SU859670A1 - Wave driven powwer plant - Google Patents

Description

(54) WAVE ENERGY INSTALLATION

I

The invention relates to hydropower, namely to devices operating from wave energy, and in addition to wind power, namely to devices operating from wind energy.

A wave energy installation is known, comprising a power take-off device immersed below the water level, mounted on a housing with adjustable buoyancy connected to a pontoon.

However, the installation is known complicated. on and inconvenient to operate.

The purpose of the invention is to simplify the design and facilitate operating conditions.

The goal is achieved by the fact that the casing has a cylindrical shape and is provided with bases with holes, and the power take-off device is complete as a piston installed in the casing, connected by flexible coupling and springs to the pontoon and bases respectively. housing in the area of the turbine holes.

In addition, the installation is equipped with a balloon connected to the piston.

 FIG. 1 schematically shows a housing with a piston and turbines, a section; in fig. 2 - installation in water.

The wave energy installation consists of a power take-off device mounted below the water level, mounted on the housing 1 with adjustable buoyancy, connected to the on-wall 2. The housing has a cylindrical shape and is equipped with bases 3 and 4 with holes 5 and 6. The power take-off device made in the form of a spring 7 installed in the housing 1, connected by means of a flexible connection

20 8 and springs 9, respectively, with Pontane 2 and bases 3 and 4, and installation (mounted on the latter outside the housing in the area of the holes 5 and 6 of the turbines 10-

13. The installation is equipped with a balloon 14 connected to the piston 7 by means of a rope 15. The latter passes through an opening in the pontoon 2 and is attached to the flexible coupling 8 in the water, mostly closer to the pontoon than to the casing 1. Turbine impellers 10-13 placed near holes 5 and 6 in the streams of water passing through these holes, and partially closed with peaks 16, the housing is equipped with a float 17 mounted on the base 3 and providing zero buoyancy at a predetermined depth to the housing. The piston 7 is mounted for movement along the generatrix of the side surface of the housing 1, the springs 9 being stretched or partially compressed equally. Bendable link 8 passes through the central hole in the base 3,

The weight of Porsh 7 and Turbines 10 -13 provides the negative buoyancy of the hull.

On the upper cavity of the piston 7, a body 18 is installed, having a sealed air cavity 19, bases 20 and 21, and a side surface in the form of bellows 22. The base 20 of the body 18 is fixed on the piston 7, and the base is connected to the base 3 of the housing) with springs 23 stretched or compressed the same way.

Pontoon 2 is connected by rope 24 to raft 25, and the latter is equipped with a bark 26 and a root cable 27.

The installation works as follows.

The wave power plant is located in open water, while the pontoon 2 floats on its surface, and case I hangs on a flexible link 8 and is at a predetermined depth. The installation operates in the presence of waves or wind in the pond by changing the position of the piston 7 in the housing I, as well as the volume of the air cavity 19 of the body 18. Both result in the holes in the holes 5 and 6 of the housing 1 of the water rotating the turbines Y 10- 13.

The position of the piston 7 in the housing i changes when the flexible coupling 7 t is not up and then releases When the flexible coupling does not have the piston upward, the lower springs 9 are additionally stretched or their compression clears up and when released the housing 1, the spring 9 and the weight of the piston returns it to its original position in the housing, in which the resultant weight force of the piston 7 and the force of the spring 9 is zero. For a flexible link of 8 tons there is no pontoon 2 when the rowers rise; The flexible link does not have a balloon 14 when it is under the influence of a gust of wind. Flexible coupling. releases the piston 7 when the pontoon 2 descends from the crest of a wave or when the balloon 14 ceases to be under the influence of a gust of wind.

The balloon can pull over the flexible link 8, under the influence of a gust of wind, when the pontoon 2 descends from the crest of the wave, which prevents the movement of the piston 7 relative to the housing 1. Therefore, in case of strong agitation, it is expedient to release the cable 15 from the pontoon 2,

The volume of the air cavity 19 of the body 18 changes when the static pressure on the walls of the jug 19 changes, which is due to the change in the depth of the body 18 immersed in water. The last changes as when the depth of the housing 1 changes

the same relative position of the housing and the piston 7, and when the position of the piston changes in the housing and the same depth of immersion of the housing, while the movement of the piston 7

upward is associated with an increase in the volume of cavity 19, and its movement downward with a decrease in this volume. In both cases, the stretched springs 23 increase the volume of the cavity 19 and prevent this volume from decreasing, and the compressed springs 23 work inversely. The elastic bellows 22 acts as extended springs 23.

When moving upward relative to the housing 1 of the piston 7 or the base 21 of the body 18, water flows out through the holes 5.

At the same time, water flows into the housing through the holes 6. When moving downward relative to the housing 1, the piston 7 or. the base 21 of the body 18, water flows into the body cavity through the openings 5 and simultaneously flows out of this cavity through the openings 6. Water flows.

The holes 5 and 6 rotate the turbines 1013, while the visors 16 protect the passive vanes of the turbines, which are located away from the holes 5 and 6, from the action of water flows.

Claims (2)

The unit can operate in free navigation, in the drift of the pontoon 2 and hull 1. The connection of the pontoon to the raft 25 using a cable 24 and the installation of a raft on the bore 26 is used to keep the power station at a given place of the water body if there is current or wind in it power plants in the river. In this case, under the action of current and wind, the elements of the power plant occupy the position shown in FIG. 2. Plot 25 holds the pontoon 2 and the hull in a given place of the reservoir and at the same time it provides free lifting and lowering of the pontoon on the wave. The present invention allows the use of wave and wind energy to activate a low power power plant located in open water, without communication with land, such as far from the coast and at great depth. It also provides simplified construction and easier operating conditions. Claim 1. Volnov energy installation containing submerged under water level power take-off device mounted on the body with adjustable buoyancy connected to the pontoon, o. In order to simplify the design and ease the operating conditions, the housing has a cylindrical shape and is provided with bases with openings, and the power take-off device is designed as a piston installed in the housing and connected by means of a flexible coupling and springs to the pontoon and bases, and installed on the latter outside the housing in the area of the turbine openings. 2. Installation according to claim 1, characterized in that it is provided with a balloon connected to the piston. Sources of information taken into account in the examination 1. USSR patent 10666, cl. F 03 B 13/12, 1928 .. , 2 Figg