DE911469C - Stowage body arranged behind a propeller - Google Patents

Description

Bluff body arranged behind a ship's propeller It is known the efficiency of ship propellers due to baffles in the downstream of the screw flow to improve what is already happening through streamlined rudders, which in itself known way lie in the alignment of the screw axis. It is further already it has been proposed to achieve similar effects with a propulsion pear and assemble them with a normal profile rudder. It is further known to arrange the propeller in a tunnel, also with a nozzle-shaped device to surround.

The invention aims to improve that of a ship's propeller outgoing screw current and the steady course of the ship. It consists in the connection of a baffle arranged behind the propeller with a Nozzle, especially in its alignment.

In the drawing, the invention is listed as an example Embodiments described, namely Fig. I shows the rear stem in side view of a ship with the propeller, the streamlined rudder, the bluff body and the nozzle, Fig. 2 is a view of this arrangement from the rear, Fig. 3 is a plan view of the Rudder, the bluff body and the nozzle according to Fig. I, Fig. 4 is a plan view of the Rudder in another embodiment, FIG. 5 in an enlarged section a modified one Nozzle shape with rounded rear edge with a view to reversing, Fig. 6 to Io nozzle shapes with more or less simplified cross-sections; Fig. II shows a side view similar to Fig.i without a special baffle, Fig.12 the corresponding View from the rear, FIG. 13 a plan view of the rudder part with nozzle.

According to Fig. I to 3, behind the propeller i is the streamlined one Rudder 2 arranged with which in a structurally fixed connection of the specially designed baffle 3 and the nozzle. stand. The nozzle 4 can have support surfaces 5 to be attached to the body 3. All three parts are uniform in this embodiment can be swiveled with the rudder, but you can use the bluff body connected to the nozzle with advantage also fixed in a different position independently of the rotation of the rudder or rotatably mounted on the ship in order to capture and improve the screw flow, to support the rudder effect when rotating. This is also according to the invention provided that the relative position of the bluff body and nozzle to one another, if necessary also to the rudder, can be changed according to the rudder position, preferably automatically connected to the rudder, so that the change of the hitting Screw beam is taken into account. In Fig. 4, for. B. the nozzle rotatable arranged to the rudder. This agility is particularly good for the circumstances to be limited to approximately ± Io ° when reversing.

According to the invention, the nozzle is behind the largest cross section of the bluff body arranged, the nozzle diameter being approximately the largest. Diameter or the largest Corresponds to the cross-sectional width of the bluff body, but is in any case smaller than the propeller diameter. The outer jacket of the nozzle, in particular, is expedient on the inlet side of the propeller flow made approximately cylindrical to reduce the flow resistance to keep the nozzle as small as possible and a favorable angle of attack for the buoyancy, to create the profile even at higher speed levels. According to the invention to this the ratio of the nozzle outside diameter to its narrowest flow diameter elected with about I, 2. If this ratio is observed, the nozzle in Guide the outer jacket almost cylindrically to the end of the nozzle, including the inner wall of the nozzle form almost cylindrical, without deviations from an inherently most favorable one due to this Flow profile to cause significant disadvantages for forward travel. That still applies even if the nozzle according to FIG. 8 except for a ring of circular or oval cross-section shrinks. To take into account the unequal co-current in terms of size and direction, the nozzle profile is in the various co-current areas to vary above, below and on the sides (see Fig. 7).

A certain effect is still noticeable if only the streamlined rudder without a special propulsion bulb acts as a damming body, i.e. the nozzle at the end of the normal rudder is mounted in alignment with the propeller axis, as shown in Fig II to I3 show the position.

Here, too, the flow cross-section is chosen to be oval, this being can also be rectangular; here, too, an improvement in screw efficiency is obtained. Since this nozzle shape particularly strengthens the rudder effect, the rudder surface, in particular the rudder length can be shortened for the same intended effect, which is the case with seagoing Shipping is important.

According to FIG. II, the nozzle is without a special baffle (as a baffle if the rudder works) attached in front of the end of the rudder, but still so that your Leading edge is behind the largest cross-section of the streamlined rudder.

The connection of the bluff body (propulsion bulb) with the nozzle is also Without wing rudder both horizontally and vertically and with gimbal-like movement options this rudder system can be used in all levels if it is appropriately suspended, to steer.

Bluff body and nozzle are generally used to detect the propeller outflow be arranged approximately concentrically to the propeller axis. Because the propeller outflow however, it is directed obliquely upwards and varies depending on the particular circumstances can run, the position of the bluff body and the nozzle should adapt to this outflow, can therefore both in height with a parallel position to the propeller axis from the height the latter differ, as well as be set at an angle to it. Basically comes It is important to correctly record the total outflow, which is particularly from the Propeller results in and through the outflow coming from the hull with being affected.

Claims (1)

PATENT CLAIMS: I. Bluff body arranged behind a ship's propeller, characterized in that a nozzle (4) is arranged in connection with the bluff body (3) is, especially in its alignment. z. Bluff body according to claim i, characterized marked. that the bluff body (3) is known as a thickening of the rudder body (2) is formed. 3. Bluff body according to claim i and 2, characterized characterized in that the relative position of the baffle with the nozzle to the rudder accordingly the rudder angle can be changed. 4. Bluff body according to claim i and a, characterized in that that the nozzle (4) - arranged to be pivotable to the bluff body in accordance with the rudder position is. 5. Bluff body according to claim 4, characterized in that the lateral pivotability the nozzle to the bluff body is limited to approximately ± io '. 6. Bluff body according to claim i, characterized in that the nozzle (4) has a smaller diameter than the Propeller (i). 7. Bluff body according to claim i, characterized in that the behind the largest cross section of the bluff nozzle arranged a diameter of approximately the largest diameter or the largest cross-sectional width of the bluff body Has. 8. Bluff body according to claim I, characterized in that the nozzle outside diameter is 1.2 times the narrowest flow diameter. 9. Bluff body according to Claim I, characterized in that the nozzle (4) is in the rear Part of a rudder acting as a damming body with a streamlined cross-section behind the largest cross-section of the rudder and in particular roughly in line with the propeller axis is built in. Io. Device according to claim I, characterized in that the The nozzle and / or a propulsion bulb acting as a bluff body can be pivoted in all planes is arranged.