Hydraulic brake system braking method and braking device

The invention claimed is: 1. A braking method for a vehicle, comprising: providing a hydraulic circuit in a power steering system of the vehicle that carries hydraulic fluid with a built-up hydraulic circuit pressure, the built-up hydraulic circuit pressure provided by a power steering pump; generating, by a master brake cylinder upon mechanical actuation of an actuating valve, a service brake pressure in at least one service brake circuit to actuate a service brake, wherein the actuating valve is configured to provide, from the hydraulic circuit to the master brake cylinder, a portion of the hydraulic fluid with the built-up hydraulic circuit pressure; and using a valve device disposed upstream of the master brake cylinder to effect, by using a portion of the hydraulic fluid with the built-up hydraulic circuit pressure, active output control of a master brake cylinder actuation pressure for hydraulic actuation of the master brake cylinder for an active braking intervention, wherein the valve device includes a first output control device configured to connect a hydraulic fluid pressure input to the actuating valve, wherein the first output control device is a 4/2-way solenoid valve that connects the hydraulic fluid pressure input to the actuating valve in a powered state. 2. The braking method, as claimed in claim 1 , wherein using a valve device disposed upstream of the master brake cylinder to effect active output control of the master brake cylinder actuation pressure includes using an activation function to activate the active output control of the master brake cylinder actuation pressure in response to a driving state of the vehicle for which the necessity of an active braking intervention has been determined. 3. The braking method as claimed in claim 1 , further comprising using a deactivation function to deactivate the active output control of the master brake cylinder actuation pressure in response to a brake pedal actuation force sensed by a force sensor to be above a limit value. 4. The braking method as claimed in claim 1 , further comprising using a brake force servo to amplify a master brake cylinder actuation force applied to actuate the master brake cylinder by the hydraulic fluid provided via the hydraulic fluid pressure input with the hydraulic circuit pressure. 5. The braking method as claimed in claim 1 , further comprising using wake-up electronics to switch a control device or parts of the control device controlling at least one of the service brake and the parking brake from a rest state into an operating state in response to a sensed brake actuation. 6. A braking device for a vehicle, comprising: a hydraulic circuit in a power steering system of the vehicle that carries hydraulic fluid with a built-up hydraulic circuit pressure, the built-up hydraulic circuit pressure provided by a power steering pump; a master brake cylinder configured to generate a service brake pressure in at least one service brake circuit to actuate a service brake; an actuating valve mechanically actuatable by a brake pedal, the actuating valve configured to provide, from the hydraulic circuit to the master brake cylinder, a portion of the hydraulic fluid with the built-up hydraulic circuit pressure for mechanical actuation of the master brake cylinder; and a valve device disposed upstream of the master brake cylinder, the valve device being configured to effect, using a portion of the hydraulic fluid with the built-up hydraulic circuit pressure, active output control of a master brake cylinder actuation pressure for hydraulic actuation of the master brake cylinder for an active braking intervention, the valve device including a first output control device configured to connect a hydraulic fluid pressure input to the actuating valve, wherein the first output control device is a 4/2-way solenoid valve that connects the hydraulic fluid pressure input to the actuating valve in a powered state. 7. The braking device as claimed in claim 6 , further comprising an activator configured to activate the active output control of the master brake cylinder actuation pressure in response to a driving state of the vehicle for which the necessity of an active braking intervention has been determined. 8. The braking device as claimed in claim 6 , further comprising a deactivator configured to deactivate the active output control of the master brake cylinder actuation pressure in response to a brake pedal actuation force sensed by a force sensor to be above a limit value. 9. The braking device as claimed in claim 6 , further comprising a brake servo configured to amplify a master brake cylinder actuation force applied to actuate the master brake cylinder by hydraulic fluid provided via the hydraulic fluid pressure input with the hydraulic circuit pressure. 10. The braking device as claimed in claim 6 , further comprising wake-up electronics configured to switch, in response to a sensed brake actuation, a control device or parts of the control device controlling at least one of the service brake and the parking brake from a rest state to an operating state. 11. A braking device configured to effect the braking method as claimed in claim 1 . 12. A hydraulic brake system for a vehicle, comprising a hydraulically actuatable service brake; and a braking device comprising: a hydraulic circuit in a power steering system of the vehicle that carries hydraulic fluid with a built-up hydraulic circuit pressure, the built-up hydraulic circuit pressure provided by a power steering pump; a master brake cylinder configured to generate a service brake pressure in at least one service brake circuit to actuate a service brake; an actuating valve mechanically actuatable by a brake pedal, the actuating valve configured to provide, from the hydraulic circuit to the master brake cylinder, a portion of the hydraulic fluid with the built-up hydraulic circuit pressure for mechanical actuation of the master brake cylinder, and a valve device disposed upstream of the master brake cylinder, the valve device being configured to effect, using a portion of the hydraulic fluid with the built-up hydraulic circuit pressure, active output control of a master brake cylinder actuation pressure for hydraulic actuation of the master brake cylinder for an active braking intervention, the valve device including a first output control device configured to connect a hydraulic fluid pressure input to the actuating valve, wherein the first output control device is a 4/2-way solenoid valve that connects the hydraulic fluid pressure input to the actuating valve in a powered state. 13. A vehicle, comprising the braking device as claimed in claim 6 . 14. A vehicle, comprising the hydraulic brake system as claimed in claim 12 . 15. A vehicle, comprising the braking device as claimed in claim 11 . 16. The hydraulic brake system for a vehicle of claim 12 , further comprising a pressure limiting valve configured to reduce excess pressure from the connection between the hydraulic fluid pressure input and the first output control device.