阅读说明：本技术 电能发生器设备 (Electrical energy generator device ) 是由 穆巴拉克·马纳希·阿尔加梅迪 于 2019-02-25 设计创作，主要内容包括：本发明是一种利用振动通过重力工作的机械机器。它包括位于中间的悬挂的摆,摆上面固定有两个齿轮,这两个齿轮是两侧所有齿轮的运动发生器,以便产生清洁、一致且自由的动力。在摆的底部,附着有不协调磁体,且在机器底部,存在另一不协调磁体,以确保摆连续不断地运动,除了两个铁弯曲支架之外,每个几乎都是四分之一圆,承载本发明的所有部件,随着摆的运动而震动,摆的底部比其头部重,除了一些多样化的齿轮之外,还有用于提高速度、使运动倍增以及控制单个方向上的运动的机械固定装置。该机器可以根据需要最小化和最大化,并且我们可以在侧面用小液压活塞代替磁体。两侧有2个发电机以用于动力发生。可以采用机器人来操作该机器。(The present invention is a mechanical machine that operates by gravity using vibration. It comprises a suspended pendulum in the middle, on which two gears are fixed, which are motion generators of all the gears on both sides, in order to generate clean, uniform and free power. At the bottom of the pendulum, an uncoordinated magnet is attached and at the bottom of the machine, there is another uncoordinated magnet to ensure that the pendulum moves continuously, almost a quarter circle each, except for two iron curved supports, carrying all the components of the invention, which vibrate with the pendulum's movement, the bottom of the pendulum is heavier than its head, in addition to some diversified gears, there are mechanical fixtures for increasing speed, multiplying the movement and controlling the movement in a single direction. The machine can be minimized and maximized as desired, and we can replace the magnets with small hydraulic pistons on the sides. There are 2 generators on both sides for power generation. A robot may be employed to operate the machine.)

1. An electrical energy generator device, the electrical energy generator device comprising:

a rotating device; a pendulum and two arches, each of the two arches being equal to a quarter of a circle in size for generating centrifugal force energy; extraction means for capturing said energy, and conversion means for converting said energy into a usable form.

2. The electrical energy generator of claim 1, wherein the two curved arches are one quarter of a circle in size and all parts are mounted on the two curved arches.

3. The electrical energy generator of claim 1, wherein the suspended pendulum appears as a pendulum of a wall clock in permanent motion.

4. The electrical energy generator of claim 1, wherein a magnet is mounted at the bottom of the pendulum and another magnet is mounted between two central walls near the ground for moving the suspended pendulum without stopping.

5. The electrical energy generator of claim 1, wherein the top two gears and the pendulum between the top two gears move all gears and the radius of the top two gears is about one quarter of the length of the pendulum.

6. The electrical energy generator of claim 1, wherein the degree of movement is based on a size of the gear.

7. The electrical energy generator of claim 1, wherein the very large external gear moves in one direction due to the mechanical unidirectional motion controller and can be replaced by a direct current electrical energy generator, and the gear resembles the wheel of a free-running bicycle.

8. The electrical energy generator of claim 1, wherein permanent movement of the shaped member and pendulum is used in the generation of electrical energy.

9. The electrical energy generator of claim 1, wherein the small piston at the end increases movement and production work with electrical or hydraulic power by charging the battery at night or during off-peak times of the apparatus itself, and does not prevent free movement of the apparatus when the piston is turned off.

10. The electrical energy generator of claim 1, wherein all of the components of the invention oscillate on the arch and move permanently and continuously slightly off center of orientation.

11. The electrical energy generator of claim 1, wherein the electrical energy generator utilizes gravity to a maximum extent in generating electrical energy by using two repelling magnets to utilize each movement of the pendulum to a maximum extent in generating electrical energy.

Technical Field

The present disclosure relates to an apparatus and method for electrical energy generation (power generation). More particularly, the present disclosure relates to devices and methods for electrical energy generation using repelling magnets based on gravity.

Background

It is well known that there is an energy crisis in the world today. The demand for energy, particularly electrical energy, has grown substantially and continues to grow. The supply of fossil fuels is decreasing and cannot be relied upon to meet all energy needs. Although atomic energy provides a partial solution to the energy crisis, its environmental issues have delayed its development. Even with sufficient fossil fuels available, the pollution caused by such fuels remains a serious problem. Environmental protection professions are spending a great deal of effort preventing the construction of additional power generation facilities, which can increase water, air and heat pollution. It is recognized that forces in nature can be a possible source of energy. The use of wind, wave and sun as energy sources has been considered.

There are many methods of solar power generation, many of which are now common solar power generation methods, but have the disadvantage and drawback that they only work in strong sunlight during the daytime, and stop working during periods of cloud, fog and dust. The cost of producing the panels is expensive and the most expensive is the storage and transportation of solar energy. Wind power is the least productive energy source and its equipment is very expensive and can be noisy to nearby residents. It only works when wind passes through it, but it is difficult to do it in summer, and there is also nuclear and fossil fuel-derived energy that can pose a hazard to humans and the environment. The invention is the initiative of the energy field and can provide continuous clean and free energy.

Gravity is almost the same at any location on the earth's surface, being a virtual constant. On the other hand, the centrifugal force is infinitely variable and can be generated as a periodic or cyclic action.

Hellman Helmholtz (Hermann Helmholtz) established and propagated the principle of conservation of energy to the scientific community in a series of lectures published in Germany in 1862 & 1863. Although Helmholtz and others since then have considered many examples of forces, work, energy, and motion in heat, mechanics, magnetism, electricity, and chemistry, they apparently have not explored the effects of centrifugal force. Specifically, centripetal and centrifugal forces are equal and opposite, but do not act on the same body and therefore do not cancel each other out. And the doubled rotational speed returns four times the force.

Since the nineteenth century, almost all physical textbooks have attempted to convey the impossibility of creating energy. Until now, the law of conservation of energy has not been finally proven, but has been assumed because it has not been proven.

Newton's law is exactly to some extent consistent with nature. However, as Einstein demonstrates, they do not all include

Newton first law of motion: the particles, which are not subject to the external force, remain stationary or move linearly at a constant speed. For angular motion: an object that is not subjected to torque will continue to be at rest or, if it continues to rotate, rotate with a constant angular momentum.

Flywheels are sometimes used to store kinetic energy for later use. For example, torque is applied by an electric motor and kinetic energy is stored in a flywheel. Theoretically, the flywheel will rotate forever, regardless of friction. The motor used to rotate the flywheel can also be used as a generator to extract kinetic energy from the flywheel later, with an efficiency in excess of 95%.

Newton second law of motion: the acceleration of the particles is proportional to the resultant external force acting on the particles and inversely proportional to the mass of the particles. For angular motion: the rate of change of angular momentum is equal to the applied torque.

However, centripetal acceleration is measured at right angles or perpendicular to angular momentum and any applied or extracted torque.

Newton's third law of motion: if two particles interact, the force exerted by the first particle on the second particle (called the force) is equal in magnitude and opposite in direction to the force exerted by the second particle on the first particle (called the reaction force). For angular motion: there is always an equal opposing torque (reaction force) on the other body, corresponding to the torque (action) applied to one body. These three laws describe and allow measurement of kinetic and angular momentum, but the centrifugal force is not equal to and opposite of kinetic energy, a by-product produced at right angles to rotational kinetic and angular momentum. Flywheel design engineers know that if a certain rotational speed is exceeded, the flywheel will actually explode due to the large centrifugal forces that are generated. Cars that are traveling too fast in corners may actually be forced off the road and roll over several times due to centrifugal force. It is generally accepted that centripetal and centrifugal forces are dangerous things that must be avoided or handled, but are sometimes well used in centrifuges to separate materials or by the U.S. national aerospace agency to create artificial gravity.

The use of pendulum momentum as a way to produce work has been known for hundreds of years. What changes are means for maintaining the pendulum's oscillation and means for converting the substantially linear motion into a motion that is more readily adapted to produce useful work.

Disclosure of Invention

The present invention provides an apparatus for utilizing such pre-existing forces to provide electrical energy. The power plant of the present invention can effectively help to provide additional electrical requirements in conjunction with existing facilities. The power plant of the invention can be used as a residential generator to allow the homeowner to reduce the amount of electricity he must purchase, and can also be built in large sizes to provide additional power generation capability for larger facilities, and can even be used as a power plant by the electric utility company.

Several objects and advantages of the invention are:

(a) the pollution-free renewable energy source is utilized to provide excessive available electric energy;

(b) reducing pollution on the earth;

(c) reducing global warming;

(d) coal mining and land destruction are reduced;

(e) reducing dependence on foreign oil;

(f) reducing the need for hazardous nuclear power plants;

(g) reducing the energy cost of the consumers.

Further objects and advantages will become apparent from a consideration of the ensuing description and drawings.

Drawings

The disclosure is best understood from the following detailed description when read with the accompanying drawing figures. It is emphasized that, in accordance with the standard practice in the industry, various features are not drawn to scale. In fact, the dimensions of the various features may be arbitrarily increased or reduced for clarity of discussion.

Fig. 1 is a diagram of an instrument, shown as an exemplary electrical energy generator, according to one or more aspects of the present disclosure;

front view showing details of the apparatus of the present invention

1-Top of a suspended pendulum in the middle of the device

2-securing the pendulum between two upper large iron gears and connected to the place of mounting bearings between the middle iron walls of the middle and top of the apparatus

3-Large Upper iron Gear

4-one of the iron walls located in the middle

5-the ends of a drive shaft, which is fixed horizontally by bearings from both ends of the suspension pendulum, and to which two bull gears are connected

Iron fastening connection between 6-iron intermediate wall and outer iron wall

7-motion control mechanism to which the acceleration device and the motion multiplier are attached in one mechanical direction, all mounted on the intermediate iron wall by bearings and connected to a first small gear wheel below the large gear wheel

8-drive and drive shaft

9-bearing

10-middle gear

11-swivel connection

12-bearings mounted on the outer iron wall

13-iron base welded to the intermediate iron wall, for fixing the outer gearwheel only

14-installation of the gearwheel and drive shaft, installed only in the welding base, without direct connection to the iron wall

15-small connecting gear between two intermediate gears bearing-mounted on the outer iron wall, which is the engine of the very large external gear, and mounted to fix, rotate the shaft and bearings to the intermediate iron wall 16-large bearing mounted on the outer iron wall equipped with a free rotator in one mechanical direction, and outer large gear mounted to the large bearing and connected to the drive shaft on the welding base fixed on the intermediate iron wall.

17-very large external gear

18-mechanical motion control device, to which acceleration device and motion multiplier are attached, both fixed on the middle iron wall and connected to a third small gear under the large gear.

19-drive and drive shaft

20-bearing

21-intermediate gear

22-swivel connection

23-bearings mounted on the outer iron wall

24-third pinion under the gearwheel, which is located between the two intermediate iron walls and between the first of the gears of the same size, and which are each mounted on the intermediate wall by means of bearings

25-very small gears fixed to bearings 26 under the third pinion between the intermediate walls-fixed generators, fixed by bearings and connected to the very small gears, in order to calculate and measure the movements of the apparatus and to help control and operate the apparatus

27-area under the suspension pendulum, which is widened and heavier than the top of the pendulum, which is the location of torque, and includes iron weights or concrete blocks to increase strength and movement

28-first repelling magnet attached to the bottom of the pendulum

29-second repulsion magnet fixed to the drive shaft between the bottom of the device and the iron intermediate wall in the middle

30-moving axis bearing-mounted on the intermediate iron wall with respect to the second repelling magnet and in the opposite direction, second axis bearing-mounted on the other intermediate wall to help the magnets to oscillate and move simply, constantly pushing the pendulum in the other direction

31-electric energy generator

32-very small gear mounted on the edge of very large external gear for driving an electric energy generating generator

33-iron mounting connections between the two outer iron walls and the two middle iron walls, above the curved arches (armades) carrying all the parts of the apparatus.

FIG. 2 is an enlarged view of the exemplary electrical energy generator shown in FIG. 1;

showing a side view of the apparatus

1-one of the gearwheels, which is connected to the pendulum by a bearing at the top of the device, between two intermediate iron walls

2-bearing for fixing two gearwheels at the top with an iron suspension pendulum

3-iron pendulum with widened bottom and heavier than the top, and with torque in the bottom driving all gears

4-one of curved iron supports which constantly moves by gravity 5-first repelling magnets attached to the bottom of the pendulum

6-second repelling magnet, located between two intermediate iron walls, and oscillating with the movement of the pendulum and acting to prevent the pendulum from stopping and resting

Fig. 3 is a diagram illustrating the operation of the power generator shown in fig. 1.

Showing another side view of the device

1-one of the gearwheels located in the middle of the device and moving with the oscillating motion of the pendulum

2-upper part of one of the two side iron intermediate walls

3-very large gears that move outward permanently, continuously and at high speed in one direction due to speed doubling, mechanics and motion control in one direction's equipment

4-very small gear installed at the edge of very large external gear and driving electric power generating generator

5-one of the external iron walls

One of the 6-iron arches

7-iron threaded belts, mounted on the ground support of the device, provided with teeth, and fixing the device behind the iron bent bracket to interlock with the teeth of the bands and optionally to provide the bands if necessary, preventing the device from sliding out of its original position in extreme wind and hurricane areas.

Detailed Description

In the following detailed description, reference is made to the accompanying drawings which form a part hereof, and in which is shown by way of illustration embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention, and it is to be understood that other embodiments may be utilized and that mechanical changes may be made without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims and equivalents thereof.

Embodiments of the present invention provide an electrical energy generator device and components thereof.

For purposes of the description hereinafter, spatially oriented terminology, if used, will be used in connection with the referenced embodiments as oriented in the drawings or otherwise described in the following detailed description. It should be understood, however, that the embodiments described below may assume many alternative variations and embodiments. It is also to be understood that the specific devices illustrated in the attached drawings and described herein are simply exemplary and should not be considered as limiting.

Fig. 1, an electric energy generating device according to the invention, which device comprises a pendulum suspended between the middle at the top of the device and a bearing in a T-bar. The pendulum is mounted in the center of the wall, between the top and the sides, and is mounted by two large arches of two motors attached to a central gear of metal, then the motors are mounted in turn to the remaining gears, the large gear being mounted in the pendulum.

An inner iron wall. The end of the bearing is hung on one side of the pendulum and the threaded gear. Bearing in a device with speed and mechanical motion. And the connecting beam is used for connecting the bearing with the speed and motion equipment and the unidirectional motion control equipment. The movement in one direction is controlled mechanically by bearings. Middle thread iron gear. And the mounting beam is arranged on the outer iron wall.

End of bearing on outer iron wall. And (4) installing a connecting piece on the inner iron wall in a welding way. A stable, balanced and loaded beam. The connecting beam between the pinion and the outer iron wall and the very large outer iron gear. The bearings for external iron gear mounting are very large. The large threaded electric gear, which the generator generates electricity at its end, can be replaced by a direct current generator and the movement of this gear is free in one direction due to an automatic movement direction control device similar to the movement of a bicycle wheel. Equipment for speed and motion, and is mounted by bearings. The circular beam is connected to a motion multiplier (motion multiplier) to connect speed and one-way mechanical controls.

A motion control member with a bearing. A threaded intermediate gear. And the connecting beam is arranged between the gear and the outer iron wall. End of bearing on outer iron wall. An intermediate inner iron gear. Very small gears mechanically operate the pistons alternately. Motion measurement and sensors linked to a computer or robot. The bottom of the suspension pendulum has its weight and may be a battery or an electric regulator or a concrete block, and this is the torque and driving force of the gears, which generates a lot of electrical energy.

The bottom of the magnet plate is provided with a suspended pendulum tag. The magnet plate is mounted on the ground base of the device and rocks according to the motion of the pendulum, and the distance between the pendulum and the other magnet is long enough to allow motion without stopping the pendulum in one direction and rocking to push the pendulum to the other side. The iron base is triangular with magnets underneath and is fitted with bolts to allow it to swing with the motion of the suspended pendulum. The generator is an energy generator similar to a generator in a wind power fan (wind power fan). Depending on the torque in the pendulum, two or more generators can be mounted at the very large outer gear rim. A very small gear that moves the generator motor is mounted below a very large ferrous outer gear. Iron arches mounted above ground load beams and parts of the invention.

Fig. 2 shows another view of the apparatus, which includes the side of a large iron gear mounted on top of the pendulum. The mounting shaft of the upper gear comprises a suspension pendulum. And hanging the iron pendulum. The curved arc portion is a quarter circle. The magnet is mounted at the bottom of the pendulum. The magnet is mounted at the bottom between two central walls near the ground surface. The base of the load of the lower magnet and shows the way the suspension pendulum is twisted left and right as it passes.

Fig. 3 shows an operational view of the device, which comprises a gearwheel fixed on top of the pendulum and moving in opposite directions according to the movement of the pendulum. An inner iron wall. The external gear is very large and moves in one direction due to the mechanical direction control device. The very small gear is mounted under the very large external gear, which is the engine of the generator. An outer iron wall. The curved iron arch is a quarter circle. An iron floor on which the apparatus is installed.

The terms "a", "an", and "the" include plural references unless the context clearly dictates otherwise. For example, "a piston" is understood to mean one or more pistons. The terms "a" (or "an") and the terms "one or more" and "at least one" may be used interchangeably herein. Further, as used herein, "and/or" should be considered as a specific disclosure of each of the two specified features or components (with or without the other). Thus, the term "and/or" as used herein in phrases such as "a and/or B" is intended to include "a and B," "a or B," "a" (alone) and "B" (alone). Likewise, the term "and/or" as used in phrases such as "A, B and/or C" is intended to encompass each of the following: A. b and C; A. b or C; a or C; a or B; b or C; a and C; a and B; b and C; a (alone); b (alone); and C (alone).

As used herein, the transitional term "comprising" which is synonymous with "including," "containing," or "characterized by," is inclusive or open-ended and does not exclude additional unrecited elements or method steps. However, in each recitation of "comprising," herein, the term is also intended to encompass the phrases "consisting essentially of … …" and "consisting of … …" as alternative embodiments, wherein "consisting of … …" excludes any elements or steps not specified, and "consisting essentially of" allows for the inclusion of additional unrecited elements or steps that do not materially affect the nature or essential and novel characteristics of the composition or method under consideration.

Reference is made to the examples illustrated in the drawings and specific language is used herein to describe the same. It will nevertheless be understood that no limitation of the scope of the technology is thereby intended. Alterations and further modifications of the features illustrated herein, and additional applications of the examples illustrated herein, are contemplated as within the scope of the disclosure.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more examples. In the previous description, numerous specific details were provided, such as examples of various configurations, for example, to provide a thorough understanding of examples of the described technology. It will be appreciated, however, that the techniques may be practiced without one or more of the specific details, or with other methods, components, devices, etc. In other instances, well-known structures or operations are not shown or described in detail to avoid obscuring aspects of the technology.

While certain representative embodiments and details have been shown for the purpose of illustrating the subject invention, it will be apparent to those skilled in this art that various changes and modifications can be made therein without departing from the scope of the subject invention. In this respect, the scope of the invention is limited only by the following claims.

Parts list

1 pendulum

2 big gear

3 inner iron wall

4 end of bearing

5 outer iron wall

6 bearing with speed providing device

7 connecting rod between bearing and rotating speed providing equipment

8 motion direction control device of machine

9 screw intermediate iron gear

10 mounting beam

11 welding joint on inner iron wall

12 mounting and compensating beam

13 connecting rod between pinion and inner iron wall

14 speed providing apparatus

15 round bar connection doubling device and speed provider

16 control device

17 motion measurement pinion

18 sensor

19 repelling magnet plate

20 iron base part

21 electric generator

22 generator motion pinion

23 iron beam

24 quarter circular arch

25 piston.