Gas blast switch comprising an optimized gas storage chamber

The invention claimed is: 1. A gas blast switch, comprising: two arcing contacts movable relative to one another along an axis, a main nozzle and an auxiliary nozzle both made from insulation-material and extending around the axis such as to delimit an arcing region, a gas storage chamber for storing quenching gas, the gas storage chamber being delimited by respective surfaces of radially opposite inner and outer walls and of axially opposite first and second end walls, a gas channel extending between an outer surface of the auxiliary nozzle and an inner surface of the main nozzle and connecting the gas storage chamber to the arcing region through an opening in the first end wall, and a flow guiding radial wall extending in the gas storage chamber at a distance from each of the inner and outer walls and the first and second end walls, wherein the opening of the gas channel through the first end wall faces a first space between the flow guiding radial wall and the inner wall, the surface of the outer wall comprises a deflecting portion protruding towards the inside of the gas storage chamber and facing the second end wall, and at least part of the deflecting portion is offset from the flow guiding radial wall in a direction parallel to the axis and oriented from the gas channel towards the gas storage chamber. 2. The gas blast switch according to claim 1 , wherein the inner surface of the main nozzle extends towards the gas storage chamber by converging towards the outer surface of the auxiliary nozzle. 3. The gas blast switch according to claim 1 , further including an intermediate wall of annular shape connecting the flow guiding radial wall to the first end wall and having gas passage openings. 4. The gas blast switch according to claim 3 , wherein the intermediate wall is fastened to the main nozzle. 5. The gas blast switch according to claim 3 , wherein a combined passage section of the gas passage openings is at least equal to half of an outer surface of the intermediate wall. 6. The gas blast switch according to claim 1 , wherein the deflecting portion is concave towards the second end wall. 7. The gas blast switch according to claim 1 , wherein the deflecting portion is of conical shape converging towards the gas channel. 8. The gas blast switch according to claim 1 , wherein the deflecting portion is flat, orthogonal to the axis, and totally offset from the flow guiding radial wall in the direction parallel to the axis and oriented from the gas channel towards the gas storage chamber. 9. The gas blast switch according to claim 1 , wherein the outer wall comprises a rib having a side forming the deflecting portion. 10. The gas blast switch according to claim 1 , wherein the surface of the outer wall comprises a first portion connected to the first end wall and having a first diameter, and a second portion offset from the first portion in the direction parallel to the axis and oriented from the gas channel towards the gas storage chamber, wherein the second portion has a second diameter greater than the first diameter, and wherein the deflecting portion connects the first portion to the second portion. 11. The gas blast switch according to claim 1 , wherein a radial extent of the first space is greater than or equal to a radial distance between the inner surface of the main nozzle and the outer surface of the auxiliary nozzle at the opening of the gas channel through the first end wall. 12. The gas blast switch according to claim 1 , wherein the surface of the second end wall is at least partly of concave shape. 13. The gas blast switch according to claim 1 , wherein a radial distance between a radially inner end of the deflecting portion and a radially outer end of the flow guiding radial wall is inferior or equal to a radial extent of the first space. 14. The gas blast switch according to any claim 1 , further comprising a compression chamber separated from the gas storage chamber by the second end wall, wherein the second end wall comprises an opening provided with a valve configured to close the opening when gas pressure in the gas storage chamber reaches a predetermined level.