Brake system for a vehicle and method for operating a brake system for a vehicle

The invention claimed is: 1. A brake system for a vehicle comprising: a brake activation element; an activation element coupling device that defines a first inner chamber and a simulator chamber, the first inner chamber fluidically separated from the simulator chamber, and that includes: a first piston (i) positioned in the activation element coupling device and (ii) operatively connected to the brake activation element such that a driver brake force applied to the brake activation element is transmitted to the first piston and moves the first piston at least partly into the first inner chamber of the activation element coupling device; and a simulator spring (i) positioned in the simulator chamber so as to delimit a pre-chamber, and (ii) configured to exert a simulator force that counters movement of the first piston into the first inner chamber; a braking medium reservoir; a master brake cylinder that includes at least one second piston (i) positioned in the master brake cylinder to delimit a first pressure chamber and at least one second inner chamber, and (ii) configured to open at least one hydraulic connection between the at least one second inner chamber and the braking medium reservoir at a starting position, and close the hydraulic connection over a minimum movement travel; a first valve that is operable to hydraulically connect the first inner chamber with the first pressure chamber; a second valve that is operable to hydraulically connect the first inner chamber with the pre-chamber; and at least one first brake circuit arranged on the master brake cylinder and including at least one first wheel brake cylinder and at least one first pump, wherein, in a driver braking mode, the first valve is opened and second valve is closed, such that the driver brake force is transmitted to the at least one second piston to move the at least one second piston out of the starting position, build up pressure in the at least one second inner chamber, and operate the at least one first wheel brake cylinder, and the simulator force is not exerted; and wherein, in an external force braking mode, the first valve is closed and the second valve is opened, such that the driver brake force is not transmitted to the at least one second piston and movement of the at least one second piston is suppressed, the driver brake force is transmitted to the simulator spring and countered by the simulator force, and a braking medium volume is pumped out of the braking medium reservoir via the master brake cylinder into the at least one first wheel brake cylinder by the at least one first pump. 2. The brake system as claimed in claim 1 , wherein at least one of (i) the first valve is a normally open valve, and (ii) the second valve is a normally closed valve. 3. The brake system as claimed in claim 1 , further comprising: a control device configured (i) to operate the brake system out of the driver braking mode into the external force braking mode and out of the external force braking mode into the driver braking mode, (ii) to receive an actuating variable provided by a sensor in relation to activation of the brake activation element, (iii) to establish a nominal braking medium volume to be displaced into the at least one first wheel brake cylinder with reference to the actuating variable received, and (iv) to operate the at least one first pump into the external force braking mode such that the at least one first pump pumps a braking medium volume corresponding to the nominal braking medium volume is pumped out of the braking medium reservoir via the master brake cylinder into the at least one first wheel brake cylinder. 4. The brake system as claimed in claim 1 , wherein: the brake system is further configured to operate in a dynamic braking mode, in which the driver brake force transmitted to the first piston is transmitted at least partly to the at least one second piston such that the at least one second piston is moved out of the starting position at least partly into the at least one second inner chamber of the master brake cylinder, and one of the at least one first pump and at least one further pump is configured to pump an additional braking medium volume out of at least one storage chamber of the at least one first brake circuit into the at least one first wheel brake cylinder. 5. The brake system as claimed in claim 1 , wherein a suction line length from a suction side of the at least one first pump to the master brake cylinder is less than 25 cm. 6. The brake system as claimed in claim 1 , wherein: the activation element coupling device further includes a moveable inner piston, that delimits a second pressure chamber from the first inner chamber, and that is supported via the simulator spring, the at least one second piston of the master brake cylinder is arranged on the inner piston such that the driver brake force transmitted to the first piston is transmitted at least partly via the inner piston to the at least one second piston, and the first valve is further configured to connect the second pressure chamber to the first pressure chamber. 7. The brake system as claimed in claim 1 , wherein the second valve is further configured to connect the first inner chamber to the braking medium reservoir. 8. The brake system as claimed in claim 1 , further comprising: at least one second brake circuit arranged on the master brake cylinder and including at least one second wheel brake cylinder and at least one second pump; and precisely one pump motor, wherein the one pump motor includes a shaft on which the at least one first pump and the at least one second pump are positioned. 9. A method for operating a brake system for a vehicle, the brake system including (i) a brake activation element, (ii) an activation element coupling device that defines a first inner chamber and a simulator chamber, the first inner chamber fluidically separated from the simulator chamber, a first piston which is moved at least partly into the first inner chamber of the activation element coupling device in response to activation of the brake activation element, and a simulator spring positioned in the simulator chamber to delimit a pre-chamber, and configured to exert a simulator force that counters movement of the first piston into the first inner chamber (iii) a master brake cylinder with a second piston that delimits a first pressure chamber and a second inner chamber, (iv) a braking medium reservoir, which is hydraulically connected to the second inner chamber of the master brake cylinder when the second piston is in a starting position, and is hydraulically disconnected from the second inner chamber in response to movement of the second piston over a minimum movement travel, (v) a first valve that is operable to hydraulically connect the first inner chamber with the first pressure chamber, (vi) a second valve that is operable to hydraulically connect the first inner chamber with the pre-chamber, and (vii) at least one brake circuit arranged on the master brake cylinder and having at least one wheel brake cylinder and at least one pump, the method comprising: operating the brake system in a driver braking mode in which the first valve is opened and the second valve is closed, such that a driver brake force transmitted to the first piston is transmitted to the second piston to move the second piston out of the starting position at least partly into the second inner chamber of the master brake cylinder, and such that the simulator force is not exerted; and controlling the brake system out of the driver braking mode at least into one external force braking mode, the controlling including: closing the first valve and opening the second valve to prevent a movement of th