This application is a National Stage completion of PCT/EP2010/051699 filed Feb. 11, 2010, which claims priority from German patent application serial no. 10 2009 000 991.4 filed Feb. 18, 2009.
The invention concerns a connecting that can be inserted into a boats hull, and a boat's hull.
Known inboard boat drive systems comprise a steering and propulsion unit arranged under the water, which can pivot about a vertical axis. Propulsion is produced by one or more propellers, whose rotation axis can be pivoted by means of the steering unit. Pivoting of the propulsion vector results in a steering action for the boat. The propulsion and steering unit comprises a vertically arranged column which accommodates the driveshaft for the propellers and which passes through a bottom plate, also called the connecting piece, that is set into the hull of the boat. Especially in the case of motor yachts, the steering and propulsion unit determines the draft of the vessel and, when the vessel runs aground or a collision with underwater objects occurs, is therefore particularly exposed and at risk. It is known, when fixing the steering and propulsion unit to the hull, to provide predetermined break-points for example in the form of calibrated screw-bolts, so that if subjected to an impact of more than a defined severity the steering and propulsion unit will break away from the hull without the formation of a leak at the fracture points. A problem can arise, however, if after breaking away the steering and propulsion unit is flung backward, i.e. in the aft direction, and at the same time upward against the underside of the boat's hull. When struck by the sharp-edged propeller the hull can be damaged and a leak produced.
The purpose of the present invention is to provide better protection for the hull of the boat in the event of collision and at the same time to avoid impacts that result in leaks of the boat's hull.
According to the invention the connecting piece, through which the boat's drive system passes, has a sandwich structure, i.e. the connecting piece positioned at the bottom of the boat's hull is configured like a sandwich. The boat's drive system, i.e. its vertical column, passes through an opening in the connecting piece in such manner that no forces resulting from the thrust of the boat's drive unit are transmitted to the connecting piece. Instead, the boat's drive unit is connected by an elastic suspension arrangement directly to the hull of the boat, i.e. not via the connecting piece. The dimensions of the sandwich structure are such that if impact forces occur in the event of a crash the structure can be deformed so as to absorb deformation energy. This has the advantage that in the event of a crash the boat's hull is protected, since the impact forces that result from the crash are not transmitted directly to the hull, but are to the greatest possible extent dissipated by deformation work in the connecting piece. A further advantage is that during this deformation no leaks are produced, i.e. in a crash situation the safety of the boat is improved.
In a preferred embodiment the sandwich structure comprises an inner and outer (on the water side) steel plate, preferably made of stainless steel. In this way, on the one hand high strength and on the other hand sufficient deformability in the event of a crash are achieved.
In another preferred embodiment, at least one block of an elastomer material, in particular at least one rubber block, is arranged between the steel plates. This gives on the one hand a degree of rigidity in normal operation and on the other hand allows some yielding in the event of a crash.
According to a further preferred embodiment, the edge area of the connecting piece is sealed relative to the hull of the boat by a surrounding O-ring, an endless-loop seal. The O-ring is preferably set into a ring groove of a steel ring arranged between the hull and the inner steel plate. This provides a static sealing system between the edge area of the connecting piece and the hull of the boat. The advantage of the seal according to the invention is that it undergoes no movement-originated wear and therefore has long life and provides great safety. Moreover, the inner steel plate can be removed for maintenance purposes without damaging the O-ring.
In a further advantageous design the edge area of the connecting piece is connected to the boat's hull by screw-bolts, in such manner that the hull of the boat is clamped with a fixing flange between the two steel plates, and so sealed. This provides a safe and strong means for attaching the connecting piece onto the boat's hull.
In another advantageous design the outer steel plate on the water side is extended beyond the edge area in the aft direction to form an integral protective shield. This integration of the protective shield with the outer steel plate makes it unnecessary to fabricate and fit an additional protective shield.
According to the invention a boat's hull is provided with a connecting piece formed as explained above. The connecting piece, with its sandwich structure, is connected with its outer edge area firmly and intimately in contact against the hull of the boat, while the boat's drive system passes through the connecting piece “free from load”, i.e. such that no reaction forces resulting from the propeller thrust are transmitted to the connecting piece. The connecting piece is designed as a crash component and thus protects the boat's hull, since it absorbs deformation energy in the event of a crash.
An example embodiment of the invention is illustrated in the drawings and described in greater detail below, so that further features and/or advantages can emerge from the description and/or the drawings, which show:
a to 1c: A connecting piece according to the invention for a boat's drive system
and
a, 1b and 1c show, respectively, a view from below, a longitudinal section, and a view from above, of a connecting piece 1 used for mounting a drive unit (not shown) of a boat in a boat's hull (not shown). As mentioned at the beginning, such connecting pieces are known per se. The connecting piece 1 has a circular opening 2 through which passes a column (not shown) of the boat's drive unit that can pivot about a vertical axis. To the underwater end of the column is attached a propulsion unit (not shown), preferably a double propeller with coaxially arranged screws that rotate in opposite directions. The arrangement of the boat's drive unit is designed such that no forces resulting from the propeller thrust are transmitted to the connecting piece. Rather, the boat's drive unit is directly suspended relative to the hull by an elastic device, so that all thrust forces are transmitted as reaction forces directly into the hull. Thus, the connecting piece 1 can be made relatively light and as a so-termed crash component. Accordingly, it can absorb impact forces that occur during a crash by deformation of its structure, and in this way protect the hull from such forces. The connecting piece 1 has an oval-shaped edge area 3 in which are arranged a plurality of screw-bolts 4, which serve to fix it to the hull of the boat (not shown here). The connecting piece has a sandwich structure comprising an inner stainless steel plate 5, i.e. one that faces the inside of the boat, and an outer stainless steel plate 6 on the water side, these also being just called steel plates in what follows. Between the steel plates 5, 6 is arranged an approximately triangular block 7 of an elastomer material, preferably rubber. The outer steel plate 6 is extended in the aft direction, denoted by an arrow A, so as to form an integrated protective shield 6a made in one piece with the steel plate 6. The protective shield 6a guards the outer shell of the boat's hull against damage—particularly if in a collision the propulsion and steering unit breaks away and is flung against the boat's hull.
For example for maintenance purposes, the inner steel plate 5 can be removed by undoing the lock-nuts 14, without damaging the O-ring seal 13.
Number | Date | Country | Kind |
---|---|---|---|
10 2009 000 991 | Feb 2009 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/EP2010/051699 | 2/11/2010 | WO | 00 | 7/21/2011 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2010/094613 | 8/26/2010 | WO | A |
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Number | Date | Country | |
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20110281480 A1 | Nov 2011 | US |