RU2222470C2 - Propeller for surface and underwater transport - Google Patents

Abstract

FIELD: propellers for surface and underwater transport; passenger transport and warships. SUBSTANCE: proposed propeller has flat blades mounted on hub and provided with end fences bent towards working surface through angle of 1-90 deg. Maximum height of each bent fence relative to plane of working surface of blade is within 1-10% of propeller diameter. Maximum height of each fence relative to working surface of blade may be equal to 6% of propeller diameter. EFFECT: enhanced efficiency at thrust increment of 30-50%. 2 cl, 4 dwg

Description

 The invention relates to the technology of propulsors for surface and underwater vehicles and can be used on passenger and military ships, boats, yachts, submarines, combat torpedoes.

 Known propellers for surface and underwater transport, made in the form of an axisymmetric body of revolution, having a cylindrical shaft along the axis of rotation on the surface of which are plane-shaped propeller blades perpendicularly mounted, the surfaces of which are rotated by a certain angle relative to the plane of rotation, which allows each blade to rotate when the screw rotates inclined surface, penetrate the leading edge into the mass of water and move it, thereby providing reactive power to the ship along the axis of rotation of the screw [1], [2] , [3].

 A disadvantage of the known propellers is that when the screw rotates, the water washing it is not only displaced by the working inclined surfaces of the blades along the axis of rotation of the screw, but due to the generated centrifugal force, part of the mass of water rushes in the radial direction along the blades and breaks off them at the end of the blades, pressing a fixed mass of water into the surrounding screw, transferring to it the kinetic energy obtained by radial movement of a large mass of water along the blades, thereby reducing the efficiency of the screw.

 The closest technical solution, selected as a prototype, is a propeller, in which the ends of all blades are bent at a right or different angle to the working surface of the blade [4].

 The disadvantage of this known technical solution is that the magnitude of the bent ends of the blades, that is, their height relative to the planes of the working surfaces is not defined. And this height, at certain values, can not only increase the propeller thrust, but also reduce it by increasing the hydraulic resistance of such rotor blades.

 The problem to which the invention is directed, is to increase the efficiency of the propeller.

This is achieved by the fact that the propeller for surface and underwater transport, containing mounted on the hub of a cylindrical, ellipsoid or other axisymmetric shape, rowing plane-shaped blades having front and rear edges, one of the two surfaces being working, and the blades are made with end ridges curved in the direction of the working surface at an angle of 1-90 ^o , and the maximum height of each curved ridge relative to the plane of the working surface of the blade is in the range from 1 to 10% of the diameter of the screw, while the maximum height of each ridge relative to the working surface of the blade is 6% of the diameter of the screw.

 The invention is illustrated by drawings, where figure 1 shows a view of a four-blade screw along the axis; figure 2 is a view of the screw in arrow A; figure 3 shows a section bB of one blade; figure 4 shows a view of figure 3.

 In the static version, the propeller is made of a hub 1, the surface of which can be cylindrical, ellipsoid, or other axisymmetric in shape. The blades 3, each of which has a leading edge 4, a trailing edge 5 and a working surface 6, are attached to the surface of the hub 1 in a balanced projection along the screw projections. Each blade 3 has an end ridge 7, which is bent relative to the surface 6 by an angle α. The ridge 7 of each blade 3 has a leading edge 8.

 The device operates as follows.

A rowing screw with a diameter D coaxially of the hub 1 is attached to the drive shaft 9. During rotation of the screw, covering all the blades 3, water begins to move along the working surfaces 6. In this case, the working surface 6 acts as an inclined surface. On such an inclined surface 6, water moves from the leading edge 4 to the trailing edge 5. With a fast rotation of the screw, the water washing it receives a large amount of centrifugal force, which is directed radially along the blades 3, so the mass of water moved by the centrifugal force also carries a large amount of kinetic energy . The entire mass of water, moved by centrifugal force to the ridges 7, changes its direction by an angle (180 ^o -α) and begins to move along the axis of the screw, transferring additional kinetic energy to it and increasing the total thrust of the screw, this allows us to realize the task and increase the efficiency of the propeller screw.

 Changing the height of the bent crest of each blade by 1 to 10% of the diameter of the screw is crucial for increasing the thrust of the screw and its efficiency. Since it has been experimentally established that if the height of the ridge 7 is more than 10% of the diameter of the screw, then by increasing the circumferential drag resistance by the ridge 7 itself, the total thrust of the screw becomes the same as that of a conventional screw, i.e. without bent end ridges. If the height of the ridges 7 is reduced, then with its value equal to 6% of the screw diameter, the total thrust becomes maximum. Further, with a decrease in the height of the ridges 7, the total thrust of the screw decreases, and when its value is 1%, the total thrust becomes the same as that of a conventional screw.

 The usefulness of this invention is to create the possibility of increasing the speed of both surface and submarine ships. Experimental and laboratory verification of the model version of the new screw gave an increase in thrust up to 50%.

Sources of information
1. Magazine "Modeller-designer" 6, 1989, pp. 28-29.

 2. The magazine "Model Designer" 11, 1988, p. 20.

 3. The magazine "Model Designer" 6, 1986, p. 6.

 4. Copyright certificate of the USSR 37506 A, cl. B 63 N 1/26, 1/28, publ. 06/30/1934

Claims (2)

1. Rowing screw for surface and underwater transport, comprising rowing plane-shaped blades mounted on a hub of cylindrical, ellipsoid or other axisymmetric shape, having front and rear edges, one of the two surfaces working, and the blades made with end ridges bent towards the working surface at an angle of 1 ÷ 90 °, characterized in that the maximum height of each curved ridge relative to the plane of the working surface of the blade is in the range of 1-10% of the diameter of the screw. 2. The propeller according to claim 1, characterized in that the maximum height of each ridge relative to the working surface of the blade is 6% of the diameter of the screw.

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