DE2950091A1 - Thrust enhancer for ship - has non-driven blades to counteract swirl action of screw propeller - Google Patents

Abstract

The thrust enhancer is for a marine screw. It has a fixed cowl set behind the screw and is fitted with a set of (9,10) curved blades to counteract the swirl action of the water behind the screw. The resultant thrust or water jet is more streamlined and in the direction of action. The fixed blades are curved around the inside of the cowl in the opposing direction to the swirl. The water acts on the surfaces and generates some thrust from the swirl component. The device provides improved control for the rudder as well as providing a more economic generation of thrust.

Description

Thrust booster for ship propellers

The invention relates to a thrust booster for marine propellers.

Ship propellers convert the power generated by motors into propulsion around. Fine propeller, which turns in water, sets water in motion. This, also known as screw water, it moves in a rotating manner in a hose-like manner Shape opposite to the direction of travel of the ship. Because the screw water is set in rotation, part of the energy is lost unused.

The invention is based on the task of at least part of this Fnergy resulting from the rotation of the flow of water generated by the screw is to be converted into propulsive power.

This object is achieved according to the invention by the arrangement of at least two of the direction of rotation of the screw water acting in the opposite direction, curved in this way Shovel blades behind a propeller solved that rotation of the screw water is canceled. As a result, the kinetic energy of motion as a rotation in the stream of water that is set in rotation by the propeller has been converted into thrust for the purpose of propelling the ship.

The shape of the blades is determined by the fact that the rotation of the water flow in the blades stagnates on the inside. Through this a dynamic pressure arises in the turning and in the propulsion direction, whereby an increased overall propulsion performance becomes effective with the same energy input.

Several blades are advantageously arranged in a star shape.

A cylindrical casing of the arrangement of the blades is preferred. This also creates a guide channel for the screw water through a particularly favorable use of the rotation of the screw water for the Conversion into propulsive force is achieved.

The cylindrical casing expediently begins immediately behind the propeller. An advantageous embodiment is that the Cylindrical casing holding the blades up to the height of the propeller is led.

According to a further expedient embodiment, the blades are arranged on a holder.

The invention is based on exemplary embodiments in the drawings explained.

The drawings show: FIG. 1: a side view of an arrangement from two shovel blades; 2: a view of the arrangement from the rear; Fig. 3: a plan view of the arrangement according to FIG. 1; 4: a schematic representation with a ship's stern to explain the origin of the rotating screw water; 5: a side view with the propeller and rudder blade of a ship and an arrangement between these parts.

The stern of a ship 1 is shown in FIG. Located at this stern a propeller 2, which in the usual way by a shaft 3 in the direction of arrow 4 is rotated. Behind the propeller 2 is a rudder 5 in the usual way Way attached. It can be seen that behind the propeller and the Rudder forms a stream called propeller water 6 in which the propeller water rotates due to the reaction from the propeller.

To utilize the energy of this rotation, according to FIG. 5, in the the propeller 2 and the rudder 5 are shown, between these parts a thrust booster 7 arranged, in the drawing in the side view, a cylindrical casing represents. Blade blades are arranged in this cylindrical casing. This cylindrical casing 7 extends practically from the plane of the propeller 2 to the rudder 5, it can be seen that behind this at 8 the screw water exits without rotation.

Figures 1 to 3 show an arrangement of two blades 9, 10, each having a curved section 13, 14 and on the screw 2 remote ends have a straight stretched section 15,16. These screw blades 9,10 are fixed to one another by a central axis 17 and on the outside of holders 18, 19, 20, 21 attached, with which they are attached to the stern of a ship 1 behind the screw 2 can be attached.

With regard to FIG. 3, the screw water occurs in accordance with arrow 22 with rotary impulse, and at 23 this water flow leaves the arrangement of the blades 9.10 without rotation.

It goes without saying that in the cylindrical casing 7 in a star shape several airfoils are arranged. On the inside of the blades 9,10 arises from the redirection from the rotation to the straightness of the screw water a dynamic pressure field, on the back of the blades a cavitation field. Through this pressure is applied to the thrust booster in the direction of rotation and propulsion. Of the Thrust in the direction of rotation works against the direction of rotation of the thrust that the rotating Screw 2 caused against the ship and thus has no adverse effect. The thrust in the propulsion direction supports the propulsion effect and is the main one Benefit.

Claims (8)

Claims 1. Thrust booster for propellers, characterized by arranging at least two of the direction of rotation of the screw water (6) oppositely acting, so curved blade blades (9, 10) behind a ship's propeller (2) that the rotation of the propeller water is canceled. 2. Booster according to claim 1, characterized in that the curved blades (9, 10) with their inside to the angular momentum of the screw water are arranged facing. 3. Booster according to claim 1 or 2, characterized in that that several blades (9, 10) are arranged in a star shape. 4. Booster according to one of claims 1 to 3, characterized by a cylindrical casing (7) of the arrangement of the blades (9, 10). 5. Booster according to claim 4, characterized in that the cylindrical casing (7) begins immediately behind the propeller (2). 6. thrust booster according to claim 5, characterized in that the the impeller blades (9, 10) holding the cylindrical casing (7) up to the height the propeller (2) is guided. 7. Booster according to one of claims 1 to 3, characterized in that that the look sheets (9, 10) are arranged on a holder (18-21). 8. Booster according to one of claims 1-7, characterized by the arrangement between the propeller (2) and the rudder (5).