ES2234419B1 - ENERGY PRODUCED BY OLAS DEL MAR. - Google Patents

Abstract

It is an installation configured with a hydraulic cylinder anchored at the bottom of the sea, in a horizontal or vertical inclined position, which by means of buoys allow the buoys to move and compress the cylinder with the difference in wave height, producing a pressure that It can be used to drive the water at high pressure to the desired point and this energy can be transformed into: 1- Producing electrical energy. 2- Produce hydrogen. 3- Transform salt water into desalinated water. 4- Other possibilities that are feasible.

Description

Energy produced by sea waves.

Object of the invention

The present invention, as expressed in the statement of this specification refers to consider that it is possible to harness the force of the waves of the sea, by use of floats and hydraulic cylinders to send water at great pressures to the coast, through pipes, and once there We can do the following:

one-

Produce electric power

2-

Produce hydrogen.

3-

Transform salt water into water desalinated.

4-

Other that are feasible.

Background of the invention

Indeed, they have known each other for a long time various systems of installations for energy production electric as the constant concern of find the cheapest means possible to activate these facilities, means that in most cases are in the Nature, as they are: The force of the water and the force of the wind, the which are used to obtain a rotating movement with which conventional electro-generating machines move.

Good example of these systems to produce energy through a rotating movement are: reservoirs and their corresponding dams, in which the force of the water serves to drive turbines that, through them power generating machines; another example known would also be rotary devices with blades that used to produce energy through the wind and finally another system to get energy through a rotating movement, It is through the well-known explosion engines.

All of them require very high investments, and also present problems of various kinds, an example of this is that to create water reservoirs, it has even had to reach cause the disappearance of some people, also in Spain they work only most at medium performance, or are most of the time stops, due to the already known problems we have of drought; with the wind system getting that energy is very irregular, because it only works from a certain force of the wind, and we don't always have it., and with the engines of explosion we get energy but through providing you fuel to produce it, and also produce a large pollution.

There are also other facilities to produce energy, are through unnatural forces and without taking advantage of natural rotating movements, is the case of known nuclear power plants with their known radioactivity problems causing serious diseases, produce waste that would take time disappear a few thousand years and are extremely dangerous in many aspects and produce great pollution, very harmful For our planet.

Description of the invention

With the installation object of the present invention, all the aforementioned problems are solved, both in polluting order, and in economic order and constructive.

Indeed, the present installation that is going apply next, does not produce any contamination, nor does it require large economic investments, since it is based on the use of the movement of sea waves, and through use of floats and hydraulic cylinders we will send water to great pressure to the coast and once there we can get any of the three or the following three or more objectives:

one-

Produce electrical energy

2-

Produce hydrogen.

3-

Transform salt water into water desalinated.

The waves carry great energy with them, and also in many tests carried out at sea, simply with some floats rose between 6 and 12 times per minute, producing then a force of 2000 to 3000 kilopondios; with what which: using the largest floats, and transmitting these its movement to the hydraulic piston will thus achieve a force considerable. We also have the possibility of holding the anchors at the bottom of the sea.

This is how we are going to create water to great pressure, which through some pipes we will send to the coast. Is say the movement of the waves will cause some displacements, which they will transmit great force to the cylinder, which will be subject to the bottom of the sea; independently be held in position: vertical, horizontal or inclined, and varying only in all three cases the piston return system.

To complete the description that is being performing and in order to help better compression of characteristics of the invention, is accompanied herein descriptive as an integral part of it, a set of drawings in which, with an illustrative and non-limiting nature, represented the following:

Description of the drawings

Figure 1 - Shows a view of an installation of the mentioned invention, in which we can observe how main feature that the hydraulic cylinder is in inclined position and firmly held on the seabed.

Figure 2 - Shows a view of an installation very similar to the previous one, in which as a characteristic Main, the hydraulic cylinder is in position horizontal and firmly held on the seabed.

Figure 3 - Shows a view of an installation also similar to the previous ones, in which, as a characteristic main, the hydraulic cylinder is in an upright position and held firmly on the seabed.

Figure 4 - Shows a view of an installation also similar to the previous ones, in which, as a characteristic Main, the hydraulic cylinder is in position inclined, and has a supplementary installation of a stand subject at the bottom of the sea, with a rocker system, which will be more appropriate for the installations that are required to be carried out less depth

Description of a preferred embodiment

In view of: Figures 1, 2 and 3, mentioned in the previous paragraph we can observe in general that the three types of facilities have very similar characteristics, varying only the system used to get the return adequate piston in the cases of the inclined cylinder and horizontal (figure 1 and figure 2), with respect to the cylinder vertical used in figure 3. The rest of the components are we can consider all of them analogous, because still being different the type of installation perform in each of them the same function.

We can observe with the numbering adopted in Figures 1, 2, and 3 the system designed to take advantage of the wave force, and to get. Electric power, produce hydrogen, or transform salt water into desalinated water, consists of the following elements:

A cylinder (A), which basically and depending on  the amount of energy we intend to produce with the installation it will be: of greater or lesser dimensions, but it will always have a shape very elongated, this way you can absorb without any difficulty the great variation that the waves of the sea have in height and direction; on the bottom it will be open, thus preventing the formation of empty, and the piston can move more easily thanks to be submerged in water; inside we will have the corresponding piston (B), which with its displacements we will push the water that has been introduced into the inside the cylinder through the inlet valve (E), located on the side and top of the same cylinder.

When the buoy (N) is raised, it must have a size and great buoyancy enough to be able to drag the piston B) and in turn the water that contains the cylinder in its inside, the water will drag us under great pressure, opening us firstly the outlet valve (F) and said water entering the tube (I) that will take it under great pressure to the coast. When let's perform this installation at a few depths, and in order to  limit the height travel provided by the waves, it will be convenient that we incorporate a rocker system will be composed by a support (G) that anchored at the bottom of the sea, can provide sufficient height so that through it and by its central part we can hold a bar (H) that will allow us to balancing, will be connected at its ends on one side to the cable (M) which is attached to the buoy and on the other side to the cable (L) that is attached to the piston

In this way we will have a water flow at great pressure on the coast, which will allow us to reach any of the three purposes set forth in the object of the invention.

To complete said installation and in order to have security systems that control us better all elements used, we will equip the buoy (N) of a double system of anchorage of security, with some cables or ropes (Q and R) that will go subjects at the bottom of the buoy and will end up subject to their respective ballasts (S and T) at the bottom of the sea, in this way We will limit navigation and drift of the buoy somewhat.

Also the three shackles (U) that go in the buoy  (N) and which are used in these two cables (Q and R), as well as also the one that goes in the cable (M) used to drive the piston hydraulic (B), must have a system that frees the buoy (N), so that in the case of extraordinary storms, it will go to embark to the beach or to the coast, and once it is finished said temporary we can rescue her and ride her again in the installation.

To complete the description, of the different systems used figures 1 and 2, in which case the cylinder used is in an inclined or horizontal position, figure 3 in which the cylinder used is in an upright position, or figure 4 case that we have also incorporated a rocker system.

To get the proper return of piston:

We have first in figures 1 and 2, the cable (L) connected at the bottom of the piston, a cable that will pass through a pulley (D) and go to another upper pulley (J), which will be at a higher height with its corresponding support (V) anchored at the bottom of the sea, at the end of said cable (L) we will have a weight (K) proportional to the type of installation that let's make and that will facilitate the aforementioned return of piston.

We can also get the mentioned return of the piston, also by the cable (L) but instead of placing a ballast as in the previous case, we will place at the end of said wire a small buoy (W), which without having to surface surface, simply with its pushing force will already provide us the return of the piston.

And finally, we have in figure 3 the cylinder in an upright position, and in this case with the ballast located in the piston sheath, taking advantage of the force of gravity already we will get the return of the piston, not in this case we will need no special support for the cylinder, since at be vertical, we can hold it to the bottom of the sea and preferably we will use cements appropriate for it.

The whole installation performed, contemplating any of the variants that we have mentioned previously, we would mount it in a reinforced concrete sarcophagus, preferably it could be manufactured out of the sea, and once finished we would transfer it aboard a boat, to be able to place it then in the place we have chosen at the bottom of the sea.

All materials used in these 3 types facilities, reason for this invention, must be perfectly selected and must comply fully with the regulations to be in the environment they meet, that is, in the sea; hold and therefore maintain its maximum characteristics mechanical, to withstand the harsh conditions of the environment environment they meet. We will also avoid using oils or polluting liquids, propelling only seawater and respecting in this way the ecology and nature of our planet.

Claims (9)

1. Installation to produce energy through the waves of the sea characterized by having a structure that will basically consist of a buoy (L), which will have to have enough buoyancy to drag the hydraulic piston (B) to which it has been connected , through a system of cables or marine ends and pulleys that will drive said piston. 2. An installation according to claim 1, characterized by having a hydraulic cylinder very elongated and open at the bottom, which is equipped with a set of inlet and outlet valves at the top, to introduce water inside and launch it under great pressure in the tube (I) that will lead it to the coast, and be able to produce any of the three or all three objectives of the invention. 3. An installation according to claim 1 and 2, characterized in that its hydraulic cylinder can be placed in three positions: inclined, horizontal and vertical, being able to work perfectly in any of the three positions, and holding said cylinder at the bottom of the sea, or holding it directly to the aforementioned seabed but, but through some supports that will give you one of the three positions mentioned above. 4. An installation according to claim 1, 2 and 3, characterized by having return support components of the hydraulic piston, either directly in the sheath of said piston, or through supports anchored at the bottom of the sea, which through of: cables, pulleys, a small ballast or a small buoy, depending on the type of installation will provide us with the return of the piston. 5. An installation according to claim 1, 2, 3 and 4 characterized in that a supplementary installation can be attached in cases of placing it in shallower areas, which will consist of a support and a rocking bar, which will exercise the necessary transmission to improve piston travel. 6. An installation according to claim 1, 2, 3 and 4 and 5, characterized by having a double anchoring system of the buoy, which will significantly reduce the area of displacement of the same, thus having the whole set much better controlled of the installation, and providing greater safety coefficient to it. 7. An installation according to claim 1, 2, 3, 4, 5 and 6 characterized in that it will have a security system so that in case of extraordinary storms, the breakage and release values of the elements that join the buoy are controlled with the rest of the installation, so that the buoy is then released from the installation and is going to beach the beach or the nearest coast. 8. An installation according to claim 1, 2, 3, 4, 5, 6 and 7, characterized in that it has all its components suitable for the environment in which it is located, that is, at sea, having passed all the regulations that exist for said materials, thus giving it a quality and duration as such installation deserves. 9. An installation according to claim 1, 2, 3, 4, 5, 6, 7 and 8, characterized in that no oils or contaminating liquids will be used, projecting only seawater at high pressure through a tube to the It is difficult to achieve any of the three or all three objectives of the invention.