Gas-insulated load break switch and switchgear comprising a gas-insulated load break switch

The invention claimed is: 1. A gas-insulated load break switch, comprising: a housing defining a housing volume for holding an insulation gas at an ambient pressure; a first main contact and a second main contact, the first and second main contacts being movable in relation to each other in an axial direction of the load break switch; a first arcing contact and a second arcing contact, the first and second arcing contacts being movable in relation to each other in the axial direction of the load break switch and defining an arcing region in which an arc is adapted to form during a current breaking operation, wherein the arcing region is located, at least partially, radially inward from the first main contact; a pressurizing system having a pressurizing chamber for pressurizing a quenching gas during the current breaking operation; a nozzle system arranged and configured to blow the quenching gas, which is pressurized, onto the arc formed in a quenching region during the current breaking operation, the nozzle system having a nozzle supply channel for supplying at least one nozzle with the pressurized quenching gas; and an interruption chamber, the first main contact being arranged, at least partially, within the interruption chamber; wherein the first main contact includes at least one pressure release opening formed such as to allow a flow of gas substantially in a radial outward direction, wherein a total area of the at least one pressure release opening is configured such that during a supply of the pressurized quenching gas, a reduction of the flow of gas out of the pressure release opening is suppressed, wherein the total area of the at least one pressure release opening is less than 5 times of a cross-section of the nozzle supply channel, wherein the interruption chamber includes at least one gas outlet opening, a total area of the at least one gas outlet opening being at least the total area of the at least one pressure release opening and/or the total area of the at least one gas outlet opening being more than ⅓ of an area of a cross-section of the interruption chamber, wherein the at least one gas outlet opening is formed such as to allow, in co-operation with the at least one pressure release opening, the flow of gas substantially in the radial outward direction into an ambient-pressure region of the housing volume. 2. The gas-insulated load break switch of claim 1 , further comprising a gas flow directing member configured and arranged to direct the flow of gas to a low electrical field region. 3. The gas-insulated load break switch of claim 2 , wherein the gas flow directing member is configured and arranged to direct the flow of gas away from an external contacting terminal of the gas-insulated load break switch. 4. The gas-insulated load break switch of claim 1 , wherein the first arcing contact has, at least in a contacting region with the second arcing contact, a substantially uniform cross-section, wherein the first arcing contact includes at least one gap extending in the axial direction of the load break switch, the gap having at least ¼ of an area of the substantially uniform cross-section of the first arcing contact. 5. The gas-insulated load break switch of claim 1 , wherein the pressurizing system is a puffer system and the pressurizing chamber is a puffer chamber with a piston arranged for compressing the quenching gas on a compression side of the puffer chamber during the current breaking operation, wherein the piston includes at least one auxiliary opening connecting the compression side with an opposite side of the piston, wherein a total cross-section area of the at least one auxiliary opening is at least ⅓ of the area of a total gas outflow cross-section of the nozzle system. 6. The gas-insulated load break switch of claim 1 , wherein the second arcing contact includes a hollow section extending substantially in the axial direction, the hollow section being arranged such that a gas portion from the quenching region flows from the quenching region into the hollow section. 7. The gas-insulated load break switch of claim 6 , wherein the hollow section has an outlet for allowing the gas portion having flown into the hollow section to flow out at an exit side of the hollow section into an ambient-pressure region of the housing volume. 8. The gas-insulated load break switch of claim 1 , wherein the nozzle includes an insulating outer nozzle portion; and/or wherein the nozzle is arranged, at least partially, at a tip end of the second arcing contact. 9. The gas-insulated load break switch of claim 8 , wherein an insulating outer nozzle portion of the nozzle is arranged at the tip end of the second arcing contact. 10. The gas-insulated load break switch of claim 1 , wherein the insulation gas has a global warming potential lower than the one of SF 6 over an interval of 100 years, and wherein the insulation gas includes at least one gas component selected from the group consisting of: CO 2 , O 2 , N 2 , H 2 , air, N 2 O, a hydrocarbon, CH 4 , a perfluorinated or hydrogenated organofluorine compound, and mixtures thereof. 11. The gas-insulated load break switch of claim 1 , wherein the insulation gas includes a background gas, the background gas being selected from the group consisting of: CO 2 , O 2 , N 2 , H 2 , air, in a mixture with an organofluorine compound selected from the group consisting of: fluoroether, oxirane, fluoramine, fluoroketone, fluoroolefin, fluoronitrile, and mixtures and/or decomposition products thereof. 12. The gas-insulated load break switch of claim 1 , having a rated voltage of at most 52 kV. 13. The gas-insulated load break switch of claim 1 , wherein the total area of the at least one gas outlet opening is more than ⅓ and less than ½ of the area of the cross-section of the interruption chamber. 14. A gas-insulated switchgear, comprising: at least one gas-insulated load break switch, each having: a housing defining a housing volume for holding an insulation gas at an ambient pressure; a first main contact and a second main contact, the first and second main contacts being movable in relation to each other in an axial direction of the load break switch; a first arcing contact and a second arcing contact, the first and second arcing contacts being movable in relation to each other in the axial direction of the load break switch and defining an arcing region in which an arc is adapted to form during a current breaking operation, wherein the arcing region is located, at least partially, radially inward from the first main contact; a pressurizing system having a pressurizing chamber for pressurizing a quenching gas during the current breaking operation; a nozzle system arranged and configured to blow the quenching gas, which is pressurized, onto the arc formed in quenching region during the current breaking operation, the nozzle system having a nozzle supply channel for supplying at least one nozzle with the pressurized quenching gas; an interruption chamber, the first main contact being arranged, at least partially, within the interruption chamber; wherein the first main contact includes at least one pressure release opening formed such as to allow a flow of gas substantially in a radial outward direction, wherein a total area of the at least one pressure release opening is configured such that during a supply of the pressurized quenching gas, a reduction of the flow of gas out of the pressure release opening is suppressed, wherein the total area of the at least one pressure release opening is less than 5 times of a cross-section of the nozzle supply chan