DE3518131A1 - Vessel propulsion with suspension sail - Google Patents

Abstract

The vessel propulsion with suspension sail utilises the wind energy owing to the fact that the sail fastened in a sail frame is carried by a suspension arrangement, for example light-gas balloons, to a height where the wind conditions are favourable. The wind energy available at the sail is transmitted by retaining ropes which act on the sail frame to rope drums of rope winches at the bow of the vessel. The lengths of the individual retaining ropes are changed with the rope drums in such a way that the sail frame and the sail move into the most favourable position relative to the respective wind direction. The light gas for the balloons of the suspension arrangement is stored under high pressure in tanks on board the vessel, from where it is pumped as required into the balloons or back again with a suction pressure pump. Fig. 1 shows the construction of a suspension sail and the connection to the ship by four retaining ropes, with which it is hoisted and set to the wind direction.

Description

. Ing. Dieko Jruins

Ludwigstrasse 16 :. :: "'...".'". Schweinfurt * 3 £ 1 ß 1 ^ 1

vehicle drive with floating sail .

The invention relates to the propulsion of vehicles by wind energy with levitation sails that are connected to the vehicle are and pull it.

Wind energy is used to power water, land and air vehicles used.

Watercraft powered by wind energy are predominantly mast sailors whose sails are attached to the box and mast boom or are attached to a yard. These are movably connected to the mast, which is roughly in the middle of the vehicle.

The wind is caught in the sails and creates thrust forces that push the vehicle. The thrust forces are very different large, depending on the shape and size of the sails, their setting, the wind speed and the angle Wind and keel direction. The theoretical point of application of the thrust forces on the sail is called the pressure point. The spinnaker, a sail that is attached to the mast and bow, is set when the wind is aft. The resulting wind power pulls the vehicle.

The updraft creates a lateral force on the sail. Since this is theoretically at the pressure point, above the vehicle's center of gravity engages, a transverse force moment arises through which the vehicle heels; if it gets too big, it capsizes Vehicle.

A counter-torque counteracts this. Counter-torques arise, for example, from a deep, heavy one and large keel, through outriggers or a double hull.

ORiQiNAL! NSFi = CTED

Land vehicles are rarely done with a mast sail Wind powered. They run with wheels on rails or as a sled on runners. You seem to capsize contrary to the great width of the vehicle or great weight.

Gliders sail in the updraft from wind energy. Updrafts arise in front of elevations or through warming of the ground. Balloons reach their destination through the wind.

Box sailors have many disadvantages.

There is a risk of capsizing if the transverse force is too great, especially in cross winds.

In cross winds one must cross in order to reach the goal; Distance and travel time are increasing. At the turning points partial turns, jibes, are necessary, which is difficult and dangerous.

In the case of gusts, which are frequent on the surface of the earth, you cannot drive at all or only with the sail reefed, which means that you can drive more slowly.
A calm slows down the journey or the vehicle is stuck.

The thrust on the sail, which acts roughly in the middle of the vehicle and the lateral force on the sail make steering difficult.

The chest and sails require a lot of space on deck.

The operation of the sails is carried out by trained personnel on larger vehicles. The associated dangers are substantial.

usually
Box sailors are only used as coasters and for sport.

The present invention, vehicle propulsion with levitation sail, largely avoids the mentioned shortcomings of the hurrying sailors and improves the utilization of wind energy for vehicle propulsion.

The use of the hover sail is limited, as in Mast sailors on the use of the aft winch. Even if the wind direction deviates slightly from the To use the direction of travel if the associated drift of the vehicle is to be compensated for by the rudder, or it pays to use machine power for this.

Basic idea for the invention.

It is known that a sail rises in wind after the kite principle due to the buoyancy to a height that is given by the size and shape of the sail, the weight of the sail and tether, and the wind speed. The sail floats there and pulls a vehicle with it connected to it, with sufficient pulling force. With decreasing wind speed or calm the sail falls.

The purpose of the invention is therefore to hover the sail through a hovering device, regardless of the speed to hold at a certain height. A height · κΌη.> »50 m above the ground or Water surface. There is only little turbulence there, the wind speeds are constant and greater than on the surface of the earth.

ORIGIN

The invention is explained using FIGS. 1 to 3, for example.

The floating sail consists of four parts: the actual one Sail 15 is fastened in a sail frame 14 on which the levitation device and the tethers 13 a, b, c, d engage. The sail frame 14 can be a flexible tube or a hose that is filled with compressed air.

Floating devices can be balloons of all kinds, with a gas filling, helium, lighter than air, whose buoyancy is greater than the weight of the floating sail and tethers. The holding ropes 13 a, b, c, d run to the vehicle 10, where they are wound on cable drums 12 a, b, c, d which are rotated by hand or mechanically.
Changes in the length of all of the holding ropes 13 result in the height of rise h of the floating sail. By changing the length of the individual holding ropes, the sail is adjusted according to the wind conditions.

There are tanks or gas bottles on board the vehicle in which the light gas is stored under high pressure.

When there is a headwind, calm or idle times, the floating sail is hauled in, first with the rope drums, then through Empty the balloons by sucking off the light gas with a suction pump, which is stored in the tanks with a pressure pump will. Sails and the empty balloons are stowed on board in such a way that they take up little space.

Figure 1 shows a watercraft 10 on its front deck 11 there are four winches 12 a, b, c, d. From their rope drums the tethers 13 a, b, c, d run to the sail frame 14 to which the sail 15 is attached.

The hovering device consists of hoses 16 which are attached to the front or back of sail 15 gas-tight hoses 16 are filled with light gas or balloons filled with light gas are used in them «

FIG. 2 shows a sail 15 which is attached to the sail frame 14 is, from which the tethers 13 a, b, c, d run to the cable drums 12 a, b, c, d on the deck of the vehicle. The hover device consists of four light gas balloons 17 a, b, c, d parallel to the sail frame with which they are connected.

Figure 3 has a circular sail 15 with a corresponding Sail frame 14 and the articulated tethers 13 a, b, c, d. Two pins 21 located opposite on the sail frame grip in sockets 22 at the ends of bracket 20. The ropes around balloon 18 run together in eyelet 23, the pin 24 in a hole engages in the center of bracket 20.

The sail frame 14 is pivoted by inderning the rope lengths 13 a-d in a position that the wind conditions is equivalent to.

Balloon 18 can be a light gas balloon or a hot air balloon, whose burner receives the fuel via a hose from the vehicle.

The vehicle drive with swinging donkey has large tihniche and economic advantages for water, land and air vehicles of all kinds.

It is used in aft winds with deviations of up to - 60 °. It is advantageous to use the sail at heights over 50 m, because there the wind speeds are greater and more constant than on the surface of the earth and less turbulence occurs.

High wind speeds with large pulling forces can be safe be used as there is no risk of capsizing.

The use of the drive with floating sail is only limited by the strength of the individual parts.

Suspension sails require little space on board and are not a hindrance when loading and unloading.

During lay times and when driving with a motor, the suspension sail is hauled in with the cable winches and the balloons emptied. The light gas is stored in tanks or gas bottles. The sail and balloon are folded so that they are require little storage space.

Few auxiliary workers are required to operate the vehicle second hand; the work is easy and safe.

Hover sails and the necessary facilities can can be retrofitted to vehicles.

The use of levitation sails results in large amounts of fuel savings.

BATH ORIGINAL

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Claims (7)

Claims 1. Vehicle drive with floating sail characterized by that the sail fastened in a sail frame is brought to any height by a hover device, the wind energy present on the sail is transferred to the vehicle by holding ropes that attack the sail frame and the sail frame with sail by changing the length of the individual holding ropes from the vehicle by hand or mechanically is adjusted to the respective wind conditions. 2.Vehicle drive with floating sail according to claim 1, characterized in that the floating device consists of several, There are hoses attached to the sail surface, which are filled with light gas, or in which light gas balloons are used. 5 «Vehicle drive with floating sail according to claim 1, characterized in that the floating device has several Light gas balloons are arranged around the sail frame. 4. Driving vehicle drive with floating sail according to claim 1 thereby characterized in that the levitation device is a light gas balloon or a hot air balloon whose burner is used for Generating the hot air from the vehicle is fed with fuel gas through a hose. 5. Vehicle drive with floating sail according to claim 1 thereby characterized in that the sail frame with floating device and tethers is movable directly on the bow of the vehicle is attached. 6. Vehicle drive with floating sail according to claim 1 thereby characterized in that tanks or gas bottles are provided on board the vehicle, in which during the journey with motor drive and during idle times. the light gas under high pressure is stored, and suction pressure pumps with which the light gas is pumped from the tanks into the balloons or back. 7. Vehicle drive with floating sail according to the claims 1 to 4 and 6 characterized in that sail frames, sails. and hovering device with the tethers are to be hauled in, the balloons are deflated, the light gas in the tanks is printed, whereupon the floating sail is stowed on board to save space. BATH ORIGINAL