HYDRAULIC VEHICLE BRAKE SYSTEM

Abstract

A hydraulic vehicle brake system having at least one brake pedal, a pedal-travel simulator, at least one hydraulically operable wheel-brake unit and a switching valve between the brake pedal and the pedal-travel simulator. The switching valve is adjustable between a first switching position, in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position, in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit. In the first switching position, a pressure-supply unit is connected at the same time to the wheel-brake unit.

Claims

1-14. (canceled)

15. A hydraulic vehicle brake system, comprising; at least one brake pedal; a pedal-travel simulator; and at least one hydraulically operable wheel-brake unit, having a switching valve between the brake pedal and the pedal-travel simulator, the switching valve being adjustable between a first switching position in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit, wherein in the first switching position, a pressure-supply unit is connectable at the same time via an adjustable valve to the wheel-brake unit.

16. The vehicle brake system of claim 15, wherein disposed in the flow path between the pressure-supply unit and the at least one wheel-brake unit is a brake-by-wire valve, which in the de-energized state, decouples the pressure-supply unit from the wheel-brake unit.

17. The vehicle brake system of claim 15, wherein in the de-energized state, the switching valve is in the second switching position, in which the pedal-travel simulator is decoupled and the brake pedal is connected to the wheel-brake unit.

18. The vehicle brake system of claim 15, wherein the vehicle brake system includes two brake circuits, each having at least one hydraulically operable wheel-brake unit, and the second brake circuit is connected hydraulically to the first brake circuit.

19. The vehicle brake system of claim 18, wherein the second brake circuit is connected via a hydraulic ratio valve to the first brake circuit.

20. The vehicle brake system of claim 18, wherein the second brake circuit is operable by a further independent pressure-supply unit.

21. The vehicle brake system of claim 15, wherein the outlet valve at the wheel-brake unit is flow-connected to a reservoir.

22. The vehicle brake system of claim 21, wherein in the de-energized state, the outlet valve at the wheel-brake unit decouples the reservoir from the wheel-brake unit.

23. The vehicle brake system of claim 15, having a regulating/control unit for controlling the adjustable components of the vehicle brake system.

24. A vehicle or a commercial vehicle, comprising: a vehicle brake system including: at least one brake pedal; a pedal-travel simulator; and at least one hydraulically operable wheel-brake unit, having a switching valve between the brake pedal and the pedal-travel simulator, the switching valve being adjustable between a first switching position in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit, wherein in the first switching position, a pressure-supply unit is connectable at the same time via an adjustable valve to the wheel-brake unit.

25. A regulator/controller, comprising: a regulating/control unit to control adjustable components of a vehicle brake system; wherein the vehicle brake system includes: at least one brake pedal; a pedal-travel simulator; and at least one hydraulically operable wheel-brake unit, having a switching valve between the brake pedal and the pedal-travel simulator, the switching valve being adjustable between a first switching position in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit, wherein in the first switching position, a pressure-supply unit is connectable at the same time via an adjustable valve to the wheel-brake unit.

26. A method for operating a vehicle brake system, the method comprising: ascertaining an incipient lock of a wheel to realize an antilock braking system; and reducing a brake-pressure level at an assigned wheel-brake unit by closing an inlet valve and opening an outlet valve; wherein the vehicle brake system includes: at least one brake pedal; a pedal-travel simulator; and at least one hydraulically operable wheel-brake unit, having a switching valve between the brake pedal and the pedal-travel simulator, the switching valve being adjustable between a first switching position in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit, wherein in the first switching position, a pressure-supply unit is connectable at the same time via an adjustable valve to the wheel-brake unit.

27. A method for operating a vehicle brake system, the method comprising: ascertaining, to realize an electronic stability program, a rotation of the vehicle about a vertical axis and comparing it to a driver command, determined from steering-angle sensors and rotational-speed sensors; and stabilizing, in the event of a deviation, the vehicle by opening or closing inlet valves and outlet valves at at least one wheel-brake unit; wherein the vehicle brake system includes: at least one brake pedal; a pedal-travel simulator; and at least one hydraulically operable wheel-brake unit, having a switching valve between the brake pedal and the pedal-travel simulator, the switching valve being adjustable between a first switching position in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit, wherein in the first switching position, a pressure-supply unit is connectable at the same time via an adjustable valve to the wheel-brake unit.

28. A method for operating a vehicle brake system, the method comprising: braking at least one wheel-brake unit in a trailer of the vehicle via a brake fluid in a pressure-supply unit; wherein the vehicle brake system includes: at least one brake pedal; a pedal-travel simulator; and at least one hydraulically operable wheel-brake unit, having a switching valve between the brake pedal and the pedal-travel simulator, the switching valve being adjustable between a first switching position in which the brake pedal is connected to the pedal-travel simulator and decoupled from the wheel-brake unit, and a second switching position in which the brake pedal is decoupled from the pedal-travel simulator and the brake pedal is connected to the wheel-brake unit, wherein in the first switching position, a pressure-supply unit is connectable at the same time via an adjustable valve to the wheel-brake unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] FIG. 1 shows a connection diagram of a hydraulic vehicle brake system having a first brake circuit for the wheels at the rear axle of the vehicle.

[0025] FIG. 2 shows the continuation of the connection diagram for the wheels at the front axle of the vehicle.

DETAILED DESCRIPTION

[0026] Vehicle brake system 1 represented in FIGS. 1 and 2, of which rear-axle brake circuit 2 is shown in FIG. 1 and front-axle brake circuit 3 is shown in FIG. 2, is installed, e.g., in commercial vehicles such as agricultural vehicles, for instance. Vehicle brake system 1 includes a brake pedal 4 that is connected hydraulically via a switching valve 5 first of all to a pedal-travel simulator 6, and secondly to wheel-brake units 7a, 7b at wheels 8a, 8b of the rear axle.

[0027] A pressure sensor 9 is located between brake pedal 4 and switching valve 5; a further pressure sensor 10 is disposed in between switching valve 5 and wheel-brake units 7a, 7b. In addition, a pressure sensor 11a, 11b is assigned to each wheel-brake unit 7a, 7b.

[0028] Each wheel-brake unit 7a, 7b has an inlet valve 12a, 12b and an outlet valve 13a, 13b at a wheel-brake cylinder, brake fluid being conducted to and away from the wheel-brake cylinder via the valves. Outlet valves 13a, 13b are connected via one common return-flow line to a reservoir 14, into which brake fluid flows back when the outlet valve is open, as indicated by the arrow. Disposed in the return line is a valve 15 which, in the de-energized state, is in its blocking position and interrupts the return flow to reservoir 14.

[0029] In addition, vehicle brake system 1 is assigned a pressure-supply unit 16 having brake fluid under pressure, which is connected via a brake-by-wire valve 17 to switching valve 5. In the de-energized state, brake-by-wire valve 17 is in its blocking position interrupting the flow from pressure-supply unit 16, and in the energized state, is in the open position in which a flow connection is made possible via switching valve 5 from pressure-supply unit 16 to wheel-brake units 7a, 7b, permitting the flow. In the de-energized state, switching valve 5 is in a position decoupling pedal-travel simulator 6, at the same time brake pedal 4 being connected to wheel-brake units 7a, 7b. On the other hand, in the energized state, the switching valve is in a switching position in which the pedal-travel simulator is coupled to brake pedal 4, so that in response to an actuation of brake pedal 4, brake fluid is moved into pedal-travel simulator 6. At the same time, a flow connection between brake-by-wire valve 17 and wheel-brake units 7a, 7b is open, so that the brake fluid gets from pressure-supply unit 16 via brake-by-wire valve 17 and switching valve 5 to wheel-brake units 7a, 7b.

[0030] As an option, a further wheel-brake unit 18 that is located, for example, in a trailer of the vehicle, is coupled to first brake circuit 2, so that wheel-brake unit 18 is supplied with brake fluid in the same manner as wheel-brake units 7a and 7b at the rear wheels of the vehicle.

[0031] First brake circuit 2 for the rear axle of the vehicle is connected via a hydraulic connecting line 19 to second brake circuit 3 for the front axle of the vehicle. Located between first and second brake circuits 2, 3 is a hydraulic ratio valve 20, via which a pressure boost, possibly a pressure reduction, may be implemented between first and second brake circuits 2, 3. Second brake circuit 3 includes wheel-brake units 21a, 21b, each having a pressure sensor 22a, 22b and inlet valves 23a and 23b as well as outlet valves 24a and 24b. The brake cylinders of wheel-brake units 21a and 21b brake front wheels 25a, 25b of the vehicle.

[0032] Second brake circuit 3 for the front axle of the vehicle is assigned a further pressure-supply unit 26 having brake fluid under pressure, which is flow-connected via hydraulic ratio valve 20 to wheel-brake units 21a, 21b at the front axle. Hydraulic ratio valve 20 may assume a position decoupling pressure-supply unit 26, and at the same time hydraulically connecting brake circuits 2 and 3, so that brake fluid flows over from brake circuit 2 via ratio valve 20 into brake circuit 3. On the other hand, in a further position of hydraulic ratio valve 20, the connection between brake circuits 2 and 3 is blocked, and at the same time, the flow connection between second pressure-supply unit 26 and wheel-brake units 21a, 21b is open.

[0033] Outlet valves 24a, 24b of wheel-brake units 21a, 21b are connected via a return line to a further reservoir 27, into which the brake fluid flows off when outlet valves 24a, 24b are open.

[0034] In the normal case, during proper functioning without failure of a component, upon actuation of brake pedal 4, brake fluid is conducted out of pressure-supply units 16, 26 into assigned brake circuits 2, 3 to wheel-brake units 7a, 7b and 21a, 21b. Various functions may be realized via a control of the assigned inlet and outlet valves, e.g., an antilock braking system or an electronic stability program within the framework of driving-assistance systems, for instance, for which additional information from sensors in the vehicle, e.g., rotational-speed sensors or yaw-rate sensors is evaluated. The movement of the brake pedal leads to a shift of brake fluid into pedal-travel simulator 6. The actuation of the brake pedal may be detected by sensor, and leads to a corresponding control of the inlet and outlet valves in order to apply the desired instantaneous braking power.

[0035] In the exemplary embodiment, in each case a pressure-supply unit 16, 26 is provided for each brake circuit 2, 3. The two brake circuits 2, 3 may be supplied from the two pressure-supply units 16, 26 with the same or different brake fluid and/or the same or different braking pressure.

[0036] In an alternative embodiment, it is also possible to dispense with pressure-supply unit 26 in brake circuit 3, and insteadalso in the operating state in which the wheel-brake units in first brake circuit 2 are supplied from pressure-supply unit 16to likewise supply the wheel-brake units in second brake circuit 3 from pressure-supply unit 16. In this case, to realize a differing brake pressure at wheel-brake units 21a, 21b of second brake circuit 3, it may be expedient to implement a pressure boost via ratio valve 20.

[0037] In response to a failure of an electrically controllable component or a pressure-supply unit, the passive fallback solution becomes active by transferring the valves into their de-energized state, in which the actuation of brake pedal 4 leads directly to a pressure increase of the brake fluid both at wheel-brake units 7a, 7b in first brake circuit 2 and wheel-brake units 21a, 21b in second brake circuit 3.