Device and method for the sterilization of seals for containers

Having described the invention, and a preferred embodiment thereof, what is claimed as new, and secured by Letters Patent is: 1. An apparatus for processing seals that are used for closing bottles, said seals having a diameter, said apparatus comprising a sterilizing machine for sterilizing said seals, said sterilizing machine comprising a transport system for moving said seals through treatment zones in which said seals are sterilized, activated, and dried, wherein said transport system comprises a seal input, a seal output, a rotor, a treatment path, a first application station, an activation and/or drying station, and seal holders, wherein said rotor rotates about a rotor axis in a rotation direction, wherein said seal holders are vertically oriented wherein said seal holders extend along a longitudinal direction, wherein said seal holders are disposed on a periphery of said rotor, wherein each of said seal holders accommodates a stack of seals, wherein each of said seal holders carries said stack of seals along said rotation direction through said treatment zones on said treatment path between said seal input and said seal output, wherein said first application station is on said treatment path, wherein said first application station comprises a first sterilizing-agent sprayer, wherein said first sterilizing-agent sprayer comprises successive outlets, wherein said outlets are spaced apart from each other in said longitudinal direction, wherein a distance between any pair of successive outlets is equal to said diameter, wherein said first sterilizing-agent sprayer is directed toward a seal holder for applying sterilizing agent onto individual seals held therein, and wherein said activating and/or drying station is provided downstream of said first application station in said rotation direction. 2. The apparatus of claim 1 , wherein said application station further comprises a second sterilizing-agent sprayer, wherein said second sterilizing-agent sprayer is positioned opposite said first sterilizing-agent sprayer, wherein said first sterilizing-agent sprayer and said second sterilizing-agent sprayer are configured to apply sterilizing agent to opposite sides of individual seals that are held in a seal holder. 3. The apparatus of claim 1 , further comprising at least a second application station for applying the sterilizing agent to seals that are held in seal holders, wherein said second application station follows said first application station in said rotation direction. 4. The apparatus of claim 3 , wherein said seal holders are distributed about said rotor axis, wherein each pair of successive seal holders comprises seal holders separated by a fixed angular distance, and wherein each pair of successive application stations comprises application stations that are spaced apart by at least twice said fixed angular distance. 5. The apparatus of claim 3 , further comprising a central sterilizing-agent supply, wherein said central sterilizing-agent supply interconnects outlets of sterilizing-agent spraying devices from different application stations. 6. The apparatus of claim 5 , further comprising a waiting station, wherein said waiting station is disposed downstream of said application station and upstream of said activation and/or drying station in said rotation direction. 7. The apparatus of claim 5 , further comprising a cooling station downstream of said activating and/or drying station in said rotation direction. 8. The apparatus of claim 1 , wherein said rotor comprises a hollow drum, wherein said seal holders are arranged to form a cage, wherein said cage defines a drum jacket for said hollow drum, wherein said seal holders are configured to form said cage with rod-like seal guide rails, wherein said guide rails extend along said longitudinal direction, and wherein said guide rails are disposed to receive seals into said seal holders by having said seals pass between said guide rails. 9. The apparatus of claim 1 , wherein said seal holders are oriented with their longitudinal directions parallel to said rotor axis. 10. The apparatus of claim 1 , wherein said first sterilizing-agent sprayer is disposed to be lying inside along a trajectory of said seal holders, wherein said first sterilizing-agent sprayer does not circulate with either said seal holders or said rotor. 11. The apparatus of claim 1 , wherein said first sterilizing-agent sprayer is disposed to be lying outside along a trajectory of said seal holders, wherein said first sterilizing-agent sprayer does not circulate with either said seal holders or said rotor. 12. The apparatus of claim 1 , wherein said rotor defines a hollow drum, and wherein said apparatus further comprises central gas pipes and gas regulating devices connected to said gas pipes for gas and atmosphere management in an interior of said hollow drum. 13. A method for sterilizing seals, said method comprising at a seal input, placing a stack of seals in a vertically oriented seal holder on a periphery of a rotor that moves said seal holder, along with said seals, in a rotation direction along a treatment path, bringing said stack of seals to a first application station on said treatment path, at said first application station, directing sterilizing agent toward said seal holder for applying sterilizing agent onto individual seals held therein, wherein directing sterilizing agent comprises passing said sterilizing agent through successive outlets of a first sterilizing-agent sprayer, said outlets being spaced apart from each other by a seal diameter in said longitudinal direction, moving said stack of seals downstream along said rotation direction, activating or drying said stack of seals, and moving said stack of seals downstream to a seal outlet.