Probe for use in filling elements of filling machines

I claim: 1. An apparatus for filling a container with a free-flowing material, said apparatus comprising a filling element, wherein said filling element comprises a probe, a probe end, a return gas pipe, a gas channel, an opening, and a first electrical probe contact, wherein, during filling, said probe extends into said container along an axial direction, wherein said probe end is an end of said probe, wherein a location of said probe end determines a filling height of said filling material, wherein said probe comprises a return gas pipe, wherein said gas channel is a channel through said return gas pipe, wherein said opening is an opening of said gas channel, wherein said probe end comprises said opening, wherein said first electrical probe contact is formed at said probe end and at an end of said gas channel, and wherein said first electrical probe contact is offset from said opening along said axial direction by a non-zero distance. 2. The apparatus of claim 1 , further comprising a lance, wherein said lance projects from said return gas pipe, and wherein said first electrical probe contact is disposed on said lance. 3. The apparatus of claim 2 , wherein said first electrical probe contact is disposed at an end of said lance that is furthest from said return gas pipe. 4. An apparatus for filling a container with a free-flowing material, said apparatus comprising a filling element, wherein said filling element comprises a probe, a probe end, a return gas pipe, a gas channel, an opening, and a first electrical probe contact, wherein, during filling, said probe extends into said container along an axial direction, wherein said probe end is an end of said probe, wherein a location of said probe end determines a filling height of said filling material, wherein said probe comprises a return gas pipe, wherein said gas channel is a channel through said return gas pipe, wherein said opening is an opening of said gas channel, wherein said opening is disposed at said probe end, wherein said first electrical probe contact is formed at said probe end, wherein said first electrical probe contact is offset from said opening along said axial direction by a non-zero distance, wherein said first electrical probe contact is disposed at an end of said lance that is furthest from said return gas pipe, wherein said return gas pipe comprises a notched portion, wherein said notched portion forms a part segment, and wherein said lance is formed from said part segment. 5. An apparatus for filling a container with a free-flowing material, said apparatus comprising a filling element, wherein said filling element comprises a probe, a probe end, a return gas pipe, a gas channel, an opening, and a first electrical probe contact, wherein, during filling, said probe extends into said container along an axial direction, wherein said probe end is an end of said probe, wherein a location of said probe end determines a filling height of said filling material, wherein said probe comprises a return gas pipe, wherein said gas channel is a channel through said return gas pipe, wherein said opening is an opening of said gas channel, wherein said opening is disposed at said probe end, wherein said first electrical probe contact is formed at said probe end, wherein said first electrical probe contact is offset from said opening along said axial direction by a non-zero distance, wherein said first electrical probe contact is disposed at an end of said lance that is furthest from said return gas pipe, wherein said return gas pipe comprises a notched wall, wherein said notched wall forms a part segment, and wherein said lance is formed from said part segment. 6. The apparatus of claim 1 , further comprising a lance, wherein said lance projects from said return gas pipe, and wherein said first electrical probe contact is formed from said lance. 7. The apparatus of claim 1 , further comprising a strip, wherein said strip projects from said return gas pipe, and wherein said first electrical probe contact is disposed on said strip. 8. The apparatus of claim 1 , wherein said first electrical probe contact is disposed outside said gas channel. 9. The apparatus of claim 1 , wherein said filling element further comprises a second electrical probe contact, wherein said first and second electrical probe contacts are separated along said axial direction, wherein one of said first and second electrical probe contacts is disposed outside said gas channel at a distance in front of said opening. 10. The apparatus of claim 1 , further comprising a filling machine, wherein said probe is a constituent of said filling machine. 11. The apparatus of claim 10 , wherein said filling machine comprises a plurality of filling positions, each of which comprises a filling element, and a container carrier, wherein said first electrical probe contact is offset in a direction towards said container carrier and opposite said opening. 12. The apparatus of claim 10 , wherein said filling machine further comprises a control device, wherein in response to a signal from said first probe contact, said control device causes closing of a liquid valve. 13. The apparatus of claim 10 , wherein said filling machine further comprises a control device, wherein in response to a signal from said first probe contact, said control device switches said filling element from a first operational mode to a second operational mode. 14. The apparatus of claim 10 , wherein said filling machine further comprises a control device, wherein in response to a signal from said first probe contact, said control devices activates a timer. 15. The apparatus of claim 10 , wherein said filling machine further comprises a control device, wherein in response to a signal from said first probe contact, said control device causes a liquid valve to close following lapse of a selected delay. 16. The apparatus of claim 15 , wherein said filling machine further comprises a control device, wherein said delay is selected to cause said liquid valve to close at a selected filling height based on process parameters. 17. The apparatus of claim 16 , wherein said process parameters comprise container size. 18. The apparatus of claim 16 , wherein said process parameters comprise filling material. 19. The apparatus of claim 16 , wherein said process parameters comprise container type. 20. The apparatus of claim 10 , wherein said filling machine further comprises a control device, wherein in response to a signal from said first probe contact, said control device switches said filling element from operating in a rapid filling mode to operating in a slow filling mode.