Hydraulic vehicle braking system with electromechanical actuator, and method for operating such a hydraulic vehicle braking system

The invention claimed is: 1. A hydraulic vehicle braking system comprising: a master cylinder having at least one piston displaceably accommodated therein; a mechanical actuator, coupled or couplable to a brake pedal, for actuating the piston; an electromechanical actuator for actuating the piston, the electromechanical actuator being drivable at least for brake force generation upon an actuation of the brake pedal; a decoupling device for selectively decoupling the brake pedal from the piston of the master cylinder, the decoupling device comprising a first hydraulic chamber hydraulically connected to a hydraulic fluid reservoir, and a third valve for shutting off the hydraulic connection between the first hydraulic chamber and the hydraulic fluid reservoir, a simulation device for providing a pedal reaction behaviour when the brake pedal is decoupled from the piston, the simulation device comprising a second hydraulic chamber connected to the first hydraulic chamber; a first valve arrangement, which for a wheel brake has a first valve for selectively uncoupling the wheel brake from the master cylinder and a second valve for selectively reducing the brake pressure at the wheel brake, the first valve arrangement being drivable at least in the context of an ABS control mode; and at least one low-pressure accumulator, which is configured to be coupled to the wheel brake via the second valve assigned to the wheel brake, in order to receive hydraulic fluid discharged in the context of a brake pressure reduction the at least one low-pressure accumulator being coupled to an inlet side of the first valve in order to release the received hydraulic fluid via a non-return valve. 2. The vehicle braking system according to claim 1 , the electromechanical actuator having a transmission extending concentrically with respect to the mechanical actuator. 3. The vehicle braking system according to claim 2 , the transmission being configured as a nut/spindle arrangement. 4. The vehicle braking system according to claim 3 , the electromechanical actuator having at least one electric motor with a rotor extending concentrically with respect to the mechanical actuator. 5. The vehicle braking system according to claim 4 , the rotor driving the nut/spindle arrangement or forming a component of the nut/spindle arrangement. 6. The vehicle braking system according to claim 1 , further comprising: an electrically operated hydraulic pressure generator provided in addition to the master cylinder, the hydraulic pressure generator being drivable in a brake control mode which is different from the brake force boosting or brake force generation upon an actuation of the brake pedal. 7. The vehicle braking system according to claim 6 , the at least one low-pressure accumulator being coupled to an inlet side of the hydraulic pressure generator in order to release the received hydraulic fluid. 8. The vehicle braking system according to claim 6 , the electromechanical actuator being drivable exclusively for the purpose of the brake force generation upon an actuation of the brake pedal. 9. The vehicle braking system according to claim 6 , the electromechanical actuator being drivable in at least one brake control mode which is different from the ABS control mode; and the hydraulic pressure generator being drivable exclusively in the ABS control mode. 10. The vehicle braking system according to claim 9 , the brake control mode which is different from the ABS control mode comprising at least one of the following operating modes: a traction control mode; and an electronic stability program, or ESP. 11. The vehicle braking system according to claim 6 , further comprising: a second valve arrangement, which is configured for selectively uncoupling the master cylinder from an outlet side of the hydraulic pressure generator in at least one of the following operating modes: a traction control mode; and an electronic stability program. 12. The vehicle braking system according to claim 11 , further comprising: a third valve arrangement, which is configured for at least one of the following purposes: for reducing hydraulic pressure in the event of failure of the electromechanical actuator; and for selectively coupling at least one chamber of the master cylinder, in which the piston is accommodated, to the hydraulic fluid reservoir. 13. The vehicle braking system according to claim 12 , the third valve arrangement being configured to selectively couple, when the first valve is open, the associated wheel brake to the hydraulic fluid reservoir for hydraulic pressure reduction. 14. The vehicle braking system according to claim 12 , the third valve arrangement being configured to couple, in a regenerative braking mode, the chamber of the master cylinder to the hydraulic fluid reservoir. 15. The vehicle braking system according to claim 1 , the vehicle braking system having no electric motor-actuable hydraulic pressure generator provided in addition to the master cylinder. 16. The vehicle braking system according to claim 15 , the electromechanical actuator being drivable in the context of a brake control mode which is different from the brake pressure boosting or brake pressure generation upon an actuation of the brake pedal. 17. The vehicle braking system according to claim 16 , the brake control mode comprising the ABS control mode. 18. A method for operating a hydraulic vehicle braking system having: a master cylinder having at least one piston displaceably accommodated therein, a mechanical actuator, coupled or couplable to a brake pedal, for actuating the piston, an electromechanical actuator for actuating the piston, a decoupling device for selectively decoupling the brake pedal from the piston of the master cylinder, the decoupling device comprising a first hydraulic chamber hydraulically connected to a hydraulic fluid reservoir, and a third valve for shutting off the hydraulic connection between the first hydraulic chamber and the hydraulic fluid reservoir, a simulation device for providing a pedal reaction behaviour when the brake pedal is decoupled from the piston, the simulation device comprising a second hydraulic chamber connected to the first hydraulic chamber; a first valve arrangement, which for a wheel brake has a first valve for selectively uncoupling the wheel brake from the master cylinder and a second valve for selectively reducing the brake pressure at the wheel brake, and at least one low-pressure accumulator, comprising the steps of: situating the third valve in a closed position for decoupling the brake pedal; driving the electromechanical actuator at least for brake force generation upon an actuation of the brake pedal, driving the first valve arrangement at least in the context of an ABS control mode, coupling the low-pressure accumulator to the wheel brake via the second valve assigned to the wheel brake, in order to receive hydraulic fluid discharged in the context of a brake pressure reduction, and coupling the low-pressure accumulator to an inlet side of the first valve, in order to release the received hydraulic fluid via a non-return valve.