DE2756434A1 - Water wave energy utilisation system - has floats arranged in pattern deflecting waves obliquely onto each other - Google Patents

Abstract

The system which uses the energy of water waves, has a large number of floats arranged to a predetermined pattern on the surface of the sea. The pattern is such that a first float is situated obliquely to the rear of a second one when seen in the direction of a first pressure movement of a mass of water, and the intervals between floats are such as to deflect a first water pressure wave obliquely, while the second float deflects it forwards and rearwards so as to strike the first one. This causes the first wave to collide with a second one. Each float is also so shaped as to deflect a wave obliquely towards one behind, so as to make full use of the remaining wave energy. Each float can be coupled to a lever, so that its up-and-down movement is converted into mechanical energy.

Description

Method and device for coping or training

use of water wave energy it is up to the time of the present Invention has generally been believed that when a sequence of from one another spaced apart floating elements is subjected to existing rows of water waves, the waves successively on the floating elements in the successive Rows hit, the first row intercepts the main amount of wave energy and that the following rows only intercept the remaining wave energy that is not of great use because it depends on the changing upward and downward movement of the following swimming elements originates.

According to mathematical calculations, decreasing resp.

weakening movements are determined and thus predictable Expected amounts of energy were considered insignificant, although nil up to one such a degree of insignificance as any commercial potential for industry and / or for public applications or the like could be given.

In principle, the object of the present invention is to Creation of new methods and devices for improved or more effective Coping with or using the water wave energy. Related experiments were carried out with artificial and controlled waves, the simulation of which denotes the Sea and ocean waves fully corresponded.

In detail, further tasks result from what was mentioned at the beginning Facts and from the following disclosure of the invention.

In a broad sense, the invention can be used as a method for coping or

Exploitation of water wave energy can be considered. The term "wave" is supposed to contain the main mass of water pressure waves that are below the water surface e.g. in the form of basic manure or other currents in water pressure waves, caused by natural and / or artificial seabed obstacles and / or guide surfaces or baffles arise, as well as surface waves, which everyone conventionally knows as waves.

A large number of swimming elements are used to achieve the desired goal arranged, in staggered relation in both sides and back spaced shape, the distance being used for most effective results is pre-determined by careful calculation, preferably in such a way that the exact The angle of deflection of the water pressure waves and their angle of incidence are chosen so so that the waves adequately against the laterally and rearwardly spaced others Hit or drive floating elements. This will give the unexpected result achieved that the by the rear floating elements (and preferably in at least one Embodiment, as mentioned above, also due to the laterally offset elements) or usable amount of energy is present in an unexpectedly large extent than it could be determined by previously known mathematical calculations. Also will for the rear floating elements a greater height of movement or lifting height is achieved in the Compared to earth elements of the first or first two rows of elements (the Lifting height is an indicator of the amount of greater usable energy). This The result achieved was completely unpredictable for the inventor and also for experts.

Although the theoretical basis has not yet been clarified to the inventor appear, there is the impression that the deflected pressure waves or water waves based on at least three different original sources, namely 1. as a result conventional reflection or deflection after the initial wave for example hits the first or leading floating element, 2. as a result of turbulence, when the wave precedes an upward movement of the floating element, which is lagging behind, since it must be lifted sufficiently by the shaft, the lift being sufficient has increased to overcome the downward pressure of the workloadXand 3rd of the Floating element himself, the one on his lever arm temporarily on the The peak of its stroke remains until the water of the wave has sunk sufficiently is so that a gravitational force on the element mass (including lever mass and so on) is sufficient to overcome the workload that tends to 'that Element and the lever in the raised position at the height of each last stroke. The turbulence that occurs below the swimming element or one Mechanism that bridges the gap from the water to the element during the aforementioned third cause takes place with the element at its peak for a moment the stroke persists and then swings down to turn water completely to displace, as well as a greater moment and a greater acceleration cause a greater inertial force which increases the length of the stroke as well creates additional water pressure forces, which then act on the neighboring, at a distance arranged floating elements act.

To further increase the yield together with the aforementioned Use of a predetermined arrangement pattern from a large number of floating elements Some diversion devices are provided which give exceptionally good results cause. E.g. a seabed barrier deflects water currents upwards to avoid the Stir or swirl water through. More distractors help through their vertical ones Placement on or near the seabed, the waves and the bulk of the water more accurately or better aimed at many swimming elements when the stroke and or the direction of the waves andZ or water currents on the pattern of the arranged floating elements naturally from one less Desired direction should come, thereby reducing the amount of movement through the elements The energy provided is increased.

In another preferred embodiment, the levers are the individual Sdhwimmelemente linked together to form a common drive, wherein Slip clutches are used in such a way that normal all to overcome contribute to the load (workload), and furthermore in such a way that a drive rod of one or more floating elements follows or follows them and on the other hand feeds into the rotary movement of a common drive shaft.

The invention is obviously not limited to shaft drives unified type or simple type, but can also be made to any desired conventional system can be used, as it is also possible that each floating element can have its own support structure, which in turn has its own electric Generator is connected. The invention is illustrated below with reference to schematic drawings for example explained in more detail. They show: FIG. 1 schematically and partially Representation of a perspective view of an extensive sea or ocean area, being 'floats that are at upright and upwards extending Levers are mounted, can be moved up and down along their extended axis by the action of waves and water pressure waves, which individually affect the floating body act, which form a unit for collecting the mastered water energy. In this Figure are also sea floor waves and turbulence devices as well as deflection devices indicated for the main mass of the water, the latter in their setting direction are changeable.

Figures 2, 3 and 4 correspond to schematic arrangements and shapes a multitude of swimming elements or swimming units with known directions of movement of waves, their lifting movements and / or tidal currents or the like in Arrow representation are assigned, the representations in the upright section are shown.

Figure 5 shows the position of a floating element when the water flows back from this, the element remaining partially suspended until the water is sufficient for the mass of the element and other associated masses has flowed back to cause the element to swing downward. For this are the typical directions of water currents given as they pass through use photographic means have essentially been identified.

FIG. 6 shows a schematic representation comparable to FIG. 5, with the floating element in the position at the climax of the downward stroke, nach'dem the wave water in the moment before the upswing of the swimming element has started to rise, with the water turbulence shown at times is as it has essentially been ascertained photographically.

According to Figure 1, a set of a plurality of floating elements is provided, such as the set 7 of floating elements 10. The set includes front floating elements 11, rear floating elements 12, a seabed deflector 13, which in the underwater area 9 of the body of water 8 is shown, further turbulators 14 and 15, an adjustable one horizontal deflector 16, by the control and drive motor shown schematically 19 is actuated, arms 20 for the floating elements, common drive rods 21 and further a common machine facility 22 on the strip of land 37.

The bulk of the water 8 normally flows in that direction 23, but can also flow in direction 24 at other times.

In the case of the direction of flow 24, the water will flow through the deflector 18 deflected by a deflection unit 17 in the direction 25. The establishment 17th contains several individual deflectors 18. The below the water surface according to the Water flowing in direction 26 is deflected upwards at an angle in direction 27, and the water flowing in directions 28 and 30 becomes below the surface of the water through the deflector 14 in the direction 31 and through the deflector 15 in the direction 29 steered. Surface water waves moving in direction 32 result in remaining water pressure waves 33 and 34, which hit the surfaces accordingly 35 and 36 hit.

Figure 2 shows a coastal strip 37 'with the water area 8', in which a set 38 of spherical floating elements is provided in the arrangement shown is, where the direction of waves, currents or the like is indicated by an arrow is specified.

FIG. 3 shows a coastal strip 37 ″ with the water area 8 ″ in which a set 39 of floating elements is provided, which is relative to the main mass the water flow shown are arranged, and with the already explained, remaining deflected waves.

FIG. 4 shows a set 41 in a water area 8 "'with swimming elements 40, which are square or rectangular in plan and which in relation are arranged on a coastal strip 37 '' 'around the flowing in the direction 42 Water or waves moving through the corner 43 of the square shapes of the Swimming elements 40 split.

Figure 5 shows a floating element 44 on the water level 45 and with Turbulent water flow directions 47 and 48, which differ as the waves flow back result, as well as a burden 46.

Figure 6 shows a floating element 44 'with an elevated water level 45 'before the element moves upwards and further shows the deflected water turbulence 50 and 52 as well as the normal flow direction, which is usually the direction 49 corresponds.

Another direction of water movement is denoted by 51.

It is within the scope of the invention to make changes expected from a professional.

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Claims (6)

Experience demands for coping with or using water wave energy, characterized in that a plurality of floating elements according to a predetermined Pattern is arranged in the sea water, the individual elements according to pattern Staggered in a predetermined manner and arranged at a predetermined distance from one another are, such that a first floating element with respect to a second element and with respect to a direction which is substantially in the straight direction of the first pressure movement a body of water, is spaced obliquely backwards that the predetermined Distances between the individual floating elements within an area so chosen be that they are sufficiently small and large enough to generate a first pressure wave to deflect obliquely in the water and from the second floating element at least once to steer backwards and forwards in order to then against the first floating element bump, the first pressure wave at least partially coinciding with another pressure wave meets in the water, and that each floating element is given a predetermined shape and mounted so that the first pressure wave is in the direction of the aft flotation element is deflected obliquely, whereby the residual energy of the wave can be used. 2. The method according to claim 1, characterized in that the floating elements be connected to a lever device in such a way that the upward and downward movement every element is transformed into a driving, controlled force, at least that an organ of a machine combination drives, and that the energy of the waves and that of the pressure waves is converted into mechanical energy by means of the lever device will. 3. Apparatus for performing the method according to claim 2, characterized characterized in that lever means for converting the upward and downward movements each floating element is provided in a controlled driving force, the Lever device is connected to the floating elements in such a way that the wave energy the main mass of the water is converted into mechanical energy of the lever device will. 4. Device for coping with or using water wave energy, characterized in that a plurality of in a body of water according to a predetermined Pattern to be arranged floating elements is provided, the pattern according to each other spaced predetermined relationship and at predetermined intervals are arranged from each other, with at least one rear floating element in relation displaced obliquely backwards on a front element and with respect to one direction of a substantially linear direction of a first energy pressure movement the Water mass is arranged and wherein the predetermined distances within a Size range are chosen that is sufficiently small and sufficiently large, such that that a first wave of pressure energy of a main mass extends from front to back moving water, moves away from a front swimming element, to then against to push a rear one of the floating elements, at least partially with another Pressure energy wave meets in the water, and that each floating element one Has a predetermined shape and is arranged so that the first pressure energy wave is deflected obliquely. 5. Device for coping with or using water wave energy, characterized in that a plurality of it in a body of water according to a predetermined Pattern to be arranged floating elements is provided, according to the pattern at least one of the rear floating elements from other elements by predetermined distances is remotely arranged so that each floating element has a predetermined shape, such that a pressure wave of the main mass of the moving from front to back Water is deflected obliquely backwards by a front floating element then to hit against at least one rear floating element, which is at a distance of a barrier acting on the main body of the water is provided for the floating elements which is essentially perpendicular to the direction of movement of the main flow of the main body of water and ink terms of theirs Deflection surfaces is arranged so that the Main body of water is deflected in the direction of the floating elements, and that the Barrier has the mentioned deflection surfaces as parts of deflection elements and can be fixed on the seabed and is adjustable in terms of its performance. 6. Device for coping with or using water wave energy, characterized in that a large number of in a body of water according to a pattern to be arranged floating elements is provided, according to the pattern at least one rear floating element spaced obliquely rearward with respect to a front element is and in this distance relationship has predetermined intervals that each floating element has a predetermined shape such that a pressure energy wave of a main mass of the front-to-rear moving water from a front flotation element is deflected obliquely backwards in order to then against a rear floating element encounter that at a distance from the swimming elements one on the main mass of the water acting barrier is provided which is substantially perpendicular to the direction of movement the main flow of the main body of water and so with regard to their deflecting surfaces is arranged that the main body of water is deflected in the direction of the floating elements that the barrier has the mentioned deflecting surfaces as parts of deflecting elements has and that the Barrier anchored in the sea floor protrudes from the sea floor and is substantially rounded in horizontal cross-section is trained.