Method for controlling a brake system, and brake system in which the method is carried out

The invention claimed is: 1. A method in which a brake system for a motor vehicle is controlled and/or regulated, which system comprises at least one electric regenerative brake and one or more wheel brakes to which pressure medium can be supplied from a first pressure source that can be actuated by the driver using a brake pedal and in which one or more brake circuits are disposed, wherein a first brake circuit of the one or more brake circuits has a pressure accumulator, a second pressure source comprising an electric hydraulic pump, which is connected to the pressure accumulator on the suction side, and at least two controllable valves, wherein, as soon as an activation condition is met, the first pressure source is separated from the wheel brakes by closing a first valve of the at least two controllable valves in at least one active brake circuit of the one or more brake circuits, and pressure medium is delivered from the pressure accumulator into at least one wheel brake by activating the second pressure source, wherein a second valve of the at least two controllable valves, which is disposed between the pressure accumulator and the first pressure source, of the at least one active brake circuit, and the first valve of the at least one active brake circuit are opened during operation of the second pressure source when a bleeding condition is met. 2. The method as claimed in claim 1 , wherein the bleeding condition is met only when the activation of a brake pedal activated by the driver lies in a specified interval at a specified time or for a specified period of time after the activation condition is met and/or after activation of the second pressure source, wherein, a displacement or angle sensor connected to the brake pedal is considered. 3. The method as claimed in claim 1 , wherein the bleeding condition is met only when the pressure accumulator of at least a first brake circuit contains less than a specified volume of the pressure medium and/or the second pressure source of at least a first brake circuit has delivered the pressure medium during at least one specified period of time. 4. The method as claimed in claim 1 , wherein the activation condition is met when the activation of a brake pedal activated by the driver exceeds a specified extent, wherein, a displacement or angle sensor connected to the brake pedal is considered, and/or the braking torque that is built up by and/or can be attained by the electric regenerative brake drops below a specified threshold value. 5. The method as claimed in claim 1 , wherein the one or more brake circuits comprises the first brake circuit and a second brake circuit, the second brake circuit also having a pressure accumulator, a second pressure source, a controllable first valve, that is open when currentless, which is disposed between the first pressure source and the wheel brakes, and a controllable second valve, that is closed when currentless, which is disposed between the pressure accumulator and the first pressure source, wherein the first and second brake circuits further have at least one controllable third valve, that is closed when currentless, which is disposed between a respective wheel brake and the respective pressure accumulator, and, during a braking process, the pressure medium is first diverted into the pressure accumulator of the first brake circuit and subsequently into the pressure accumulator of the second brake circuit by opening the respective controllable third valve, wherein the activation condition is met only when the pressure medium was diverted at least into the pressure accumulator of the first brake circuit. 6. The method as claimed in claim 5 , wherein the second pressure source of the first and the second brake circuit are simultaneously activated, and, when the bleeding condition is met, the second valve and the first valve of the brake circuit having the pressure accumulator with the lower fill level are opened, wherein the fill level is determined on the basis of a duration and/or an opening cross-section and/or a valve flow of the respective controllable third valve and/or a duration of the activation and/or a variable characterizing the pressure generation of the respective second pressure source. 7. The method as claimed in claim 5 , wherein the second valves of the first as well as the second brake circuit are temporarily opened after the brake pedal is no longer activated and/or if the second pressure sources were deactivated. 8. The method as claimed in claim 5 , wherein when the bleeding condition is met, the first valve of the brake circuit having the pressure accumulator with the higher fill level is also opened. 9. A brake system for a motor vehicle, comprising: at least one electric regenerative brake and one or more wheel brakes to which a pressure medium can be supplied from a first pressure source that can be actuated by the driver by a brake pedal, and in which one or more brake circuits are disposed, wherein a first brake circuit of the one or more brake circuits has a pressure accumulator, a second pressure source, and at least two controllable valves, wherein as soon as an activation condition is met, an electronic control unit separates the first pressure source from the wheel brakes by closing a first valve of the at least two controllable valves in at least one active brake circuit of the one or more brake circuits, and pressure medium is delivered from the pressure accumulator into at least one wheel brake by activating the second pressure source, and wherein the electronic control unit opens a second valve of the at least two controllable valves, which is disposed between the pressure accumulator and the first pressure source, of the at least one active brake circuit, and opens the first valve of the at least one active brake circuit during operation of the second pressure source when a bleeding condition is met. 10. A brake system for a motor vehicle, comprising: at least one electric regenerative brake, and one or more wheel brakes to which a pressure medium can be supplied from a first pressure source that can be actuated by the driver by a brake pedal, and in which one or more brake circuits are disposed, wherein a first brake circuit of the one or more brake circuits has a pressure accumulator, a second pressure source and at least two controllable valves, wherein assigned to each wheel brake of the first brake circuit is an inlet valve comprising a solenoid valve that is open when currentless, and disposed between the first pressure source and the respective wheel brake, and an outlet valve disposed between the respective wheel brake and the pressure accumulator of the first brake circuit, wherein the second pressure source of the first brake circuit is connected to the pressure accumulator on the suction side and, on the outlet side, is disposed between the first pressure source and the inlet valves of the first brake circuit, an isolating valve that is open when currentless, is disposed between the outlet side of the second pressure source and the first pressure source, and a switching valve that is closed when currentless, is disposed between the suction side of the second pressure source and the first pressure source, wherein an electronic control unit controls the respective isolating valve as the first valve and the switching valve as the second valve during the implementation of the method as claimed in claim 1 in the first brake circuit. 11. A method as claimed in claim 1 , wherein the second pressure source is an electric hydraulic pump. 12. The brake system as claimed in claim 9 , wherein the first pressure source is a tandem master brake cylinder.