RU2003136757A - SHIPPING PULSIVE COMPLEX AND METHOD FOR MANAGING FLUID FLOWS - Google Patents

Claims (18)

1. Ship propulsion and / or steering complex, at least partially surrounded by water and containing an electric motor (5) installed in an airtight chamber (4) formed by the walls of the complex, a shaft (7) of a screw connected to an electric motor and carrying a propeller ( 8) or a similar component located outside the chamber (4), and means (12, 17) for creating increased pressure in the sealed chamber (4) using air or another filling gaseous medium under increased pressure, characterized in that the pressure maintained in cameras e (4) using means (12, 17) for creating increased pressure, is chosen not less than the hydrostatic pressure of the water (2) surrounding the chamber (4) at the level of the shaft (7) of the screw. 2. The complex according to claim 1, characterized in that the pressure in the chamber (4) is selected higher than the pressure in the compartment (15) of the vessel located above it and higher than the difference between the hydrostatic pressures corresponding to the levels of the bottom of the chamber (4 ) and a branch pipe located inside the specified compartment (15) of the vessel, and also preferably 10-100 kPa higher than the hydrostatic pressure near the shaft (7) and / or than the dynamic pressure of the surrounding water (2), measured at the bottom of the chamber ( 4). 3. The complex according to claim 1 or 2, characterized in that it contains a pressure source (12) controlled by a pressure control unit (13) and / or means for creating pressure in the filling medium, as well as means (17) for introducing the filling medium under pressure into the chamber (4), as well as means (16, 26) for sealing the chamber (4) relative to other compartments (11, 15) of the vessel. 4. The complex according to claim 1 or 2, characterized in that it contains means (18) for circulating the filling medium under pressure through the chamber (4) or its part, followed by removing the filling medium from the chamber, preferably to the inlet of the pressure source (12) , so that the filling gaseous medium, in addition to creating increased pressure, is able to perform an additional function, and / or the means (20) installed in the reverse branch (18, 19) of the circulation of the filling medium for detecting foreign substances that can penetrate the fill environment, and to separate such substances from the filling medium, as well as means for issuing an alarm signal about the detection of such substances. 5. The complex according to claim 3, characterized in that it contains means (18) for circulating the filling medium under pressure through the chamber (4) or its part, followed by removing the filling medium from the chamber, preferably to the inlet of the pressure source (12), such in such a way that the filling gaseous medium, in addition to creating increased pressure, is capable of performing an additional function, and / or the means (20) installed in the reverse branch (18, 19) of the circulation of the filling medium for detecting foreign substances that can penetrate into the filling medium Reducer, and to separate such substances from the filling medium, as well as means for issuing an alarm signal about the detection of such substances. 6. The complex according to claim 1 or 2, characterized in that it further comprises means (19, 23, 24, 25) interacting with means for creating increased pressure for supplying in a controlled manner other substances, in particular liquid or gaseous substances, such as oil, water and / or refrigerant to the chamber (4) and / or to devices installed inside it, and / or to remove these substances from the chamber (4) or from these devices. 7. The complex according to claim 3, characterized in that it further comprises means (19, 23, 24, 25) interacting with means for creating increased pressure for supplying in a controlled manner other substances, in particular liquid or gaseous substances, such as oil, water and / or refrigerant into the chamber (4) and / or to devices installed inside it, and / or to remove these substances from the chamber (4) or from these devices. 8. The complex according to claim 4, characterized in that it further comprises means (19, 23, 24, 25) interacting with means for creating increased pressure for supplying in a controlled manner other substances, in particular liquid or gaseous substances, such as oil, water and / or refrigerant into the chamber (4) and / or to devices installed inside it, and / or to remove these substances from the chamber (4) or from these devices. 9. The complex according to claim 1 or 2, characterized in that it supplies the filling medium under pressure to the point or to the vicinity of the point at which the functional seal is made between the chamber (4) and the surrounding water, in particular, using a seal (10) shaft (7) of the screw, and the filing medium is supplied in such a way that the filling medium independently and / or in combination with the substance added to it helps to ensure sealing and / or performing its functions by sealing. 10. The complex according to claim 3, characterized in that it supplies the filling medium under pressure to the point or to the vicinity of the point at which the functional seal is made between the chamber (4) and the surrounding water, in particular, using the shaft seal (10) ( 7) a screw, and the filing medium is supplied in such a way that the filling medium alone and / or in combination with the substance added to it contributes to the sealing and / or the performance of the seal of its functions. 11. The complex according to claim 4, characterized in that it supplies the filling medium under pressure to the point or to the vicinity of the point at which the functional seal is made between the chamber (4) and the surrounding water, in particular, using the shaft seal (10) ( 7) a screw, and the filing medium is supplied in such a way that the filling medium alone and / or in combination with the substance added to it contributes to the sealing and / or the performance of the seal of its functions. 12. The complex according to claim 6, characterized in that it supplies the filling medium under pressure to the point or to the vicinity of the point at which the functional seal is made between the chamber (4) and the surrounding water, in particular, using the shaft seal (10) ( 7) a screw, and the filing medium is supplied in such a way that the filling medium alone and / or in combination with the substance added to it contributes to the sealing and / or the performance of the seal of its functions. 13. The complex according to claim 7, characterized in that it supplies the filling medium under pressure to the point or to the vicinity of the point at which the functional seal is made between the chamber (4) and the surrounding water, in particular, using the shaft seal (10) ( 7) a screw, and the filing medium is supplied in such a way that the filling medium alone and / or in combination with the substance added to it contributes to the sealing and / or the performance of the seal of its functions. 14. The complex according to claim 8, characterized in that it supplies the filling medium under pressure to the point or to the vicinity of the point at which the functional seal is made between the chamber (4) and the surrounding water, in particular, using the shaft seal (10) ( 7) a screw, and the filing medium is supplied in such a way that the filling medium alone and / or in combination with the substance added to it contributes to the sealing and / or the performance of the seal of its functions. 15. A method of controlling fluid flows in a ship propulsion and / or steering complex, at least partially surrounded by water and containing an electric motor (5) installed in a sealed chamber (4) formed by the walls of the complex, a shaft (7) of a screw connected to an electric motor and a propeller (8) or a similar component located outside the chamber (4), characterized in that the sealed chamber (4) is sealed against the pressure of the surrounding water and relative to other compartments (11, 15) of the vessel and creates an increased pressure in it with using a filling gaseous medium, while monitoring the pressure in the chamber (4) and the composition of the medium, which is removed in a controlled manner from the chamber (4) under the action of the pressure created in it. 16. The method according to p. 15, characterized in that the pressure in the chamber (4) is sufficient to expel through the withdrawal means (18, 19) any fluids accumulating in the chamber and / or fluids supplied to the chamber (4) ) and / or fluids emitted by devices, in particular bearings (6) located in the chamber. 17. The method according to p. 15 or 16, characterized in that the pressure is applied to the system (24) containing another fluid, for example oil, for more intensive transportation of the fluid to a selected object inside the chamber (4). 18. A method of increasing the cooling efficiency of a ship propulsive and / or steering complex, at least partially surrounded by water and containing an electric motor (5) installed in a sealed chamber (4), which is formed by the walls of the complex and into which a gaseous medium is supplied, a shaft (7 ) a screw connected to an electric motor and carrying a propeller (8) or a similar component located outside the chamber (4), characterized in that the thermal conductivity is increased by creating increased pressure in the chamber (4), and the heat generated by an electric motor (5), carried out using a gaseous medium under increased pressure through the walls of the chamber (4) directly to the surrounding water (2).