DE3535431A1 - Wind energy extraction system - Google Patents

Abstract

The wind energy extraction system, "Wega", which as a wind power machine converts wind energy into other forms of energy, utilises the energy of the wind in that in a blade, which is mounted on a frame capable of rotating in the wind direction, fully rotating sails are opened up at short intervals one after another on the upper end of the machine, which is turned to the wind, as a result of which, driven by the wind, they are moved along on the longitudinal side of the machine, to be folded together and retracted at the other end and moved back behind a wall into the necessary starting position for opening up, thereby resulting in only a low energy cost. In appropriate wind conditions an energy surplus is produced at each full rotation of the sails. The wind energy extraction system lends itself to either fixed operation or mounting on a suitable object for changing its location, the wind direction possibly differing from the direction in which the object is being shifted. A ship, for example, could then be driven by utilising the wind energy even if it were running against the wind.

Description

Exploiting the wind to generate energy so far done by using sails by Sails are firmly attached to the object, so that a direct transfer of energy to the Object takes place and this - through the Predefined wind direction - in a certain direction is moved.

Exploitation of the wind to generate energy through Use of sails can also be done without the object propelled by the sail is a place change in the wind direction. This happens through the use of a wind power generation plant - hereinafter referred to as "Wega" -:

In a closed round run Fig. 1, 2 and Fig. 2, 2 move along a long partition Fig. 1, 4 u. Fig. 2, 4 behind the other at equal intervals sail Fig. 1, 5 u. Fig. 2, 5 , the top and bottom of chain link belts Fig. 1, 6 u. Fig. 2, 6 are performed. When the individual sail is brought into the wind, which occurs at the beginning of the long side of the partition facing the wind Fig. 1, 4 of the Wega Fig. 1, 7 , the sail is opened and driven along by the wind on the longitudinal side of the Wega - short Called "wind ride" -. A shaft, which is used for energy transmission, is rotated over the chain link belts. At the lower end of the long side of the Wega, the single sail is folded in Fig. 1, 8 and behind the partition attached over the entire long side of the Wega Fig. 1, 4 u. Fig. 2, 4 move back to its necessary for the implementation of the wind driving position - called by the following referred to as "return" -.

There is no influence from the Wind on the sails, so that only a small one Energy expenditure is required.

The Wega Fig. 3, 9 is movably mounted so that it can be rotated in the required position to the wind direction Fig. 3, 24 Fig. 3, 10th This means that the Wega can be operated both stationary and mounted on an object that is suitable for changing its location, whereby the wind direction can differ from the direction of the change of location of the object:

A ship e.g. B. would then also by exploitation of the wind energy can be driven if it is lead against the wind.

The main sails arranged in succession during the return journey, FIGS . 1, 11, are individually driven to the reversal point, FIGS. 1, 12 , which is located in the wind direction at the front and is protected on the outside by a covering, FIGS. 1, 13 . When the reversal point Fig. 1, 12 is exceeded, the further travel movement now takes place backwards in the opposite direction. . During the passing of the reversing point Figure 1, 12 is the main sail Fig 1 is 14 back -. Angles to the wind direction - out through a distributor Fig 1, 15, which automatically depending on the wind conditions -. Due to the use of an anemometer Figure 2, 16. - or by manual control, the individual sail is opened, which starts the wind ride. In wind conditions that could endanger the system or when there is no wind, the individual sail is automatically or due to manual control unfolded on the long side of the partition Fig. 1, 4 and a protective wall Fig. 1, 18 u. Fig. 2, 18 driven along Fig. 1, 17. This trip in the unfolded state and the subsequent return trip takes place in chain link belts that form a closed round run Fig. 1, 1st If the sails - caused by the distributor Fig. 1, 15 - unfolded, the transfer from this 1st closed round run Fig. 1, 1 into the 2nd closed round run by the main sails are guided Fig. 1, 2 and at the same time in the 3rd closed round run by guiding the additional sails Fig. 1,3. Each main sail Fig. 1.5 u. Fig. 2.5 contains a pull-out additional sail Fig. 1,19 - held by springs. Fig. 2.19.

Depending on the wind conditions, the 3rd closed round run Fig. 1, 3 by the additional sails Fig. 1, 19 run over a verbun with the partition Fig. 1, 4 z. B. operated by a spring Fig. 1, 20 expandable bracket Fig. 1, 21 u. Fig. 2, 21 automatically - caused by the use of an anemometer Fig. 2, 16 - or due to manual control extended or retracted, whereby all additional sails in the round running Fig. 1, 3 are simultaneously stretched accordingly or fully or partially retracted .

At the end of the wind ride the individual additional sails, since the 3rd round run, which leads the additional sails Fig. 1, 3 , the 2nd round run, which leads the main sail Fig. 1, 2 , crosses Fig. 1, 25 , completely behind the respective main sail withdrawn. The main sails are now only guided in the 2nd round run Fig. 1, 2 provided for them when driving in wind and then folded down so that they have reached the position Fig. 1, 22 required for the return trip, being in the position for the return trip provided 1st round run Fig. 1, 1 are transferred. The spring mechanism Fig. 1, 20 also causes the automatic or manually controlled start of wind travel when the Wega z. B. had been stopped due to adverse wind conditions.

The 3 existing closed runs of the chain link belts Fig. 1, 1, 2, 3 to which the sails are guided all around are of equal length. They run at the same speed so that the 3 self-contained movements of the system are synchronized with each other. The 2nd round trip Fig. 1, 2 - it leads the main sail - and the 3rd round trip Fig. 1, 3 - it leads the additional sail - together with the partition Fig. 1, 4 form the scaffolding of the Wega. The individual run can - in relation to the sail horizontally - z. B. be covered with canvas Fig. 2, 23 to achieve a more favorable use of wind forces.

The Wega can be designed as a kit to to achieve easier transportation and around part of the assembly work to the recipient to be able to wear.

To be able to meet certain needs, should Units of different sizes - including z. B. very small units - to be provided.

If necessary, several z. B. 3 Wegas Fig. 3, 24 can be mounted on a frame which can be rotated in each case in the wind direction Fig. 3, 10th The frame is z. B. placed on a ship so that it can be held in a horizontal position.

Claims (2)

1. Wind power generation plant - Wega - as a wind engine that converts wind energy into mechanical or electrical energy - in contrast to processes in which the conversion takes place using wind turbines, air turbines or sails, the sails being connected to the object in such a way that Always carry out the same change of location of sail and object, characterized in that the Wega consisting of one wing - whereby several similar wings can be arranged in parallel next to each other - on a frame which can be rotated in the direction of the wind - always held in a horizontal position on a surface which changes the horizontal position is - is mounted and the wind energy is exploited by the fact that in the wing in short intervals around circumferential sails at the upper - the wind-facing - end of the machine, the surface of which can be doubled by additional sail, are opened, whereby they, by driven by the wind are moved along the long side of the machine, then folded at the other end and retracted and moved behind a wall to the starting position required for opening, which means that little energy is required, so that - in appropriate wind conditions - with everyone full circulation of the sails an energy surplus is generated, regardless of which direction of change of location z. B. strikes with this energy driven object. 2. Wind power generation plant - Wega - according to claim 1, characterized in that 3 separate for the sails from each other, of equal length, with chain links, equipped sails that run the sails  are present in which the sails by a Distributor from one round to the other be transferred, whereby - the wind conditions accordingly - automatically - controlled by an anemometer - or by manual control the unfolding or non-unfolding of the sails, stopping or starting the machine is effected.