Method of pot detection and gas hob

That which is claimed: 1. A method of pot detection at a gas cooking point with a gas burner of a gas hob, wherein a sensing means with a function of flame sensing or temperature sensing is fitted at said gas cooking point in the form of an ionization electrode or a thermocouple, wherein said sensing means is fitted at said gas cooking point in such a way that, during operation of said gas burner, with every output of said gas burner possible for a sustained period said sensing means is impinged by said flames, and consequently is always impinged by a flame, the method comprising: detecting whether a pot has been placed onto said gas cooking point while said gas burner is in operation or whether said pot has been taken away, in an instance in which an electrical signal is tapped at said sensing means and evaluated by a comparison of said signal at the time with said signal in said case where a pot has been placed on, wherein a different flame or a different temperature prevails at said sensing means in an instance in which a pot has been placed on than an instance in which said pot has been taken away, said output at said gas cooking point being reduced as a reaction to detection of said taking away of said pot, wherein, after said detection of said taking away of said pot, said output at said gas cooking point is reduced to a minimum output of said gas cooking point or to a minimum output of said gas burner, and wherein said reduction in said output takes place immediately after said detection of said taking away of said pot. 2. The method according to claim 1 , wherein said sensing means comprises a single sensing means. 3. The method according to claim 1 , wherein, in the case where said gas burner is a two-ring gas burner, a second ring or an outer ring is switched off entirely and a first ring or an inner ring is operated with reduced output. 4. The method according to claim 3 , wherein said first ring or said inner ring is operated with a minimum output applicable to said first ring or said inner ring. 5. A method of pot detection at a gas cooking point with a gas burner of a gas hob, wherein a sensing means with a function of flame sensing or temperature sensing is fitted at said gas cooking point in the form of an ionization electrode or a thermocouple, wherein said sensing means is fitted at said gas cooking point in such a way that, during operation of said gas burner, with every output of said gas burner possible for a sustained period said sensing means is impinged by said flames, and consequently is always impinged by a flame, the method comprising: detecting whether a pot has been placed onto said gas cooking point while said gas burner is in operation or whether said pot has been taken away, in an instance in which an electrical signal is tapped at said sensing means and evaluated by a comparison of said signal at the time with said signal in said case where a pot has been placed on, wherein a different flame or a different temperature prevails at said sensing means in an instance in which a pot has been placed on than an instance in which said pot has been taken away, said output at said gas cooking point being reduced as a reaction to detection of said taking away of said pot, wherein, after said detection of said taking away of said pot, said output at said gas cooking point is reduced to a minimum output of said gas cooking point or to a minimum output of said gas burner, and wherein, in the case where, after said detection of said taking away of said pot, no user input or operation of said gas hob for said gas cooking point takes place for a time that is longer than a first minimum time, said gas cooking point or said gas burner is switched off. 6. The method according to claim 1 , wherein, after said detection of said taking away of said pot, said gas cooking point or said gas burner is switched off entirely. 7. The method according to claim 6 , wherein said switching off takes place immediately after said detection of said taking away of said pot. 8. A method of pot detection at a gas cooking point with a gas burner of a gas hob, wherein a sensing means with a function of flame sensing or temperature sensing is fitted at said gas cooking point in the form of an ionization electrode or a thermocouple, wherein said sensing means is fitted at said gas cooking point in such a way that, during operation of said gas burner, with every output of said gas burner possible for a sustained period said sensing means is impinged by said flames, and consequently is always impinged by a flame, the method comprising: detecting whether a pot has been placed onto said gas cooking point while said gas burner is in operation or whether said pot has been taken away, in an instance in which an electrical signal is tapped at said sensing means and evaluated by a comparison of said signal at the time with said signal in said case where a pot has been placed on, wherein a different flame or a different temperature prevails at said sensing means in an instance in which a pot has been placed on than an instance in which said pot has been taken away, said output at said gas cooking point being reduced as a reaction to detection of said taking away of said pot, wherein operation of said gas cooking point takes place by means of touch switches, wherein, after said detection of said taking away of said pot, said output at said gas cooking point is reduced and said taking away of said pot is indicated to an operator optically or acoustically, and wherein, after renewed placing on of said pot, said gas cooking point is operated again with said previously set output stage by initiating a further-operating function by way of a touch switch designed for this. 9. The method according to claim 8 , wherein, in the case where said operator takes no action for a defined time, said gas cooking point or said entire gas hob is switched off. 10. The method according to claim 1 , wherein operation of said gas cooking point takes place by means of mechanically movable operator control knobs, wherein, after said detection of said taking away of said pot from said gas cooking point, said output at said gas cooking point is reduced, and said output is increased again in the case where said gas cooking point is put into operation again after renewed placing on of said pot, a previously set output stage being restored by renewed actuation of a mechanically movable operator control element designed for this, in a way corresponding to a position of said operator control knob. 11. The method according to claim 10 , wherein, after said complete switching off of said gas cooking point as a reduction in said output, said mechanically movable operator control knob must first be brought into a zero position before said gas hob or said gas cooking point can be put into operation again. 12. The method according to claim 10 , wherein said output at said gas cooking point is reduced to said minimum output. 13. The method according to claim 10 , wherein said mechanically movable operator control knobs are rotary knobs. 14. The method according to claim 1 , wherein said reduction in said output is indicated to an operator optically or acoustically. 15. A gas hob comprising: at least one gas cooking point with a gas burner; and a sensing means with a function of flame sensing or temperature sensing is fitted at said gas cooking point in the form of an ionization electrode or a thermocouple, wherein said sensing means is fitted at said gas cooking point in such a way that, during said operation of said gas burner, with every output of said gas burner possible for