The invention concerns a control device and a boat.
Known control devices, which comprise a servomotor or electric motor and, downstream therefrom, a toothed reduction gear system for moving a control element, often have the problem that there is play during the transmission of the control movement, particularly backlash play between the flanks of the gearwheels that mesh with one another. As a result, in its set position, i.e. when the servomotor is static, the control element is not stable. Such control devices are also used in boat drives that comprise a propulsion and steering unit which can pivot about a vertical axis, in particular an inboard drive. Control by means of such a control device has the particular disadvantage that as a result of the play the rudder or steering position concerned is unstable and the helmsman at the wheel has the sensation of indifferent and indirect steering.
From WO 2005/005249 an inboard propeller drive system is known, such that a propulsion unit comprises a propeller shaft with two tractor propellers rotating in opposite directions and an underwater casing arranged to pivot about a vertical axis in the hull. Thus, the steering action of the boat is obtained not—as conventionally—by a rudder, but by swiveling the propulsion vector that results from the propeller thrust. In this known propeller drive, the underwater casing with the propeller shaft is moved by a servomotor via a geared transmission. With this known control device as well, there is some play in the transmission of the steering movement, i.e. the helmsman's perception is that the rudder or steering mechanism operates inexactly and not directly.
The purpose of the present invention is to improve a control device of the type mentioned to begin with, to such effect that there is as little play as possible when the control device is operated. A further purpose of the invention, with a boat drive of the type mentioned at the start, is to provide a control device that works without play so that the helmsman at the wheel has the sensation of direct and stable steering.
According to the invention, with a control device having a multi-stage reduction gear system it is provided that the gearwheel on the drive input side is driven simultaneously by two servomotors which act slightly in opposition to one another. This gives the advantage that the play in the gear system, in particular the backlash play, is eliminated. The two servomotors operating in opposition allow no backlash of the gearwheel they are driving in common and, as it were, clamp it between them.
The objective of the invention is also achieved with a boat drive having the control device according to the invention with two servomotors driving in common, which act slightly in opposition to one another. The advantage of this play-free control for a boat drive is that it gives a stable “rudder position”, i.e. a stable position of the propeller thrust vector. Accordingly the boat keeps exactly on course and the helmsman at the wheel has the sensation that movements of the wheel are converted directly into a steering movement of the boat.
In a preferred embodiment the two servomotors are each in the form of electric motors, i.e. they draw their energy from the on-board electrical system, they can be regulated accurately, and they can be controlled electronically.
According to a further preferred embodiment the speed of the two servomotors or electric motors is in each case reduced by a first planetary gear system in a first stage, and in each case the drive output of the two planetary gear systems takes place via a drive pinion. This provides a first speed reduction mechanism in a relatively narrow structural space.
In a further preferred embodiment a second planetary gear system coaxial with the pivoting axis of the propulsion unit is provided. The second planetary gear system functions as a second reduction stage and is driven via its planetary carrier by the two drive pinions of the two first planetary gear systems.
According to another preferred embodiment a third toothed reduction stage is provided, in which the drive output side sun gear of the second planetary gear system meshes with outer teeth of a control sleeve which, for its part, is connected to the underwater casing. Overall, by virtue of the three compact reduction steps a high reduction ratio is obtained, so that a relatively small torque of the electric motors produces a very large steering torque for swiveling the propulsion vector produced by the propeller thrust. Furthermore—by virtue of electronic control means—a steering rate (angular speed) that is a function of the boat's speed and a steering angle that again depends on the boat's speed can also be obtained.
In a further preferred embodiment the propulsion and steering unit with the control device passes flexibly through a hull connecting piece fixed firmly to the hull of the boat. This allows the propulsion and steering unit to undergo vertical oscillation movements by virtue of an elastic mounting in the hull. Preferably, the connecting piece is in the form of a crash component with a sandwich structure. In the event of a collision this can absorb deformation energy.
An example embodiment of the invention is illustrated in the drawing and described in more detail below, so that further features and/or advantages can emerge from the description and the drawings, which show:
The boat drive 1, in particular the transmission housing 18, passes through an opening of a hull connecting piece 19 and, with it, forms an annular gap 20 bridged by flexible sealing elements 21 and therefore sealed. The hull connecting piece 19 is made with a sandwich structure as a crash component connected firmly to the hull of the boat (not shown).
Number | Date | Country | Kind |
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10 2009 000 993.0 | Feb 2009 | DE | national |
This application is a National Stage completion of PCT/EP2010/051698 filed Feb. 11, 2010, which claims priority from German patent application serial no. 10 2009 000 993.0 filed Feb. 18, 2009.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2010/051698 | 2/11/2010 | WO | 00 | 6/16/2011 |