Gas circuit breaker

The invention claimed is: 1. A gas circuit breaker comprising: a first tank filled with an insulating gas; a fixed contact provided inside the first tank; a movable contact provided inside the first tank and movable between a position in contact with the fixed contact and a position separated from the fixed contact; a nozzle that ejects the insulating gas toward the fixed contact when the movable contact moves in a first direction, the first direction being a direction in which the movable contact moves from the position in contact with the fixed contact to the position separated from the fixed contact; a cylindrical body, provided inside the first tank, that guides the gas ejected from the nozzle in a second direction, the second direction being a direction opposite to the first direction; and a second tank connected to the first tank in the second direction, wherein the second tank has a cylindrical shape centering on an axis extending in a direction perpendicular to the first direction as a central axis, the first tank includes an opening formed on one end side thereof along an axis extending in the first direction, said opening being separated from the cylindrical body, and the insulating gas elected from the nozzle is elected in the first tank and flows into the second tank via the opening. 2. The gas circuit breaker according to claim 1 , wherein when viewed along the first direction, a cross sectional area of an internal space of the second tank is larger than an area of an opening of the first tank at which the first tank is connected to the second tank. 3. The gas circuit breaker according to claim 1 , further comprising a diffusion promoter provided in an inner surface region of the second tank facing an opening of the first tank at which the first tank is connected to the second tank, the diffusion promoter being configured to diffuse the insulating gas to surroundings when the insulating gas ejected from the nozzle collides with the diffusion promoter. 4. The gas circuit breaker according to claim 1 , further comprising a moisture absorbent container provided on an inner surface of the second tank other than in a region facing an opening of the first tank at which the first tank is connected to the second tank, the moisture absorbent container storing a moisture absorbent therein. 5. A gas circuit breaker comprising: a first tank filled with an insulating gas; a fixed contact provided inside the first tank; a movable contact provided inside the first tank and movable between a position in contact with the fixed contact and a position separated from the fixed contact; a nozzle that ejects the insulating gas toward the fixed contact when the movable contact moves in a first direction, the first direction being a direction in which the movable contact moves from the position in contact with the fixed contact to the position separated from the fixed contact; a cylindrical body that guides the gas ejected from the nozzle in a second direction, the second direction being a direction opposite to the first direction; and a second tank connected to the first tank in the second direction, wherein the second tank has a cylindrical shape centering on an axis extending in a direction perpendicular to the first direction as a central axis, and a cross section of the second tank has an elliptical shape. 6. The gas circuit breaker according to claim 5 , wherein a minor axis of the elliptical shape of the second tank is parallel to the first direction. 7. The gas circuit breaker according to claim 6 , wherein when viewed along the first direction, a cross sectional area of an internal space of the second tank is larger than an area of an opening of the first tank at which the first tank is connected to the second tank. 8. The gas circuit breaker according to claim 6 , further comprising a diffusion promoter provided in an inner surface region of the second tank facing an opening of the first tank at which the first tank is connected to the second tank, the diffusion promoter being configured to diffuse the insulating gas to surroundings when the insulating gas ejected from the nozzle collides with the diffusion promoter. 9. The gas circuit breaker according to claim 6 , further comprising a moisture absorbent container provided on an inner surface of the second tank other than in a region facing an opening of the first tank at which the first tank is connected to the second tank, the moisture absorbent container storing a moisture absorbent therein. 10. The gas circuit breaker according to claim 5 , wherein when viewed along the first direction, a cross sectional area of an internal space of the second tank is larger than an area of an opening of the first tank at which the first tank is connected to the second tank. 11. The gas circuit breaker according to claim 5 , further comprising a diffusion promoter provided in an inner surface region of the second tank facing an opening of the first tank at which the first tank is connected to the second tank, the diffusion promoter being configured to diffuse the insulating gas to surroundings when the insulating gas ejected from the nozzle collides with the diffusion promoter. 12. The gas circuit breaker according to claim 5 , further comprising a moisture absorbent container provided on an inner surface of the second tank other than in a region facing an opening of the first tank at which the first tank is connected to the second tank, the moisture absorbent container storing a moisture absorbent therein. 13. A gas circuit breaker comprising: a first tank filled with an insulating gas; a fixed contact provided inside the first tank; a movable contact provided inside the first tank and movable between a position in contact with the fixed contact and a position separated from the fixed contact; a nozzle that ejects the insulating gas toward the fixed contact when the movable contact moves in a first direction, the first direction being a direction in which the movable contact moves from the position in contact with the fixed contact to the position separated from the fixed contact; a cylindrical body that guides the gas ejected from the nozzle in a second direction, the second direction being a direction opposite to the first direction; and a second tank connected to the first tank in the second direction, wherein the second tank has a spherical shape. 14. The gas circuit breaker according to claim 13 , wherein when viewed along the first direction, a cross sectional area of an internal space of the second tank is larger than an area of an opening of the first tank at which the first tank is connected to the second tank. 15. The gas circuit breaker according to claim 13 , further comprising a diffusion promoter provided in an inner surface region of the second tank facing an opening of the first tank at which the first tank is connected to the second tank, the diffusion promoter being configured to diffuse the insulating gas to surroundings when the insulating gas ejected from the nozzle collides with the diffusion promoter. 16. The gas circuit breaker according to claim 13 , further comprising a moisture absorbent container provided on an inner surface of the second tank other than in a region facing an opening of the first tank at which the first tank is connected to the second tank, the moisture absorbent container storing a moisture absorbent therein.