NO813441L - PROCEDURE AND DEVICE FOR CHANGE OF CHILD ENERGY - Google Patents

Abstract

Method and device for converting energy into an energy form that can be utilized for useful purposes in practice. The device comprises an elongate body (4) which is provided along its outside with longitudinal vanes (2) arranged at angles with the radial direction of the body, at least in the outer portions of the vanes. The vanes form chambers which are delimited axially by means of partitions (3) which extend around the circumference of the body and are arranged at angles to the vanes. The vanes have a greater water displacement on one side of the longitudinal axis of the body than on the other side of the longitudinal axis, so that the body is brought into rotational motion by wave motions when anchored in water with its longitudinal axis substantially level with the water surface.

Description

Method and device for converting wave energy

The present invention relates to a method and a device for converting wave energy into a form of energy that can be used for practical purposes, in particular for converting wave motion into a rotary motion.

People have long tried to utilize the energy contained in it

waves at sea and on lakes, and during such experiments one has most often sought to utilize floating bodies that are firmly anchored to the seabed or the bottom of a lake, or possibly floating bodies whose mass inertia is utilized to transform the wave energy into another form of energy that can be utilized for practical purposes. Most of the for-

research that has been done so far to transform wave energy into a usable form of energy has, however, led to several disadvantages, as the structures produced have been complicated and costly, while their ability to efficiently transform the wave energy has been limited.

The purpose of the invention is therefore to achieve effective transformation of the wave energy into another form of energy by means of

of a device of extremely simple and robust design.

This purpose according to the invention is achieved by a method for transforming wave energy into an energy

form that can be utilized in practice, and whose distinctive features will

go off claim 1.

To carry out this method also includes the invention

a device for converting wave energy into a form of energy that can be used for practical purposes, the device comprising an elongated, preferably cylindrical body which is provided with longitudinal vanes on the outside, while the special features of the device according to the invention are as stated in claim 3.

The invention will now be explained in more detail with the help of an illustrative example and with reference to the attached drawings, whereupon:

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Fig. 1 shows a device according to the invention seen from the side and anchored in a floating state on the surface of a sea area or a lake, Fig. 2 shows part of the device in fig. 1 seen from the side, and Fig. 3 shows the device in Fig. 1 set from one outer end.

Figures 2 and 3 are shown on an enlarged scale.

In fig. 1, the device for carrying out the method of the invention in its entirety is denoted by the reference number 1 and shown floating on the surface of a sea area or a lake where waves occur. The device is anchored by means of bottom plinths A and B and lines a and b connected to these, so that the device's longitudinal axis lies at the water surface and runs at a certain angle to the present direction of the wave fronts. As a result of this, the mooring forces will be small, while the device will tend to set itself in a favorable working position in relation to the direction of propagation of the waves. It may be sufficient to provide an anchorage at only one end of the device and not at both ends as shown here.

The device comprises a cylindrical body 4 with vanes 2 which extend axially along the body and project from this at an angle with the radial direction, the outer parts of the vanes being deflected at a certain angle. However, the vanes can also be arranged flat and/or with curvature. They can also be made with a rise along the outer surface of the body, which is particularly advantageous if the device according to the invention is to work in breaking waves, as a device made in this way allows the transformation of some of the "horizontal" kinetic energy in the waves to rota-sion movement.

Partition walls 3 are arranged radially and protrude from the body around its entire circumference with mutual axial spacing. However, the partitions can also be arranged at an angle other than 90° with the vanes, which means radially, as they e.g. forms an angle of the order of 30 - 50° with the vanes.

In the construction described above, the device with its longitudinal vanes and transverse partitions forms chambers which are delimited between the vanes and have greater water-displacing ability on one side of the body's longitudinal axis than on the other side of this axis, so that the device in the event of a wave movement in the mass of water where the device is placed on the surface will offer different resistance to the wave movement on the two sides of the device, so that a resulting torque arises in one direction of rotation. The device is thus rotated by the wave motion all the time

one and the same direction of rotation, so that the wave energy that is taken up by the device and transformed into rotational energy, e.g. , can be utilized for the production of electrical energy. In other words, the design of the vanes on the device according to the invention is such that when the vanes are affected by masses of water in successive waves, a greater lifting force will be exerted on one side of the device, namely the right side 2a in fig. 3, when the wave movement is directed upwards in relation to the device, as a mass of air will then automatically be trapped in the spatial areas delimited by the vanes and partitions. In the case of a downward wave movement in relation to the device 1, the water that is in the vanes will rise above the water surface on the left side 2b in fig. 3 contribute to a reinforcement

of the torque in the direction of rotation.

According to the invention, the length of the device can be suitably chosen so that it exceeds the wavelength of the waves with which the device cooperates in an optimal way, which also means that the device will rotate with an irregular wave pattern with little variation in the rotation speed.

The reaction forces that arise from the device's rotational movement can be absorbed by a floating platform that is stationary anchored or by a structure that is firmly connected to the bottom. The stator of an electric generator is then placed on the platform or structure firmly connected to the seabed, while the generator's rotor is connected to the rotating body. It will also be possible to join two bodies which are arranged for rotational movement in opposite directions. In such a case, the stator of the generator is connected to one body, while its rotor is connected to the other body.

Hole 5 can be arranged in the vanes 2, as shown in fig.

3, so that air can pass under the vanes on side 2a when the device is moved upwards. As a result of the fact that air can pass through the blades, these will more easily release the water present on the underside of the blades. This water can otherwise exert a braking force on the rotating device. However, water cannot pass through the holes 5 as easily as air, and for this reason the openings will act as one-way valves. The openings 5

however, can still be equipped with valve bodies that open on the side of the device that moves upwards, but close when they reach that side 2b (fig. 3)

of the device moving downwards. These valve bodies can consist of a flap in one form or another.

The device according to the present invention is thus made up of a single movable body which e.g. can be connected to an electric generator directly or via a simple transmission. The device can be given an uncomplicated shape/which ensures a simple and robust construction with great rigidity,

as well as suitable for production in large series of cheap material. The device according to the invention can also be designed so that it can withstand storms and is even able to absorb energy from storm waves.

It can be added that the device can be mounted in a structure attached to the seabed with the longitudinal axis of the body mainly at the level of the water surface. The body thus does not necessarily have to be a small body. Nor does it have to be a body of revolution, but can have a polygonal shape.

Claims (8)

1. Method for converting wave energy into a form of energy that can be utilized for practical purposes, characterized in that an elongated body with longitudinal vanes that exhibits greater water displacement capacity on one side of the body's longitudinal axis than on the other side of the longitudinal axis, is anchored in a body of water with the longitudinal axis mainly level with the water surface (Fig. 1). 2. Method as stated in claim 1, characterized in that the body is arranged with its longitudinal axis at angles to the current direction of the wave fronts. 3. Device for transforming wave energy into a form of energy that can be utilized in practice by carrying out the method stated in claim 1, the device comprising an elongated, preferably cylindrical body (4) which is provided on its outside with longitudinal vanes (2 ), characterized in that the vanes (2) are arranged at angles to the body's radial direction, at least with their outer parts, in order to form between the vanes chambers with greater water displacement capacity on one side of the body's longitudinal axis than on the other side of the longitudinal axis, as these chambers in the axial direction are delimited by partitions (3) around the circumference of the body and arranged at angles with the vanes. 4. Device as stated in claim 3, characterized in that the vanes are arranged with a rise along the outside of the body (4). 5. Device as specified in claim 3 or 4, characterized in that the body (4) is designed as a floating body. 6. Device as specified in claims 3-5, characterized in that the length of the device (1) exceeds the length of the waves. 7. Device as specified in claims 3-6, characterized in that air openings (5) are arranged in the vanes (2). 8. Device as stated in claim 7, characterized in that the air openings are provided with one-way valves arranged to open in the part of the body that moves upwards to admit air under the vanes.