Abstract: A hydraulic control valve for an ATV or motorcycle takes hydraulic input from a hand brake lever as an input to a first cavity of the control valve with a movable piston therein, and from a foot brake lever as an input to a second cavity of the control valve with a movable piston therein, with the two pistons being linked. A bypass channel extends around the piston in the first cavity, which is closed off when the first piston moves longitudinally. The output of the first cavity hydraulically controls braking of the front wheel(s). The foot brake lever also pressurizes a direct line to brake the rear wheel(s) that doesn't go through the control valve.

Abstract: A right front fender and a left front fender are displaceable relative to a vehicle body frame in accordance with an operation of a link mechanism. At least a portion of the right front fender is disposed above a center in the up-down direction of the vehicle body frame between an upper end of a right front wheel and a lower edge of the link mechanism or a steering mechanism directly above the right front wheel, as seen from a front in the front-rear direction of the vehicle body frame when the vehicle body frame is in the upright state. At least a portion of the left front fender is disposed above a center in the up-down direction of the vehicle body frame between an upper end of a left front wheel and a lower edge of the link mechanism or the steering mechanism directly above the left front wheel, as seen from the front in the front-rear direction of the vehicle body frame when the vehicle body frame is in the upright state.

Abstract: A vehicle braking force control device which, at a normal time, performs antilock brake control when the slip ratio of a wheel has become equal to or greater than a predetermined threshold. The control device acquires from the engine control unit an accelerator pedal position signal corresponding to an accelerator pedal position, a clutch connection signal corresponding to a state of connection of a clutch, and a power transmission signal corresponding to a state of power transmission of a transmission. When engine braking is large on the basis of the accelerator pedal position signal, the clutch connection signal, and the power transmission signal, the vehicle braking force control device changes the predetermined threshold value to an offset threshold value that makes it harder to perform the antilock brake control than at the normal time.

Abstract: A method and system for measuring pressure in a pressure regulation unit of a motor vehicle braking system, without using pressure sensors and having a motor pump unit with an electric motor and a hydraulic pump. The steps include producing a relative motor characteristic diagram for a series of the units. The diagram includes the data of motor-rotational-speed-dependent parameters, intensity of the motor actuation, and parameters relating to the level of the motor load. Further steps include; determining individual motor characteristic variables, determining a current rotational-speed-dependent parameter of an individual motor during the operation of the pump, and calculating a pressure which is characteristic of the braking system, by means of the diagram parameter of the individual motor and the value of the current motor actuation which determines the intensity of the motor actuation, wherein the individual motor characteristic variables are taken into account.

Abstract: A hybrid brake apparatus for a vehicle includes a front hydraulically actuated brake circuit, a rear electrically actuated brake circuit, and a controller. The front hydraulically actuated brake circuit includes a master cylinder for providing pressurized fluid to the front brake circuit in response to an input applied to the master cylinder for applying a frictional front braking force. The rear electrically actuated brake circuit is controllable in response to the input for providing a frictional rear braking force. The rear brake circuit is controlled in accordance with a first predetermined relationship between the input and rear braking force during normal operation of the front brake circuit. If the controller detects a degradation of front braking force, the rear brake circuit is controlled in accordance with a second predetermined relationship between the input and the rear braking force, to thereby compensate for the degradation of front braking force.

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 brake pressure distribution between axles is regulated as a function of a difference in wheel rotational speeds between axles or wheel slip values between axles at the axles. Exceeding a predefined limit value in difference in the wheel rotational speed between axles or the wheel slip values between axles during braking serves to regulate the distribution. On the basis of the dependency between at least the brake pressure at the rear axle and the vehicle deceleration after at least two preceding service braking operations, a critical deceleration value is determined.

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: A three-wheeled vehicle having a pair of front wheels and a single rear wheel is provided with a roll-related reactive system. The roll-related reactive system provides braking of at least one of the front wheels independent of braking initiated by an operator of the vehicle.

Abstract: Methods and apparatus for decelerating and/or stopping a vehicle are disclosed. A vehicle in accordance with an exemplary embodiment of the invention may include a first wheel, a second wheel, and a brake system capable of applying a first braking force to the first wheel and a second braking force to the second wheel such that a ratio of the second braking force to the first braking force is equal to a pre-selected braking force ratio. The vehicle may also include a second brake input mechanism capable of varying the ratio of the second braking force to the first braking force.

Abstract: The brakes of the front axle of the trailer of a utility vehicle are impinged upon with a brake pressure by way of a single, common ABS valve. Said ABS valve is electrically actuated by an EBS module associated with the rear wheel brakes depending on a differential slip between the front axle and the rear axle.

Abstract: A brake system for a vehicle is comprised of a first brake system that mechanically applies a braking force to wheels according to a master cylinder hydraulic pressure outputted from a master cylinder which receives a brake manipulation force of a driver, and a second brake system that apply a braking force to other wheels according to at least a braking state of the first brake system.

Abstract: A method and a system for operating a brake system of a motor vehicle having traction control are described. The brake system contains sensors which are assigned to the individual vehicle wheels and with which a quantity representing at least the driving and/or braking forces acting between the road surface and the vehicle wheel is detected for the respective vehicle wheel. For operation of the brake system having traction control, pressure quantities which describe the brake pressure established for the respective vehicle wheel are analyzed. The pressure quantities are determined as a function of the quantities detected by the sensors.

Abstract: A brake assembly for a motorcycle provided with a hydraulically actuated front brake and rear brake for a front wheel and a rear wheel, respectively, including a first brake actuating device and a second brake actuating device, for applying hydraulically pressure to the front and rear brakes; and an electronically controlled braking system, having a first hydraulic system extending from the first brake actuating device connected to the front brake, and a second hydraulic system extending from the second brake actuating device, connected to the rear brake, with an electronic control device receiving detection values for each of the first actuation amount detection device for detecting an actuation amount of the first brake actuating device, and a second actuation amount detection device for detecting an actuation amount of the second brake actuating device, subjecting them to computation, and outputting control signals to a hydraulically controlled actuator based on the result of the computation, and actuating

Abstract: A method and an apparatus are described for controlling the braking force distribution in a vehicle between front and rear axles, such that at least while the vehicle is traveling in a curve, the braking force at the rear wheels is established individually in such a way that the difference between the velocity of that rear wheel and a front wheel velocity assumes defined values.

Abstract: A method of controlling a brake force in a brake system including a front wheel system and a rear wheel system, includes the steps of: operating a brake in the front wheel system by using a hydraulic pressure corresponding to an amount of brake pedal operation; and controlling a wheel speed of the rear wheel system via a feedback mechanism to match a wheel speed of the front wheel system.

Abstract: A method of electronic brake force distribution is applied to contribute to vehicle stability even in the event of failure of the system that detects failure of the front-axle brake circuit (13) in a vehicle (1). The method involves initiating a pressure maintenance or pressure reduction phase only after the standards with respect to a minimum vehicle deceleration upon brake circuit failure are met. This way, it is ensured that the standards are observed, on the one hand, and locking of the rear wheels (6,7) before the front wheels (4,5) is prevented with great likelihood, on the other hand. Thus, electronic brake force distribution (EBD) is switched over to less sensitive criteria. This makes allowance for both possibilities in the event of a failure of a pressure switch (15), i.e., that the front-axle brake circuit (13) is intact or that it is defective.