Device for repositioning bone fracture fragments

What is claimed is: 1. A device for repositioning bone fracture fragments, comprising: a carrier assembly; a first arm assembly attached to the carrier assembly, the first arm assembly configured to hold a first bone fracture fragment; a second arm assembly comprising a first end attached to the carrier assembly, and a second end extending away from the carrier assembly, the second end having a holder assembly that is configured to hold at least one Schanz screw to hold a second bone fracture fragment; an actuator assembly configured to adjust the second arm assembly; and an operating assembly configured to control an adjustment of the second arm assembly via the actuator assembly; wherein the operating assembly is a manually operable operating assembly disposed in a region of the second end of the second arm assembly and configured to undergo no movement with respect to the holder assembly of the second arm assembly, or with respect to the at least one Schanz screw when present, when the second arm assembly is adjusted via the actuator assembly. 2. The device according to claim 1 , wherein: a first holder assembly configured to hold a Schanz screw is provided on an end portion of the first arm assembly facing away from the carrier assembly. 3. The device according to claim 1 , wherein via the actuator assembly, the second arm assembly is adjustable so that a position of the holder assembly relative to the carrier assembly is adjustable in a plurality of directions resulting from user contact with the operating assembly. 4. The device according to claim 1 , wherein the second arm assembly is adjustable via the actuator assembly so that a position and an alignment of the holder assembly with respect to a second holder assembly not mounted on the second arm assembly is adjustable about six degrees of freedom. 5. The device according to claim 1 , wherein both the holder assembly and a distal arm segment are located at the second end of the second arm assembly facing away from the carrier assembly; one or more additional arm segments are disposed between the distal arm segment and the carrier assembly; and wherein the operating assembly is located at the distal arm segment such that upon operation of a sensor of the operating assembly, corresponding movement occurs among the operating assembly, the distal arm segment, and the holder assembly. 6. The device according to claim 1 , wherein the operating assembly comprises a sensor cap disposed at the region of the second end of the second arm assembly. 7. The device according to claim 1 , further comprising a first holder assembly located at an end portion of the first arm assembly facing away from the carrier assembly, wherein the at least one manually adjustable articulated joint is configured so that the first holder assembly is adjustable about six degrees of freedom via the first arm assembly. 8. The device of claim 1 , wherein the operating assembly is configured to move the holder assembly and the at least one Schanz screw when present with respect to the first arm assembly via the actuator assembly. 9. The device of claim 1 , wherein the first arm assembly is adjustable and lockable independent of the second arm assembly. 10. A device for repositioning bone fracture fragments, comprising: a carrier assembly fastenable to an operating table and including a rail member; a first arm assembly attached to the carrier assembly, the first arm assembly configured to hold a first bone fracture fragment; a second arm assembly attached to the carrier assembly, the second arm assembly comprising: a first articulated joint, a second articulated joint, a third articulated joint, a first connection plate, and a second connection plate; the first articulated joint is attached to the carrier assembly; the first connection plate is disposed between the first articulated joint and the second articulated joint; the second connection plate is disposed between the second articulated joint and the third articulated joint; and a holder assembly disposed on the third articulated joint is configured to hold a second bone fracture fragment; an actuator assembly configured to adjust the second arm assembly; and an operating assembly configured to control an adjustment of the second arm assembly via the actuator assembly, the operating assembly disposed on the second arm assembly in a region of the third articulated joint such that the operating assembly is configured to undergo no movement with respect to the holder assembly of the second arm assembly when the second arm assembly is adjusted via the actuator assembly, and such that the operating assembly and the holder assembly move together with respect to the first arm assembly, and also with respect to the operating table when present, when the operating assembly activates the actuator assembly. 11. The device according to claim 10 , wherein the operating assembly comprises a six degree of freedom sensor comprising a sensor cap or a joystick. 12. The device according to claim 10 , wherein the operating assembly when actuated by user hand contact causes corresponding translation movement of both the operating assembly and the holder assembly. 13. The device of claim 10 , wherein the operating assembly and the holder assembly move together with respect to the operating table, when present, when the operating assembly actives the actuator assembly by causing the slide member to move in a longitudinal direction of the rail member. 14. An operating table, comprising: a table portion having a leg supporting surface, the leg supporting surface being for supporting a patient's leg when present; and a device for repositioning bone fracture fragments, including: a carrier assembly including a fastening assembly configured to fasten the device to the table portion; a first arm assembly attached to the carrier assembly, the first arm assembly configured to hold a first bone fracture fragment; a second arm assembly comprising a first end attached to the carrier assembly and a second end extending laterally over the leg supporting portion, the second end having a holder assembly that is configured to hold a second bone fracture fragment; an actuator assembly configured to adjust the second arm assembly; and a manually operable operating assembly located on the second end of the second arm assembly and configured to control an adjustment of the second arm assembly via the actuator assembly such that the operating assembly undergoes no movement with respect to the holder assembly of the second arm assembly when the second arm assembly is adjusted via the actuator assembly; and wherein the second arm assembly, the holder assembly, and the operating assembly undergo movement via the actuator assembly with respect to the first arm assembly, and with respect to the leg supporting surface, upon operation of the operating assembly. 15. The operating table according to claim 14 , wherein the leg supporting portion comprises at least one of a patient upper leg cushion or a patient lower leg cushion and at least one of the patient upper leg cushion or the patient lower leg cushion is detachably fastened to the carrier assembly. 16. The operating table according to claim 14 , wherein the operating assembly is responsive to a first type of manual contact to cause corresponding translational movement of at least a portion of the second arm assembly and a second type of manual contact to cause corresponding rotation of the same portion of the second arm assembly. 17. The operating table of claim 14 , wherein th