The present invention relates to a propeller combination for an aft-mounted boat propeller drive unit with pushing propellers, comprising a forward propeller and an after propeller designed to rotate simultaneously in opposite directions around a common rotational axis.
Such a propeller combination and a boat propeller drive unit of so-called inboard-outboard type having such a propeller combination is shown and described in SE 433599. Drive units of this type are common in planing motorboats of a length up to about 40 feet and for a speed range of 25-50 knots, where they provide, with few exceptions depending on boat type, higher efficiency and more rapid acceleration than corresponding single propeller drive units. Other advantages over known single propeller drive units are also achieved.
The individual propellers in this known propeller combination are dimensioned to provide essentially equal pressure force and in order to achieve approximately the same security against cavitation, the propellers are dimensioned with approximately the same total blade area. Despite this the blades of the after (aft) propeller, after operating for an extended period, have at times been subjected to degradation, particularly on the pressure side, to a greater extent than the forward propellers.
A general purpose of the present invention is to solve these problems and achieve such a propeller combination of the type described and in which the after propeller is not subjected to a greater risk of degradation due to cavitation than is the forward propeller.
This is achieved according to the invention by virtue of the fact that the blade of the forward propeller has a curved front edge and a curved rear edge, which join, via distinct transitions, a blade tip with an outer edge which, in flattened projection has a greater radius of curvature than the radii of curvature of the front edge and the rear edge in the blade portion radially outside the blade profile section of maximum blade width.
A propeller of this design has been shown to operate without, or with only insignificant suction side cavitation in the normal operating point of the propeller combination.
The invention is based on the insight that if the forward propeller operates with sheet cavitation on the suction side then the after propeller will thus be forced to cut through this sheet cavitation from the forward propeller. Further, the cavitation bubbles from the suction side of the forward propeller will implode where the pressure is highest, namely on the pressure side of the after propeller—a condition that can eventually lead to degradation of the after propeller.
The reasons for the suction side cavitation on the forward propeller are primarily high engine power and high boat speed, and that the propellers are operating in a non-homogenous flow field behind the drive unit leg. The degree of cavitation on the suction side of the forward propeller can of course, in accordance with prevailing design principles, be reduced by making the propeller with a relatively large blade surface, which will, however, in practice lead to an disproportionately large blade surface that in turn gives rise to technical problems in the manufacture of these blades that are either completely, or at least partially overlapping one another.
According to the invention, it has been discovered that if, instead of making the propeller with an unproportionally large blade surface, one merely makes the top of the blades with a shape that geometrically deviates to only a limited extent from the presently accepted shape of the blade tips of the propeller, and this will result in a forward propeller which operates without, or with minimal string cavity from the blade tip in the normal operating point of the propeller combination. This in turn reduces the amount of cavitation on the suction side of the forward propeller. The normal operating point is the operating point where the propeller combination extracts the maximum power and provides maximum speed at a given rpm.
It has proved sufficient to broaden the blade tip somewhat rotationally, as compared to a corresponding propeller with blade tips designed according to accepted practice, without increasing the maximum diameter of the propeller, and by straightening out the forward edge and the rear edge somewhat to connect to the outer edge of the blade tip in order for the propeller to operate essentially without suction side cavitation at its normal operating point. The increase in blade surface resulting therefrom is negligible compared to the surface of a corresponding conventional propeller and thus does not lead to any technical production problem.
A radial circulation distribution with an unloaded blade root and blade tip and with the described blade tip design according to the invention will significantly reduce intermittent suction cavitation and particularly sheet cavitation caused by a non-homogenous flow field, and therefore erosion cavitation on the pressure side of the aft propeller is avoided. If, however, the forward propeller operates with the blade tip and blade root too unloaded, the propeller combination will have low efficiency and increasing risk of cavitation degradation to the pressure side of the forward propeller. The design of the invention provides a balanced unloading so that the propeller efficiency is essentially maintained at the same time as cavitation erosion to the aft propeller is avoided.
The invention will now be described in greater detail with reference to the exemplary embodiments shown in the accompanying drawings, wherein:
The propeller drive unit, generally designated 1 in
As is most clearly evident from
As can be seen in
This difference is particularly evident in the flattened projection shown in
The front edge “c” and the rear edge “d” of the blade join via pronounced transitions “f” and “g” the outer edge “b”. In the embodiment shown, the transitions are sharp, but they can be slightly beveled without affecting the function.
Tests have shown that the outer edge “b” (the profile section at the blade tip) should have a width (cord length) which is 40-45% of the width (cord length) of the blade profile section “e” to obtain best results.
It should be pointed out, however, that the modification described in accordance with the invention does not involve any radial extension of the blades in comparison with the blades of a corresponding conventional propeller; this is most evident in
The propeller combination shown in
Number | Date | Country | Kind |
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0300455 | Feb 2003 | SE | national |
The present application is a continuation patent application of International Application No. PCT/SE2004/000206 filed 17 Feb. 2004 which was published in English pursuant to Article 21(2) of the Patent Cooperation Treaty, and which claims priority to Swedish Application No. 0300455-3 filed 20 Feb. 2003. Said applications are expressly incorporated herein by reference in their entireties.
Number | Name | Date | Kind |
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3312286 | Irgens | Apr 1967 | A |
3514215 | Williams | May 1970 | A |
4632636 | Smith | Dec 1986 | A |
4741670 | Brandt | May 1988 | A |
4789306 | Vorus et al. | Dec 1988 | A |
RE34011 | Brandt | Jul 1992 | E |
5190441 | Murphy et al. | Mar 1993 | A |
Number | Date | Country | |
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20070098559 A1 | May 2007 | US |
Number | Date | Country | |
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Parent | PCT/SE2004/000206 | Feb 2004 | US |
Child | 11162134 | US |