Gas valve unit

The invention claimed is: 1. A gas valve unit for controlling a gas throughput routed to a gas burner of a gas appliance, comprising: a valve housing; an actuation shaft configured to set an opening cross section of the gas valve unit; a stop valve having a stop element; and a linearly-displaceable connection element configured to transmit a movement of the actuation shaft to the stop valve, the connection element having a plastic bend forming an overpressure protection, a pin for actuating the stop element, and at least one guide pin. 2. The gas valve unit of claim 1 , constructed for controlling the gas throughput routed to the gas burner of a gas cooker as the gas appliance. 3. The gas valve unit of claim 1 , wherein the connection element is embodied as a one-piece plastic bend. 4. The gas valve unit of claim 1 , wherein the plastic bend has a first radius when a pressure force exerted upon the plastic bend is less than or equal to a specific threshold value, and a second radius when the pressure force exerted upon the plastic bend is greater than the prespecified threshold value. 5. The gas valve unit of claim 4 , wherein the plastic bend is capable of being deformed by kinking from the first radius into the second radius when the pressure force exerted upon the plastic bend is greater than the prespecified threshold value. 6. The gas valve unit of claim 4 , wherein the plastic bend is capable of being deformed from the second radius into the first radius when the pressure force exerted upon the plastic bend is less than the specific threshold value. 7. The gas valve unit of claim 1 , further comprising a closing spring configured to maintain the stop valve under tension so as to seek a closed position. 8. The gas valve unit of claim 7 , wherein the plastic bend of the connection element has a spring constant which is greater than a spring constant of the closing spring. 9. The gas valve unit of claim 1 , further comprising a redirection device configured to transfer an axial movement of the actuation shaft into an angled axial movement of the connection element. 10. The gas valve unit of claim 9 , wherein the redirection device has a first slide element which is disposed on the actuation shaft in an area of an end of the actuation shaft in opposition to a control section. 11. The gas valve unit of claim 10 , wherein the connection element has a second slide element which, at least during pushing of the actuation shaft, is in contact with the first slide element. 12. The gas valve unit of claim 11 , wherein the connection element has an end which faces towards the actuation shaft, said second slide element being formed as part of the end of the connection element. 13. The gas valve unit of claim 7 , wherein the connection element has an end which faces away from the actuation shaft, and the at least one guide pin is arranged on the end. 14. The gas valve unit of claim 7 , wherein the connection element has an end which faces away from the actuation shaft, and the at least one guide pin further comprising a horizontal guide pin, and a vertical guide pin, said horizontal and vertical guide pins being arranged on the end. 15. A gas valve, comprising at least one gas valve unit for controlling a gas throughput routed to a gas burner of a gas appliance, said gas valve unit comprising a valve housing, an actuation shaft configured to set an opening cross section of the gas valve unit, a stop valve having a stop element, and a linearly-displaceable connection element configured to transmit a movement of the actuation shaft to the stop valve, the connection element having a plastic bend forming an overpressure protection, a pin for actuating the stop element, and at least one guide pin. 16. The gas valve of claim 15 , wherein the connection element is embodied as a one-piece plastic bend. 17. The gas valve of claim 15 , wherein the plastic bend has a first radius when a pressure force exerted upon the plastic bend is less than or equal to a specific threshold value, and a second radius when the pressure force exerted upon the plastic bend is greater than the prespecified threshold value. 18. The gas valve of claim 17 , wherein the plastic bend is capable of being deformed by kinking from the first radius into the second radius when the pressure force exerted upon the plastic bend is greater than the prespecified threshold value. 19. The gas valve of claim 17 , wherein the plastic bend is capable of being deformed from the second radius into the first radius when the pressure force exerted upon the plastic bend is less than the specific threshold value. 20. The gas valve of claim 15 , further comprising the gas valve unit including a closing spring configured to maintain the stop valve under tension so as to seek a closed position. 21. The gas valve of claim 20 , wherein the plastic bend of the connection element has a spring constant which is greater than a spring constant of the closing spring. 22. The gas valve of claim 15 , wherein the gas valve unit includes a redirection device configured to transfer an axial movement of the actuation shaft into an angled axial movement of the connection element. 23. The gas valve of claim 22 , wherein the redirection device has a first slide element which is disposed on the actuation shaft in an area of an end of the actuation shaft in opposition to a control section. 24. The gas valve of claim 23 , wherein the connection element has a second slide element which, at least during pushing of the actuation shaft, is in contact with the first slide element. 25. The gas valve of claim 24 , wherein the connection element has an end which faces towards the actuation shaft, said second slide element being formed as part of the end of the connection element. 26. The gas valve of claim 20 , wherein the connection element has an end which faces away from the actuation shaft, and the at least one guide pin is arranged on the end. 27. The gas valve of claim 20 , wherein the connection element has an end which faces away from the actuation shaft, the at least one guide pin further comprising a horizontal guide pin, and a vertical guide pin, said horizontal and vertical guide pins being arranged on the end. 28. A gas appliance, comprising: a gas burner; and a gas valve including at least one gas valve unit for controlling a gas throughput routed to the gas burner, said gas valve unit comprising a valve housing, an actuation shaft configured to set an opening cross section of the gas valve unit, a stop valve having a stop element, and a linearly-displaceable connection element configured to transmit a movement of the actuation shaft to the stop valve, the connection element having a plastic bend forming an overpressure protection, a pin for actuating the stop element, and at least one guide pin. 29. The gas appliance of claim 28 , constructed in the form of a gas cooker.