FI75777C - Underwater propeller assembly. - Google Patents

Description

1 75777

Underwater propeller drive

The invention relates to an underwater propeller drive device according to the preamble of claim 1.

5 Ships requiring special mobility are often equipped with so-called transverse rudders. The propeller is positioned transverse to the longitudinal axis of the vessel in a pipeline tunnel at the bow. The ship's propulsion engine drives 10 propellers via an axis perpendicular to the transverse channel and a gearbox gondola. The gearbox gondola, which must accommodate the cylindrical and bevel gears required for torque transmission, is similar in size in the radial direction, which greatly reduces the emotional cross-section. The installation and removal of this cross-flow drive requires docking or at least the corresponding alignment of the ship. The hydrodynamic efficiency of such uses of electricity is relatively poor.

Submersible pumps, used in 20 oceans, for example, operate on a similar principle. A screw propeller is similarly installed in the supply line. The propeller can be operated with an underwater engine with or without gearbox. With a water-filled motor, pumps of this kind can also be used in large volumes. The engine and transmission are in the propeller flow range in this version. Also in this case, the flow cross-section is greatly reduced.

In addition, an electric propeller is known from DE patent 688 114, the wing tips of which are connected by a circumferential ring with an electrically passive part (rotor) of the drive motor. The electrically active part (stator) is located in the nozzle surrounding the propeller.

It is an object of the invention to provide an underwater propeller drive device 35 which can be mounted on and detached from a pipeline tunnel and which has a large flow cross-section with a large maximum efficiency so that it can be technically simply braked during downtimes and unwanted counterflows. .

This object is solved according to the invention by means of the features of the characterizing part of claim 1. The invention can be further developed as set out in claims 2 and 3.

The particular advantages of the drive device according to the invention are based on the fact that the device takes up little space, can be easily replaced and serviced, and has good efficiency.

The drawing schematically shows an embodiment of the invention.

Figure 1 shows the propeller unit.

Figure 2 shows a double propeller in the transverse channel. Figure 3 shows a structural unit placed perpendicular to the longitudinal channel.

The underwater propeller drive device according to Figure 1 can be placed as a structural unit in the ship's pipeline drive for cross-jet operation or in the supply lines of the ocean pumps 20. The structural unit 1 consists in the axial direction of a short, cylindrical jacket 2, the ends of which are open. Attached to the casing 2 are grids 3 and 4 supporting the bearings 5 and 6 of the shaft 7 of the propeller 8. The wingtips of the propeller 8 are connected by a ring 9 having a rotor 10 with permanent magnets of an electric motor distributed on the wedge. The ring 9 is in the recess 11 of the jacket 2. The jacket 2 has a stator 12 located opposite the rotor 10, which is also distributed on the circumference of the jacket 2. Connected to the stator 12 is an electrical cable which, in order to simplify the installation of the structural unit, is in the groove 13 of the casing and which, at the installation site, is led through a tunnel opening to a connection box which is out of water.

Figure 2 shows a section of a transverse channel of a ship with a structural unit, in this case in the form of a twin-35 bellows propeller unit, so that the propellers rotate in opposite directions so that the propeller's vortex energy can be better utilized and the thrust effect improved. The number 15 denotes the side of the ship with an opening 16 below the waterline shown in broken lines. From this opening 16 a pipeline tunnel 17 passes to a corresponding opening on the opposite side of the ship. As shown in the figure, the propeller unit 18 can be pre-assembled in the workshop on the pipe 19. The pipe with its structural units 18 is then introduced into the ship and pushed in the pipeline tunnel 17 up to the stop 20 in the pipe 17. The pipe 19 is then attached to the side 15 of the ship and the electrical cable 21 in the groove or in the double wall of the pipe is led in the riser pipe 22 to the connection box above the waterline of the ship. From this terminal box, the connection alternatively leads via resistors to either the supply point or the short-circuit 15. In this way, the uncontrolled movement of the propeller due to the countercurrent flow of the motor due to the generator-like braking of the motor and the noise caused by it are prevented during the operation of the transverse jet drive or the underwater pump.

Another possibility in the installation of the structural unit 18 is that only this structural unit is pushed through the side opening 16 into the pipeline tunnel and fixed in a predetermined position. In this case, the riser of the cable connection can be placed directly on top of the structural unit. The course of the riser-25 pipe is then adapted to the interior of the ship.

Finally, as shown in Figure 3, it is possible to provide the structural unit 25 with two flanges 26 and 27 and fasten them to the flanges 28 and 29 at the ends of the fixed transverse channel sections 30 and 31, so that sealing rings 32 are inserted between the flanges. the located structural unit has the special advantage that the stator cable connection, riser 33 and connection box 34 can be pre-assembled in the workshop. For on-board installation, it is only necessary to carry out the installation on the power supply or short-circuit.

Claims (3)

4 75777 An underwater propeller drive device having at least one propeller (8), the wing tips of which are connected to each other by a circumferential ring (9) forming a permanently magnetized rotor (10) in an electric motor, the stator (12) of which is arranged in a fixed part (2), so that water flows in the gap between the rotor and the stator, and which device can be placed as a unit in a tube tunnel (17), 10 characterized in that the screw propeller (8) with its bearings (3-7) and electrical actuators (10,12) is removably mounted in the transverse channel part (19) to the end, which transverse channel part can be pushed as a unit against the stop (20) of a tube tunnel 15 (17) fixedly mounted in the ship's side opening (16), the stator (12) being connected to the out-of-water connection box (23) by an electric cable (12). Device according to Claim 1, characterized in that the transverse rudder has an electric cable (21) connected to the stator 20 via a pipe connected to the stator tunnel (17) to the cable connection housing (23) above the waterline. Device according to Claim 1, characterized in that the shaft (7) of the screw cap (8) is mounted on grids (3, 4).