Method and filling machine for filling bottles with a liquid filling material

Having described the invention, and a preferred embodiment thereof, what is claimed as new, and secured by Letters Patent is: 1. A method for filling a container with a liquid filling-material that is obtained from an annular tank, said method comprising using a filling system that comprises a filling element, a liquid valve, and a probe, wherein said container is held tightly against said filling element during filling, wherein said liquid valve is configured for controlled introduction of said liquid filling-material into said container, wherein, during filling, said probe extends into said container, wherein said probe comprises a probe opening that leads into a probe channel, and wherein said probe opening is used in connection with determining a fill level, said method comprising using said filling system to execute a filling phase, and using said filling system to execute a fill-level correction phase, wherein using said filling system to execute said filling phase comprises overfilling said container, wherein using said filling system to execute said fill-level correction phase comprises removing a quantity of liquid filling-material from said container,—said quantity being selected to cause a level of filling material level in said container to reach a target level, wherein overfilling said container comprises controlling said liquid valve so as to cause said filling material level in said container to rise above said probe opening, wherein removing said quantity comprises returning said quantity to said annular tank, wherein returning said quantity comprises causing said quantity to pass through said probe opening and to flow through said probe channel toward said annular tank until the level of said liquid filling-material falls below said probe, wherein causing said quantity of liquid filling-material to pass through said probe opening and causing said quantity of liquid filling-material to flow through said probe channel toward said annular tank until said probe opening is outside said liquid filling-material comprises selecting and using a method from the group consisting of a suction method and an overpressure method, wherein said suction method comprises using said probe to suck said liquid filling-material from said container while simultaneously venting a headspace of said container by supplying said headspace with air, wherein said air is filtered ambient air, and wherein said overpressure method comprises subjecting a headspace of said container to an overpressure resulting from air, wherein said air is filtered ambient air. 2. The method of claim 1 , wherein selecting and using a method from the group consisting of a suction method and an overpressure method comprises selecting and using said suction method, and, after having overfilled said container, venting said headspace through a controlled gas path having a filter unit. 3. The method of claim 2 , wherein venting said headspace of said container comprises passing gas through a gas return channel of a return gas pipe, wherein said gas return channel is separate from said probe channel, wherein said return gas pipe forms part of a controlled first gas path of said filling element. 4. The method of claim 3 , wherein said probe channel that connects said probe opening to a gas space in said filling material tank through a controlled valve, said method further comprising opening said controlled valve, thus establishing a connection between said probe opening and said gas space prior to said filling phase, thereby equalizing a pressure in an interior space of the container and a pressure in said filling material tank, and keeping said controlled second gas path open during said filling phase. 5. The method of claim 3 , further comprising, prior to said filling phase, while said container is arranged against said filling element, opening a first control valve to evacuate said container and, during said filling phase, allowing gas forced out of said container by said filling material to exit through said probe channel, through said first control valve, and into a gas space in said annular tank. 6. The method of claim 4 , wherein using said filling system to execute said fill-level correction phase comprises having said first and second controlled gas paths open at the same time. 7. The method of claim 1 , further comprising, prior to using said filling system to execute said filling phase, achieving pressure equalization between an interior space of said container and a gas space formed above a level of liquid-filling material in said annular tank, wherein achieving pressure equalization comprises connecting an interior space of said container to said gas space. 8. The method of claim 1 , wherein said suction method further comprises causing a gas space in said annular tank to be at a pressure below ambient pressure during filling. 9. The method of claim 1 , wherein using said filling system to execute said filling phase comprises opening a first control valve, evacuating said container, equalizing pressure between an inner space of said container and said gas space, and, with said first control valve remaining open, opening said liquid valve, thereby permitting liquid-filling material to flow along an inner wall of said container as a result of a height difference between said container and a filling-material level in said annular tank. 10. The method of claim 9 , wherein using said filling system to execute said fill-level correction phase comprises, with said first control valve remaining open, opening a second control valve, and connecting a headspace of said container with said air, and allowing superfluous filling material to be sucked out of said headspace and returned to said annular tank. 11. The method of claim 10 , wherein using said filling system to execute said fill-level correction phase further comprises, after having allowed said superfluous filling material to be sucked out, closing said first control valve while leaving said second control valve open, depressurizing said container, and, after said container has been depressurized closing said second control valve. 12. The method of claim 10 , wherein using said filling system to execute said fill-level correction phase comprises depressurizing said filled container through said probe and said first control valve to ambient pressure prevailing in said gas space. 13. The method of claim 1 , wherein using said filling system to execute said fill-level correction phase comprises closing said liquid valve in response to a signal that measures a quantity of filling material that has flowed into said container. 14. The method of claim 1 , wherein using said filling system to execute said fill-level correction phase comprises closing said liquid valve when a level of liquid filling-material in said container is above said probe opening. 15. An apparatus for filling a container with liquid filling-material, said apparatus comprising a filling machine, said filling machine comprising a first filling position and an annular tank having a liquid space and a gas space above said liquid space, wherein said first filling position comprises a filling element and a container carrier, wherein said filling element comprises a liquid channel connected to said annular tank, a liquid valve disposed to control flow in said liquid channel, a controlled first gas path that connects to an interior space of said container, a filter unit disposed in said controlled first gas path to trap contaminants in air that is supplied to said controlled first gas path, and a probe configured for determining a fill level in said container, said probe