Distillation column and use thereof for cleaning isocyanates

What is claimed is: 1. A distillation column for fractionating a multi-component mixture into at least 3 fractions, wherein the distillation column comprises at least one dividing wall and above the at least one dividing wall comprises at least one mass transfer element in which mass transfer between ascending vapor and descending liquid takes place, wherein between the at least one dividing wall and the at least one mass transfer element, or in case of the presence of a plurality of mass transfer elements between the at least one dividing wall and the lowest mass transfer element, an apparatus for mixing the vapor streams ascending left and right of the at least one dividing wall is arranged, the mixing apparatus being located in the distillation column at a location where vapor streams from the at least one dividing wall ascend without colliding with descending liquid. 2. The distillation column of claim 1 , wherein the apparatus for mixing the vapor streams ascending left and right of the at least one dividing wall is selected from the group consisting of mixer packings, corrugated sheet layers, straight baffle plates, sloping baffle plates, sieve trays, chimney trays, bubble-cap trays, valve trays, stators, tubes, channels, perforated sheets and combinations of the abovementioned apparatuses. 3. The distillation column of claim 1 , wherein the at least one mass transfer element arranged above the dividing wall is selected from the group consisting of dumped packing beds, structured mass transfer packings, bubble-cap trays, valve trays, sieve trays or combinations of the abovementioned apparatuses. 4. The distillation column of claim 1 , wherein one dividing wall is present. 5. The distillation column of claim 1 , wherein one mass transfer element is present. 6. The distillation column of claim 1 , wherein the at least one mass transfer element or, in case of the presence of a plurality of mass transfer elements, at least the lowest mass transfer element, extends over the entire cross section of the column body. 7. The distillation column of claim 1 , wherein arranged below the mass transfer element or, in case of the presence of a plurality of mass transfer elements, below the lowest mass transfer element, is a liquid collector for collecting the liquid effluxing from the at least one mass transfer element, wherein the liquid collector is configured such that the liquid collected in the liquid collector is passed the upper end of the at least one dividing wall. 8. The distillation column of claim 7 , in which the liquid collector is configured such that the liquid collected in the liquid collector is transferred into an annular channel and from there passed the upper end of the at least one dividing wall. 9. The distillation column of claim 1 , wherein arranged below the mass transfer element or, in case of the presence of a plurality of mass transfer elements below the lowest mass transfer element, is a liquid collector for collecting the liquid effluxing from the at least one mass transfer element, wherein the liquid collector is configured such that the liquid collected in the liquid collector is transferred into an annular channel and from there via an exit stub out from the inside of the distillation column via conduits located outside the column body to liquid distributors arranged adjacent to the at least one dividing wall. 10. The distillation column of claim 1 , where arranged below the mass transfer element or, in case of the presence of a plurality of mass transfer elements below the lowest mass transfer element, is a liquid collector for collecting the liquid effluxing from the at least one mass transfer element, wherein the liquid collector is configured such that the liquid collected in this liquid collector is transferred into an annular channel and from there via conduits located inside the column body to liquid distributors arranged adjacent to the at least one dividing wall. 11. A method of purifying isocyanates comprising introducing a crude isocyanate into the distillation column of claim 1 , wherein both fine purification of the isocyanate and removal of polymeric isocyanate fractions are carried out in the distillation column. 12. A method of purifying isocyanates comprising introducing a crude isocyanate into the distillation column of claim 1 , wherein fractionation of the isocyanate into various isomers occurs in the distillation column. 13. The method of claim 11 , in which the isocyanate is selected from the group consisting of tolylene diisocyanate, methylenediphenyl diisocyanate, hexamethylene diisocyanate, pentamethylene diisocyanate, isophoronediamine diisocyanate, m-xylylene diisocyanate and dicyclohexylmethane diisocyanate. 14. A distillation column for fractionating a multi-component mixture into at least 3 fractions, wherein the distillation column comprises at least one dividing wall and above the at least one dividing wall comprises at least one mass transfer element in which mass transfer between ascending vapor and descending liquid takes place, wherein between the at least one dividing wall and the at least one mass transfer element, or in case of the presence of a plurality of mass transfer elements between the at least one dividing wall and the lowest mass transfer element, an apparatus for mixing the vapor streams ascending left and right of the at least one dividing wall is arranged, the mixing apparatus being located in the distillation column at a location where vapor streams from the at least one dividing wall ascend without colliding with descending liquid, wherein the apparatus for mixing the vapor streams ascending left and right of the at least one dividing wall is selected from the group consisting of mixer packings, corrugated sheet layers, straight baffle plates, sloping baffle plates, sieve trays, chimney trays, bubble-cap trays, valve trays, stators, tubes, channels, perforated sheets and a combination of any two or more thereof, and wherein the at least one mass transfer element arranged above the dividing wall is selected from the group consisting of dumped packing beds, structured mass transfer packings, bubble-cap trays, valve trays, sieve trays, and a combination of any two or more thereof. 15. The distillation column of claim 14 , wherein one dividing wall is present and/or wherein one mass transfer element is present. 16. The distillation column of claim 14 , wherein the at least one mass transfer element or, in case of the presence of a plurality of mass transfer elements, at least the lowest mass transfer element, extends over the entire cross section of the column body. 17. The distillation column of claim 14 , wherein arranged below the mass transfer element or, in case of the presence of a plurality of mass transfer elements, below the lowest mass transfer element, is a liquid collector for collecting the liquid effluxing from the at least one mass transfer element, wherein the liquid collector is configured such that the liquid collected in the liquid collector is passed to the upper end of the at least one dividing wall. 18. The distillation column of claim 17 , in which the liquid collector is configured such that the liquid collected in the liquid collector is transferred into an annular channel and from there passed to the upper end of the at least one dividing wall. 19. The distillation column of claim 14 , wherein arranged below the mass transfer element or, in case of the presence of a plurality of mass transfer elements below the lowest mass transfer element, is a liquid collector