ES2377790B1 - DEVICE TO TAKE ADVANTAGE OF THE ENERGY OF SURFACE AND UNDERWATER WATER CURRENTS. - Google Patents

Abstract

Device to take advantage of the energy of water currents, surface and underwater, which consists mainly of a hydraulic track with various varieties and models, which receive the thrust of water currents and depending on whether they are superficial or underwater, with permanent or With flow and reflux, we will use a different system from the ones I describe, these waters affect the moving parts of them, transmitting that energy continuously to one or more electric current generators that have installed with great performance and mass production capacity at low cost, clean energy, non-polluting and without environmental impact.

Description

set by a series of panels or links with a

Device to harness the energy of water, surface and underwater currents.

At the moment, for which the world economy is going through, new sources of clean energy are needed more than ever and the invention that I am going to describe throughout this memory, gathers all these qualities and above it has a huge enormous production capacity .

My invention is based on Hydraulic Caterpillar, a fundamental element for the production of that clean and massive energy, without hindering or altering the hydraulic system in which my invention is installed.

This use will prevent thousands of tons of CO2 from being dumped into the atmosphere and the landscape deteriorating due to all the energy pollutants we are used to.

We have all seen the water run in immense amounts across rivers or rivers and many have thought about the amount of energy that huge mass represents without being able to take advantage of it. And there are people like me, who go far beyond mere observation and going around the idea of harnessing that energy that is lost, an effective idea comes to me for a correct and simple use, which is precisely the invention that I will describe next.

For this invention, I have taken into account Bernoulli's Principle, on the behavior of moving fluids along a stream, in which he describes that the energy that the fluid possesses remains constant along its path, despite Do not consider the currents we treat as perfect fluids.

In principle, I planned to put a wheel or roller of blades or vanes in the middle of the current, but the use of a pallet roller, however wide, will be little, Fig. 1 (1), given this immensity of water, we can putting more than one vane roller at a safe distance so that they do not cause interference, Fig. 1 (2), more energy is used but not enough for that water flow, and then I think I could put a series of rollers pallets or to be more effective would connect them to each other, as if it were the caterpillar of a tractor, Fig.-1 (3), but in this case with several particularities, being several wheels or rollers attached, those in the middle would not be necessary , with both of the ends it would be enough and then we would form a Hydraulic Caterpillar, that is, like the tracks of the tractors, but with some variations. Fig. 1 (4). How it is and how it works

I am going to describe some systems of use of the energy produced by the moving water, either on the surface, or below it, not being able to detail a specific system, since for each use, a specific and precise system will be needed according to the flow to be used. All the data that I will provide will be generic for any system, as these will vary when they conform to a specific reality.

As I indicated before, if we put together a series of hydraulic rollers and join them by a chain like the tracks of a tractor, we no longer need the intermediate rollers and we would have two, the ends and if we join them with a very wide belt big. To support this chain of links we will need a frame Fig. 3, 4, 5, and 6

(10) of the length and width that we need, and height, as requested by the two wheels Fig.-3, 4, and 5 (34) that are located at the two ends and that I will explain later.

To this set of panels or links, with their wheels at the ends and that I will then describe all its parts, I will call it Hydraulic Caterpillar or Caterpillar.

In the description that I will detonate the integral parts of this hydraulic track, I will give them the same number in all the drawings that come in each figure, thus avoiding any possible error in them.

In the first place, the two wheels or rollers of the ends, will each be composed of an axle (1 or 2), which at its ends will have two discs (3 and 4), but instead of being these circular, they will be polygonal, that is, triangular, quadrangular, pentagonal or with more sides and having at each vertex, a fork, Fig. 4 (3). This geometric shape is because they are going to drag the panels or links of the track, each side of them having to be of the same dimensions as the panels or links, that is, the measure between centers of two forks that we have placed in the vertices, the measurement between the centers of these forks will be the same as between the axes of the hinges of these panels or links. I will call these wheels geometrically shaped rollers or pinions.

Well, we already have the pinions, now I will describe the panels or links (5), which will be dragged by them. These panels or links of the required width are connected to each other, all along their sides, by hinges (9) articulated on an axis (8), which will have at its two ends some casters (11) that they will be embedded in guides (7) that I will talk about later. These panels or links, are coupled to them another panel vertically and longitudinally, which I call, shovels or vanes (6) and that are precisely what will support the thrust of the water. These blades or vanes, may be coupled perpendicularly or not, be flat or curved, with

or without buttresses, be articulated or not, depending in each case on the particular circumstances of the hydraulic use made.

As I said before, the castors installed at the ends of the axes on which the panels or links of this chain are articulated, roll inside guides, which are perimetrically coupled in the frame and on both sides thereof, Figs. 3, 4, 6 and 7 (7) the Hydraulic Caterpillar being formed and ready to receive the water thrust and transmit through its axes all the energy to the corresponding alternator, Fig. 7 (G).

But this Hydraulic Caterpillar that I am describing, can have many applications, depending on the use that is made and as I have described it, it is prepared to take advantage of the surface currents and therefore, only the panels will come into contact with the water that run along the bottom, as we see in Fig. 7, so it will be installed for this purpose either with direct supports to ground or through floaters etc. as seen in this section of the Hydraulic Caterpillar that I have drawn.

3 EN 2377790A1 4

In a word the operation of the Hydraulic Caterpillar, for surface currents is produced by placing the system as before, with the lower panels introduced into the water, so that they receive the thrust of it in all of them and will set it in motion by transmitting through one of its axes, all that force to the generators that have been installed. But, we are talking about a current that has only one sense, but if we have it in two ways, such as the fl ow and flow of the estuaries, there is no problem of any kind, for the Hydraulic Caterpillar that I have described in the fi gs. 2, 3, and 6, having the blades or pallets rigid and with surface use, they would receive the new thrust in the opposite direction, without any problem, and without affecting the corresponding alternator at all, since in this case, an inverter would be coupled Turn and alternator revolutions will not change its direction.

Now I will describe the different modalities that I have for the use of underwater currents, always starting from the Hydraulic Caterpillar, which when we introduce it completely in the water, can have different behaviors depending on whether we take advantage of a current that has or does not flow and re fl ow, being used as appropriate, rigid and straight blades or vanes, and in any of these cases, whether foldable or not.

In Fig.-8 I draw a model, for one-way currents, which is composed of two Hydraulic Tracks one on top of the other but inverted together, so that in the center the blades or vanes carry the same direction. These, go inside a casing or protective fairing (13) with a space for the return of the blades or vanes (12) that is located between the two openings that have the function of accelerating the water flow according to the Venturi effect receiving the blades or vanes (6) all the force of the liquid element. As I have drawn this system, the blades or paddles on their return, we fold them, so that they offer less resistance to water, although in this setback it does so through the space indicated above (12) that isolates them from the current. With the paddles or paddles folded, and although they go inside this protective cavity they will offer the least resistance to water and when the time comes to unfold, there are very simple systems for them to put them in the working position. considering that it is necessary to describe none. This system has an advantage, that if we fill with air, the cavities (12 and 12c) could be re fl ected for possible repairs or revisions.

Drawing below other models, the first of them, Fig. -9 are two Hydraulic Tracks, it can be one or more than two, as described for surface currents, to which I have added a hull or housing, protection with mouthpiece to the two sides to force the current, and in this case it is used for currents in both directions, since the blades or vanes are straight, rigid and with buttresses, to resist the thrusts, the water comes from wherever it comes, it will work in one direction or in other. This system has fundamental particularity and is that the space of the housing shell, where the blades or vanes run in its recoil, is a chamber (12) that is filled with air thus avoiding water resistance, so it is only in contact with her, the bottom. I have represented two caterpillars one on top of the other, but as I said before you could install one or more than two.

I describe below, another system, Fig.-10, is a Hydraulic Caterpillar without any protection directly exposed to the water flow that would take advantage of both ways, so that the blades or vanes will be curved, so that when the water comes On the one hand, it will affect the concave parts of it, which will set the Caterpillar in motion and in the recoil, the convex part will slide the water through them offering very little resistance. If the current changes, the same will happen, except that the concave part with which the water will collide, is at the top, instead of the bottom. This is why this system has the advantage that it comes from where the water flow comes from, there will be no inversion of the movement of the caterpillar, it will always do so in the same direction. This system is directly anchored to the bottom by a support or bench (16), we also see the blades or vanes (6) and an electric current generator (G).

Now we have this same track described above, Fig. -11 A and B, to which we have attached a housing or protection cage, which forces and directs the water flow in its mouths by means of panels (15) located at both ends and that they are articulated from top to bottom and vice versa, depending on where the water flow comes from and therefore allows it to be affected by the concave parts in this paddle roller, either by the top

or lower

Figs. 12 and 13, describe the two directions of the current, are two tracks of curved blades or vanes, located one above the other, but in the opposite direction, so that the blades or blades that go in the center have That carry the same meaning. This has the particularity, that the housing that contains them in their openings, as in Fig. 11, articulated panels (15) will oscillate from top to bottom and vice versa, accelerating and channeling the water flow either through the center or above and below depending on the direction of the latter, so that it affects the concave part of the blades or blades and slides on the convex part, as I have indicated previously.

That of course in all the systems that I have described above, and through the axes of the Hydraulic Tracks, the harnessed force of the currents will be transmitted to an Electric current generator.

A fundamental point is that the Hydraulic Tracks that work below the surface of the water, all the moving parts, must be constructed with the materials that are, but must have the same density as the water, because in this way , we will avoid that the weight that these moving parts would have, caused a mechanical resistance to the operation of the system. Description of the fi gures

First, as I said before, all the parts that make up the Hydraulic Caterpillar, in the drawings have the same numbering.

Fig.-1, I put the initial examples of one or several vane rollers, for a hypothetical use of water force.

Fig.-2, I represent a type of fixed panel (5), with a vertical blade or vane (6), with reinforcements (6r) and a type of hinge (9) and the casters that it carries at its ends (11) are drawn ).

Fig. 3, having the central idea about the system, we see a perspective of this Hydraulic Caterpillar,

5 EN 2377790A1 6

with all the fundamental parts of which we will emphasize, that the whole chain of panels or links, runs between two rollers (3 and 4) with the movement in direction (c), for example, that one of the axes or both (1 and 2) transmits the force of the water movement to the corresponding alternator. The entire chain of panels or links (5) with their corresponding blades or pallets (6), run through guides (7) in which these panels are embedded. The dimensions of this Hydraulic Caterpillar like all those described, are only limited by the mechanical systems that make up its components.

Fig. 4. We wake up this system better and we have the wheels (11) that run through the guide (7) and that are coupled to the hinge shaft (9) that articulates the panels (5) to which we have attached a shovel or paddle, in this case rigid, straight and perpendicular (6). We also see the shaft (1) transmitter of energy to the alternator, with its roller or pinion (3), which is the one that drags all the panels, in the enlargement, we have the fork (3a) that will fit the axis of the roller ( 11), this pinion (3) has four sides or more, being the one that transmits the movement to the axis (1).

In Fig.-5, we see the system and profile of the system, with rigid panels and buttress, with its drag rollers (3 and 4), which are mounted on the frame (10).

Fig. 6 represents a perspective of the system with hinged panels that have buttresses incorporated in the opposite part of the thrust, to give more consistency to the blades. We see that when turning in the area of the drum, they unfold to show the entire surface of the pallet to the water current.

Fig. 7 represents a cut of the system on a stream of water, seeing that some supports (S) hold the Hydraulic Caterpillar assembly, so that only the lower panels (6) come into contact with the water (14) ) which are the ones that will move the whole set. We see the upper panels (6) in vertical position and they have buttresses (R) that slide by means of wheels (11) located on the axis (8) of the hinges (9) and that run through the guide (7), in turn, the axle of these wheels, is hooked by the fork (3a) that has the pinions (3), rotating all this with the axle (1) that is supported by the frame (10), being this axle which transmit the force to the alternator (G).

From Fig. 8, we are going to represent a series of systems to take advantage of Underwater Currents, at any depth, since I have designed a system that can be anchored to the bottom and even at a certain moment we can reflect everything and take it to the surface for possible revisions or repairs.

Fig. -8, is a system for the use of underwater currents, seeing an assembly formed by a housing or hull (13) that has two funnel-shaped mouths (inlet and outlet) to force the water flow, according with the Venturi Effect, through the double set of paddles that we have placed (6) which are the ones that will directly receive the impulse of the current.

Here we have two hydraulic tracks but inverted together. We have the two axes (1 and 2) on which the system rotates, with the pinions (3 and 4), anchored in the frame (10) on which the panel chain rotates with its blades or vanes (6) which they carry a reinforcement (6r) running on their return through an open chamber for protection (12) and we have bedrooms (12c).

In Fig. 9, we have a very important novelty, we have a hydraulic track with rigid blades, which recoils through the chamber (12) that is filled with air. We represent two caterpillars protected by the carcass or cowl.

In Fig. 10. In this drawing we see a hydraulic track with curved blades or vanes without any protection. The hydraulic track assembly is on a bench (16) with several attachment points, distinguishing the generator (G) and the blades (6).

In Fig. 11. It is the same as the previous one, but with a protective housing and to channel the water through the top or bottom, by means of panels (15). We see in the two drawings with fl ow and fl ow (A) and (B) of water.

In Fig. -12 and 13. This system is the same as that of Fig.-11 described above, but double, seeing moving panels (15) to divert the current, according to the direction it has, through the center or above and below.

In Fig. -14 in (A) and (B) I draw a series of hydraulic tracks of two different types, located one above the other and contiguous, forming an energy wall.

7 EN 2377790A1 8

Claims (10)

one.

Device for harnessing the energy of surface and underwater water currents, characterized in that it consists of a hydraulic track, which has a series of panels or links joined to each other by its sides by means of hinges coupled to them and in the axis of these and at its ends have wheels attached to be able to slide, turning it into a closed chain. These panels or links are coupled vertically and perpendicular to them and along some blades or vanes, which can be fixed, straight and perpendicular, inclined, or curved or can be folded. All this chain, runs on the guides of a frame that serves as a support and which contains at both ends some axes with wheels or pinions to move the hydraulic track, which instead of being circular, will have a polygonal shape with three, four or more sides, having these, at each vertex a fork to engage in the axes of the chain hinges between the casters and the panels or links. The device further comprises an alternator coupled to one of its axes. These hydraulic tracks can be on the surface or submerged and move in one-way streams or with fl ow and fl ow.

2.

Device for harnessing the energy of underwater water currents, characterized in that it consists of two hydraulic tracks, according to claim 1, one above the other and with the same direction of rotation in the central part, being able to fold the blades or vanes, It also has a housing or hood that can be anchored to the bottom, which serves as protection and to force the water according to the Venturi effect. It also has cameras that can be filled with air to reflect the system.

3.

Device for harnessing the energy of underwater water currents characterized in that it consists of a single hydraulic track, as described in claim 1, housed within a housing anchored to the bottom, this chamber comprising a chamber through which the panels or links run with its shovels or pallets, with the particularity that this chamber has it full of air to avoid resistance. This device supports the flow and re fl ow of water currents.

4. Device for harnessing the energy of underwater water currents, characterized in that it consists of a hydraulic track according to claim one, characterized by having the blades or curved vanes, without any housing or protection cage and anchored directly to the bottom. It will take advantage of the force of the water flow, when it affects the concave part of the blades or vanes and the convex part of these, it will cause the water to slide on them with the minimum resistance, characterized by being able to receive the water flow of the sense that without changing the direction of rotation of the hydraulic track.

5.

Device for harnessing the energy of underwater water currents, according to claim four, characterized in that the hydraulic track includes a casing or protective face and with panels to channel the water flow.

6.

Device for harnessing the energy of underwater water currents, according to the first claim but in double batch, characterized in that it consists of two hydraulic tracks with curved, fixed or foldable vanes, one above the other and in the opposite direction, with the particularity of the blades or vanes of the center rotate in the same direction, being protected by a housing or cowl and having double set of directional panels in the openings, to distribute the water flow through the center or above and below, according to the sense that Take this one

7.

Device for harnessing the energy of underwater water currents, according to the preceding claims, characterized in that it consists of making a barrier with hydraulic tracks of various types described above, arranged on top of each other and adjacent forming an energy wall, to take advantage of any underwater current .

8.

Device for harnessing the energy of underwater water currents, according to the preceding claims, characterized in that it consists in that each of the systems described above, all of them have one or several electric current generators.

9.

Device for harnessing the energy of underwater water currents, according to the preceding claims, characterized in that it consists in all the described systems working within the water, all its parts have the same density of this.

SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 201001166 SPAIN Date of submission of the application: 06.09.2010 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: F03B17 / 06 (2006.01) F03B9 / 00 (2006.01) RELEVANT DOCUMENTS

Category

Documents cited Claims Affected

Y

FR 2461830 A1 (ZAMBONI MARIO) 06.02.1981, page 1, lines 14-33; page 2, line 6 - page 3, line 15; figures. 1,8,9

Y

GB 191207744 A (STRUBLE JAMES FRANKLIN) 23.01.1913, page 1, lines 4-28; page 2, lines 1-4,27-38; page 3, lines 1-5,34-42; page 4, lines 29-40; page 5, lines 1-5,14-16; figures. 1,8,9

TO

WO 9840626 A1 (VARGA LASZLO) 17.09.1998, abstract in English; figures. one

TO

FR 2340459 A1 (VERNADET ANDRE) 02.09.1977, pages 1.2; Figures 3,9,10. one

TO

WO 2008014624 A1 (HUDEC PAVEL) 07.02.2008, summary; figures. 1,7,8

TO

GB 191410445 A (COOK MAURICE MORLEY) 25.03.1915, page 1, lines 5-15; page 2, lines 12-32; page 3, lines 31-11,42-54; figures. 1-5

TO

US 2006192389 A1 (PERRY MICHAEL D et al.) 31.08.2006, summary; paragraphs 2.52.54.55.69.70.72-76.80.81.86-92,100,117-212,125,129,131,135; Figures 1-4,18,19,22-24,26,27. 1,2,4,6,7

TO

US 1442938 A (SERIOUS SCOTT S) 23.01.1923, page 1, lines 8-10; page 1, line 73 - page 2, line 28; figures. one

TO

GB 2457027 A (WALKER ALAN HENRY) 05.08.2009, summary; Figures 1,2A, 2B. 1,8,9

TO

EN 2169706 A1 (PRATS JOVE FELIPE) 01.07.2002, summary; column 1, lines 5-18; column 1, line 40 - column 2, line 9; figures. one

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 02.11.2011

Examiner P. Del Castillo Penabad Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 201001166 Minimum documentation searched (classification system followed by classification symbols) F03B Electronic databases consulted during the search (name of the database and, if possible, terms of search used) INVENES, EPODOC State of the Art Report Page 2/4  WRITTEN OPINION Application number: 201001166 Date of Written Opinion: 02.11.2011 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims Claims 1-9 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 1-9 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 201001166 1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

FR 2461830 A1 (ZAMBONI MARIO) 06.02.1981

D02

GB 191207744 A (STRUBLE JAMES FRANKLIN) 23.01.1913

2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement Document D01 is considered to be the closest to the object claimed in the prior art. Document D01 (references refer to this document) describes (page 1 lines 14-33, page 2 lines 6-page 3 line 15; figures) a device to take advantage of water currents consisting of a hydraulic track having panels (2) joined by its sides by hinges (18, 19) so that it takes the form of a closed chain. These panels have vertically and perpendicularly coupled to them blades (8). The device has at each end an axis (21) with a pinion (4, 24) with a polygonal shape that rotates due to the movement of the chain that in turn moves due to the action of the water on the blades (8). The device may comprise an alternator (13) coupled to one of its axes (21). Document D01 has all the essential characteristics contained in claim 1 of the application except that the chain runs on the guides of a frame and supports on a pinion fork, elements found in document D02 and that the expert in the matter would apply to D01 without making use of inventive activity to obtain the characteristics of claim 1 of the application. The fact that in claim 1 of the application the entire chain runs on rails does not give this claim of inventive activity since it is an obvious design option for the person skilled in the art, who would choose among others possible without making use of activity inventiveness. Dependent claims 2-9 are obvious practical issues or design options known to a person skilled in the art (several devices together, including housing, means for refloating the device or for channeling the current, decreasing density to avoid resistances). Therefore these claims lack inventive activity. For all the above, claims 1-9 of the application are new but lack inventive activity according to articles 6 and 8 of Patent Law 11/86. State of the Art Report Page 4/4