ES2396669B1 - Power generating device - Google Patents

Abstract

Energy generating device (100) comprising at least one float (1) that moves within a fluid, at least one multiplier box (12), and at least a first kinematic chain (9a, 2) and a second kinematic chain (9b, 3a), in which the movement of the float (1) is transmitted to the first kinematic chain (9a, 2); the movement of the first kinematic chain (9a, 2) is transmitted to the second kinematic chain (9b, 3a); so that the movement of said second kinematic chain (9b, 3a) is also transmitted to the multiplier box (12).

Description

Power generating device

Object of the invention

The present invention relates, as its title indicates, to an energy generating device, and in particular to a device capable of generating energy from variations in the level of a fluid. Fluid level variations can be natural, such as tides, or artificial, such as reservoirs that use water flows from rivers, supply networks, sewage networks or sewage networks. The generated mechanical energy can be used for the generation of electrical energy or for the generation of sufficient pressures for desalination or purification of water by reverse osmosis, or other applications. In general, the present invention falls within the sector of the production of electrical energy.

Technical problem to solve and background of the invention.

In the state of the art different mechanisms for generating mechanical energy are known that can be transformed by other components in pressure or electricity. An example of these mechanical energy generating mechanisms are the known windmills or watermills, which by harnessing the force of wind or water obtain energy that moves an axis.

Also, in the state of the art there are many devices to take advantage of the energy generated by the waves or the tides and transform it into mechanical energy for its subsequent transformation into electrical energy. However, known devices are not profitable and therefore the profitability of tidal energy is still very low.

Traditionally and, since the beginning of the generation of energy from the movement of fluids, the energy is obtained based on the use of the horizontal movements of the fluid, neglecting the vertical movement of the fluid because the vertical movement seems devoid of effectiveness and profitability by Be much slower than horizontal movement.

Likewise, the great engineering works carried out for the construction of reservoirs for hydroelectric plants and their impacts on both ecosystems and population settlements are known.

In contrast to what is already known, the present invention allows the vertical movement of a fluid to be used in an effective and cost-effective manner, allowing to reduce material costs, visual, sound and environmental impacts, which until now involved the construction of facilities for the use of movements of some fluid.

In addition, the present invention maintains, unlike known techniques, most of its components separated from the fluid, preferably water, and not in contact with it, whereby the life of the components will be lengthened and the costs will be greatly reduced of installation and maintenance.

On the other hand, the diversity of the components of the invention and the large number of suppliers of the aforementioned components mean that the invention can be adapted to any limitations existing in the environment where it is to be installed, as well as to economic constraints in the execution. of the installation.

Currently, in any place where water consumption occurs, all the infrastructures are created to transport the water to the place of consumption and also, after its use, except in agriculture, to reuse

or get rid of excess water. The present invention proposes the use of water, both before consumption and the waste generated in such places of consumption, for the generation of energy.

In the state of the art, document US 7 791 213 B2 appears in which a wave driven generator is disclosed, which has a pair of clutches converting the upward-downward movement of the sea into a rotational movement for an electric generator. WO 03/098033 A1 is also known, this document discloses an apparatus for generating energy from the wave movement of sea tide.

Description of the invention

The present invention aims to expose an electric power generating device obtained from the differences in fluid level. The energy generating device object of the invention comprises at least one float that moves within a fluid, at least one multiplier box and at least a first kinematic chain and a second kinematic chain.

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In the device object of the invention the movement of the float is transmitted to the first kinematic chain, the movement of the first kinematic chain is transmitted to the second kinematic chain, so that the movement of said second kinematic chain is also transmitted to the box multiplier

In the power generating device the float is inside a tank, the first kinematic chain has the configuration of a first axis, and the second kinematic chain has the configuration of a second axis, where the movement of the first axis is transmitted to the second axis by means of bevel gears.

In the energy generating device object of the invention the tank comprises a rack attached to one of its walls, the float comprises at least one crown on one side of the float and at least one guide wheel on at least one other side of the float, of so that the float experiences a vertical movement in the tank supported on the walls of the tank by means of at least one guide wheel and at least one crown that rests on the rack.

In the energy generating device object of the invention the first axis passes through the interior of the float and is related to the float through a gearbox connected to the at least one crown, transforming said gearbox the movement of the at least one float crown, in a rotating movement of the first axis.

In the power generating device, according to a second embodiment, the first kinematic chain is a lever, which is fixed to the tower of a wind turbine in the fulcrum of the lever, at one end of the lever the float is fixed and in the Another end of the lever connects the second kinematic chain.

The second embodiment of the power generating device comprises a third kinematic chain that is related at one end to the second kinematic chain through a gearbox, and at the other end is related to the multiplier box; and a counterweight, attached to the second kinematic chain at the opposite end of the connection of the second kinematic chain with the lever, which contributes to the movement of the second kinematic chain.

In the second embodiment of the power generating device the movement of ascent and descent of the float is transmitted by means of the lever to the second kinematic chain and of the second kinematic chain is transmitted to the third kinematic chain which in turn transmits this movement to the box multiplier

In a third embodiment of the power generating device the first kinematic chain is a lever that is fixed at one end to a fixed point outside the float, at the other end it is fixed to the second kinematic chain and has the fulcrum on the device float .

The third embodiment of the energy generating device object of the invention comprises a third kinematic chain that receives the movement of the second kinematic chain and transmits it to the multiplier box.

In the third embodiment of the energy generating device object of the invention the movement of ascent and descent of the float is transmitted by the lever to the second kinematic chain and the second kinematic chain to the third kinematic chain by means of a gearbox, and the third kinematic chain transmits this movement to the multiplier box, with the lever, the second kinematic chain, the third kinematic chain and the multiplier box located on the device float.

In the energy generating device object of the invention, the second kinematic chain absorbs the movement of the lever arc by means of a tensioner and a support that are fixed to a structure incorporated into the float.

Brief description of the figures

To complement the description that is being made of the present invention, and to help a better understanding of the characteristics that distinguish it, the present report is attached, as an integral part thereof, of some figures, in which by way of illustration and non-limiting different embodiments of the invention are represented.

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Figure 1 shows a schematic representation of a first embodiment of the device object of the invention.

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Figure 2 shows a schematic representation of a second embodiment of the device object of the invention.

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Figure 3 shows a schematic representation of a third embodiment of the device object of the invention.

Below is a list of the different elements used in the different embodiments, with the numerical references used in the figures that accompany this report.

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1.- float; 2.- lever, 3rd.- second kinematic chain, 3b.- third kinematic chain, 4, 4 ’.- gearbox, 5.- deposit, 6.- zipper, 7.- crown, 8.- fulcrum 9a.- first axis, 9b.- second axis, 10.- counterweight, 11.- alternator, 12.- inverter-multiplier, 13.- inlet duct, 14.- outlet duct, 15.- guide wheel, 16.- support, 17.- tensioner, 18.- boat, 19.- bevel gears, 100.- device.

Preferred embodiments of the invention

The different embodiments that have been carried out as a development of the object of the invention are set forth below.

Figure 1 shows a first embodiment of the device of the invention designed for energy production.

The first embodiment of Figure 1, comprises a reservoir (5), a float (1) with a gearbox (4) inside, a rack (6), a crown (7), a guide wheel (15), a first axis (9a), a second axis (9b), an inverter-multiplier (12) and an alternator (11).

The float (1) has an upward and downward movement inside the tank (5), this movement is achieved by filling and emptying the tank (5) through the inlet (13) and outlet ducts

(14) of fluid that have their own valves to open and close the fluid inlet to the tank.

The upward and downward movement and rotation of both the first axis (9a) and the second axis (9b) are obtained as follows:

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Starting with the float (1) located in the lower part of the tank (5) (or in other words with the empty tank (5)), the fluid inlet duct (13) is opened to the tank (5) , which is filling the tank (5) and makes the float (1) rise, in the upward movement of the float (1) the crown (7) that is located on the rack (6) moves, that upward movement of the float (1) is transmitted from the float (1) to the first shaft (9a), by means of the gearbox (4). The turning movement of the first axis (9a) is transmitted by bevel gears (19) to the second axis (9b), and the turning movement of the second axis (9b) reaches the inverter-multiplier (12) which increases the rotation that receives from the second shaft (9b) to rotate the alternator (11).

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with the float (1) in the highest part of the reservoir (1) the fluid inlet duct (13) is closed and the outlet duct (14) is opened so that the reservoir (5) begins to empty and with the emptying of the tank (5) causes the descent of the float (5). The downward movement of the float (5) causes the crown (7) to move along the rack (6) and, by means of the gearbox (4), the downward movement causes a turning movement on the first axis (9a), that in the same way as in the upward movement of the float (1) ends up producing a rotation in the alternator (11) to generate electrical energy The first axis (9a) rotates in the opposite direction in the upward movement and the downward movement, the inverter-multiplier (12) makes the turn transmitted to the alternator (11) always in the same direction.

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With the float (1) at the lowest point of the tank (5), the outlet duct (14) is closed and the inlet duct (13) is opened, starting the operating cycle again.

The float (1) is guided by the crown (7) that travels through the rack (6) located on one side of the float (1), and on the opposite side of the float (1) by a guide wheel (15 ) that rests on the wall of the tank (5) that faces the wall on which the zipper (6) is. The crown (7) in one embodiment is a cogwheel, which is supported by the rack (6). In this way, the guide wheel (15) is

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resting on the wall of the tank (5) opposite that of the rack (6) and the crown (7) of the float (1) with this toothed shape circulates on the rack (6).

This first embodiment, designed so that the deposit is installed in an area with a difference in dimensions, the installation can be done in two ways: either with a single deposit (5) that covers the total difference in dimensions to be take advantage of, or with several deposits (5), so that the difference in dimensions is used, by means of deposits (5) placed successively. Thus, some tanks (5) are filled with the fluid from other tanks (5) placed immediately above.

Figure 2 shows a second embodiment of the energy generating device object of the invention, this second embodiment being used to engage a wind turbine of marine wind energy.

In this figure 2 is shown in a simplified way an energy generating device comprising a first float (1a), a first kinematic chain, which in this case is a lever (2), a second kinematic chain (3a), a third chain kinematics (3b), an inverter-multiplier (12) and an alternator (11).

The system is configured as follows:

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the lever (2) is fixed to a tower of a wind turbine by means of a cylindrical pin-type joint, which constitutes the fulcrum (8) of the lever (2) on which the lever (2) rotates;

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at one end of the lever (2) a float (1) is fixed, and at the opposite end of the lever (2) an end of the second kinematic chain (3a) is fixed by a cylindrical joint;

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At the other end of the second kinematic chain (3a) is a counterweight (10) that facilitates the movement of ascent and descent of the float (1) and contributes to the movement of the second kinematic chain (3a) to which it is fixed.

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the second kinematic chain (3a) passes through a gearbox (4 '), which transmits the movement of the second kinematic chain (3a) to a third kinematic chain (3b), this third kinematic chain (3b) is connected, in the opposite end to the end that connects with the gearbox (4 ') with inverter-multiplier (12) that rotates the alternator (11).

Next, the operation of the generating device according to this second embodiment is described, starting from one in which the float is in an elevated position (either by being at high tide, or by being on a crest of a wave).

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the float (1) descends, which causes the movement of the second kinematic chain (3a) through the lever (2) and aided by the action of the counterweight (10).

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through the gearbox (4 ') the movement of the second kinematic chain (3a) is transmitted to the third kinematic chain (3b), and the movement of the third kinematic chain (3b) reaches the inverter-multiplier (12) that rotates the alternator (11). This movement of the third kinematic chain (3b) is maintained until the float (1) reaches the lowest point of its travel.

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then the float (1) begins to rise, causing an ascent at the end of the lever (2) to which it is fixed and a descent at the opposite end of the lever (2).

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the lowering of the lever (2) generates a movement in the second kinematic chain (3a) in the opposite direction to the previous movement, which is transmitted to the third kinematic chain (3b) by means of the gearbox (4 ’).

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The third kinematic chain (3b) moves the inverter-multiplier (12) that rotates the alternator (11) to produce electrical energy.

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 This movement is maintained until the float (1) reaches the highest point of its travel.

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 then the previous cycle is repeated.

The inverter-multiplier (12) is a mechanism capable of transmitting the movement in the same direction to the alternator (11) even if the movement of the third kinematic chain (3b) arrives in two different directions to the inverter-multiplier (12).

Figure 3 shows a third embodiment of the device of the invention, in it the float (1) is replaced by a ship (18) located in a port that supports the movement of ascent and descent due to the movement of the tides.

The device according to the third embodiment, in addition to the ship (18), comprises a first kinematic chain, which in this case is a lever (2), a second kinematic chain (3a), a third kinematic chain (3b), an inverter- multiplier (12) and an alternator (11).

In this third embodiment, the lever (2) is attached to a fixed point of the dock, and has the fulcrum (8) (point on which it swings) in the boat (18) that functions as a float (1) of the previous embodiments. The ship (18), as it suffers a movement of ascent or descent by the tide is responsible for the movement of the

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lever (2). The end of the lever (2) opposite to the one fixed to the spring, is connected to the second kinematic chain (3a), by means of a cylindrical joint, this second kinematic chain (3a) being attached to the third kinematic chain (3b), which transmits the movement to an inverter-multiplier (12) that rotates the alternator (11).

Operation occurs as set out below:

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starting with the ship (18) located at the highest point of the tide, at this point the end of the lever (2) that is not fixed to the dock, is located, at its highest point. The first movement experienced by the ship (18) is a descent.

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the descent of the ship (18) causes a descent at the end of the lever (2) attached to the second kinematic chain (3a), which causes this second kinematic chain (3a) to move, the movement of the second kinematic chain ( 3a) is transmitted to the third kinematic chain (3b); the movement of the third kinematic chain (3b) reaches the inverter-multiplier (12) that moves the alternator (11). This movement is maintained for the duration of the downward movement of the ship (18).

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then the ship (18) begins to climb, pushed by the movement of the sea in the rise of the tide, starting from the position in which the lever (2) has the end attached to the second kinematic chain (3a) in its position lower, the aforementioned end of the lever (2) begins to rise causing with this movement a movement in the second kinematic chain (3a) that is transmitted to the third kinematic chain (3b); the movement of this third kinematic chain (3b) reaches the inverter-multiplier (12) that rotates the alternator (11);

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 This movement is maintained until the ship (18) reaches the highest point due to the tide.

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 then the previous cycle is repeated.

The second kinematic chain (3a) is attached to the ship (18) by a support (16) and a tensioner (17) that make the second kinematic chain (3a) continuously tensioned, and the end of the lever (2) together with the second kinematic chain (3a), ascend and descend causing the movement of said second kinematic chain (3a). Both the support (16) and the tensioner (17) are provided with a set of pulleys that support the movement of the second kinematic chain (3a). The support (16) and the tensioner (17) are integrated in the ship (18) by means of a structure incorporated into said ship (18) (not shown in the figure), which supports the tensions to which the structure is subjected, by the movements of the second kinematic chain (3a). The tensioner (17) is able to absorb the variations in length of the second kinematic chain (3a) generated by the arc described by the lever (2) when descending and ascending.

The fulcrum (8) in a preferred embodiment of this third embodiment of the electric power generating device is a spherical pin-type joint that supports the tilting movements of the lever (2) on the joint.

The mooring systems of the ship (18) allow the movement of the ship to absorb the arc produced by the lever (2) when descending and descending.

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Claims (9)

1. Device (100) power generator comprising:

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 at least one float (1) that moves within a fluid,

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 at least one multiplier box (12),

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 at least a first kinematic chain (9a, 2) and a second kinematic chain (9b, 3a), characterized in that:

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 the movement of the float (1) is transmitted to the first kinematic chain (9a, 2);

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the movement of the first kinematic chain (9a, 2) is transmitted to the second chain

kinematics (9b, 3a); so that the movement of said second kinematic chain (9a, 3a) is also transmitted to the multiplier box (12). 2. Device (100) power generator according to claim 1, characterized in that: -the float (1) is inside a tank (5),

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the first kinematic chain has the configuration of a first axis (9a), and

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the second kinematic chain has the configuration of a second axis (9b) where the movement of the first axis (9a) is transmitted to the second axis (9b) by means of gears conical (19).

3. Energy generating device (100) according to claim 2, characterized in that:

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 the tank (5) comprises a zipper (6) fixed to one of its walls,

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the float (1) comprises at least one crown (7) on one side of the float (1) and at least one wheel of

guide (15) on at least one other side of the float (1) so that the float (1) experiences a vertical movement in the tank (5) supported on the walls of the tank (5) by at least one guide wheel (15 ) and at least one crown (7) that rests on the zipper (6). 4. Power generating device (100) according to claim 3, characterized in that:

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the first shaft (9a) passes through the interior of the float (1) and is related to the float (1) through a gearbox (4) connected to the at least one crown (7),

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The gearbox (4) transforms the movement of the at least one crown (7) of the float (1) into a rotational movement of the first shaft (9a).

5. Device (100) power generator according to claim 1, characterized in that:

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The first kinematic chain is a lever (2), which:

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is fixed to the tower of a wind turbine in the fulcrum (8) of the lever (2),

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the float (1) is fixed at one end of the lever (2),

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the second kinematic chain (3a) is connected at the other end of the lever (2).

6. Power generating device (100) according to claim 5, characterized in that it comprises:

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a third kinematic chain (3b) that is related by a gearbox (4 ’) at one end with the second kinematic chain (3a), and at the other end is related to the multiplier box (12)

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a counterweight (10), attached to the second kinematic chain (3a) at the opposite end of the connection of the second kinematic chain (3a) with the lever (2), which contributes to the movement of the second kinematic chain (3a),

so that the movement of ascent and descent of the float (1) is transmitted by the lever (2) to the second kinematic chain (3a) and from the second kinematic chain (3a) to the third kinematic chain (3b) that transmits this movement to the multiplier box (12). 7. Device (100) power generator according to claim 1, characterized in that:

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the first kinematic chain is a lever (2) that is fixed at one end to a fixed point on a spring, at the other end is fixed to the second kinematic chain (3a), and has the fulcrum (8) on the float ( 1) of the device (100), and

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the movement of the second kinematic chain (3a) reaches the multiplier box (12) through a

third kinematic chain (3b). so that the movement of ascent and descent of the float (1) is transmitted by means of the lever (2) to the second kinematic chain (3a) and from the second kinematic chain (3a) to the third kinematic chain (3b), through of a gearbox (4 '), which transmits this movement to the multiplier box (12), with the lever (2), the second kinematic chain (3a), the third kinematic chain (3b) and the multiplier box (12 ) located on the float (1) of the device (100). ES 2 396 669 Al 8. Energy generating device (100) according to claims 1 and 7, characterized in that the second kinematic chain (3a) absorbs the movement of the lever (2) by means of a tensioner (17) and a support (16) that are fixed to a structure incorporated into the float (1). ES 2 396 669 Al ES 2 396 669 Al ES 2 396 669 Al SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 201230417 SPAIN Date of submission of the application: 20.03.2012 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: F03B13 / 18 (2006.01) RELEVANT DOCUMENTS

Category

56 Documents cited Claims Affected

X

WO 03098033 A1 (AVADHUTA PRUTHIVI RAJ) 27.11.2003, pages 4-10; figures. 1-3

X

US 4249639 A (VUKOVIC MARKO) 10.02.1981, the whole document. 1,5,6

X

US 4718231 A (MAX M VIDES) 12.01.1988, description; figures. 1.5

X

US 2008157532 A1 (LOUI STEVEN et al.) 03.07.2008, the whole document. 1.5

X

US 2003 110767 A1 (LEE WAI FONG -LEE WAI FONG) 06.19.2003, summary; figures. one

X

FR 2493924 A1 (DUHOUX GILBERT) 14.05.1982, summary; figures. one

TO

WO 2010080045 A1 (SEA FOR LIFE LDA et al.) 07.15.2010, summary; figure 6. 5

TO

DE 4129180 A1 (MIHALJI LAJOS) 04.03.1993, summary retrieved from EPODOC, figures. 8

TO

US 4105368 A (WATERS FRED L) 08.08.1978, summary; figures. 7

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 06.02.2013

Examiner E. García Lozano Page 1/5

REPORT OF THE STATE OF THE TECHNIQUE Application number: 201230417 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 2/5  WRITTEN OPINION Application number: 201230417 Date of Completion of Written Opinion: 06.02.2013 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims Claims 2-8 1 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 4.7.8 1-3, 5.6 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 3/5  WRITTEN OPINION Application number: 201230417  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

WO 03098033 A1 (AVADHUTA PRUTHIVI RAJ) 11.27.2003

D02

US 4249639 A (VUKOVIC MARKO) 10.02.1981

D03

DE 4129180 A1 (MIHALJI LAJOS) 04.03.1993

D04

US 4105368 A (WATERS FRED L) 08.08.1978

 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 The present application relates to an energy generating device comprising a float (1) that moves in a fluid, a multiplier box (12) a first kinematic chain (9a, 2) and a second kinematic chain (9b, 3a) where the movement of the float is transmitted to the first chain, from this to the second chain, and from this to the multiplier box (Reiv.1). In one of the proposed designs, the float is located inside a tank (5), the first and second axes being kinematic chains, and the movement being transmitted to each other by means of bevel gears (Reiv. 2). The tank has a zipper (6) on one of its walls, and the float a guide wheel (15) on one side and a crown (7) on the other, with the crown (7) resting on the zipper ( 6) in the vertical movement of the float (Reiv.3). The first axis passes through the interior of the float and is connected to the crown of the float by means of a gearbox (4) that transforms the movement of the crown into the rotational movement of the first axis (Reiv.4). In another embodiment the first kinematic chain is a lever (2) fixed to a wind turbine tower, fixed at one of its ends to the float (1), and in the other to the second kinematic chain (Reiv. 5). The second kinematic chain has a counterweight (10), and is joined by one of its ends and by a gearbox (4 ') to a third kinematic chain (3b) that transmits the movement to the multiplier box (Reiv. 6 ). Finally, in another embodiment the first kinematic chain is a lever (2) fixed at one end to a fixed point, and in the other to the second kinematic chain (3a). The lever has its fixed support point on the float, and the second kinematic chain is connected by a gearbox (4 ’) to another third kinematic chain, and is in turn to the multiplier box. The second and third kinematic chains and the multiplier box are also on the float (Reiv. 7). The float includes a structure on which a support (16) and a tensioner (17) are attached, which are part of the second kinematic chain and absorb the movement of the lever (Reiv. 8). Document D01 discloses a system for harnessing wave energy that includes some pillars between which a float slides. In the upper part of the float there is a connecting element that joins the float with a vertical axis. This axle has teeth on one of its sides, and meshes with a cogwheel on a horizontal axis (see figure 16). The rotation of this axis is transmitted by means of several gears to a turbine for its use (see figure 5). As can be seen, document D01 discloses several of the characteristics of claims 1 to 3. The application includes a multiplier box at the end of the second axis, while in D01 there is talk of different gears, although the purpose of the gears is to maintain the movement in the same direction of the turbine axis, with a correct dimensioning of them the effect of multiplication of the movement would be achieved, so it is considered that this characteristic is also included in the information disclosed in D01. In D01 a four-pillar structure is found instead of a deposit, but it is considered that the passage from one structure to another would not be inventive for a person skilled in the art. Something similar happens with the transmission of the movement of the float, the request indicates the vertical movement of the float on the tank, and in D01 it is only indicated that the float slides on the pillars. However, the elements defined in the application to achieve this slippage are known to a person skilled in the art. For all the foregoing, claims 1 to 3 are considered non-inventive. With regard to claim 4, which refers to the first embodiment, it is explained that the movement of the float is translated into rotational movement of the first axis. This mode of operation would not be evident from what was disclosed in D01, nor from other documents of the State of the Art, so that claim 4 is new and inventive. Document D02 discloses another system of use of wave energy comprising a float (12), attached to a structure (14-17) that functions as a lever on the joint 16, in turn joined at its other end to one arm (44). The movement of this arm due to the float is transmitted to another element (37) that links with one of the two existing zippers (24, 26) depending on whether the movement is ascending or descending, and aided by the counterweights (39, 41). In these two zippers there are two gear wheels that transmit their turning movement to the axle (32) and this to a wheel 36. State of the Art Report Page 4/5  WRITTEN OPINION Application number: 201230417 As can be seen, the invention disclosed in D02 includes all the features of claims 1, 5 and 6, with the exception of the multiplier box and the application to the tower of a wind turbine. The use of the multiplier box, as indicated above, is considered obvious to a person skilled in the art, and the location of the proposed invention in a wind turbine is considered a design option, known in the state of the art, and It does not imply inventive activity. Finally, documents have been found in which the element of accumulation of wave energy is a tensioner or spring (see D03) or also documents whose kinematic chains are located above a float (see D04), but have not been as a whole the characteristics of claims 7 and 8 have been found. Therefore, it is considered that the invention set forth in claims 1, 2, 3, 5 and 6 is anticipated, but the invention with the features of claims 4, 7 and 8 is new (Art. 6 and 8 Patent Law). State of the Art Report Page 5/5