• 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:
    Movement machine It is a device that is capable of being in motion, a mechanical energy device produced by constant tension. The system generates movement through the tension of a body subjected to the pressure exerted by its two arms in synchronized circular motion. This tension passes through the tensioning axis that is the point of union of the arms. Its ingenuity is inertia simply by using an enclosed force and a way to generate tension, a sphere with enclosed force that maintains the tension, rotates through inertia when trying to break free and without achieving it, because the tension axis accompanies the movement of the sphere. By the wheel, its shape, the force locked in motion, the axle, its arms in motion, its unique movement tension and the auxiliary spheres exerting pressure. This movement mechanism attached to the generator produces electricity. This device produces portable and clean energy. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2746353A2
    申请号:ES201800081
    申请日:2018-03-28
    公开日:2020-03-05
    发明作者:Madrid Adrián Garcia
    申请人:Garcia Madrid Adrian;
    IPC主号:
    专利说明:

    [0001] Durable motion machine.
    [0002] Technical sector
    [0003] The sector of the art in which the invention is framed is the energy sector.
    [0004] Background of the Invention
    [0005] Movement machine.
    [0006] Explanation of the invention
    [0007] The present invention relates to a device that is capable of being in motion. Mechanical energy apparatus subjected to a voltage that converts energy into electricity through a generator.
    [0008] In hostile or simply virgin places, without the implementation of the modern electrical network. Anytime, anywhere you can enjoy electricity.
    [0009] The system generates movement through the tension of a body subjected to the pressure exerted by its two arms in synchronized movement or single movement.
    [0010] Arm A is tensioned from top to bottom and arm B from bottom to top, in 180 degrees and movement towards the same direction but from different angle, unique movement.
    [0011] That tension passes through the tension axis that is the point of union of the arms. His ingenuity is inertia simply by using an enclosed force, and generating tension towards the same direction or single movement.
    [0012] A sphere with enclosed force that maintains tension, spins inertia when trying to free itself and without success, since its problem is that it can only try to free itself, and that is the reason why it does not succeed, because the tension axis and arms accompany the movement of the sphere.
    [0013] The physical problem is that tension cannot be generated at the same time that it is released, thanks to the fact that the circle rotates and the movement of the axis with the synchronized arms retains the tension in motion that tries to free itself, once it is movement is energy.
    [0014] Principle of conservation of mechanical energy. Energy is neither created nor destroyed, it is only transformed.
    [0015] Whenever we lock a force into one wheel it will cause movement regardless of the number of wheels the force is encased in and whenever there is an encased force of constant thrust.
    [0016] An enclosed force of constant wheel thrust equals motion.
    [0017] Law of conservation of energy and the principle of friction, also due to slopes, although corrected with the anti-sag vertical guides of the auxiliary and intermediate spheres, would end up stopping at some point, since according to the accepted laws of physics nothing is infinite .
    [0018] The long-term drawbacks that the invention may present are material fatigue, the only thing that could happen with wear is material fatigue and wear of the tension rubbers.
    [0019] The solution to this problem is substitution, recycling of materials and alternative materials.
    [0020] Brief description of the drawings
    [0021] To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, a set of drawings is included as an integral part of said description, where, by way of illustration and not limitation, the next:
    [0022] • Figure 1 shows a front view of the composition of the shaft, the springs, the sphere of the spring, the base of the arms.
    [0023] • Figure 2 is the explanatory image of the sphere of the spring, the sphere that goes in conjunction with the spring.
    [0024] • Figure 3 shows in a succession of 4 images the movement performed by the arms in tension.
    [0025] • Figure 4 shows a side view of the gear system.
    [0026] • Figure 5 shows a front view of the device of the invention.
    [0027] • Figure 6 shows a front view of the device of the invention in its ornaments.
    [0028] A list of the different elements represented in the figures that make up the invention is provided below.
    [0029] • Figure 1: shows a front view of the axle composition, the springs, the spring sphere, the base of the arms.
    [0030] 1 = Arm extension
    [0031] 2 = Complete spring, metal sphere and roll-up spring
    [0032] 3 = Holding bracket and spring end hooking bracket
    [0033] 4 = Rope wheel, arm base
    [0034] 5 = Axis
    [0035]
    [0036] • Figure 2: explanatory image of the sphere of the spring, the sphere that goes in conjunction with the spring.
    [0037] 1 = Roll-up spring
    [0038] 2 = Sphere attached to the spring
    [0039] 3 = Clamp opening
    [0040] 4 = End of the spring
    [0041] • Figure 4: Shows a side view of the gear system.
    [0042] 1 = Brake.
    [0043] 2 = Brake lever / switch.
    [0044] 3 = Teeth.
    [0045] 4 = Clamping brackets.
    [0046] 5 = Auxiliary Spheres.
    [0047] 6 = Grab bar.
    [0048] 7 = Anti-sag vertical guide.
    [0049] 8 = Main Spheres.
    [0050] 9 = Axis.
    [0051] 10 = Union of the arms to the Main Spheres.
    [0052] 11 = Intermediate Spheres / Gearbox.
    [0053] 12 and 13 = Fixed pieces that help the movement of the Intermediate Spheres / Gearbox to be even and not lose strength.
    [0054] 14 = Grab bar.
    [0055] 15 = Vertical anti-sag guide.
    [0056] 16 = Generator Sphere.
    [0057] 17 = Holding bracket
    [0058] • Figure 5: shows a front view of the device of the invention.
    [0059] 1 = outer shell.
    [0060] 2 = Brake lever.
    [0061] 3 = Brake system.
    [0062] 4 = Clamping brackets.
    [0063] 5 = Gear system.
    [0064] 6 = Axis.
    [0065] 7 = Connector.
    [0066] 8 = On / Off switch.
    [0067] 9 = Electrical Circuit Box.
    [0068] 10 and 11 = Electrical Circuit-Connection with the Generator.
    [0069] 12 = Motor-Rotor-Brake.
    [0070] 13 = Speed Axis.
    [0071] 14 = Generator.
    [0072] 15 = Silicone Mold.
    [0073] PREFERRED EMBODIMENT OF THE INVENTION
    [0074] The structure is anchored to the outer casing by means of the fixing supports located at each end.
    [0075] The shaft, figure 1, is made up of a steel section in the shape of a circular tube, with a diameter of 1.1 cm, and 2.6 cm or 4 cm in length with all its components. At the beginning of the spring, 3 holding bars protrude. The shaft is made up of two springs with spheres.
    [0076] The stresses on the arms are similar. The spheres of the springs must be calibrated. The springs are identical, they are springs that roll up, they have a length of 3 cm rolled and 5mm wide. The spheres of the springs are attached to the spring, the springs are on the face facing the axis behind the sphere to which it belongs. The spheres of the springs have a length of 3 cm and a thickness of 1 mm each, they are attached to the shaft by a stop.
    [0077] From each section or end of the shaft, the spring clamping or placement bars protrude, one of them, the third, has a flange to hold the end of the spring.
    [0078] At each end of the shaft there is an arm. Each arm has a spherical base piece that is attached to the tension system, each arm is rope arms, turning them makes the spring twist. This circular base has a diameter of 1.5 cm and a layer of iron with a thickness of 1mm that covers the diameter in its entirety, said base is a component also attached to the spheres of the spring and the shaft. The arm works like a rope, wraps the spring with the spring wheel, and directly receives all the tension or turning force. The arms are connected with the spheres of the spring.
    [0079] A sphere with a diameter of 1.5 cm protrudes from the base of each arm, the arms are 5.25 cm long, the entire arm with the base. So that it becomes two levers that rotate on a common support point, when turning the arms it causes tension on the springs, when they are wound.
    [0080] At the end of each arm protrudes a flange of 7.5 mm in length and a diameter of 3mm.
    [0081] These pieces are each attached within a sphere. 2.5mm.
    [0082] The arm synchronization rotates 180 ° in the same direction, until full turns are obtained. To cause this tension, the arms rotate in the same direction but from a different angle, 180 degrees arm A of arm B, single movement, preventing the force from enclose by colliding with each other. When rotating each sphere under the tension of the axis accompanying the movement and towards the same direction they seek and will always rotate in a circle.
    [0083]
    [0084] As we can see in images 3.2 and 3.3 of the axis, the only way to achieve the unique movement is to stretch arm A forward and spleen B backwards, just as if each arm occupied each face of a sphere, arm A would travel towards front occupying the current position of arm B, and arm B back, occupying the initial position of arm A. Tension is caused in the same direction but from a different angle, 180 °.
    [0085]
    [0086] In figure number 3.4 we see how the already tensioned arms exert their tension force towards the opposite side of their tension and in synchronization looking for each arm and thus accompanying both the axis and the arms, completing full turns of arm A of B and vice versa. , always looking for. In this way we have achieved movement, solving the problem that the force of tension remains locked due to collision, which would be what would happen if we simply tensioned in opposite directions.
    [0087]
    [0088] If we wanted to enclose the force in a single sphere, we must take the sphere as an angle of 90 °, and the tension force of 180 °, which means that when turning the sphere the lowest point would be in motion instead of occupying three positions, top down and in the middle, it would simply turn on itself, thus making the 180 ° travel.
    [0089]
    [0090] The rest is inertia, tension in motion, we exert thrust tension that we convert into kinetic energy, and when the axis is in motion it does not stop causing that tension in motion, making the spheres work the rest of the system.
    [0091]
    [0092] Figure 4 shows the gear system where each sphere is made of aluminum, it has a diameter of 9 cm, a length of 2 mm and a weight of 56 g. We will call it the main sphere (8).
    [0093]
    [0094] In each main sphere there is an opening of the diameter of the flanges, 3mm, where the pieces that come out at the end of the arms are attached (10).
    [0095]
    [0096] Each main sphere has a free movement stop on its outer face attached to a clamping bar that is fixed in the clamping support.
    [0097]
    [0098] By gear system each main sphere, with a diameter of 9 cm, is joined by a smaller one, with a diameter of 2.5 cm, are the auxiliary spheres (5), located above the main spheres. To cause pressure on the main balls, we attach these auxiliary balls to the clamping bar (6). The clamping bar is attached to the clamping bracket.
    [0099] On the upper part of the housing is the manual brake (1), when the lever (2) makes a journey through the rack in the opposite direction (3), the manual braking system is activated, which exerts pressure on the auxiliary spheres .
    [0100]
    [0101] The teeth of the auxiliary balls match those of the braking system in which the brake deploys a stop that is a small bar with a lateral section, long enough to not allow the movement of the auxiliary balls, of the same size and slowly decreases his speed until his arrest. The manual brake fully retains tension.
    [0102] By gear system or friction wheels each main sphere, with a diameter of 9 cm, is joined by a smaller one, with a diameter of 4.5 cm, are the intermediate spheres (11), located below the main spheres. The intermediate spheres fulfill the function of a gearbox.
    [0103] Joined by an axis that crosses the sphere through its center and reaches the clamping support (14).
    [0104] They are also joined by 2 fixed pieces (12 and 13) that help their movement to be even and do not lose force in their interaction with the next sphere, the generator sphere.
    [0105] The intermediate 4.5 cm diameter spheres are in turn attached to the generator by the same gear system, joining one of the spheres with the 4.5 cm diameter generator sphere (16), this sphere is part of the generator.
    [0106] The auxiliary and intermediate spheres / gearbox of the gear system have a 5 mm vertical guide on the teeth (7 and 15) to prevent the balls from tilting.
    [0107] When tension is applied, the arms cause movement and the rotation of the first sphere begins with this movement, of the main spheres (8).
    [0108] With the rotation of the movement of the main spheres, the movement by gear system of the auxiliary spheres (5), located above the main spheres, occurs and the movement of the intermediate spheres / gearbox (11), located below the main spheres. In figure 6 we observe how through the sphere of the generator in direct union with the gearbox, by means of a gear system, it is in turn connected to the high-speed shaft.
    [0109] The low speed shaft is the junction point of the two gearboxes, the extension of which is the second anchor point with the inner casing.
    [0110] The gear system continues in direct union with the rotor motor and the brake (12). The gear system being completed, like the sphere of the generator, they share with each other the movement in which nothing affects it.
    [0111] The gear transmits circular motion. The generator controller equipment (11) controls the voltage and current. The generator transforms that mechanical energy into electrical energy.
    [0112] The generator (14) occupies the bottom of the box, the measurements of the generator adapted to the device are:
    [0113] Generator box, where the controller is and the system that forms part of the electrical circuit comes out. This box is made of aluminum with an oval shape, a weight of 567.3g and a length of 9cm and a thickness of 4.5cm.
    [0114] The rotor case is 6.75 cm long and 4.5 cm high. The extension of the motor-brake motor reaches 15.75 cm and is integrated in the lower part of the second step of the box. In conjunction with the support fixing to the outer casing.
    [0115] Embedded in a box inside the outer casing and on the generator motor is the plug or connector (7), this device forms an electrical circuit (9) from the generator controller by connecting the plugs to the generator outlet. . By connecting to each other they establish a connection that allows electricity to pass through.
    [0116] A command mechanism of the device acts as the command system. A toggle switch (8) with two fixed positions, on / off.
    [0117] The device is protected by a silicone mold adapted to the lower part of its ornaments, which also fulfills the functions of holding the components and protecting them. This silicone mold is adapted to the outer shell and at the bottom. Figure 6 shows the design of the housing consisting of a rectangular white brass box. The base has a length of 29.25 cm, a width of 11 cm and a different height at each of its ends, because the upper face is a gradual 2-step surface with a height difference of 8.75 cm .
    [0118] The height of the box at its highest end is 22.25 cm on the first step, with a length of 12.25 cm long on the upper face. At this point there is a difference in height of 8.75cm. The second step has a height of 13.5 cm, a length of 17 cm and a width of 11 cm.
    [0119] The structure is anchored to the outer casing by means of the fixing supports located at each end of the box. In the first step of the box the clamping supports are fixed to the side walls of the outer casing, in this case the clamping supports will have a height of 22.25 cm, a length of 1 cm and a width of 1 cm. In the second step of the box located on the opposite wall is the third support bracket, with a height of 13.50 cm, a length of 1 cm and a width of 1 cm.
    [0120] Use in industry
    [0121] Energy sector, mechanical and electrical engineering, public services, transportation.
    [0122] Military missions, humanitarian work and space agencies.
    权利要求:
    Claims (1)
    [1]
    1. The object of the invention is a compound machine that comprises a set of mobile and fixed elements, whose operation consists of the movement that is repeated cyclically, after starting. The system does a job transforming motion into electricity, thanks to the work of a generator.
    The invention consists of a shaft made up of a steel section in the shape of a circular tube, the shaft is completed by two springs with spheres. At each end of the shaft there is an arm. Each arm has a spherical base piece that is attached to the springs. They are rope arms, turning it makes the spring twist. At the end of each arm a flange protrudes, these pieces are each attached to a sphere. We will call the main sphere the one that is in direct union with the axle arms. In each main sphere there is an opening of the diameter of the tabs, where they are attached.
    By gear system each main sphere is joined to a smaller one, they are the auxiliary spheres located on top of the main spheres. In direct contact and on the auxiliary spheres is the manual brake.
    By gear system each main sphere is joined to a smaller one, they are the intermediate spheres, located below the main spheres. These spheres fulfill the function of a gearbox. The intermediate spheres are in turn connected to the generator by the same gear system. Joining one of the spheres with the generator sphere.
    By tensioning the arms cause movement and the rotation of the first sphere, the main spheres, begins. With the rotation of the movement of the main spheres, there is movement by the gear system of the auxiliary spheres. And the movement of the intermediate spheres or gearbox occurs. Through the generator sphere in direct union with the gearbox, by means of a gear system, it is in turn connected to the high-speed shaft. The low speed shaft is the junction point of the two gearboxes. The gear system continues in direct union with the motor, rotor and brake of the generator. The gear system being completed. The gear travels circular motion. The generator controller equipment controls the voltage and current. The generator transforms that mechanical energy into electricity.
    The generator box where the controller is located leaves the system that is part of the electrical circuit, as does the rotor box. Above the generator motor is the generator by connecting the pins to the outlet. By connecting to each other they establish a connection that allows electricity to pass through. A command mechanism of the device acts as the command system. A toggle switch with two fixed positions.
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CN1288106A|1999-09-12|2001-03-21|高兴尧|Enerlgy storage means|
    CN1415853A|2002-04-30|2003-05-07|陈祥水|Wind machine with speed adjustable fan blade|
    US20040178634A1|2003-03-13|2004-09-16|Eskandr Ashraf Makrm|Power generating system of the gravity and leaf springs|
    US9819244B2|2015-06-23|2017-11-14|Valeriy Utkin|Energy generation method and apparatus|
    CN105422400A|2015-11-25|2016-03-23|卢方有|Power generation methods using pendulum bob, accumulators and ball materials as power sources|
    法律状态:
    2020-03-05| BA2A| Patent application published|Ref document number: 2746353 Country of ref document: ES Kind code of ref document: A2 Effective date: 20200305 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201800081A|ES2746353R1|2018-03-28|2018-03-28|Durable motion machine|ES201800081A| ES2746353R1|2018-03-28|2018-03-28|Durable motion machine|
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