The invention concerns a propulsion system for a marine vessel and a motor yacht.
Known inboard boat propulsion systems have an underwater propulsion and steering unit which can be turned or swivelled about a vertical axis. Propulsion is produced by one or two propellers, whose rotation axis can be swivelled by means of the steering unit. Due to this ability of the propulsion vector to be swivelled, a boat-steering action is produced. With motor yachts in particular, the propulsion and steering unit determines the draught of the vessel and is, therefore, particularly exposed and endangered by contact with the bottom or by a collision with an underwater obstacle(s). When the propulsion and steering unit is attached to the hull, it is known to do this by means that comprise predetermined fracture points, for example in the form of calibrated screw-bolts, so that in the event of an impact of more than a predefined severity, the propulsion and steering unit will break free from the hull without causing a leak.
However, a problem can then arise if the wrenched off propulsion and steering unit is flung rearward, i.e., in the aft direction, and, at the same time, upward against the hull of the vessel. On impact with the sharp-edged propeller, The hull can be damaged and a leak produced by impact with a sharp-edge of the propeller or some other sharp edge of the propulsion and steering unit.
Wherefore, it is an object of the present invention to overcome the above mentioned shortcomings and drawbacks associated with the prior art.
The purpose of the present invention is to avoid such damage and leak-producing impacts in the hull by virtue of a propulsion system of the type described to begin with, fitted to a motor yacht.
According to the invention, a protective plate, which covers the outer surface of the vessel's hull and protects it against the effects of impact, particularly by the propeller of the vessel, is arranged in the flow direction behind the propulsion and steering unit. Preferably, this protective plate is made of stainless steel and is, therefore, particularly tough and resistant. Preferably, the protective or stainless steel plate is attached onto the hull, which as a rule consists of plastic. Thanks to the protective plate according to the invention, in the event that the propulsion and steering unit being dislodged or wrenched off, the hull is protected against damage and a leak-producing impact. To ensure this, the size of the protective plate is chosen such that the possible hull impact area is substantially covered.
According to an advantageous further development, the leading edge of the protective plate, in particular the area immediately adjacent to the opening in the hull, can be provided with a cladding, in particular a plastic section. This has the advantage that an eddy formation, caused by the outflow of cooling water from the drive engine, is avoided.
An example embodiment of the invention is illustrated in the drawings and will be described in more detail below, while further features and/or advantages can be noted from the description and/or the drawings, which shows:
In such a case, according to the invention, a protective plate 13 is arranged on the vessel's hull (not shown), also referred to just as ‘the hull’ for brevity. The protective plate 13, preferably made of stainless steel, abuts against the bottom-plate 10 in the aft direction, i.e., the direction opposite to the travel direction F, and is in contact with the outside of the hull. It can be fixed onto the hull by any suitable fixing means 14, such as screws for example. The length and width of the protective plate 13 are chosen such that the impact zone of a detached propulsion and steering unit 9 with an aft end of the hull is substantially covered. The width of the protective plate 13, also called the protective shield 13, is at least the same as the width of the bottom-plate 10. The length of the protective shield 13—in the aft direction—corresponds approximately to the draught of the propulsion and steering unit 9, i.e., the length that the propulsion and steering unit extends in the z direction. The outer skin or hull of the vessel is thus effectively protected by the protective shield 13 against damage due to collision by the propulsion and steering unit 9.
In the aft area of the bottom-plate 10, outlet openings 15 are provided for the outflow of drive engine cooling water. To avoid eddy formation in the leading edge area of the protective plate 13, a plastic cladding 16 is provided, which is directly adjacent to the outlet openings 15 and in contact with the underside of the protective plate 13. The plastic cladding 16 is preferably contoured so as to assist flow, in order to enable low-loss cooling water outflow.
Since certain changes may be made in the above described improved marine vessel propulsion system, without departing from the spirit and scope of the invention herein involved, it is intended that all of the subject matter of the above description or shown in the accompanying drawings shall be interpreted merely as examples illustrating the inventive concept herein and shall not be construed as limiting the invention.
Number | Date | Country | |
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61102157 | Oct 2008 | US |