The present invention relates to a paddle wheel ship. In particular, the present invention relates to a paddle wheel yacht.
The paddle wheel ship was once prevailing in the steam era, yet it is a kind of ship of low speed and poor efficiency whose place had been taken by propeller-driven ship back long, this is the common view in this field; Modern fast-speed-capable ships includes planing boat as well as hydrofoil, both primarily relies on propeller to drive. While sailing at high speed, planning boat or hydrofoil depends on hydrodynamic pressure or hydro-lift force respectively to support the gravity, the majority of the ship will be elevated to reduce water resistance; however, as the speed ascends, serious torsional force and cavitation of the rotating propeller will waste power and the efficiency descends substantially, therefore, for propeller ship to achieve high speed navigation will necessitate engine of higher power, to exchange high energy for high speed, it is economically unwise.
Also, the propeller yacht may pitch upward or even flip over if it encounters surge during abrupt acceleration or high speed navigation, it is hence of poor stability and seakeeping performance.
People never ceased their effort to seek for over water carrier of higher efficiency and speed, and those animals what can go free over the water had always been the inspiration for people to imitate and design. Take the basilisk lizard in South America for example, it posses a unique ability to run over water with its body and forelegs untouched from the water while its hind legs treading and its tail to balance and steer, people was inspired a lot from it.
Although paddle wheel ship had disappeared for a long time, yet its propeller can be used for the inventor to build this, to some extent, bionic paddle wheel yacht.
The purpose of the present invention is to provide a paddle wheel yacht which can maintain high propulsive efficiency during high speed sailing.
To achieve the preceding purpose, the present invention can adopt the following solution:
A rudder is installed in the rear of the hull.
Further, the paddle wheels are arranged on the two sides at the half-length of the hull.
The hull bottom is plane surface.
Further, the hull bottom is arc-shaped upturned in the front to form a streamlined surface toward the water.
The hull is a triple-hulled vessel of two sub-hulls and one main hull, the two sub-hulls are arranged symmetrically on the front-nearing two sides of the hull.
Similarily, the bottom of the sub-hulls and the main hull are plane surfaces, and are arc-shaped upturned in the front to form a streamlined surface toward the water.
Further, the bottom of the sub-hulls are lower than the bottom of the main hull.
Further on, the bottoms of the sub-hulls are parallel to the bottom of the main hull.
The symmetrically arranged paddle wheels on the two sides of the hull are upward and downward synchronously adjustable, and/or forward and backward synchronously adjustable.
The advantages of the present invention are the combination of modern engine and conventional paddle wheel propeller, by means of having the bottom surfaces of the two symmetrical paddle wheels on the two sides of the hull lower than the bottom face of the hull, when the paddle wheel rotate at a high speed, the uniformly distributed paddles on the edges of the paddle wheels in the radial direction will continuously flap the water surface down-backward at a high speed, due to the high density of the water, sufficient back force can be gained, with its upward component force of the back force, the ship will be propped up over the water, and with its forward component force, the ship will be propelled onward, as a result, all that left to touch the water is only the rear part of the ship to balance the ship while the ship is advancing, which greatly eliminates the water resistance and significantly improve propulsional efficiency, and the objective of high-speed sailing at a lower cost will be attained.
The ship model test had proved that a ship model employing the structure of the present invention, with equal terms on power output, hull weight and hull size, can be 50% faster than the planing boat model employing propeller, this is a substantial breakthrough in velocity.
It is also proved by the ship model test that upon abrupt acceleration or encountering surge while sailing at high speed and the ship model begin to pitch up and the paddle wheels detach the water, the ship model employing the structure of the present invention will automatically loss velocity and prevent the boat from flipping over. Therefore, the present invention possesses prominent stability and seakeeping performance.
Posed over water while advancing, the present invention is able to go over floaters and substantially reduce the impact from floaters to the hull and the paddle wheel, or in exceptional circumstances, even perform assault landing.
Although the present invention share a similar appearance with conventional paddle wheel ship, but the key structure and the operation mode are totally distinct:
Thereby, the present invention is no duplication of the conventional paddle wheel ship but a brand new ship type.
The essential difference between the presenting invention and the propeller yacht is rooted in: While sailing at a high speed, the propulsive efficiency of the paddle wheel is proportional to the velocity while the propulsive efficiency of the propeller is inversely proportional to the velocity. Thus, the speed performance of the present invention is superior to propeller yacht.
The preceding hull force analysis indicates that the present invention is not displacement hull or planing boat, hydrofoil or hover craft, but a breakthrough, an innovation and a successful application of bionics in marine technology.
As illustrated in
As illustrated by
To start quick, the axles of the paddle wheels 2 may be synchronously adjustable upward and downward, in specific, can employ conventional lift structures like screw or hydraulic. As showing in the
is Similarily, the axles of the paddle wheels 2 can be synchronously adjustable forward and backward, it also can employ conventional push-and-pull structures like screw or hydraulic. Adjusting the paddle wheels 2 forward or backward basing on the speeds can change the elevation angle α of the hull to reduce the resistance and adapt the ship to the condition of the water.
Number | Date | Country | Kind |
---|---|---|---|
201019097003.0 | Feb 2010 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/CN11/70759 | 1/28/2011 | WO | 00 | 9/13/2012 |