Supply system for orthopedic technology components and method

We claim: 1. A supply system for at least one orthopedic component, the supply system comprising: at least one electronic device; at least one of a supply connection and a radio device for at least one of receiving data and electrical energy; a holder for the orthopedic component; a supply device, compatible with the at least one of the supply connection and the radio device, for supplying the orthopedic component with at least one of data and energy, wherein after the orthopedic component is coupled to the supply device, a mode switchover of the orthopedic component from an operating mode to a supply mode is carried out, wherein, as a function of the orthopedic component, data adapted to the orthopedic component are transmitted from the supply device to the supply connection in the supply mode, wherein, in the operating mode, initiation of a function test in a fitted state of the orthopedic component is prevented, and wherein, in the supply mode, some functions of the orthopedic component are turned off and some functions of the orthopedic component are activated to initiate the function test of the orthopedic component in an unfitted state, and wherein the function test of the orthopedic component is only performed in the unfitted state. 2. The supply system as claimed in claim 1 , wherein the holder is configured as a storage place or receptacle having at least one fastening device, the at least one fastening device fixing the orthopedic component on the holder. 3. The supply system as claimed in claim 2 , wherein the at least one fastening device comprises at least one of at least one form-fit element and at least one force-fit element, which cooperates with a correspondingly equipped form-fit element or force-fit element on the orthopedic component. 4. The supply system as claimed in claim 1 , wherein the supply device and the supply connection are configured as contactless transmission devices or as a plug and socket. 5. The supply system as claimed in claim 1 , further comprising encoding, which can be read by an identification device arranged in or on the holder, is stored in the orthopedic component, and an identification device, which is configured to read the encoding arranged in or on the holder, is arranged in the orthopedic component. 6. The supply system as claimed in claim 1 , wherein a cleaning apparatus is arranged on the holder. 7. The supply system as claimed in claim 6 , wherein the cleaning apparatus comprises at least one of a UV source, a plasma generator, and an X-ray tube. 8. A system comprising a supply system as claimed in claim 1 and the at least one orthopedic component. 9. A method for supplying an orthopedic component with at least one of data and energy, the orthopedic component comprising at least one electronic device and being equipped with at least one of a supply connection and a radio device for receiving the at least one of data and electrical energy, the method comprising: fastening the orthopedic component in or on a holder, in or on which a supply device, compatible with the at least one of the supply connection and the radio device, for supplying the orthopedic component with the at least one of data and energy is arranged, the at least one of the supply connection and the radio device is coupled to the supply device and transmission of the at least one of data and energy takes place automatically, wherein after the coupling to the supply device, a mode switchover of the orthopedic component from an operating mode to a supply mode is carried out, wherein, as a function of the orthopedic component, data adapted to the orthopedic component are transmitted from the supply device to the supply connection in the supply mode, wherein, in the operating mode, initiation of a function test in a fitted state of the orthopedic component is prevented, and wherein, in the supply mode, some functions of the orthopedic component are turned off and some functions of the orthopedic component are activated to initiate the function test of the orthopedic component in an unfitted state, and wherein the function test of the orthopedic component is only performed in the unfitted state. 10. The method as claimed in claim 9 , wherein identification of the orthopedic component is carried out before transmission of the at least one of data and energy. 11. A supply system for at least one orthopedic component, the system comprising: at least one electronic device; a supply connection or a radio device for receiving data or electrical energy; a holder for the orthopedic component; a supply device compatible with the supply connection or the radio device, the supply device supplying the orthopedic component with data or energy, wherein after the orthopedic component is coupled to the supply device, a mode switchover of the orthopedic component from an operating mode to a supply mode is carried out, wherein, as a function of the orthopedic component, data adapted to the orthopedic component are transmitted from the supply device to the supply connection in the supply mode, wherein, in the operating mode, initiation of a function test in a fitted state of the orthopedic component is prevented, and wherein, in the supply mode, some functions of the orthopedic component are turned off and some functions of the orthopedic component are activated to initiate the function test of the orthopedic component in an unfitted state, and wherein the function test of the orthopedic component is only performed in the unfitted state. 12. The supply system as claimed in claim 11 , wherein the holder is configured as a storage place or receptacle having a fastening device, the fastening device fixing the orthopedic component on the holder. 13. The supply system as claimed in claim 12 , wherein the fastening device comprises a form-fit element or a force-fit element, which cooperates with a correspondingly equipped form-fit element or force-fit element on the orthopedic component. 14. The supply system as claimed in claim 11 , wherein the supply device and the supply connection are configured as contactless transmission devices or as a plug and socket. 15. The supply system as claimed in claim 11 , an identification device arranged on the holder and stored in the orthopedic component, the identification device configured to read encoding. 16. The supply system as claimed in claim 11 , wherein a cleaning apparatus is arranged on the holder. 17. The supply system as claimed in claim 16 , wherein the cleaning apparatus comprises a UV source, a plasma generator, or an X-ray tube. 18. A system comprising the supply system claimed in claim 11 and the at least one orthopedic component.