• 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:
    The present invention reveals a device that takes advantage of the energy of the movement of any part of the body and not only by walking, since bands or ribbons strategically placed on the body of the person will be arranged, on which the nodes of coils will be arranged. With iron core in order to maximize the number of exposures between these and the sequence of magnets or magnetic bands. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2631184A1
    申请号:ES201600157
    申请日:2016-02-29
    公开日:2017-08-29
    发明作者:Francisco Javier LOBATO RAPOSO
    申请人:Francisco Javier LOBATO RAPOSO;
    IPC主号:
    专利说明:

    image 1
    image2
    image3
    Lithium-ion batteries, so that it could be produced cheaply on a large scale. In addition, these new devices would be inherently flexible, making them more compatible with the technology designed to be integrated into clothing or at least for the person to carry with them, and with a lower probability of breaking down under stress.
    5 mechanic
    US patent application US2015059204 discloses a template for use with any mechanical mechanism or electronic device located on the heel of a template. The template is constructed of two parts and is designed for both stability and support
    10 of the integrated system present in smart footwear, as well as for the comfort of the user.
    So each step is taken through cables incorporated inside the cords and that will end up in a small battery attached to the ankle in the form of a bracelet or incorporated into the shoe. The battery includes a connector for recharging such everyday devices as the mobile phone, an mp3, a tablet or a GPS.
    It is a comfortable and waterproof insole that can be adjusted to any type of footwear. The battery and cords are also waterproofed.
    In the present invention, the novelty is that the device harnesses the energy of the movement of any part of the body and not only by walking, since bands or tapes will be strategically placed on the body of the person, on which they will have the iron core coil nodes in order to increase the
    25 maximum number of exposures between you and the sequence of magnets strategically placed on the arms and leg. In this way, and by providing an adequate number of these elements, we will be able to increase the efficiency of the system in the path made by the magnets of the arms in relation to the metal core solenoid nodes located in the ribbons or bands of the trunk.
    30 This same effect will be achieved on the legs, thanks to the relative movement between them when walking. For this, a band with magnets will be arranged on one of the legs, while the other band with flat iron core winding will be arranged on the other.
    image4
    image5
    DESCRIPTION OF THE DRAWINGS
    To complement the description that is being made and in order to help a better understanding of the features of the invention, in accordance with a
    A preferred example of the practical realization thereof is accompanied as an integral part of said description, a set of drawings in which, with an illustrative and non-limiting nature, the following has been represented:
    Figure 1. - shows a side view of block 1 placed in the user's textile.
    10 Figure 2.- shows a schematic view of the electrical system that makes up block 1.
    Figure 3 - shows a three-dimensional view of the system applied to the movement of a user and the radial positions Rl, R2, Ri with respect to the advance of the body, both
    Oo. ,
    15 for the left piema as for the right leg, as well as for the right arm and the right side of the trunk of the body. In addition, the implementation of block (82) is appreciated.
    Figure 4.- shows a three-dimensional view of the movement of the leg when running and the radial positions R1, R2, Ri, Oo, with respect to the advance of the body.
    ,
    20 Figure 5.- shows the elements of block 1 and the arrangement of both blocks 81 and 82 in the user's textile.
    Figure 6.- shows the electrical circuit of the block (82) indicating each of its 25 elements.
    Figure 7.- shows the element of generation of electric current by flexion in the joints of the body
    30
    DESCRIPTION OF THE INVENTION
    The object of the present invention is to generate electricity by taking advantage of the movement of the human body and that this electricity serves as power to the different electrical devices that the user can carry, such as textiles with integrated systems of
    image6
    image7
    heat generation, mobile phones, music playback devices, etc.
    In accordance with this, bands or ribbons strategically placed on the body of the person will be arranged, on which the nodes of flat coils with 5 will be arranged
    flat iron core, or instead, flat longitudinal bands of coils with iron core attached or implemented in the textile of the sides of the body trunk and in one of the legs in order to maximize the number of exposures between these bands and the sequence of magnets or magnetic bands placed on the textile of arms and the other leg. In this way and by arranging an adequate number of these elements 10 we will be able to increase the efficiency of the system in the path made by the magnets of the arms in relation to the solenoid nodes with metal core located in the ribbons or bands of the trunk. This same effect will be achieved on the legs, thanks to the relative movement between them when walking. For this, a band with magnets will be arranged on one of the legs, while the other band with flat winding of metal turns
    15 conductor of electricity such as copper, with metallic core will be arranged in the other.
    The intensity of the generated electric field will depend on the number of turns of conductive material and the power of the magnetic field generated by the magnet. 20 PREFERRED EMBODIMENT OF THE INVENTION
    The system comprises two blocks or groups of components, which operate independently. The first block allows the generation of electricity by electromagnetic induction and the second block allows the increase in voltage of the current
    25 generated by the first block, as well as its storage.
    When moving, a person moves the arms with the legs and other parts of the body to ensure balance. In the case of the arms there is an oscillatory movement of these with respect to the trunk, with the shoulder or armpit as
    30 center of relative rotation. In this oscillatory movement of arms, the system has a first block comprising a plurality of magnets, in the form of bands or magnetic tapes (1 .1) arranged along said arms. The magnets which make an approach to the coils of iron core or similar (1.2) integrated in the equipment by way of longitudinal bands located on the outside of the trunk in contact with 5
    image8
    image9
    the arms, so that, when the magnets are close to or facing the iron core coils, an electromagnetic pulse is produced that will be conducted by the electric conductor cable (1 .6). The current generated and transported by this electric cable It will be stabilized and stored by a capacitor (1 .3). Finally there is a
    5 LED lighting element or similar (1.4). The activation or shutdown of the first block can be done with a switch (1 .5). In the case of the generation of electric current through the relative movement of the legs, it will be arranged analogously to that described above; that is, the generation of electric current through the relative movement of the arms. In the case of
    10 legs, a magnetized longitudinal band or magnetic tape will be arranged on the inside of one of the pants pemeras from top to bottom, and a longitudinal band consisting of flat iron cores or similar on the other leg of the pants also from top to bottom down. In this way, both bands or tapes face each other, giving contact or proximity situations in each of the steps. This is achieved, generate
    15 currents by electromagnetic induction each time these bands approach each other. This is due to the fact that in each of the steps there is a relative movement of distance and approximation between the band of magnets located in one leg and the band of copper winding bodies with metal core located in the other. The bands mentioned above and housed in the textile of the legs or fasteners
    20 enabled for this purpose as in the case of arm bracelets, they will be as light as possible, using magnets with a good magnetic power and weight ratio, as is the case with neodymium magnets. These magnetized cores will have a polarity, so that with the change of direction of the movement of the inductor magnet, a change in the direction of the current will occur. Therefore, block 1 will be designed with the
    25 possibility of absorbing these changes without affecting the proper functioning of the system. According to the drawings, it can be seen that as the direction of the direction of the movement of the bearer of the system, the "X" axis has been chosen, producing each and every one of the oscillatory movements in the imaginary vertical plane "X-Z" or sagittal plane
    30 (flexion and extension). In the case of electricity generation with the legs, this vertical plane can be considered to be a main body symmetry plane (Sagittal plane), while in the case of electricity generation with the arms the plane in question will be a plane parallel to the previously described but that goes through the armpits. Another possibility is to replace the electromagnetic induction bands implemented in the textile with:
    image10
    image11
    a) Bracelets with magnets transversely in arms and on one of the two legs.
    b) Fixing straps transverse to the trunk of the body and cross straps on the other
    leg, carriers of the system of remaining elements or components, that is:
    solenoid or conductive metal coil such as enameled copper with iron number or
    similar (1.2), capacitor (1.3) and lighting point as a LED (1.4). The system also comprises a second block that acts as a device for increasing voltage and storing electrical energy), achieved by means of the block's electricity generator (B1). This block (B2) comprises a battery (2.1) for storing energy, a toroidal electromagnet (2.2) of small dimensions, preferably flat, consisting of a ferrite ring as a core and a coil of enamelled conductive wire such as copper or similar wound on East. On both sides the number of turns or turns must be the same, in addition to having a two-wire composition (2 cables of different thickness). The function of this toroid is to function as an oscillator that causes pulses in a coil from which we extract a force against electromotive when these pulses disappear, so its voltage value is greater than what we supply. The block also comprises a potentiometer (2.3), a transistor (2.4), a diode bridge (2.5), at least one lighting element (2.6) preferably of the LED type, a capacitor (2.7), a switch (2.8) , at least one conductor cable (2.9). Regarding the nodule constituted by a ferrite ring, it is important to note that Foucault currents create energy losses through the Joule effect and the corresponding heating of the nodule. However, the system is capable of using cores with magnetic materials that have low electrical conductivity (such as ferrite) or using thin sheets of electric steel, stacked but separated from each other by an insulating varnish such that they are mutually isolated electrically, would be achieved reduce these eddy currents. The electronic system described above raises the voltage and can be used to recharge a possible battery housed in the equipment, which serves the different electrical requirements of different devices such as LED power, mobile recharge, etc. When this electronic system is not connected to the consumer devices, the capacitor begins to charge increasing the potential difference and delivering greater amperage. Another possibility of generating electricity by flexing legs, arms, ankles, elbows, wrists, neck, is achieved thanks to the placement in at least one of the joints of the body of a sheet, plate or bar of certain flexibility (4) . This sheet or plate, is inserted in the textile or the bracelet so that it is fixed to one of the two parts that are joined through the joint, the other end of said sheet being free. For example, the blade would be fixed at one of its ends to the sleeve of the arm, while the other would be free, that is, without fixing itself. At that free end the sheet carries the polarized magnet 1.1. On the other hand, the coil with iron core or similar 1.2 is implemented in the textile of the forearm or in a bracelet enabled for this purpose. The electric current is produced with each of the arm flexions, since the magnet at the end of the blade approaches or moves away from the iron core coil if the arm is stretched or flexed respectively.
    image12
    image13
    image14
    权利要求:
    Claims (3)
    [1]
    image 1
    1.-Electricity generation system, voltage amplification and storage of electric energy generated by the movement of the body, which is characterized by: A first block (81) comprising a plurality of magnets, in the form of: bands or magnetic tapes (1.1) arranged along the arms and legs of a user, bracelets with magnets transversely in arms and in one of the two legs or by fastening tapes transverse to the trunk of the body and transverse tapes in the other piema ; at least one longitudinal band located on the outside of the trunk and in contact with the arms, wherein said band is composed of a plurality of iron core coils or the like (1 .2) integrated in said band; at least one electrical conductor cable (1.6), at least one capacitor (1.3) that allows the current generated and transported by this electrical cable (1 .6) to be stabilized and stored; at least one lighting element preferably led diode or the like (1.4); a switch (1 .5) that allows the block to be switched on and off; A second block (82) comprising a battery (2.1) for storing electrical energy; a toroidal electromagnet (2.2) of small dimensions, preferably flat, consisting of a ferrite ring as a core and a coil of enamelled conductive wire such as copper or similar wound on it; a potentiometer (2.3); a transistor (2.4); a diode bridge (2.5); at least one lighting element (2.6) preferably of the led type; a capacitor (2.7); a switch (2.8); at least one conductor cable (2.9).
    [2]
    2. Electricity generation system, voltage amplification and storage of electric energy generated by the movement of the body, according to claim 1, characterized in that the toroidal electromagnet (2.2) is constituted by a ferrite ring or by Magnetic materials that have low electrical conductivity, preferably thin sheets of electric steel stacked but separated from each other by an insulating varnish as a core and a coil of conductive wire enameled as copper or similar wound on it, where on both sides the number of turns or turns must be equal and in addition to disposing of a bifilar composition.
    9
    image2
    image3
    [3]
    3. Electricity generation system, voltage amplification and storage of electric energy generated by the movement of the body, according to claim 1, characterized in that the system contains a flexible sheet (4) inserted in the textile or in the bracelet , so that it is fixed to one of the two parts that are joined through the joint, the other end of said sheet (4) being free.
    10
    image4
    类似技术:
    公开号 | 公开日 | 专利标题
    US9303628B2|2016-04-05|Method and apparatus for generating electrical energy
    MX9300043A|1993-11-01|HIGH POWER, LIGHT WEIGHT ELECTROMOTRIZ DEVICE.
    JP2008135589A|2008-06-12|Coil for power transmission
    EA200800631A1|2008-10-30|ELECTRIC MOTOR-GENERATOR WITH INDUCTION BY A CONSTANT CURRENT
    ES2883217T3|2021-12-07|Drive apparatus and device manufacturing method
    SE0001302L|2001-10-08|An electric machine
    WO2017035999A1|2017-03-09|Wearable power generation device, wearable clothes capable of generating power, and power generation method
    ES2631184A1|2017-08-29|System for generating electricity, amplifying the generated voltage and storing electrical energy by moving the body |
    JP3194774U|2014-12-11|Flexible article having a sheet-type power coupling transmission module
    JP2013110954A|2013-06-06|Wireless chargeable portable electronic device and charger combined therewith
    KR101635135B1|2016-06-30|Wireless charging receiver module
    MX2017008400A|2018-09-10|Illuminated vehicle charging system.
    CN110445238A|2019-11-12|Walking charger
    PL225484B1|2017-04-28|Textile charger for charging mobile electric devices
    Geisler et al.2017|Looped energy harvester for human motion
    ES1142482U|2015-08-19|Portable self-generating thermoelectric current device for electronic devices |
    KR20180047940A|2018-05-10|Apparatus for transfering power wireless using capatively-coupled method and clothes comprising thereof
    CN105639817A|2016-06-08|Electric shock preventing early-warning safety helmet
    JP2016015553A|2016-01-28|Mobile device human body communication electrode
    ES1074639U|2011-05-19|Fixed wheel bicycle electric power generator |
    JP3099932U|2004-04-22|A generator that converts walking motion directly into electric power
    WO2018192302A1|2018-10-25|Power generation apparatus and intelligent wearable device
    Sawant et al.2013|An overview of technological advancements and future possibilities in wireless power transmission
    ES1135461U|2015-01-19|Wireless electrical power supply device |
    ES2351138A1|2011-02-01|Electromechanical generator cell and process for obtaining the same
    同族专利:
    公开号 | 公开日
    ES2631184B1|2018-05-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20130033131A1|2011-08-04|2013-02-07|Atlantic Industries, Inc.|Inductive Energy Converter|
    CN202840657U|2012-08-08|2013-03-27|祝心怡|Self-powered charging device for portable electronic equipment based on walking or shaking movement of human body|
    CN103967723A|2014-05-15|2014-08-06|钟声|Efficient generating set worn at foot|
    CN105192984A|2014-05-26|2015-12-30|南京专创知识产权服务有限公司|Running shoe capable of achieving automatic power supply and measurement and running distance display|CN111306019A|2020-04-20|2020-06-19|嵊州图白发电科技有限公司|Power generation device utilizing animal motion kinetic energy|
    法律状态:
    2018-05-14| FG2A| Definitive protection|Ref document number: 2631184 Country of ref document: ES Kind code of ref document: B1 Effective date: 20180514 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201600157A|ES2631184B1|2016-02-29|2016-02-29|Electricity generation system, amplification of the generated voltage and storage of electrical energy through body movement|ES201600157A| ES2631184B1|2016-02-29|2016-02-29|Electricity generation system, amplification of the generated voltage and storage of electrical energy through body movement|
    [返回顶部]