Gas valve

The invention claimed is: 1. A gas valve with a valve disc ( 10 ) which is arranged moveably in the gas valve relative to a longitudinal axis ( 8 ), and with a valve plate ( 12 ) with valve seat ( 19 ) formed thereon, wherein the valve disc ( 10 ) cooperates with the valve seat ( 19 ) to open and close the gas valve, and with a first circumferential sealing edge ( 30 ) on the valve seat ( 19 ), the first circumferential edge ( 30 ) being engaged by the valve disc ( 10 ) when the gas valve is closed, characterized in that the valve disc ( 10 ) has a central opening ( 13 ) for passage of gaseous medium, wherein the first circumferential sealing edge ( 30 ) surrounds the central opening ( 13 ) and wherein a first pressure face ( 25 ) is formed in the central opening ( 13 ), the first pressure face being pressurized in a closing direction by the gaseous medium, and with a second pressure face ( 26 ) on the valve disc ( 10 ), the second pressure face being formed radially outside the first circumferential sealing edge ( 30 ) and being pressurized in an opening direction by the gaseous medium, and with a connecting channel ( 15 ; 17 ; 24 ) which connects the first pressure face ( 25 ) and the second pressure face ( 26 ) and is formed in the valve plate ( 12 ). 2. The gas valve as claimed in claim 1 , characterized in that the circumferential sealing edge ( 30 ) is formed as a web arranged on the valve seat ( 19 ). 3. The gas valve as claimed in claim 1 , characterized in that the gaseous medium flows into the central opening ( 13 ) via a flexible supply line ( 9 ). 4. The gas valve as claimed in claim 3 , characterized in that the flexible supply line is formed by a bellows ( 9 ) which is connected gas-tightly to the valve disc ( 10 ). 5. The gas valve as claimed in claim 4 , characterized in that the bellows ( 9 ) is arranged pre-compressed and by its pretension exerts a closing force on the valve disc ( 10 ). 6. The gas valve as claimed in claim 1 , characterized in that a second circumferential sealing edge ( 31 ) is arranged between the valve seat ( 19 ) and the valve disc ( 10 ), radially outside the first circumferential sealing edge ( 30 ), wherein the second pressure face ( 26 ) is arranged radially outside the second circumferential sealing edge ( 31 ). 7. The gas valve as claimed in claim 6 , characterized in that a third circumferential sealing edge ( 32 ) is formed between the valve seat ( 19 ) and the valve disc ( 10 ), radially outside the second circumferential sealing edge ( 31 ), wherein the second pressure face ( 26 ) is formed between the second circumferential sealing edge ( 31 ) and the third circumferential sealing edge ( 32 ). 8. The gas valve as claimed in claim 7 , characterized in that the second circumferential sealing edge ( 31 ) and/or the third circumferential sealing edge ( 32 ) are/is formed as a circumferential web on the valve seat ( 19 ). 9. The gas valve as claimed in claim 1 , further comprising a central bore ( 15 ) which is formed in the valve plate ( 12 ) which lies opposite the central opening ( 13 ) in the valve plate ( 10 ) and from which at least one radial bore ( 17 ) departs inside the valve plate ( 12 ), via which the second pressure face ( 26 ) is pressurized with gaseous medium. 10. The gas valve as claimed in claim 9 , further comprising at least one slot-like opening ( 24 ) which is formed in the valve plate ( 12 ), which is connected to the at least one radial bore ( 17 ) and via which the gaseous medium pressurizes the second pressure face ( 26 ), so that the central opening ( 15 ), the radial bore ( 17 ) and the slot-like opening ( 24 ) form the connecting channel between the first pressure face ( 25 ) and the second pressure face ( 26 ). 11. The gas valve as claimed in claim 1 , characterized in that the forces exerted by the gaseous medium on the first pressure face ( 25 ) and the second pressure face ( 26 ) at least approximately cancel each other out in the movement direction of the valve disc ( 10 ). 12. The gas valve as claimed in claim 1 , further comprising a pretensioned closing spring ( 18 ) which pressurizes the valve disc ( 10 ) with a closing force in the direction of the valve seat ( 19 ). 13. The gas valve as claimed in claim 1 , further comprising an electromagnet ( 5 , 6 ) which, when powered, exerts a magnetic opening force on the valve disc ( 10 ) and moves valve disc ( 10 ) away from the valve seat ( 19 ). 14. The gas valve as claimed in claim 1 , characterized in that a coating of an elastic material is applied to the valve disc ( 10 ) or the valve seat ( 19 ). 15. The gas valve as claimed in claim 1 , characterized in that a coating of an elastic material is applied to the valve disc ( 10 ) or the valve seat ( 19 ), wherein the coating is an elastomer.