Dual circuit lubrication method and device with increased reliability for a main power transmission gearbox of an aircraft

What is claimed is: 1. A dual circuit method of lubricating a mechanical system that includes a tank containing a lubrication liquid, the method comprising: using the lubrication liquid to lubricate the mechanical system simultaneously via a first lubrication circuit and a second lubrication circuit, the second lubrication circuit having a second suction point situated below a limit depth in the tank, the first lubrication circuit including at least one first suction point that can be situated below the second suction point; detecting a drop in the level of the lubrication liquid in the tank to below the limit depth; stopping the flow of the lubrication liquid in the first lubrication circuit; measuring the pressure of the lubrication liquid in the second lubrication circuit; detecting a drop of the pressure of the lubrication liquid in the second lubrication circuit; reestablishing the flow of the lubrication liquid in the first lubrication circuit; and stopping the flow of the lubrication liquid in the second lubrication circuit. 2. A lubrication method according to claim 1 , wherein the first lubrication circuit includes a first valve, the first valve is operated as a result of the drop of the level of the lubrication liquid in the tank below the limit depth, and the flow of the lubrication liquid in the first lubrication circuit is stopped by means of the first valve. 3. A lubrication method according to claim 1 , wherein the first lubrication circuit includes a first valve, the first valve is operated on detecting a drop in the pressure of the lubrication liquid in the second lubrication circuit, and the flow of the lubrication liquid in the first lubrication circuit is reestablished by means of the first valve. 4. A lubrication method according to claim 1 , wherein the first lubrication circuit includes a first pump, the flow of the lubrication liquid in the first lubrication circuit is stopped by stopping the pump, and the flow of the lubrication liquid in the first lubrication circuit is reestablished by restarting the first pump. 5. A lubrication method according to claim 1 , wherein the second lubrication circuit includes a second pump and the flow of the lubrication liquid in the second lubrication circuit is stopped by stopping the second pump. 6. A lubrication method according to claim 1 , wherein the second lubrication circuit includes a second valve, the second valve is operated on detecting a drop in the pressure of the lubrication liquid in the second lubrication circuit, and the flow of the lubrication liquid in the second lubrication circuit is stopped by means of the valve. 7. A lubrication method according to claim 1 , wherein the drop in the level of the lubrication liquid to below the limit depth in the tank is detected by detecting a drop of the pressure of the lubrication liquid in the first lubrication circuit. 8. A lubrication method according to claim 1 , wherein the drop of the level of the lubrication liquid to below the limit depth in the tank is detected by means of a liquid presence sensor situated in the tank at the level of the limit depth. 9. A lubrication method according to claim 1 , wherein after detecting the drop of the pressure of the lubrication liquid in the second lubrication circuit, the lubrication liquid is delivered into the first lubrication circuit via a first suction point situated in the tank below the limit depth. 10. A lubrication method according to claim 1 , wherein, after reestablishing the flow of the lubrication liquid in the first lubrication circuit, the pressure of the lubrication liquid in the first lubrication circuit is measured. 11. A dual circuit lubrication device for lubricating a mechanical system, the lubrication device having a tank and two lubrication circuits, the tank containing a lubrication liquid, a first lubrication circuit comprising a first pump, first pipes, a first pressure sensor, first nozzles, and at least one first suction point for sucking the lubrication liquid, each first suction point being situated in the tank, a second lubrication circuit comprising a second pump, second pipes, a second pressure sensor, second nozzles, and a second suction point for sucking the lubrication liquid, the second suction point being situated in the tank, each pump acting via the first and second suction points to deliver the lubrication liquid respectively into the first and second pipes, and then into the first and second nozzles in order to lubricate the mechanical system, wherein the dual circuit lubrication device includes detector means for detecting the lubrication liquid passing below the limit depth in the tank, the second suction point being situated below the limit depth, the lubrication device implementing the lubrication method according to claim 1 . 12. A lubrication device according to claim 11 , wherein the first lubrication circuit has two first suction points and a first valve connecting the first pump to the two first suction points, the detector means being formed by a high first suction point and the first pressure sensor, the high first suction point being situated at the level of the limit depth, and a low first suction point being situated at a low position situated below the second suction point. 13. A lubrication device according to claim 12 , wherein the first valve is a two-position valve putting the first pump into communication with one or the other of the first suction points, the first valve being operated by the second pressure sensor. 14. A lubrication device according to claim 12 , wherein the first valve is a three-position valve enabling the lubrication liquid to flow between the first pump and one or the other of the first suction points in order to enable the lubrication liquid to flow in the first lubrication circuit, or else interrupting the flow of the lubrication liquid in the first lubrication circuit, the first valve being operated by the first pressure sensor and the second pressure sensor. 15. A lubrication device according to claim 11 , wherein the first lubrication circuit includes a single first suction point that is movable, the detector means being formed by the first suction point and the first pressure sensor, the first suction point being movable in the tank between the limit depth and a low position situated below the second suction point. 16. A lubrication device according to claim 11 , wherein the first lubrication circuit includes a single first suction point and a liquid presence sensor, the detector means being formed by the liquid presence sensor positioned in the tank at the level of the limit depth, the first suction point being situated at the level of a low position below the second suction point. 17. A lubrication device according to claim 16 , wherein the first lubrication circuit includes a two-position first valve enabling the lubrication liquid to flow between the first pump and the first suction point and then in the first lubrication circuit, or else interrupting the flow of the lubrication liquid in the first lubrication circuit, the first valve being operated by the liquid presence sensor. 18. A lubrication device according to claim 11 , wherein the second lubrication circuit includes a two-position second valve enabling the lubrication liquid to flow between the second pump and the second suction point and then into the second lubrication circuit or else interrupting the flow of the lubrication liquid in the second lubrication circuit, the second valve being operated by the second pressure sensor. 19. A lu