Rotary drive device and a robot arm of a robot equipped therewith

What is claimed is: 1. A rotary drive device comprising a fluid-actuated rotary drive, which has a drive housing and a drive unit rotatable relative thereto about a main axis of the rotary drive by a controlled fluid application of at least one pivot piston arranged in the drive housing, wherein a drive shaft of the drive unit connected to the pivot piston projects from the drive housing at an axial front side of the drive housing with a drive section enabling a force output, and with a control valve arrangement comprising at least one electrically actuatable control valve, which is fluidically connected via a control fluid channel system to two drive chambers of the rotary drive separated from one another by the pivot piston in the drive housing, and which is designed to control the fluid pressurization of the two drive chambers for rotation and rotative positioning of the drive unit relative to the drive housing, wherein the control valve arrangement is mounted on the drive housing and in this way is combined with the rotary drive to form a drive assembly that can be handled as a single unit, wherein the control valve arrangement has a plurality of independently actuatable control valves, which are arranged distributed around the drive housing in a region of the peripheral outer circumferential surface of the drive housing pointing radially outward relative to the main axis. 2. The rotary drive device according to claim 1 , wherein the at least one control valve projects beyond an axial rear side opposite the axial front side of the drive housing of the rotary drive. 3. The rotary drive device according to claim 1 , wherein the drive housing of the rotary drive in the region of its axial front side projects beyond the at least one control valve. 4. The rotary drive device according to claim 1 , wherein the at least one control valve has a longitudinal shape and is aligned so that its longitudinal axis is parallel to the main axis. 5. The rotary drive device according to claim 1 , wherein the at least one control valve is designed as an electrically controllable piezoelectric valve. 6. The rotary drive device according to claim 5 , wherein the piezoelectric valve has at least one bending transducer as the control element controlling the fluid flow to and from the drive chambers. 7. The rotary drive device according to claim 1 , wherein the drive assembly has a valve carrier device carrying the control valve arrangement, the valve carrier device being mounted on the drive housing of the rotary drive. 8. The rotary drive device according to claim 7 , wherein the valve carrier device is mounted on an axial rear side opposite the axial front side on the drive housing. 9. The rotary drive device according to claim 1 , wherein the control fluid channel system is formed in its entirety without the use of hoselines and pipelines in the interior of the drive assembly. 10. The rotary drive device according to claim 1 , wherein the drive assembly has an electronic control unit which is electrically connected to the control valve arrangement for its control. 11. The rotary drive device according to claim 10 , wherein the electronic control unit is arranged in a region of an axial rear side of the drive housing. 12. The rotary drive device according to claim 10 , wherein the electronic control unit has an electromechanical interface device for connecting a bus system connected to a superordinate electronic control device. 13. The rotary drive device according to claim 12 , wherein the bus system is a serial bus system. 14. The rotary drive device according to claim 10 , wherein the drive assembly has a high-voltage stage for generating a high-voltage drive voltage for the control valve arrangement, which is formed as part of the electronic control unit. 15. The rotary drive device according to claim 14 , wherein the drive assembly comprises an encoder designed to detect the rotation angle of the drive unit. 16. The rotary drive device according to claim 15 , wherein the encoder is arranged on an axial rear side of the drive housing of the rotary drive opposite the axial front side. 17. The rotary drive device according to claim 1 , wherein a pressure detecting device is arranged on the rotary drive, which detects the fluid pressure prevailing in the drive chambers via pressure detecting channels opening out into the two drive chambers, in order to enable a regulation of the pressure. 18. A rotary drive device comprising a fluid-actuated rotary drive, which has a drive housing and a drive unit rotatable relative thereto about a main axis of the rotary drive by a controlled fluid application of at least one pivot piston arranged in the drive housing, wherein a drive shaft of the drive unit connected to the pivot piston projects from the drive housing at an axial front side of the drive housing with a drive section enabling a force output, and with a control valve arrangement comprising at least one electrically actuatable control valve, which is fluidically connected via a control fluid channel system to two drive chambers of the rotary drive separated from one another by the pivot piston in the drive housing, and which is designed to control the fluid pressurization of the two drive chambers for rotation and rotative positioning of the drive unit relative to the drive housing, wherein the control valve arrangement is mounted on the drive housing and in this way is combined with the rotary drive to form a drive assembly that can be handled as a single unit, and wherein the drive assembly has a valve carrier device carrying the control valve arrangement, the valve carrier device being mounted on the drive housing of the rotary drive, and wherein the valve carrier device has a channel plate extending in a plane perpendicular to the main axis and arranged in a region of an axial rear side of the drive housing opposite the axial front side, wherein the control valve arrangement is mounted on the channel plate and communicates with the control fluid channel system running in the channel plate. 19. The rotary drive device according to claim 18 , wherein the at least one control valve of the control valve arrangement is at least partially arranged in a region of the peripheral outer circumferential surface of the drive housing of the rotary drive pointing radially outward relative to the main axis. 20. The rotary drive device according to claim 18 , wherein the valve carrier device has a plurality of valve housing cups, each valve housing cup incorporating at least one control valve, each of which being fixed with a first axial end section to the end face, which faces the drive housing, of an edge section of the channel plate which radially surpasses the drive housing, wherein the valve housing cups extend finger-like toward the axial front side of the drive housing, freely terminating next to the drive housing with their second axial end section. 21. The rotary drive device according to claim 20 , wherein the interior of at least one valve housing cup communicates with an aeration channel passing through the channel plate and provided for connection to an external pressure source, and wherein the interior of at least one further valve housing cup communicates with a deaeration channel passing through the channel plate and provided for connection to a pressure sink. 22. A rotary drive device comprising a fluid-actuated rotary drive, which has a drive housing and a drive unit rotatable relative thereto about a main ax