Ignition device for a gas cooking appliance

The invention claimed is: 1. An ignition device for a gas cooking appliance, the ignition device comprising at least one ignition device module with a primary voltage input terminal, a transformer, and at least one secondary voltage output terminal, wherein the transformer is adapted to transform a primary voltage applied to the primary voltage input terminal into a secondary voltage at the secondary voltage output terminal, and the secondary voltage output terminal is adapted to be connected to a spark electrode, wherein the ignition device module further comprises a primary voltage output terminal, and wherein the primary voltage is an AC voltage of 100-240 V at 50-60 Hz. 2. The ignition device of claim 1 , wherein the ignition device comprises a plurality of said ignition device modules, wherein the primary voltage input terminal of a first said ignition device module is adapted to be connected to a power supply, and the primary voltage input terminal of a subsequent said ignition device module is connected to the primary voltage output terminal of the first ignition device module. 3. The ignition device according to claim 1 , wherein the ignition device comprises a plurality of said ignition device modules, wherein the primary voltage input terminal of a first said ignition device module is adapted to be connected to a power supply, and wherein the plurality of ignition device modules are connected in parallel by connecting the primary voltage output terminal of each preceding one of said ignition device modules with a primary voltage input terminal of a subsequent one of said ignition device modules. 4. The ignition device according to claim 1 , wherein the ignition device comprises a plurality of said ignition device modules, wherein the ignition device modules are plugged together, and each primary voltage input terminal of a subsequent said ignition device module is connected to the primary voltage output terminal of a preceding said ignition device module. 5. The ignition device according to claim 1 , wherein the ignition device module or each said ignition device module(s) comprise(s) a plurality, preferably two secondary voltage output terminals. 6. The ignition device according to claim 1 , wherein the ignition device comprises a plurality of said ignition device modules and wherein the primary voltage input terminal of a subsequent said ignition device module is plugged into a primary voltage output terminal of a preceding said ignition device module. 7. The ignition device of claim 6 , wherein the ignition device modules are consecutively arranged along an axis, wherein the primary voltage input terminals and the primary voltage output terminals thereof define mating male and female connectors, the male connectors being aligned along the axis and adapted to be received by the female connectors. 8. The ignition device of claim 7 , wherein the male connectors are arranged on a forefront of a body of the ignition device modules and the female connectors on a backside of the body or vice versa. 9. The ignition device of claim 7 , wherein each secondary voltage output terminal is arranged on a lateral side of the assigned ignition device module. 10. The ignition device according to claim 2 , wherein each said ignition device module comprises mating mechanical connection means which are adapted to provide for a form-fit connection between two consecutive ones of said ignition device modules. 11. The ignition device of claim 10 , wherein said mechanical connection means comprise one or more snap hooks, wherein said snap hooks are adapted to provide a detachable interlocking of subsequent ignition device modules. 12. An ignition device for a gas cooking appliance, the ignition device comprising at least one ignition device module with a primary voltage input terminal, a transformer, and at least one secondary voltage output terminal, wherein the transformer is adapted to transform a primary voltage applied to the primary voltage input terminal into a secondary voltage at the secondary voltage output terminal, and the secondary voltage output terminal is adapted to be connected to a spark electrode, wherein the ignition device module further comprises a primary voltage output terminal, and wherein a housing of the ignition device module comprises connection means for connecting the ignition device module with a surrounding mechanical structure. 13. The ignition device according to claim 12 , wherein said connection means comprise a protrusion configured to be inserted into a corresponding opening of the surrounding mechanical structure or a hole including a thread for providing a screw connection between the housing of the ignition device module and the surrounding mechanical structure. 14. The ignition device according to claim 2 , wherein all said ignition device modules are identical. 15. The ignition device according to claim 2 , wherein at least two of said ignition device modules have different numbers of said secondary voltage output terminals. 16. The ignition device according to claim 1 , wherein each said ignition device module comprises a printed circuit board (PCB) carrying the transformer. 17. The ignition device according to claim 1 , wherein a primary voltage applied to the primary voltage input terminal is fed through the at least one ignition device module to the primary voltage output terminal such that the voltage at the primary voltage input terminal is the same as at the primary voltage output terminal. 18. A gas appliance comprising the ignition device according to claim 1 . 19. A method for assembling a gas appliance, the method comprising the steps of: providing two or more ignition device modules; connecting a primary voltage input terminal of a first said ignition device module to a power supply supplying an AC voltage of 100-240 V at 50-60 Hz; and connecting a primary voltage input terminal of a second said ignition device module to a primary voltage output terminal of the first said ignition device module. 20. The method of claim 19 , wherein: the first said ignition device module has a transformer and a secondary voltage output terminal, wherein the transformer is adapted to transform a primary voltage applied to the primary voltage input terminal of the first said ignition device module into a secondary voltage at the secondary voltage output terminal, and wherein the primary voltage is the same voltage supplied by the power supply.