremented beyond braking force requested by a braking action of a driver. After the starting of BFD control, further increase in the braking action is reflected in the front wheel braking force. When the auxiliary braking control is executed, the holding braking force on the rear wheels and the increment of the braking force on the front wheels are determined based upon a demand of the auxiliary braking action as well as the braking action amount by the driver.

Abstract: An automotive braking system controls the flow of pressurized brake fluid from a tandem master cylinder to several wheel brakes via a pair of braking circuits. Each circuit features a pressure relief line having, in series, a normally-closed valve, low-pressure accumulator, pump, check valve, damping chamber, and throttling orifice. A bypass line includes a normally-closed bypass valve that is operated to interconnect the pressure relief lines of the first and second braking circuits downstream of the pump outlets to thereby reduce system response time when, for example, one or more wheel brakes are actuated to enhance vehicle traction or stability. Braking system redundancy is enhanced with a check valve incorporated in either or both circuits downstream of the bypass connection, or a second normally-closed bypass valve in the bypass line. Fluid pressure monitoring in either or both circuits is further useful in identifying bypass valve leakage.

Abstract: In a vehicle having an ABS control system, a braking control of a right and left rear wheels can be independently carried out when a lateral acceleration exceeds a lateral acceleration value set beforehand. When the ABS control is operated at one of the right and left rear wheels, the control system executes a stepwise pressure increase control which provides a stepwise pressure increase for the other rear wheel up to a braking pressure to be reached at a start of the control.

Abstract: In a hydraulic vehicle braking systems operable via hydraulic external energy from a pump or, in the event the pump malfunctions, via hydraulic energy made available using a master brake cylinder via muscle-powered energy, provision is made for safe braking via muscle-powered energy such that at least one cylinder-piston configuration isolates at least two wheel brakes from the hydraulic pressure medium that is able to be pumped by the pump. The hydraulic vehicle-braking system incorporates wheel brakes of one axle that is isolated from a hydraulic pump in terms of pressure medium by a cylinder-piston configuration, which wheel brakes are supplied with pressure medium by one master cylinder chamber of a master brake cylinder. The other master brake cylinder chamber is allocated to the two other wheel brakes of the other vehicle axle, so that given bubble-free pressure medium downstream from the pump, the wheel brakes of both vehicle axles make a contribution to vehicle deceleration.

Abstract: The invention relates to a method for regulating the brake power on the wheels (VR, HR) of at single-track vehicle, using a brake system comprising a wheel brake circuit (RBKVR) having a pressure modulator (RGCVR) for regulating the brake pressure pVR on a front wheel brake (54); a wheel brake circuit (RBKHR) having a pressure modulator (RGVHR) for regulating the brake pressure pHR on a rear wheel brake (54′); at least one control circuit (STKHBZ, STKFBZ) for controlling both pressure modulators (RGVVR, RGVHR); and a control unit (94). According to the invention, the brake pressure pHR nominal in the brake circuit (RBKHR) for the rear wheel (HR) is determined according to the brake pressure pVR actual detected in the brake circuit (RBKVR) for the front wheel (VR)—taking an ideal brake power distribution characteristic stored in the control unit (94) as a basis—and is regulated for the rear wheel (HR) by means of the pressure modulator (RGVVR) in the wheel brake circuit (RBKHR).

Abstract: A method for measuring the volume of hydraulic fluid in the secondary circuit of a braking system, especially in an accumulator, through the use of a Hall-effect magneto resistive device. A secondary hydraulic circuit includes an accumulator (11, 137), an electric motor (71, 101) driven hydraulic pump (73, 143), and appropriate valving (133) for supplying braking force hydraulic pressure from a master cylinder to one or more wheel cylinders. There is a secondary hydraulic circuit supply path for each wheel brake cylinder and each path includes a first normally open solenoid actuable valve (41, 43, 57, 59, 97, 149) providing a brake fluid path from the master cylinder to the wheel brake cylinder and a first normally closed solenoid actuable valve (61, 65, 67, 69, 139, 141) selectively opening during an anti-lock event to provide a path to bleed fluid from the associated wheel cylinder to the accumulator (11, 137).

Abstract: A hydraulic pressure control device is provided in which a proportional pressure control valve is actuated by operating the brake pedal to adjust the hydraulic pressure supplied from a pressure source to the wheel brakes to a value corresponding to the pedal operating amount. Also, a brake device for a vehicle using it is provided. The proportional pressure control valve is integrated with a hydraulic pressure generator to transmit the input from the brake pedal to a spool valve in the control valve through a first piston, first spring, second piston and second spring of the hydraulic pressure generator. If the pressure source or the wheel brakes in a first line fail, after the second piston has made a full stroke, brake fluid in a fluid chamber is pressurized, so that the hydraulic pressure generated is supplied to wheel brakes in a second line through a copy valve which is open.

Abstract: A hydraulic brake apparatus for a vehicle includes a hydraulic pressure generator which generates and outputs a power pressure irrespective of brake pedal operation, a regulation valve which regulates the power pressure to a predetermined pressure corresponding to the brake pedal operation force and outputs the predetermined pressure, and a master cylinder having a master cylinder pressure chamber and an auxiliary pressure chamber connectable to an output side of the regulation valve. The master cylinder is operated by auxiliary pressure in the auxiliary pressure chamber to generate a master cylinder pressure corresponding to the auxiliary pressure. A wheel brake cylinder is operated by the master cylinder pressure to apply braking force to a wheel. A pressure modulation device is disposed in a pressure passage connecting the output side of the regulation valve to the auxiliary pressure chamber to modulate the auxiliary pressure to a pressure less than the predetermined.

Abstract: The present invention is directed to a front-rear braking force distribution control system for a vehicle. The system includes a wheel brake cylinders operatively associated with front and rear wheels of the vehicle, a pressure generator for pressurizing brake fluid in response to operation of a brake pedal to generate a hydraulic braking pressure and supply it to each of the wheel brake cylinders, and a pressure control device disposed between the pressure generator and the wheel brake cylinders for controlling the braking pressure in each of the wheel brake cylinders. A pressure sensor is provided for detecting the braking pressure generated by the pressure generator, and the detected braking pressure is compared with a predetermined threshold pressure.

Abstract: There is provided a pedal apparatus for vehicles, which comprises a pedal reaction-force addition means 4 for adding a reaction force to a pedal 1 of a vehicle, a pedal force detection means 2 for detecting a force added to the pedal 1, a pedal reaction-force control means 3 for adjusting the output of the pedal reaction-force addition means 4. During the running of the vehicle, the pedal reaction-force control means 3 performs the adjustment of a reaction force of the pedal on the basis of the driving environment of the vehicle and the driver's intention and judgement in pedal operation in the driving environment, whereby it is ensured that when the driver has no intention of operating the pedal, the driver can sufficiently place his or her foot on the pedal and that when he driver has any intention of operating the pedal, the driver can realize a smooth pedal operation.

Abstract: A method for braking force distribution control for a vehicle with a direct four wheel drive mode, which does not become an obstacle to an effective braking force and disconcert the driver's feeling. This method relates to a braking force distribution control for a vehicle during direct four wheel drive mode and under the condition that the anti-skid control is inhibited, which does not operate pressure reduction control or the amount of pressure reduction.

Abstract: A method of braking an electric or hybrid vehicle 7 is provided. The vehicle (7) has electric regenerative brakes and friction brakes (94). In a normal braking situation regenerative brakes are applied. If a wheel (42) slip condition is sensed, a selectively operable clutch (76) tortionally connects an undriven axle (60) to the driven axles (44, 45) to alleviate the slip condition. The alleviation of the slip condition prevents the electric regenerative brakes from being shut off in favor of an antilock friction brake application.

Abstract: A brake system includes first brake assist means arranged in a first brake circuit to increase a first wheel cylinder pressure to a level higher than a master cylinder pressure. The brake system further includes second brake assist means arranged in a second brake circuit to increase a second wheel cylinder pressure to a level higher than the master cylinder pressure. The second brake assist means includes a brake regulator mechanism that uses the increased first wheel cylinder pressure as a pilot pressure and adjusts the increased second wheel cylinder pressure to a pressure falling within a predetermined range from the increased first wheel cylinder pressure when the first brake assist means is activated.

Abstract: The arrangement relates to an arrangement for a vehicle (1) which incorporates a framework which itself incorporates a front pair of wheels with a braking configuration for each wheel and also a rear pair of wheels with a braking configuration for each wheel. The tractor vehicle is designed to haul a trailer by means of a towing device. There is a detector for the value of a parameter of the rear pair of wheels. A control unit designed to control the braking action of the braking configurations of the front pair of wheels on the basis of the value of the parameter.

Abstract: The present invention discloses a brake system with electronic brake force distribution which includes additional criteria of deactivation of the electronic brake force distribution. Deactivation of the electronic brake force distribution is intended to occur, on the one hand, if a pressure increase phase lasts longer than a defined time (50). On the other hand, another criterion of deactivation (60) is deceleration-responsive, and an additional check is made whether or not braking is pedal operated (62).

Abstract: A braking device for a vehicle having rear and front pressure receivers (21, 22) connected with a mechanical pressure generator (31) and an electrical pressure generators (31, 32) and selectively controlled by solenoid valves (61, 62, 63). An inlet (222) of the front pressure receiver (22) is connected directly to an outlet (324) of the electrically controlled pressure generator (32) while a solenoid valve (61) selectively connects an outlet (313) of the mechanically controlled pressure generator (31) to the inlet (222) of the front pressure receiver (22) to control braking. The fluid pressure communicated from the electrically controlled pressure generator (32) being selectively altered to create a desired braking for the vehicle.

Abstract: A rear brake proportioning system for a vehicle which is enabled upon the rear wheel speed exceeding a wheel speed threshold and activated upon rear wheel slip exceeding a slip threshold.

Abstract: In an automotive vehicle brake system with an arrangement (rear-axle ABS) which controls or regulates the braking pressure or the brake force on the rear wheels and prevents locking of the rear wheels, the front wheels and the rear wheels are individually equipped with rotational speed sensors. Further, the distribution of the brake force to the front and rear axle (EBD function) is controlled or regulated on the basis of the rotational speed sensor signals and by means of the arrangement (rear-axle ABS) which prevents locking of the rear wheels. In addition, there is provision of an indicator and/or alarm device which signals the imminent locking of a front wheel or the second front wheel to the driver.

Abstract: Braking system including a power-operated hydraulic pressure source operable to deliver a pressurized working fluid, a brake including a hydraulically operated brake cylinder, and a flow-rate changing device disposed between the power-operated hydraulic pressure source and the brake cylinder and operable to change a rate of flow of the pressurized working fluid into the brake cylinder, which rate corresponds to a given rate at which the pressurized working fluid is delivered from the power-operated hydraulic pressure source.

Abstract: The present invention is directed to a brake control system for a vehicle, wherein a first valve device for opening or closing a main passage, a hydraulic pressure pump, and a second valve device for opening or closing an auxiliary passage are disposed in each hydraulic pressure circuit of a dual hydraulic pressure circuit system. At least one of the first and second valve devices is controlled to equalize the slip rates of a pair of wheels, with the wheel brake cylinders operatively mounted thereon and disposed in different hydraulic circuits, and placed at the left side and right side of the vehicle, respectively, when a difference between the slip rates of the wheels placed at the left side and right side exceeds a predetermined value.