Circuit breaker comprising an improved gas flow management

We claim: 1. A high-voltage circuit breaker filled with insulating gas having a main axis A, comprising: two arcing contacts axially facing each other and radially surrounded by an insulating nozzle; two main contacts axially facing each other and arranged radially outside of the insulating nozzle, each of the main contacts being assigned to one of the arcing contacts, wherein an insulating gas flowing from a storage chamber and heated by an electric arc in a region between the two arcing contacts is separated into a first gas flow and a second gas flow of opposite directions, wherein the first gas flow and second gas flow are conducted outside of the insulating nozzle from opposite directions at least partially toward a main gas chamber surrounding the main contacts, wherein the first gas flow flows toward the main gas chamber through a first intermediary gas chamber and the second gas flow flows toward the main gas chamber through a second intermediary gas chamber, wherein the second gas flow flowing in the second intermediary gas chamber is separated in a first portion directed to the main gas chamber and a second portion directed to an exhaust gas chamber, wherein the first portion of the second gas flow is smaller than the second portion of the second gas flow, wherein the second intermediary gas chamber is in fluidic communication with the main gas chamber via at least one first opening and is in fluidic communication with the exhaust gas chamber via at least one second opening, characterized in that an overall area of the at least one first opening is less than an overall area of the at least one second opening. 2. The high-voltage circuit breaker according to claim 1 , wherein the first gas flow exits the first intermediary gas chamber through openings, and wherein a ratio between a total area of the openings and a total area of the first openings is comprised between 0% and 10% and a ratio between the total area of the first openings and a total area of the second opening is comprised between 0% and 20%. 3. The high-voltage circuit breaker according to claim 1 , wherein the second intermediary gas chamber is axially bounded by a radial wall located axially on a contacts side, and wherein the second gas flow presses axially on said radial wall towards the arcing contacts. 4. The high-voltage circuit breaker according to claim 3 , wherein a surface of the radial wall is designed so that a force resulting from a pressure of the second gas flow on the radial wall balances a force resulting from a pressure of the first gas flow on a movable part of the circuit breaker. 5. The high-voltage circuit breaker according to claim 4 , wherein the radial wall is movable in the circuit breaker together with the nozzle and the nozzle comprises a radial face on which the first gas flow presses axially towards the arcing contacts, wherein the surface of the radial wall is designed so that said force resulting from the pressure of the second gas flow on the radial wall balances said force resulting from the pressure of the first gas flow on the radial face of the nozzle. 6. The high-voltage circuit breaker according to claim 4 , wherein the radial wall is stationary in the circuit breaker and comprises apertures closed off by discharge valves and wherein that said force resulting from the pressure of the second gas flow on the radial wall prevents the discharge valves from opening until a certain gas pressure is attained. 7. The high-voltage circuit breaker according to claim 1 , further comprising calibrated conduits located between the second intermediary gas chamber and the exhaust gas chamber. 8. The high-voltage circuit breaker according to claim 1 , wherein the main gas chamber is of annular shape and surrounds other components of the circuit breaker, and wherein an axial end of the main gas chamber, located on the second intermediary gas chamber side, is designed to provoke the first gas flow to flow back axially towards the first intermediary chamber. 9. The high-voltage circuit breaker according to claim 8 , wherein an annular wall separating the main gas chamber and the second intermediary gas chamber comprises a conical portion which allows a reduction of an area of the main chamber when getting away from main contacts. 10. The high-voltage circuit breaker according to claim 9 , wherein first openings are formed in the conical portion. 11. The high-voltage circuit breaker according to claim 8 , wherein at least one end portion of an outer wall surrounding the main gas chamber comprises an inner face of reduced diameter with respect to a central portion of the outer wall.