Spool fixation device with bi-stable magnet assemblies

The invention claimed is: 1. A spool fixation device for use in a wire winding installation comprising a rotatable flange for holding a spool with a spool flange that is magnetically attractable, said rotatable flange being provided with one or more magnet assemblies wherein said magnet assemblies are attached directionally compliant to said rotatable flange, wherein said one or more magnet assemblies is able to be selectively set to a ‘hold’ state for magnetically holding said spool flange to said rotatable flange or to a release state for releasing said spool flange from said rotatable flange and wherein said magnet assemblies comprise permanent magnet arrays that are sealed from the outside by a housing, wherein said magnet assemblies require energy input when in the release state or wherein said magnet assemblies require energy input when switching state, wherein said spool fixation device further comprises an energy coupling for coupling said energy input from the wire winding installation to said magnet assembly, wherein said energy coupling is able to be established when said spool fixation device is stationary and wherein said energy coupling is able to be broken when said spool fixation device is rotating. 2. The spool fixation device according to claim 1 , wherein said energy input is one or two out of the group comprising electrical, pneumatical, or mechanical energy. 3. The spool fixation device according to claim 1 , wherein said permanent magnet arrays are alternatingly moveable in said magnet assemblies from a close position for strong attraction of the spool flange in said ‘hold’ state to a remote position for weak attraction to the spool flange in said ‘release’ state. 4. The spool fixation device according to claim 1 further comprising a magnetic shunt, wherein said permanent magnet arrays and said magnetic shunt are relatively and alternatingly moveable in said magnet assemblies from a shunt configuration, wherein said permanent magnet arrays' field is shunted in said ‘release’ state to a coupling configuration, wherein the permanent magnet's field is not shunted in said ‘hold’ state. 5. The spool fixation device according to claim 1 , wherein said magnet assemblies further comprise a high-friction layer at least at the surface intended to contact the spool flange. 6. The spool fixation device according to claim 1 , wherein said rotatable flange is further provided with a centering pin for centering the spool to be held. 7. The spool fixation device according to claim 6 , wherein the length of said centering pin is equal or larger than the width of the spool to be held. 8. The spool fixation device according to claim 6 , wherein the length of said centering pin is shorter than the width of the spool to be held. 9. The spool fixation device according to claim 1 , wherein said energy coupling is able to be established or able to be broken by the same type of energy as the energy input to the magnet assemblies. 10. The spool fixation device according to claim 9 , wherein said energy coupling is able to be established or is able to be broken by the same energy input as the energy input to the magnet assemblies. 11. The spool fixation device according to claim 1 , wherein said energy coupling is a rotatable energy coupling. 12. A wire winding installation provided with at least one spool fixation device according to claim 1 . 13. The wire winding installation according to claim 12 , suitable for winding spools with steel wire, said full winding spools having a mass of more than 100 kg.