Propulsion unit for an aquatic vehicle comprising a hydraulic fluid conditioning module and a conditioning control method

What is claimed is: 1. A propulsion unit for an aquatic vehicle comprising: a mobile casing mounted in a pivot connection in relation to a hull element of the aquatic vehicle; a drive shaft of a propulsion element, said shaft being mounted rotatably within the mobile casing by means of at least one bearing comprising; a closed space adapted to be filled with hydraulic fluid; and an electrical machine being adapted to drive the rotary drive shaft in relation to the mobile casing; and wherein the propulsion unit comprises: a module for conditioning the hydraulic fluid contained in the closed space of the bearing; and a control device for the conditioning, the control device comprising a temperature sensor and being adapted to activate the conditioning of the hydraulic fluid contained in the closed space according to the temperature measured by the temperature sensor, the temperature sensor adapted to measure the temperature of the hydraulic fluid contained in the closed space of the bearing. 2. A propulsion unit according to claim 1 , wherein the control device is able to select an operating mode from the deactivation of the conditioning, the intermediate activation of the conditioning and the nominal activation of the conditioning. 3. A propulsion unit according to claim 2 , wherein the control device consists of means for preventing the circulation of hydraulic fluid in the conditioning module when the selected operating mode is the deactivation of the conditioning. 4. A propulsion unit according to claim 2 , wherein the control device consists of means for circulating the hydraulic fluid in the conditioning module intermittently when the selected operating mode is the intermediate activation of the conditioning. 5. A propulsion unit according to claim 2 , wherein the control device consists of means for circulating the hydraulic fluid in the conditioning module permanently when the selected operating mode is the nominal activation of the conditioning. 6. A propulsion unit according to claim 1 , wherein the control device consists of a mapping in which the selected values of an operating mode are stored according to the temperature measured by the temperature sensor. 7. A propulsion unit according to claim 6 , wherein the mapping delivers a deactivation value of the conditioning when the measured temperature is lower than a first temperature threshold, and an activation value of the conditioning when the measured temperature is higher than or equal to said first temperature threshold. 8. A propulsion unit according to claim 6 , wherein the mapping delivers an intermediate activation value of the conditioning when the measured temperature is lower than a second temperature threshold (T 1 ), and a nominal activation value of the conditioning when the measured temperature is higher than or equal to said second temperature threshold (T 1 ). 9. A propulsion unit according to claim 1 , further comprising a first bearing and a second bearing, the first and second bearings being mounted on the drive shaft on either side of the electrical machine, the first bearing comprising a first closed space and the second bearing comprising a second closed space, the control device comprising a first temperature sensor able to measure the temperature of the hydraulic fluid contained in the first closed space, and a second temperature sensor able to measure the temperature of the hydraulic fluid contained in the second closed space, the control device being capable of performing the conditioning, by means of the conditioning module, the hydraulic fluid contained in the first closed space and in the second closed space respectively, according to the temperatures measured by the first sensor and the second sensor. 10. A propulsion unit according to claim 9 , further comprising a first supply circuit of the first closed space connected to the conditioning module and the first closed space, a second supply circuit for the second closed space connected to the conditioning module and the second closed space, the first and second supply circuits being divided respectively into an upstream portion and a downstream portion, the upstream portion of the first supply circuit and the upstream portion of the second supply circuit being common, the downstream portion of the first supply circuit being distinct from the downstream portion of the second supply circuit, a three-way valve delimiting the upstream portion of the first and second supply circuits, the downstream portion of the first supply circuit and the downstream portion of the second supply circuit. 11. A propulsion unit according to claim 9 , further comprising a first circuit for discharging the first closed space, connected to the first closed space and to the conditioning module, a second circuit for discharging the second closed space, connected to the second closed space and to the conditioning module, the first and second discharge circuits being divided respectively into an upstream portion and a downstream portion, the upstream portion of the first discharge circuit being distinct from the upstream portion of the second discharge circuit, the downstream portion of the first circuit and the downstream portion of the second discharge circuit being common, a distribution member delimiting the downstream portion of the first and second discharge circuits, the upstream portion of the first discharge circuit and the upstream portion of the second discharge circuit. 12. A method of controlling a propulsion unit according to claim 1 , wherein the temperature of the hydraulic fluid contained in the closed space of the bearing is measured, and then an operating mode of the conditioning of the hydraulic fluid is selected according to the measured temperature, and the conditioning of the hydraulic fluid is performed by the conditioning module according to the selected operating mode. 13. A control method according to claim 12 , wherein the measured temperature is compared with a first threshold and a third threshold, the third threshold being higher than the first threshold, and then, if the measured temperature is lower than the first threshold, the conditioning of the hydraulic fluid is deactivated as long as the measured temperature remains below the third threshold, and then the conditioning of the hydraulic fluid is activated as soon as the temperature becomes higher than or equal to the third threshold, if the measured temperature is higher than or equal to the third threshold, the conditioning of the hydraulic fluid is activated as long as the measured temperature remains above the first threshold, and then the conditioning of the hydraulic fluid is deactivated as soon as the temperature becomes lower than the first threshold. 14. A control method according to claim 12 , wherein the measured temperature is compared with a second threshold and a third threshold, the fourth threshold being higher than the second threshold, and then, if the measured temperature is lower than the second threshold, the conditioning of the hydraulic fluid is activated intermediately as long as the measured temperature remains below the fourth threshold, and then the conditioning of the hydraulic fluid is activated permanently as soon as the temperature becomes higher than or equal to the fourth threshold, if the measured temperature is higher than or equal to the fourth threshold, the conditioning of the hydraulic fluid is activated permanently as long as the measured temperature remains above the second threshold, and then the conditioning of the hydraulic fluid is activated as soon as the temperature becomes lower than the second th