RU2615031C2 - Method for movement on "water cushion" and gliding vessel for its implementation - Google Patents

Abstract

FIELD: transportation.

SUBSTANCE: movement of the ship on "water cushion" is carried out by raising the vessel above the water surface and moving it with the help of two water propulsion (propeller), installed on the vessel in such a way that the vectors propulsion thrusts were dismissed from the vertical and the direction of movement of the vessel. Thus, vectors power stops propulsors installed at the bow opposite cheeks its housing according to the scheme forward drive, oriented at an acute angle to the surface of the water and of the ship so that the vertical components of the thrusts lifted the prow, the horizontal longitudinal component gave translational thrust force, and cross - creating converging streams of water intersecting at stern of the vessel to form a local area of high pressure. "Water cushion" is characterized by the convex surface of the water, providing a surfing sliding stern for synchronous traveling wave "water cushion" against which the position of the trim and stern set controlled transom plate and rudder blade.

EFFECT: sustainable surfing gliding at low speeds and greater maneuverability.

5 cl, 3 dwg

Description

The invention relates to high-speed watercraft. Known for high-speed watercraft: ekranoplanes, gliders, hydrofoils, with an air cover and a pillow - all of them have propulsors that create emphasis - the force for the movement of the vessel, and the hull of the vessel, which creates the main force of resistance to movement, with the exception of the surfer board, with the mover which is the traveling wave of the surf.

As you know, the maximum speed of a displacement vessel tends to an unambiguous limit - with a linear increase in the power of a power plant, the resistance of the aquatic environment is proportional to the square of the speed or more. Therefore, the displacement regime of cruising traffic on high-speed vessels is not used, and less energy-consuming methods and devices are used, for example, hovercraft - a power analogue of the proposed high-speed vessel. The movement of the hull on an air cushion does not move the mass of water attached by viscous friction, but overcomes only air resistance.

However, limited seaworthiness and propeller efficiency, large dimensions and windage of the vessel are considered significant disadvantages of these vessels.

The prototype of the present invention is RF patent No. 2364544, IPC B63H 1/02 - A method of moving a vessel through water, which consists in raising the vessel above the surface of the reservoir and moving it using water propulsion devices, which are made and installed on the vessel in such a way that the thrust vectors of the propulsors directed vertically upwards and have the ability to deviate from the vertical.

The prototype for the device is the same patent for a group of inventions, in particular for a high-speed vessel for movement on water on the vectors of the stops of water propulsion, which contains a hull, an aerodynamic stabilizer, retractable keel and rudder, engine compartments, wheelhouse, fuel tank, engine, automatic stabilization control system for the ship during pitching, air pipe. Two or more propellers are installed on the vessel, each with a cardan mechanism, attached to the hull, bottom or sides of the vessel with the stops vertically upward and set so that the point of application of the total stop vector is on the vertical axis of the ship's center of gravity.

Despite the great persistent force of the propeller in a denser aquatic environment, such vessels did not find practical application with the hull leaving the water due to the low horizontal speed and the difficulty of controlling propellers with oblique rotation axes.

The technical problem solved by the invention is to create a method and a vessel in which air and hydrodynamic drags are minimized during movement, stable surfing is achieved even at low speeds even with a traditional hull shape, that is, a stable rise of the bow of the vessel is created due to the operation of the front-wheel drive propulsion like a car and the raising of the stern as when surfing, which will save fuel and expand the functionality of track control Nia such a movement.

The technical result of the method is achieved by using the new principle of water movement on a "water cushion", that is, by lifting the bow of the vessel above the water surface using the vertical component of the convergent support vectors of the bow of the water propulsion, creating a lifting force, while raising the stern of the vessel is carried out " water cushion ", that is, a local rise in the water level, which is formed at the collision point of intersecting flows of propellers and provides continuous sliding and rolling of the hull with a controlled wave.

In this case, the effect of the “water cushion” itself is achieved with the help of at least two front-wheel drive water propellers made and installed opposite the “cheekbones” of its hull, in which the vectors of their force stops are oriented at an acute angle to the water surface and the ship’s diametrical plane so that the vertical components of the stops raise the bow of the vessel, the horizontal longitudinal components give traction, and the transverse, formed by converging streams of water intersecting under the stern of the vessel, create a local area pressure with a convex water surface, that is, a “water cushion”, along which the stern of the vessel slides with traditional governing bodies, that is, a rudder pen and a folding transom board.

In this case, the size and position of the “cushion” under the bottom of the vessel is controlled by synchronous rotation of the propulsors relative to the vertical axis, using the remote control for these propulsors installed in the bow of the vessel opposite the “cheekbones” of its hull according to the “front-drive” scheme of the vehicle.

The technical result of the invention in relation to the device of the vessel, in particular the planing inflatable boat, is achieved by the fact that the axis of rotation of the propellers of the outboard motors mounted on the transverse traverse in the bow of the vessel opposite the “cheeks” of its hull are directed at an acute angle of 10-30 ° to the surface of the water and the diametrical plane of the boat, so that they intersect under its stern, equipped with a hinged transom plate on the transverse hinges and a vertical shaft of the rudder feather with a removable tiller of their common orthogonal (mutually independent) control tions, ending the steering seat, which is fixed dual control system of outboard motors.

In FIG. 1 and FIG. 2 shows a horizontal plan and side view of an example implementation of the proposed method on a serial frigate “Frigate”, and in FIG. 3 - presents a scalar velocity field of a virtual computer simulation of the invention, which shows the creation of a controlled thrust vector of the propellers of the "front-wheel drive".

For the simplest implementation of the proposed method of surfer gliding on a traveling wave of a "water cushion", two outboard motors 1 and 2 with screw propellers are mounted at the ends of the transverse beam 3, which is equipped with a mounted transom 4 mounted in the bow of a serial inflatable boat 5. Cable control 6 of these motors displayed on a dual remote control 7 mounted at the steering seat 8. The axis of rotation of the propellers of the outboard motors 1 and 2, located opposite the “cheekbones” 9 of the hull of the boat 5, and the vectors of their emphasis in F _1, F ₂ are directed at an acute angle β 10-30 ° to the water's surface and DP-α centreline of the boat, so that intersect at its stern transom plate provided with a hinge 10 mounted on a horizontal transverse hinge 11. In this the plate 10 is fixed and the vertical shaft of the rudder feather 12 with a removable tiller 13 ending at the steering seat 8.

Fuel tank, oars and other auxiliary devices are not shown in the drawing.

Moving a boat on a water cushion by the proposed method is carried out in the following sequence.

After starting both outboard motors 1, 2 and bringing them to the rated power, the bow of the inflatable boat 5 is raised due to the action of the vertical components f _in their support vectors F (Fig. 2) In this case, the horizontal longitudinal components f _g provide translational movement of the boat 5 with increasing speed.

Since the axis of rotation of the propellers and their power stops F ₁ , F ₂ intersect under the stern of the boat, therefore, they undergo hydrodynamic addition to one common stream with a controlled vector of general thrust F ₀ and local pressure increase due to the opposite action of the transverse components f _p from the stops F ₁ , F ₂ outboard engines 1 and 2. This local pressure jump leads to a corresponding rise in the surface of the water in this place, that is, the appearance of a water cushion that abuts the stern of the hull of the boat 5 and raises it . Thus, the entire boat begins to move above the surface of the water, with the exception of the stern, which glides on the wave of the “water cushion” synchronously running after it.

The directional control of the boat’s movement is carried out as usual with the rudder feather 12 with the tiller 13, and trim control - vertical rotation of the transom plate 10, on which the shaft sleeve of the tiller 13 and the rudder feather 12 are mounted.

That is, all control is performed by orthogonal rotation of the tiller 13 in the horizontal and vertical plane, as well as by a dual control panel 7 of the revolutions of the outboard motors 1 and 2. In addition, by changing the difference in the revolutions of these engines, you can change the position of the water cushion relative to the boat hull and the direction of the total thrust vector F ₀ . Thanks to this, the boat can be moved “use”, that is, with side rolling, even with the free position of the rudder feather 12 in the diametrical plane (DP).

A similar effect is obtained at the same engine speed due to their simultaneous rotation on the transverse traverse 3 using remote control. Moreover, the “wet exhaust” gas bubbles of the outboard motors 1 and 2 create gas lubrication of the bottom and the transom plate 10 of the boat 5 in the volume of the “water cushion”, which significantly reduces viscous friction losses and fuel consumption.

The proposed method allows such a boat to reach the above mode of surfer planing literally in place, tied to a mooring cable at the mooring wall, that is, at zero speed, and to stably maintain a safe planing mode at higher speeds than with stern outboard motors of the same power, which make the inflatable boat prone to spontaneous nose lifting and subsequent somersault back.

A gliding vessel that implements the “water cushion” driving method can also be easily manufactured by modifying existing vessels with such a “front-wheel drive”, in particular serial boats and sports gliders.

The invention is quite feasible with the current level of technology and production capabilities. Its use will lead to the emergence of a new type of maneuverable and high-speed vehicles based on the original way of moving on water, which the author suggests calling a “water cushion” as opposed to the well-known “air cushion”.

Claims (5)

1. The method of movement on a "water cushion", which consists in raising the vessel above the surface of the water and moving it using water propulsion devices mounted on the vessel so that the thrust vector of the propulsion devices are deviated from the vertical and the direction of movement of the vessel, characterized in that the force vectors the stops of at least two propulsors installed in the bow of the vessel opposite the cheekbones of its hull according to the front-wheel drive scheme, orient at an acute angle to the surface of the water and the diametrical plane of the vessel so that the vertical components the pores lifted the bow of the vessel, horizontal longitudinal components gave translational thrust, and transverse ones created converging streams of water intersecting under the stern of the vessel with the formation of a local area of high pressure and the appearance of a “water cushion” above it, characterized by a convex water surface that provides surfing gliding of the stern of the vessel along a synchronously traveling wave of a “water cushion”, with respect to which the trim and position of the stern of the vessel are determined by a controlled transom plate and a rudder feather. 2. The method according to claim 1, characterized in that the directional control of the movement of the vessel with a partial lateral displacement or rolling out the lag is carried out with rigid fixation of the propulsors controlled by the thrust vector from the total flow of propulsors by means of a relative change in their power by means of a dual speed control system of these propulsors. 3. The method according to claim 1, characterized in that the size and position of the "water cushion" under the bottom of the vessel is controlled by synchronously rotating the movers relative to the vertical axis, using the remote control for these movers installed in the bow of the vessel opposite the cheekbones of its hull according to the front drive a car. 4. Gliding vessel for implementing the method of movement on a "water cushion", including a hull with buoyancy compartments, a retractable tiller with a rudder feather, crew seats, a fuel tank and at least two propulsion engines in the form of outboard motors with its control system, characterized in that outboard motors are mounted on a transverse traverse in the bow of the vessel opposite the cheekbones of its hull so that the axis of rotation of the propellers is directed at an acute angle to the water surface and the diametrical plane of the longitudinal section of the hull with intersection of these axes under its stern on the bottom edge of which transverse to hinged horizontal plate mounted hinged transom, vertical shaft equipped with a removable rudder tiller their common orthogonal control, additions and remote control system of outboard motors. 5. The planing vessel according to claim 4, characterized in that it is made in the form of an inflatable boat, including buoyancy means in the form of airtight inflatable compartments, in which the front is equipped with a mounted transom with a transverse traverse and outboard front-wheel motors mounted opposite the cheekbones of its hull so that the axis of rotation of the propellers is directed at an acute angle of 10-30 degrees to the surface of the water and the diametrical plane of the longitudinal section of the boat, ensuring that these axes intersect under its bottom at the aft buoyancy compartments, connected with a transverse transom with horizontal hinges of a hinged transom plate with a vertical shaft of the rudder feather and a removable tiller ending at the helmsman's seat, where a dual remote control system for outboard motors is fixed.

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