Electropneumatic equipment for a vehicle with an autonomous brake circuit supplied with backup pressure as a precaution

The invention claimed is: 1 . An electropneumatic equipment of a vehicle with a prime mover operable by an ignition or starting signal, comprising: an electropneumatic service brake device, wherein the electropneumatic service brake device includes: a) pneumatic wheel brake actuators, b) at least one electric service brake circuit, c) at least one pneumatic service brake circuit, d) an at least electric service brake input device, which generates an electric actuation signal within the at least one electric service brake circuit, e) within the electric service brake circuit, a primary electronic brake control device which generates a first electric braking request signal representing a target brake pressure in dependence on the electric actuation signal, f) a secondary electronic brake control device which controls at least one electrically actuated actuator by means of a second electric braking request signal, which actuator is configured to generate at least one pneumatic brake control pressure based on the second electric braking request signal, g) at least one electropneumatic pressure control module with an integrated electronic control unit as a component of the at least one electric service brake circuit, the pressure control module including at least one pneumatic control input, wherein the at least one electropneumatic pressure control module is configured g1) to receive the first electric braking request signal at an electric control input of the pressure control module and to generate an electronically controlled brake pressure for the wheel brake actuators within the at least one electric service brake circuit in dependence on the first electric braking request signal, and g2) to receive the at least one pneumatic brake control pressure at the at least one pneumatic control input of the pressure control module and to generate a brake pressure for the wheel brake actuators depending on the at least one pneumatic brake control pressure within the at least one pneumatic service brake circuit, and g3) to feed the brake pressure into the pneumatic wheel brake actuators, and g4) which comprises at least one electromagnetic backup valve which is connected to the at least one pneumatic control input and which is configured and controlled such that it g4a) retains the at least one pneumatic brake control pressure when the at least one electric service brake circuit is intact or sufficiently energized, but g4b) otherwise, if the at least one electric service brake circuit has a defect or is insufficiently energized, allows the at least one pneumatic brake control pressure to pass through so that the at least one pressure control module can generate the brake pressure in dependence on the at least one pneumatic brake control pressure, wherein h) the at least one electrically actuated actuator is controlled by the secondary electronic brake control device in dependence on an assistance braking request signal automatically generated by a driver assistance system and/or in dependence on the electric actuation signal so that, irrespective of a defect in the electric service brake circuit, the at least one pneumatic brake control pressure is generated by the electrically actuated actuator in response to the assistance braking request signal and/or in response to the brake actuation signal, and is fed into the at least one pneumatic control input of the at least one pressure control module, and/or in that i) the at least one electrically actuated actuator is controlled by the secondary electronic brake control device so that the at least one pneumatic brake control pressure is generated by the at least one electrically actuated actuator independently of a generation of the ignition or start signal for the prime mover of the vehicle and is fed into the at least one pneumatic control input of the at least one pressure control module. 2 . The electropneumatic equipment as claimed in claim 1 , wherein the at least one actuator is controlled by the secondary electronic brake control device so that the at least one pneumatic brake control pressure is generated and fed into the at least one pneumatic control input of the pressure control module in response to any assistance braking request signal and/or in response to any brake actuation signal which represents a braking request of which the absolute value is greater than the absolute value of a limit braking request. 3 . The electro-pneumatic equipment as claimed in claim 2 , wherein the limit braking request is zero or represents a non-zero deceleration. 4 . The electropneumatic equipment as claimed in claim 1 , wherein the service brake input device is: a) an all-electric service brake input device, which only generates the electric actuation signal but no pneumatic brake control pressure, or b) an electropneumatic service brake valve device, which in addition to the electric channel generates the at least one pneumatic brake control pressure in at least one pneumatic channel. 5 . The electropneumatic equipment as claimed in claim 4 , wherein the electropneumatic service brake valve device is configured such that, by an actuation of a service brake actuating member due to a driver braking request, at least one control piston of the service brake valve device is loaded with a first actuation force and the control piston directly or indirectly controls at least one double-seat valve of the service brake valve device including an inlet seat and an outlet seat in order to generate the at least one pneumatic brake control pressure. 6 . The electropneumatic equipment as claimed in claim 5 , wherein the at least one electrically actuated actuator comprises the service brake valve device as well as means for generating a second actuating force, which acts in parallel with respect to the first actuating force and in the same or opposite direction on the at least one control piston of the service brake valve device. 7 . The electropneumatic equipment as claimed in claim 6 , wherein the means for generating the second actuating force include an electrically controlled, in particular electric, electrohydraulic or electropneumatic force generator. 8 . The electropneumatic equipment as claimed in claim 7 , wherein the electropneumatic force generator comprises a solenoid valve device fed from a compressed air supply with supply compressed air under supply pressure, which generates a pneumatic control pressure based on the supply compressed air at the control piston of the service brake valve device, on which the second actuating force is based. 9 . The electropneumatic equipment as claimed in claim 7 , wherein the secondary supply source supplies electric power to at least a portion of the force generator. 10 . The electropneumatic equipment as claimed in claim 5 , wherein the electropneumatic service brake valve device is configured to generate a first pneumatic brake control pressure for a first pneumatic service brake circuit and a second pneumatic brake control pressure for a second pneumatic service brake circuit, with the circuits being kept separate. 11 . The electropneumatic equipment as claimed in claim 10 , wherein the electropneumatic service brake device comprises a trailer control module which is configured as a pressure control module and which is electrically controlled at its electric control input by the first electric braking request signal, and which is pneumatically controlled at its pneumatic control input by the first brake pressure or the second brake pressure. 12 . The electropneumatic equipment as claimed in claim 1 , wherein the electropneumatic service brake device comprises at least one first