Brake system for a two-axle vehicle and method for the operation thereof

What is claimed is: 1. A brake system for a two-axle vehicle, comprising: a master brake cylinder to which a brake actuating element is connected in such a way that a target vehicle deceleration desired by a driver of the vehicle is input by actuating the brake actuating element; at least one brake circuit which is connected to the master brake cylinder, each of the at least one brake circuit having a respective front wheel brake cylinder, a respective rear wheel brake cylinder, a respective front wheel inlet valve associated with the respective front wheel brake cylinder, a respective front wheel outlet valve associated with the respective front wheel brake cylinder, a respective rear wheel inlet valve associated with the respective rear wheel brake cylinder, a respective rear wheel outlet valve associated with the respective rear wheel brake cylinder and a respective accumulator chamber downstream of the respective front wheel outlet valve and the respective rear wheel outlet valve; and a control device which, in response to an actively input target vehicle deceleration unequal to zero, is able to discern or effect that a generator operation of at least one electric motor of the vehicle is able to effect a recuperative vehicle deceleration that is equal to the input target vehicle deceleration, and which is configured to optionally displace a brake fluid pressed out of the master brake cylinder via the respective rear wheel outlet valve into the respective downstream disposed accumulator chamber by opening the respective rear wheel outlet valve; wherein, when the respective front wheel outlet valve is kept closed or closed, the control device is configured to optionally increase and limit a brake pressure prevailing in the respective associated front wheel brake cylinder to an accumulator chamber pressure actively prevailing in the respective accumulator chamber of the same brake circuit by keeping open or opening the respective front wheel inlet valve. 2. The brake system as recited in claim 1 , wherein, if the control device discerns or effects that the generator operation of the at least one electric motor is able to effect that the recuperative vehicle deceleration equals the input target vehicle deceleration, the control device is configured to, before or simultaneously with the opening of the respective rear wheel outlet valve, to first close the respective front wheel inlet valve and, later, to open the respective front wheel inlet value in the case that the front wheel outlet valve of the same brake circuit is in a closed state, and the respective rear wheel outlet valve of the same brake circuit is in an open state. 3. The brake system as recited in claim 2 , the control device is configured to open the respective front wheel inlet valve, which is closed before or simultaneously with the opening of the respective rear wheel outlet valve, in the case that the respective front wheel outlet valve of the same brake circuit is in a closed state and the respective rear wheel outlet valve of the same brake circuit is in an open state, as soon as a specified delay has elapsed following the closing of the respective front wheel inlet valve or following the opening of the respective rear wheel outlet valve, or as soon as a measured or estimated pressure in the respective brake circuit is in a normal value range of accumulator chamber pressures prevailing in the respective accumulator chamber. 4. The brake system as recited in claim 1 , wherein the brake system is a recuperative brake system having the at least one electric motor and, in the event of the actively input target vehicle deceleration unequal to zero, the control device is configured to discern whether the generator operation of the at least one electric motor is able to effect that the recuperative vehicle deceleration equals the input target vehicle deceleration and, optionally, to drive the at least one electric motor to bring about the input target vehicle deceleration. 5. A method for operating a brake system of a two-axle vehicle comprising a master brake cylinder, a brake actuating element being connected to the master brake cylinder, and at least one brake circuit connected to the master brake cylinder, each of the at least one brake circuit having a respective front wheel brake cylinder, a respective rear wheel brake cylinder, a respective front wheel inlet valve associated with the respective front wheel brake cylinder, a respective front wheel outlet valve associated with the respective front wheel brake cylinder, a respective rear wheel inlet valve associated with the respective rear wheel brake cylinder, a respective rear wheel outlet valve associated with the respective rear wheel brake cylinder, and a respective accumulator chamber disposed downstream of the respective front wheel outlet valve and the respective rear wheel outlet valve, the method comprising the following steps: detecting a target vehicle deceleration unequal to zero input by a driver of the vehicle by actuating the brake actuating element; based on the detecting, checking whether a generator operation of at least one electric motor of the vehicle is able to effect that a recuperative vehicle deceleration equals the input target vehicle deceleration; optionally, opening the respective rear wheel outlet valve to displace a brake fluid pressed out of the master brake cylinder via the respective rear wheel outlet valve into the respectively downstream disposed accumulator chamber; and keeping open or opening the respective front wheel inlet valve when the respective front wheel outlet valve is kept closed or closed, so that a brake pressure prevailing in the respective front wheel brake cylinder is increased and limited to an accumulator chamber pressure actively prevailing in the respective accumulator chamber of the same brake circuit. 6. The method as recited in claim 5 , wherein if it is discerned that the generator operation of the at least one electric motor is able to effect that the recuperative vehicle deceleration equals the input target vehicle deceleration, the respective front wheel outlet valve is first closed before or simultaneously with the opening of the respective rear wheel outlet valve and later opened when the respective front wheel outlet valve of the same brake circuit is in a closed state and the respective rear wheel outlet valve of the same brake circuit is in an open state. 7. The method as recited in claim 6 , wherein the respective front wheel inlet valve, which is closed before or simultaneously with the opening of the respective rear wheel outlet valve, is opened when the respective front wheel outlet valve of the same brake circuit is in a closed state and the respective rear wheel outlet valve of the same brake circuit is in an opened state, as soon as a specified delay has elapsed following the closing of the respective front wheel inlet valve or following the opening of the respective rear wheel outlet valve, or as soon as a measured or estimated pressure in the respective brake circuit is in a normal value range of accumulator chamber pressures prevailing in the respective accumulator chamber in the respective brake circuit. 8. The method as recited in claim 5 , the step of keeping open or opening the respective front wheel inlet valve is executed: (i) cyclically, or (ii) starting from a determination of at least one specified indicator (a) for a non-compliance with a specified minimum utilization of the respective front wheel brake cylinder, or (b) for a deviation of a state of at least one element of the respective front wheel brake cylinder from a normal state. 9. The method as recited in claim 8 , wherein, as the at least one specified indicator of a deviation of the state