• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    System of gravitational use of energy generation, which comprises a plurality of spherical bodies, a storage platform for spherical bodies, a system for the ramping of spherical bodies by gravity, a lifting system for spherical bodies, an electric power generator, means of transmission of movement between the ramping system and the electric power generator. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2802822A1
    申请号:ES201930658
    申请日:2019-07-17
    公开日:2021-01-21
    发明作者:Fernandez Antonio Fraile
    申请人:Fernandez Antonio Fraile;
    IPC主号:
    专利说明:

    [0002] GRAVITATORY USE OF ENERGY GENERATION SYSTEM
    [0004] OBJECT OF THE INVENTION
    [0006] The object of the present application for invention is the registration of a gravitational utilization system for energy generation, which incorporates notable innovations and advantages over the techniques used up to now.
    [0008] More specifically, the invention proposes the development of a system of gravitational use of energy generation, which due to its particular arrangement, allows generating a movement linked to the action of gravity and taking advantage of said movement for the generation of electrical energy.
    [0010] BACKGROUND OF THE INVENTION
    [0012] Multiple and varied energy use systems for obtaining electrical energy are known in the current state of the art.
    [0014] Despite the good utilities of many of them, however, all of them require the supply of some type of fuel, especially fossil fuel, for their operation, with the environmental problems that this entails.
    [0016] The progressive and growing increase in energy consumption, both local and global, is an unquestionable fact in our days.
    [0018] All this responds to several factors at the same time: demographic growth of the population, access of a greater proportion of the population to new amenities and therefore energy demand (washing machines, heating, televisions, etc.), use of services and new technologies that previously they did not exist (Internet, etc.), global increase in industrialization, etc.
    [0019] Therefore, it is necessary to satisfy the growing energy demand that is taking place both at a domestic and industrial level, as well as at a local and global level, and thus find a clean, sustainable production system, without waste or residues.
    [0021] This has led to a growing awareness in this regard, both at the social level and by the public authorities.
    [0023] In addition to everything explained above, it must also be added the urgent need for the new energy alternatives under study to those already existing today, to be fully compatible with an environmentally sustainable development, and not to imply an environmental mortgage for future generations, in addition to suppose considerable economic savings in energy consumption.
    [0025] It should be noted that, although there are multiple types and models of electrical energy generating apparatus and devices on the market that use different physical principles to activate a mechanism that produces a movement from which the rotation of an axis is used to transform it into energy the existence of any electrical, structural and constitutive characteristics similar to those claimed here, or using a procedure similar to that described, is unknown.
    [0027] The present invention contributes to solving and solving the present problem, since it allows generating a movement linked to the action of gravity and taking advantage of said movement for the generation of electrical energy.
    [0029] DESCRIPTION OF THE INVENTION
    [0031] The present invention has been developed in order to provide an energy generation gravitational harnessing system, which is essentially characterized by the fact that it comprises a plurality of spherical bodies, a spherical body storage platform, a ramp fall system of spherical bodies by gravity, a lifting system of the spherical bodies, an electric power generator, means of transmission of movement between the ramping system and the electric power generator.
    [0032] The spherical body ramping system has at least one chain, pinion and bolt mechanism that is arranged and positioned longitudinally on the slope of a ramp and the spherical body storage platform is also arranged on the upper level of said ramp, and the same mechanism of chains, pinions and bolts being enabled to individually receive the spherical bodies from the storage platform and their position between the successive bolts and at the same time the spherical bodies are arranged on the slope of the ramp , and enabled the same mechanism to receive a rectilinear movement in the chain communicated from the spherical bodies in their fall and rolling down the slope of the ramp.
    [0034] The spherical body lifting system is enabled to receive the balls released from the ramping system after the drop and rolling of said spherical bodies down the slope of the ramp, and enabled to lift and deposit the same spherical bodies to the storage platform for the spherical bodies.
    [0036] The movement transmission means linked mechanically and simultaneously with the ramping system and the electric power generator, are enabled to receive the rotating movement of the chain sprockets as a consequence of the falling and rolling of the spherical bodies, and adapt and communicating said rotating movement to the electric generator, the ramping system incorporating a manually or automatically actuated locking mechanism, enabled to prevent the movement of the chain, pinion and bolt mechanism.
    [0038] According to another aspect of the invention, the spherical bodies ramping system comprises at least one mechanism of chains, pinions and bolts, the ramp on which each mechanism is arranged is made up of longitudinal profiles as a guide with capacity of rolling on them by gravity of the spherical bodies; each mechanism being provided with a pair of chains in a symmetrical mutual arrangement and extended along the length of the profiles, the chains being mutually linked by bolts so that the movement of each chain is integral, and each chain being engaged with a rolling pinion arranged at each end of the profiles.
    [0039] Furthermore, the gravitational energy generation system of the invention has a plurality of chain, pinion and bolt mechanisms, said chain, pinion and bolt mechanisms being grouped and positioned in pairs; being the pinion of a chain that is arranged in the upper end of the profile of the ramp connected by means of a secondary shaft with another pinion of the other corresponding mechanism of the same pair, both pinions being integral in their movement; each secondary shaft being mechanically communicated in its rotation with a certain rotation relation with the same main shaft, which in turn is mechanically connected with the movement transmission means.
    [0041] On the other hand, in the system of gravitational use of energy generation of the invention, the lifting system of the spherical bodies is arranged on an independent and mobile structure, and incorporates a base where the spherical bodies and lifting means are deposited. of the base with lifting and lowering capacity of said base between the upper and lower level determined by the ramp; it also incorporates a weight sensor for the spherical bodies deposited on the base, said weight sensor being linked in data communication with the lifting means; it also incorporates a damping system adapted to the impact of spherical bodies; the base being enabled to receive the spherical bodies after their fall and rolling down the slope of the ramp when it is at the lower level determined by the ramp; the same base being enabled to pour the same spherical bodies into the spherical bodies storage platform when it is at the upper level determined by the ramp.
    [0043] On the other hand, the platform for storing the spherical bodies is fixed with respect to the ground and has a parallelogram geometry of proportions of 4m by 2m; It has a variable inclination measured from its region of reception of the spherical bodies from the lifting system to its other region of delivery of the same spherical bodies to the ball ramping system; it also has the same inclination to the right and left with respect to the direction of exit of the spherical bodies towards the ramps.
    [0045] Additionally, in the system of gravitational use of energy generation, the means of transmission of movement between the ramping system and the generator of electrical energy are mechanically linked in their rotation with the main shaft and with a certain rotation ratio.
    [0047] Alternatively, in the power generation gravitational harnessing system, the turning ratio with the main axis is from 1 to 1500.
    [0049] Alternatively, in the power generation gravitational harnessing system, the turning ratio of each secondary shaft with the main shaft is 1 to 3.5.
    [0051] Additionally, in the energy generation gravitational harnessing system, the movement transmission means between the ramping system and the electric power generator comprise a set of gears.
    [0053] In addition, in the energy generation gravitational harnessing system, the movement transmission means between the ramping system and the electric power generator comprise a set of pulleys, pinions and belts.
    [0055] Alternatively, in the energy generation gravitational utilization system, the slopes mentioned are 2%.
    [0057] Alternatively, in the gravitational energy generation system, each chain, pinion and bolt mechanism comprises 33 bolts.
    [0059] Alternatively, in the gravitational energy generation system, the spherical bodies are made of steel with their interior filled with lead, 180 mm in external diameter and 38 kg in weight.
    [0061] Preferably, in the energy generation gravitational utilization system, the profiles that make up the ramps present an inclination comprised in a range of 60-85% slope.
    [0063] Additionally, the gravitational energy generation system incorporates a channeling track that is supported on the ground and is arranged between the ramping system and the lifting system, and with the ability to channel the spherical bodies from each mechanism of chains, pinions and bolts to the lifting system, presenting for this purpose an inclination of 2%, and said channeling track having a barrier to pass before the lifting system, arranged so that it can retain the spherical bodies from the ramping system before entering the lifting system.
    [0065] Preferably, the gravitational energy generation system incorporates a walkway arranged on the ramping system, and with the capacity to channel the spherical bodies from the base to the storage platform.
    [0067] Preferably, the gravitational energy generation system incorporates a tensioning mechanism for the chain, pinion and bolt mechanism.
    [0068] Alternatively, the gravitational energy generation system incorporates a means of accumulating electric current.
    [0070] Thanks to the present invention, it is possible to generate a movement linked to the action of gravity and to take advantage of said movement for the generation of electrical energy, since the system itself, after unlocking the movement of the spherical bodies, provides sufficient current generation that will allow powering the elevator system and providing electrical current to power external electrical devices to the system of the invention.
    [0072] Other characteristics and advantages of the gravitational energy generation system will be evident from the description of a preferred, but not exclusive, embodiment, which is illustrated by way of non-limiting example in the accompanying drawings, in which:
    [0074] BRIEF DESCRIPTION OF THE DRAWINGS
    [0076] Figures 1 and 4.- Are schematic views and indicative of its operation of a preferred embodiment of the gravitational utilization system for energy generation of the present invention.
    [0077] Figure 2.- It is a schematic view of an enlarged detail of figure 1.
    [0078] Figure 3.- Is a schematic view of the transmission of the rotation movement from the ramping system to the transmission means.
    [0079] Figure 5.- Is a schematic view corresponding to a preferred embodiment of the transmission means.
    [0080] DESCRIPTION OF A PREFERRED EMBODIMENT
    [0082] As shown schematically in figure 1, the gravitational utilization system for energy generation of the proposed invention comprises a plurality of spherical bodies 1, a storage platform 2 of spherical bodies, a ramp-drop system 3 of balls 1 by gravity, a lifting system 4 of spherical bodies 1, a generator 6 of electrical energy and means of transmission 5 of movement between the system of falling on ramp 3 and the generator 6 of electrical energy.
    [0084] For its part, the ramping system 3 of the spherical bodies 1 has a plurality of mechanisms 30 of chains, pinions and bolts. Each mechanism 30 is arranged and positioned longitudinally on the slope of a ramp that is made up of profiles 34, the storage platform 2 of the spherical bodies 1 being also fixed on the ground and arranged at the upper level of said ramp.
    [0086] As can be seen in figure 1 and its enlarged detail A in figure 2, each mechanism 30 is provided with a pair of chains 31 in symmetrical mutual arrangement and extended along the length of the ramp, the chains 31 being mutually linked by bolts 32 so that the movement of each chain 31 is integral, and each chain 31 being meshed with a rolling pinion 33 arranged at each end of the ramp, that is to say of the profiles 34, and therefore at different heights. In this preferred embodiment, each pair of chains 31 incorporates 33 bolts 32.
    [0088] The same mechanism 30 of chains, pinions and bolts is enabled to individually receive the spherical bodies 1 from said storage platform 2, as well as their positioning between the successive bolts 32 of the chains 31 and at the same time the spherical bodies are arranged 1 on the slope of the ramp formed by the profiles 34, as can be seen in enlarged detail A of figure 2.
    [0090] The ramp on which each mechanism 30 of each pair is arranged, is made up of the longitudinal profiles 34 as a guide, and with the ability to roll over them due to the gravity of the spherical bodies 1. In the enlarged detail A of figure 2 , sayings Profiles 34 are represented in a mechanism 30 of chains, pinions and bolts. Each of the ramps, that is to say the profiles 34, presents an inclination comprised in a range of 60-85% slope, more specifically 80%.
    [0092] In this preferred embodiment, and due to their good performance, each of the spherical bodies 1 are made of steel with their interior filled with lead, 180 mm in external diameter and 38 kg in weight. Likewise, an arrangement of 15 spherical bodies 1 in each mechanism 30 of chains, pinions and bolts is optimal for the proper operation of the gravitational utilization system for energy generation of the invention.
    [0094] In this preferred embodiment, the chain, pinion and bolt mechanisms 30 are grouped and positioned in pairs. The sprocket 33 of a chain 31 that is arranged at the upper end of the profile 34 of the ramp, is connected by a secondary shaft 35 with another sprocket 33 of the other corresponding mechanism 30 of the same pair, as schematically represented in the figure 4, resulting both pinions 33 united in their movement. Each secondary shaft 35 is mechanically connected in its rotation by means of pulleys in a certain rotation relation with the same main shaft 36, which in turn is mechanically connected with the transmission means 5 of movement.
    [0096] The slope of the ramp involves the downward rolling of the spherical bodies 1 on the same ramp by gravity, which means that as the spherical bodies 1 are in turn arranged between the bolts 32, the chain 31 receives a rectilinear movement from them spherical bodies 1, which implies the rotation of its pinions 33, as can be deduced from figures 1 and 2.
    [0098] Each secondary shaft 35 of each pair of chain, pinion and bolt mechanisms 30 is mechanically linked in its rotation in a rotation ratio of 1 to 3.5 with the same main shaft 36, said main shaft 36 being in turn positioned by means of bearings in storage platform 2 of spherical bodies 1.
    [0100] The gravitational energy generation system of the invention incorporates a tensioning mechanism for the chain, pinion and bolt mechanism 30, which provides the necessary tension to the chains 31 so that they maintain adequate linearity during its movement received from the spherical bodies 1 through the pins 32.
    [0102] The system of gravitational use of energy generation of the invention incorporates a channeling track 7 supported on the ground, which is arranged between the ramp fall system 3 and the lifting system 4, and with the ability to channel the spherical bodies 1 from of each mechanism 30 of chains, sprockets and bolts to the lifting system 4, presenting for this purpose an inclination of 2%, and with a funnel-like channeling geometry of the spherical bodies 1 from the ramping system 3 to lift system 4.
    [0104] The channeling track has a barrier to pass before the lifting system 4, arranged in such a way that it can retain the spherical bodies 1 coming from the ramping system 3 before their entry into the lifting system 4.
    [0106] On the other hand, the lifting system 4 of the spherical bodies 1 is arranged on an independent and mobile structure, and at the same time it is enabled to receive the spherical bodies 1 released from the ramping system 3 after the fall and rolling of said spherical bodies 1 by the slope of the ramp. This lifting system 4 may comprise a commercially available platform lift, for which reason it will not go into greater detail in its description.
    [0108] The same lifting system 4 of the spherical bodies 1 is enabled as a forklift, for lifting and depositing the spherical bodies 1 to the storage platform 2 of the spherical bodies 1. The spherical bodies 1 reach the lifting system 4 rolling by gravity passing through the channeling track 7.
    [0110] The lifting system 4 incorporates a base 41. It is in said base 41 where the spherical bodies 1 collected from the ramp are deposited.
    [0112] It also incorporates a means for lifting the base 41, with the ability to raise and lower said base 41 between the upper and lower level determined by the ramp, and as indicated by the arrows in figure 1. Such lifting means may comprise a plurality of vertically arranged guide profiles and an electric motor 42 controlled by a control unit, the source of supply being electrical current of this motor electrically connected to generator 6 by electrical connections (represented by dashed lines in Figures 1 and 3).
    [0114] In figure 1, the base 41 of the lifting system 4 appears at the lower level of the ramp, receiving the spherical bodies 1.
    [0116] In this sense, the lifting system 4 of the balls 1 also incorporates a weight sensor 43 of the spherical bodies 1 deposited in its base 41. Said weight sensor 43 is linked in data communication with the mentioned lifting means, with so when the base 1 already receives a certain weight according to the number of spherical bodies 1 received, the lifting means raise the base 1 from the lower level to the upper level of the ramp.
    [0118] In figure 3, the base 41 of the lifting system 4 appears on the upper level of the ramp, and delivering the spherical bodies 1 to the storage platform 2.
    [0120] The lifting system 4 of the spherical bodies 1 also incorporates a damping system to reduce the effect of the impact of the spherical bodies 1 on their arrival at the base 41.
    [0122] On the other hand, the base 41 is enabled to receive the spherical bodies 1 after their fall and rolling down the slope of the ramp when it is at the lower level determined by the ramp, as shown schematically in figure 1, and also to pour the balls 1 into the storage platform 2 of the spherical bodies 1 when it is at the upper level determined by the same ramp, as it is also schematically represented in figure 4.
    [0124] For pouring the spherical bodies 1 from the base 41 to the storage platform 2, there is for this purpose a walkway 8 arranged on the ramp-down system 3 and represented in lines in Figures 1 and 4.
    [0126] The storage platform 2 has a parallelogram geometry of 4m by 2m, with an inclination of 2% towards the fall system on ramp 3, to allow the passage of the spherical bodies 1 towards the fall system on ramp 3. However , said inclination it can be variable and adjustable according to specific operating needs, for example between 2% and 5%.
    [0128] At the same time, it also presents the same 2% inclination to the right and left with respect to the direction of exit of the spherical bodies 1 towards the ramps.
    [0130] On the other hand, the movement transmission means 5 are mechanically and simultaneously linked with the ramping system 3 and the electric power generator 6, and enabled to receive the rotary movement of the sprockets 33 of the chain 31 as a consequence of the falling and rolling of the spherical bodies 1, and adapting and communicating said rotary movement to the electric generator 6 by means of a transmission shaft 37.
    [0132] In relation to the above, the movement transmission means 5 are mechanically linked in their rotation with the main shaft 36 mentioned above, and with a rotation ratio of 1 to 1500.
    [0134] Said transmission means 5 of movement between the ramping system 3 and the electric power generator 6 may comprise a set of gears, and in other preferred embodiments they may comprise a set of pulleys, pinions and toothed belts for their silent properties, as shown schematically in figure 4.
    [0136] The ramp fall system 3 incorporates a manually or automatically actuated locking mechanism 37, enabled to prevent movement of the chain, pinion and bolt mechanism 30.
    [0138] In the operation of the gravitational energy generation system of the invention, it is necessary to carry out an initial load of spherical bodies 1 on the storage platform 2, and for this, the movement of the mechanisms 30 of chains, sprockets must also be blocked. and bolts by means of the locking mechanism 37 referred to above, to thus allow the loading of spherical bodies 1 on the storage platform 2 without the spherical bodies 1 coming out through the mechanism 30 of chains, pinions and bolts.
    [0139] After sufficient accumulation of spherical bodies 1 in the storage platform 2, the said locking mechanism 37 is unlocked, the balls 1 coming out through the chain, pinion and bolt mechanisms 30, and then passing the gravitational utilization system of power generation of the invention to function as already explained.
    [0141] The gravitational energy generation system of the invention incorporates a means of accumulating electric current, for example a battery, which is electrically linked to the lifting system 4. This can be useful to provide the necessary starting energy for operation. lift system 4.
    [0143] A very useful feature of the gravitational energy generation system of the invention can be, for example, its use for an electrical energy generation service in the same way that it is usually provided by a generator set.
    [0145] The details, shapes, dimensions and other accessory elements, as well as the materials used in the manufacture of the gravitational use of energy generation system of the invention, may be conveniently replaced by others that are technically equivalent and do not deviate from the essentiality. of the invention or the scope defined by the claims that follow.
    权利要求:
    Claims (1)
    [0001]
    1. System of gravitational use of energy generation, characterized by the fact that it comprises a plurality of spherical bodies (1), a storage platform (2) of spherical bodies (1), a system of falling on a ramp (3) of spherical bodies (1) by gravity, a lifting system (4) of the spherical bodies (1), a generator (6) of electric energy, transmission means (5) of movement between the system of falling on a ramp (3 ) and the generator (5) of electrical energy; so that the system of falling on a ramp (3) of the spherical bodies (1) has at least one mechanism (30) of chains, pinions and bolts that is arranged and positioned longitudinally on the slope of a ramp and also being the storage platform (2) of the spherical bodies (1) arranged on the upper level of said ramp, and the same mechanism (30) of chains, pinions and bolts being enabled to individually receive the spherical bodies (1) from the platform storage (2) and its positioning between the successive bolts and at the same time the spherical bodies (1) are arranged on the slope of the ramp, and the same mechanism (30) enabled to receive a rectilinear movement in the chain communicated from the spherical bodies (1) in their fall and rolling down the slope of the ramp; the lifting system (4) of the spherical bodies (1) being enabled to receive the balls (1) released from the ramping system (3) after the fall and rolling of said spherical bodies (1) down the slope of the ramp, and enabled for the elevation and deposition of the same spherical bodies (1) to the storage platform (2) of the spherical bodies (1); the movement transmission means (5) being linked mechanically and simultaneously with the ramping system (3) and the electric power generator (6), and enabled to receive the rotating movement of the chain sprockets as a consequence of the falling and rolling of the spherical bodies (1), and adapting and communicating said rotary movement to the electric generator (6); The ramp fall system (3) incorporating a manual or automatic locking mechanism (37), enabled to prevent the movement of the chain, pinion and bolt mechanism (30).
    2. System of gravitational use of energy generation according to claim 1, characterized in that the ramping system (3) of the spherical bodies comprises at least one mechanism (30) of chains, pinions and bolts, the ramp on which each mechanism is arranged (30) composed of longitudinal profiles (34) as a guide with the ability to roll on them by gravity of the spherical bodies (1); each mechanism (30) being provided with a pair of chains (31) in a symmetrical mutual arrangement and extended along the length of the profiles (34), the chains (31) being mutually linked by bolts (32) so that the movement of each chain (31) is integral, and each chain (31) being engaged with a rolling pinion (33) arranged at each end of the profiles (34).
    3. System of gravitational use of energy generation according to claim 2, characterized in that it has a plurality of mechanisms (30) of chains, pinions and bolts, said mechanisms (30) of chains, pinions and bolts being grouped and positioned in pairs; being the pinion (33) of a chain (31) that is arranged at the upper end of the profile (34) of the ramp connected by a secondary shaft (35) with another pinion (33) of the other corresponding mechanism (30) of the same pair, resulting both pinions (33) united in their movement; each secondary shaft (35) being mechanically communicated in its rotation in a certain rotation relation with the same main shaft (36), which in turn is mechanically connected with the movement transmission means (5).
    4. Gravitational energy generation system according to claim 1 or 2 or 3, characterized in that the lifting system (4) of the spherical bodies (1) is arranged on an independent and mobile structure, and incorporates a base (41) where the spherical bodies (1) and a base elevation means (41) with lifting and lowering capacity of said base (41) between the upper and lower level determined by the ramp are deposited; It also incorporates a weight sensor (43) of the spherical bodies (1) deposited on the base (41), said weight sensor (43) being linked in data communication with the lifting means; It also incorporates a damping system adapted to the impact of spherical bodies (1); the base (41) being enabled to receive the spherical bodies (1) after their fall and rolling down the slope of the ramp when it is at the lower level determined by the ramp; the same base (41) being enabled to pour the same spherical bodies (1) into the storage platform (2) of the spherical bodies (1) when it is at the upper level determined by the ramp.
    5. Gravitational energy generation system according to claim 1 or 2 or 3 or 4, characterized by the fact that the storage (2) of the spherical bodies (1) is fixed with respect to the ground and has a parallelogram geometry of proportions of 4m by 2m; presents a variable inclination measured from its reception region of the spherical bodies (1) from the lifting system (4) to its other delivery region of the same spherical bodies (1) to the ramping system (3) of the balls (1); it also has the same inclination to the right and to the left with respect to the direction of exit of the spherical bodies (1) towards the ramps.
    6. Gravitational power generation system according to claim 4 or 5 when dependent on claim 3, characterized in that the transmission means (5) of movement between the ramping system (3) and the generator (6) of electrical energy are mechanically linked in their rotation with the main shaft (36) and with a certain rotation ratio.
    7. Gravitational power generation system according to claim 6, characterized in that the rotation ratio with the main axis (36) is from 1 to 1500.
    8. Gravitational power generation system according to claim 3, characterized in that the rotation ratio of each secondary axis (35) with the main axis (36) is from 1 to 3.5.
    9. Gravitational energy generation system according to any of the preceding claims, characterized in that the transmission means (5) of movement between the ramping system (3) and the electric power generator (6) They comprise a set of gears.
    10. Gravitational energy generation system according to any of claims 1 to 8, characterized in that the transmission means (5) of movement between the ramp-down system (3) and the generator (6) of electrical power comprise a set of pulleys, sprockets and belts.
    11. Gravitational power generation system according to claim 5, characterized in that the aforementioned inclinations are 2%.
    12. System of gravitational use of energy generation according to claim 3, characterized in that each mechanism (30) of chains, pinions and bolts, comprises 33 bolts (32).
    14. Gravitational energy generation system according to any of the preceding claims, characterized in that the spherical bodies (1) are made of steel with their interior filled with lead, 180 mm in external diameter and 38 kg in weight.
    15. Gravitational power generation system according to claim 2, characterized in that the profiles (34) that make up the ramps have an inclination comprised in a range of 60-85% slope.
    16. Gravitational power generation system according to claim 4, characterized in that it incorporates a channeling track (7) that is supported on the ground and is arranged between the ramp-down system (3) and the system lifting gear (4), and capable of channeling the spherical bodies (1) from each mechanism (30) of chains, pinions and bolts to the lifting system (4), presenting for this purpose an inclination of 2%, and said channeling track (7) presenting a passage barrier before the lifting system (4), arranged so that it can retain the spherical bodies (1) coming from the ramping system (3) before their entry into the lifting system (4).
    17. Gravitational energy generation system according to claim 4, characterized in that it incorporates a walkway (8) arranged on the ramp-fall system (3), and capable of channeling the spherical bodies (1) from from the base (41) to the storage platform (2).
    18. Gravitational energy generation system according to any of the preceding claims, characterized in that it incorporates a tensioning mechanism for the chain, pinion and bolt mechanism (30).
    19. Gravitational power generation system according to any of the preceding claims, characterized in that it incorporates a means of accumulating electric current.
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    同族专利:
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    ES2802822B2|2021-10-15|
    WO2021009392A1|2021-01-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPH11294315A|1998-04-09|1999-10-26|Noboru Sugiyama|Electric power station|
    US20130241331A1|2012-02-07|2013-09-19|Tsugane Machine Company Limited|Eccentrically Rotating Apparatus|
    WO2015078098A1|2013-11-30|2015-06-04|Liu Dianjun|Electricity Generation System Using Weight Potential Energy|
    CN104564550A|2014-12-02|2015-04-29|于元亮|Potential energy stored power generation system|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201930658A|ES2802822B2|2019-07-17|2019-07-17|GRAVITATORY USE OF ENERGY GENERATION SYSTEM|ES201930658A| ES2802822B2|2019-07-17|2019-07-17|GRAVITATORY USE OF ENERGY GENERATION SYSTEM|
    PCT/ES2020/000033| WO2021009392A1|2019-07-17|2020-07-13|System for power generation using gravity|
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