DE102009012115A1 - Wave power station for converting kinetic energy of sea water waves into human-usable mechanical energy to e.g. generate current, has pairs of surface floats and underwater float simultaneously installed at shaft, and bearing connections - Google Patents

Abstract

The station has a drive shaft (AW) and a retraction and unwinding device (AA) that are fixed on a base plate (GP) made of reinforced concrete and provided at a bottom portion of the water. Bearing blocks (LA) are attached on the plate for receiving the drive shaft with the retraction and unwinding device. Underwater floats (US1-US3) are fastened to the retraction and unwinding device (AA) by a flexible connection (FV). Multiple pairs of surface floats (OS1-OS3) and the underwater float are simultaneously installed at the shaft. Rotatable bearing connections (LV) are provided.

Description

State of the art

It I am not aware of any device of this type.

Novelty of this technical contraption

With This technical device becomes kinetic energy of wave motion of waters, in particular marine waters converted into mechanical energy.

The A novelty is the use of float bodies, which increase their buoyancy via flexible Convert connections (ropes) into mechanical energy. It is located a float body on the water surface and follows the amplitude of the swell and another float body is located get underwater and pick up the flexible connection (eg rope) the surface swimmer again when it moves towards the trough. This process Repeats at each shaft passage.

Various Water levels, due to the tides or increased swell, be through the variably adjustable length Flexible Connections (FV) to surface floats (OS) as well as to the underwater swimmer (US) automatically compensated. This is the plant insensitive to high waves The wave power plant can be used both near and off the coast to be mounted in the open sea.

Technical task and objective

The Invention aims at the kinetic energy created by waves of waters in for the Convert people to usable mechanical energy.

aim is to make the kinetic energy of waters as easy as possible in usable to convert mechanical energy.

description

The Kinetic energy from water waves can pass through this wave power plant be converted into mechanical energy.

Of the surface float (OS) floats on the water surface and is over one flexible connection (FV) with a roll-off device (AA) connected.

These Device is in turn coupled to the drive shaft (AW) and is at the bottom of the water anchored.

Of the Underwater swimmer (US) is also using a flexible connection (FV) attached to the roll-off device (AA).

Of the surface float (OS) moves with the swell d. H. he is swimming from the trough up to the wave mountain. Due to its buoyancy, the surface float pulls (OS) on the leading to Ab- or retractor (AA) flexible Connection (FV). about a drive mechanism, the drive shaft (AW) is made to rotate. In this upward movement of the surface swimmer (OS) is simultaneously the underwater swimmer (US) down drawn.

Of the Underwater swimmer (US) stops with its buoyancy force the flexible connection (FV) between surface float (OS) and retractor (AA) always on tension.

Emotional the surface float (OS) back from the wave mountain to the wave trough, so is by the buoyancy of the underwater swimmer (US) the flexible connection (FV) of the surface float (OS) to tension held.

there becomes an opposite one Rotation on the Ab- or retractor (AA) generated in this direction runs on the drive shaft at idle.

By the mutual unwinding and rolling up of the flexible connections the drive shaft is driven. This can be z. B. over a Ratchet mechanism done.

Several Pairs of surface swimmers (OS) and underwater swimmers (US) can simultaneously at one Drive shaft to be mounted.

Thereby can, due to the waves, a continuous rotational movement the drive shaft (AW) can be achieved.

Around upon rotation of the float body a simultaneous rotation of the flexible joints in the longitudinal axis To avoid rotatable bearing connections are used.

Of the Underwater swimmers (US) should only tension for tensioning and for rewinding the flexible connection of the Surface Floater (OS) produce.

About the Drive shaft can Depending on the needs, a wide variety of devices and machines are driven be z. As generators, pumps, compressors, etc.

One Functional diagram is included.

LIST OF REFERENCE NUMBERS

OS

surface float Material made of stainless steel or plastic resistant to corrosion in any case.

US

Swimmer Material made of stainless steel or plastic resistant to corrosion in any case.

FV

flexible Connection (rope) material made of stainless steel or plastic on each Case corrosion resistant.

AW

drive shaft Material made of stainless steel or plastic resistant to corrosion in any case.

AA

From and retractor (pulleys) Material made of stainless steel or Plastic, corrosion resistant in any case.

LV

bearing joints Material corrosion resistant

GP

baseplate Material reinforced concrete or corrosion-resistant material

All need other components also made of corrosion resistant Materials exist.

Claims (1)

Wave power plant for converting the kinetic energy of water waves into mechanical energy, 1.1 characterized in that a surface float (OS) floats on the water surface and this is connected via a flexible connection (FV) with a roll-off device (AA). 1.2, characterized in that this Ab and retractor (AA) is in turn coupled to the drive shaft (AW). 1.3, characterized in that the drive shaft (AW) and the unrolling and retracting device (AA) is anchored on a base plate (GP) made of reinforced concrete or other construction at the bottom of the body of water. 1.4, characterized in that on this base plate (GP) bearing blocks (LA) for receiving the drive shaft (AW) with the unwinding and retracting device (AA) are mounted. 1.5, characterized in that the underwater swimmer (US) is also secured with a flexible connection (FV) on the unwinding and reeling device (AA). 1.6, characterized in that the unrolling and rolling device (AA) consists of two suitable for winding and unwinding of flexible connections pulleys, for the surface swimmer a pulley and for the underwater swimmer a pulley. 1.7 characterized in that the two pulleys are rigidly connected together by a hollow shaft, tube or other rigid connection. The distance between the two pulleys depends on the water depth and the flow. 1.8 characterized in that the unwinding and retracting device (AA) is pushed over the drive shaft (AW) and is coupled to an integrated driver mechanism or a ratchet device with the drive shaft (AW). 1.9, characterized in that the surface float (OS) moves with the waves, ie he swims from the trough high to the wave crest. Due to its buoyancy force, the surface float (OS) pulls on the flexible connection (FV) leading to the unrolling device (AA), whereby it is unrolled. 1.10, characterized in that the drive shaft (AW) is thereby brought about the integrated driving mechanism for rotation. During this upward movement of the surface float (OS), the underwater float (US) is pulled down at the same time and its flexible connection (FV) is rolled up again. If the surface float (OS) moves back from the wave crest to the wave trough, the buoyancy of the underwater float (US) rewinds the flexible connection (FV) of the surface float (OS) and unrolls the flexible connection of the underwater float (US). In this case, an opposite rotation of the unwinding or retracting device (AA) is generated, which runs in this direction on the drive shaft at idle. 1.11 characterized in that by the reciprocal up and down movement of the two floats (OS + US), also a mutual unwinding and rolling up of the flexible connections (FV) arises. This drives the drive shaft. This can be z. B. via a ratchet mechanism. The underwater swimmer (US) should only have the necessary buoyancy to roll up and tension the surface joint (OS) flexible joint (FV). On the other hand, the surface float (OS) can be chosen as large as you like. 1.12, characterized in that several pairs of surface swimmers (OS) and underwater swimmers (US) can be mounted simultaneously on a drive shaft. As a result, due to the waves, a continuous rotational movement of the drive shaft (AW) can be achieved. 1.13, characterized in that upon rotation of the float body, a simultaneous rotation of the flexible connections in the longitudinal axis is avoided, rotatable bearing connections (LV) are used.