Gas-insulated circuit breaker and a method for breaking an electrical connection

The invention claimed is: 1. A gas-insulated circuit breaker comprising: a housing defining a gas volume for a dielectric gas; a nominal contact system with a first nominal contact and a second nominal contact that are electrically connectable and disconnectable relative to one another, and an interruption contact system with a pin and a tulip corresponding to the pin such that they are electrically connectable to and disconnectable from one another, wherein at least the pin is moveable along an axis (A) of the gas-insulated circuit breaker for selectively providing and breaking an electrical connection with the tulip; a guiding assembly including a guide sleeve and a guiding member, wherein the guiding member is coupled to the pin and configured to be moved together with the pin while being glidingly guided in the guide sleeve along a guiding length (L); and a gas damping assembly configured to damp a breaking movement of the pin by compressing the dielectric gas in an absorber volume and having at least one moveable absorption element configured to be moved at least partially along the guiding length (L) for compressing the dielectric gas in the absorber volume, wherein the absorber volume and the at least one moveable absorption element are arranged radially inward of the guide sleeve. 2. The gas-insulated circuit breaker according to claim 1 , wherein the at least one moveable absorption element is mounted at the end of the pin such that the gas damping assembly is located along the axis (A). 3. The gas-insulated circuit breaker according to claim 2 , further comprising at least one moveable absorption element that is fastened to the guiding member, and at least one fixed absorption element formed correspondingly to the at least one moveable absorption element such that the at least one moveable absorption element acts as a cylinder whereas the at least one fixed absorption element acts as a piston running in that cylinder or vice versa. 4. The gas-insulated circuit breaker according to claim 3 , wherein no sealing element is provided in between absorption elements acting as pistons and absorption elements acting as cylinders. 5. The gas-insulated circuit breaker according to claim 3 , wherein the absorption element acting as the cylinder for the absorption element acting as the piston has a conical cross-section having a smallest diameter at an end of a stroke of the piston. 6. The gas-insulated circuit breaker according to claim 1 , further comprising at least one moveable absorption element that is fastened to the guiding member, and at least one fixed absorption element formed correspondingly to the at least one moveable absorption elements such that the at least one moveable absorption element acts as a cylinder whereas the at least one fixed absorption element acts as a piston running in that cylinder or vice versa. 7. The gas-insulated circuit breaker according to claim 6 , wherein no sealing element is provided in between absorption elements acting as pistons and absorption elements acting as cylinders. 8. The gas-insulated circuit breaker according to claim 6 , wherein the absorption element acting as the cylinder for the absorption element acting as the piston has a conical cross-section having a smallest diameter at an end of a stroke of the piston. 9. The gas-insulated circuit breaker according to claim 6 , wherein the absorption element acting as the cylinder for the absorption element acting as the piston has at least one cut-out for allowing an easier escape of trapped gas before the piston reaches an end position. 10. The gas-insulated circuit breaker according to claim 6 , wherein at least one fixed absorption element is fixed relative to the guide sleeve. 11. The gas-insulated circuit breaker according to claim 1 , wherein the gas damping assembly is located radially offset from the axis. 12. The gas-insulated circuit breaker according to claim 11 , wherein the gas damping assembly includes at least two moveable absorption elements and at least two fixed absorption elements formed correspondingly to the at least two moveable absorption elements, wherein the at least two moveable absorption elements and the at least two fixed absorption elements are arranged symmetrically to one another with respect to the axis (A) such that the at least two fixed absorption elements act as cylinders whereas the at least two moveable absorption elements act as pistons each running in the cylinders or vice versa. 13. The gas-insulated circuit breaker according to claim 12 , wherein no sealing element is provided in between absorption elements acting as pistons and absorption elements acting as cylinders. 14. The gas-insulated circuit breaker according to claim 12 , wherein the absorption element acting as the cylinder for the absorption element acting as the piston has a conical cross-section having a smallest diameter at an end of a stroke of the piston. 15. The gas-insulated circuit breaker according to claim 1 , wherein the guide sleeve is at least partially integrated into the first nominal contact or the second nominal contact. 16. The gas-insulated circuit breaker according to claim 1 , further comprising a drive system configured to move the pin and the guiding member along the axis (A), and wherein the drive system is coupled to the guiding member by at least one transmission element that is extending into an interior of the guide sleeve such that the pin is driven by the guiding member. 17. The gas-insulated circuit breaker according to claim 16 , wherein the damping assembly is arranged at least partially alongside the at least one transmission element with respect to the axis of the gas-insulated circuit breaker. 18. The gas-insulated circuit breaker according to claim 1 , wherein the gas-insulated circuit breaker is a high-voltage circuit breaker. 19. The gas-insulated circuit breaker according to claim 1 , wherein the gas-insulated circuit breaker is a generator circuit breaker. 20. A method for breaking an electrical connection of a gas-insulated circuit breaker, comprising: providing a gas-insulated circuit breaker having a nominal contact system with a first nominal contact and a second nominal contact that are electrically connectable and disconnectable relative to one another, and an interruption contact system with a pin and a tulip corresponding to the pin such that they are electrically connectable to and disconnectable from one another; moving the pin in a first direction (D 1 ) along an axis (A) of the gas-insulated circuit breaker; guiding the pin by a guiding assembly including a guide sleeve and a guiding member of the gas-insulated circuit breaker, wherein the guiding member is coupled to the pin and configured to be moved together with the pin while being glidingly guided in the guide sleeve along a guiding length; breaking the electrical connection of the gas-insulated circuit breaker; and damping a movement of the pin using a gas damping assembly configured to damp a breaking movement of the pin by compressing an absorber volume and having at least one moveable absorption element configured to be moved at least partially along the guiding length for compressing the absorber volume, wherein the absorber volume and the at least one moveable absorption element is arranged radially inward of the guide sleeve.