Method and system for the emergency start-up of an energy generator set

The invention claimed is: 1. An emergency start-up method for an energy generator set by coupling one pyrotechnic gas combustion generator with a positive displacement motor automatic coupling to said energy generator set or uncoupling from said energy generator set comprising: if an emergency start-up situation for the energy generator set is detected, triggering at least one pyrotechnic gas combustion generator; generating pressurized gases by combustion and said pressurized gases being injected directly into a positive displacement motor with gear wheels, a portion of the pressurized gases rotating the gear wheels of the positive displacement motor and, simultaneously, a remaining portion of the pressurized gases projecting a first connection means driven in rotation by the positive displacement motor toward a second connection means driving in rotation the energy generator set, wherein the remaining portion is configured to exert an axial force on a conical coupling along a longitudinal axis of a gear shaft of the positive displacement motor, and the conical coupling exerts a radial force along a radial direction of the gear shaft in response to said axial force, thereby establishing a coupling connection between the positive displacement motor and the energy generator set, against a restoring force exerted by a return spring on the first connection means, the coupling connection bringing about transmission of energy by rotating the gear shaft of the positive displacement motor on a driven shaft of the energy generator set; and when thrust falls below the restoring force, the return spring exerts the restoring force that automatically repels said first connection means so that the coupling connection is broken and the energy generator set is disconnected uncoupled from the positive displacement motor. 2. The emergency start-up method according to claim 1 , wherein the coupling connection between the gear shaft and the driven shaft of the energy generator set to be restarted is produced by friction. 3. The emergency start-up method according to claim 2 , wherein the remaining portion of the pressurized gases is injected into the positive displacement motor centrally along the longitudinal axis so that the coupling connection uses the conical coupling to rotate the driven shaft of the energy generator set to be restarted. 4. The emergency start-up method according to claim 1 , wherein the remaining portion of the pressurized gases is injected into the positive displacement motor peripherally about the longitudinal axis so that the coupling connection uses radial compression to rotate the driven shaft of the energy generator set to be restarted. 5. The emergency start-up method according to claim 1 , wherein successive instances of pyrotechnic gas combustion generation are triggered. 6. An emergency start-up system for an energy generator set configured to implement an emergency start-up method for an energy generator set, comprising: if an emergency start-up situation for the energy generator set is detected, triggering at least one pyrotechnic gas combustion generator; generating pressurized gases by combustion and said pressurized gases being injected directly into a positive displacement motor with gear wheels, a portion of the pressurized gases rotating the gear wheels of the positive displacement motor and, simultaneously, a remaining portion of the pressurized gases projecting a first connection means driven in rotation by the positive displacement motor toward a second connection means driving in rotation the energy generator set, wherein the remaining portion is configured to exert an axial force on a conical coupling along a longitudinal axis of a gear shaft of the positive displacement motor, and the conical coupling exerts a radial force along a radial direction of the gear shaft in response to said axial force, thereby establishing a coupling connection between the positive displacement motor and the energy generator set, against a restoring force exerted by a return spring on the first connection means, the coupling connection bringing about transmission of energy by rotating the gear shaft of the positive displacement motor on a driven shaft of the energy generator set; and when thrust falls below the restoring force, the return spring exerts the restoring force that automatically repels said first connection means so that the coupling connection is broken and the energy generator set is uncoupled from the positive displacement motor, the emergency start-up system further comprising: the at least one pyrotechnic gas generator, connected to an electrical initiator, the electrical initiator being connected to a computer; the positive displacement motor comprising a casing defining an internal space housing gear wheels, or straight-cut, the pyrotechnic gas generator being coupled to the positive displacement motor by a gas inlet in the casing; wherein the positive displacement motor includes the first connection means, configured to move at one end of a drive shaft centered about a gear-wheel axis of the positive displacement motor, configured to achieve the coupling connection between the drive shaft of the positive displacement motor and the driven shaft of the energy generator set via a centrifugal clutch; and wherein the return spring arranged in abutment is configured to exert the restoring force against pressure exerted on the coupling connection by the pressurized gases to break the coupling connection. 7. The emergency start-up system according to claim 6 , wherein an annular space, formed in an extension of the casing on a periphery of the drive shaft of the positive displacement motor, communicates with the internal space to allow some of the pressurized gases coming from the combustion of the pyrotechnic gas to be injected as far as the first connection means, the first connection means including a piston, configured to be moved in translation by thrust of said some of the pressurized gases along the drive shaft of the positive displacement motor, to exert pressure on the second connection means configured as a ferrule configured to move aside radially under pressure and driving the centrifugal clutch by friction. 8. The emergency start-up system according to claim 7 , wherein the ferrule includes at least an open annular portion, which is moved aside radially by sliding along a conical portion of the drive shaft of the positive displacement motor. 9. The emergency start-up system according to claim 7 , wherein a conduit connected to the gas inlet of the casing communicates with a central bore of the drive shaft to allow some of the pressurized gases coming from the pyrotechnic gas generator to circulate as far as the connection means, the connection means including the piston configured as a conical piston, which is configured to be moved in translation by thrust of the some of the pressurized gases along an axis of the drive shaft of the positive displacement motor, to become housed in a tapered bore, rigidly connected to the centrifugal clutch, to drive the centrifugal clutch by friction. 10. The emergency start-up system according to claim 7 , wherein the electrical initiator includes an electronic unit including an autonomous electrical power source, and an electronic control board incorporating a heat-sensitive component and a microcontroller for managing the electrical power source, the heat-sensitive component, functional self-tests and alarms for triggering an ignition cartridge of the pyrotechnic gas generator. 11. The emergency start-up system according to claim 7 , wherein the gear wheels of the positive displacement motor are spur pinions. 12. The emer