Pendulum power generation device
Patent Information
- Authority / Receiving Office
- WO · WO
- Patent Type
- Applications
- Current Assignee / Owner
- AL-GHAMEDI MUBARAK MANAHI AYED
- Filing Date
- 2023-12-27
- Publication Date
- 2026-07-02
AI Technical Summary
Current energy sources, such as fossil fuels and nuclear energy, face challenges including environmental pollution, high costs, and inefficiencies, while renewable sources like solar and wind energy have limitations in reliability and efficiency.
A machine utilizing free reciprocating oscillation due to gravity, comprising two connected rectangles with a pendulum, generates sustainable green electricity through a system of gears, flywheels, and planetary gearboxes, which convert kinetic energy into usable electricity.
The machine produces clean, constant, and free energy, overcoming the limitations of traditional energy sources by leveraging gravity and centrifugal force to generate electricity efficiently and reliably.
Smart Images

Figure SA2023000011_02072026_PF_FP_ABST
Abstract
Description
[0001] Sustainable energy
[0002] Description
[0003] Background Art
[0004] The world is witnessing an aggravating crisis in the field of energy due to the accelerating events it is going through. We find that there has been an increasing interest in securing energy needs to an increasing extent, especially electric energy, as this coincided with a noticeable decline in fossil fuel supplies, which have become difficult to rely on. Unique in providing energy needs. Although atomic energy provided a partial solution to the energy crisis, environmental problems delayed its development. Even with sufficient availability of fossil fuels Pollution from these types of fuels remains a serious problem. Environmental experts are making a great deal of effort to prevent the establishment of additional generating facilities that would add water, air, and thermal pollution. At the same time, new sources of energy were discovered through forms of natural forces, so the use of wind, waves and the sun as energy sources was reconsidered. There are many ways to generate energy through solar energy, many of which are now popular solar energy, but they have some disadvantages. The disadvantage is that it only works during the day under strong sunlight and stops during clouds, fog and dust. The cost of producing panels is expensive and the most expensive cost is in storing and transmitting Wind energy is the least productive and its equipment is solar energy expensive and causes noise for people living next to it. It only works when the wind passes, so it is less efficient in the summer, as is .energy
[0005] Nuclear energy produced by fossil fuels and the danger it poses to humans
[0006] And the environment. This invention is the first of its kind in the field of energy and gives clean energy and it's constantly free. The force of gravity is approximately equal anywhere on the Earth's surface, and is considered a virtual constant. On the other hand, centrifugal force is infinitely variable and can be generated by rotary or repetitive .movement
[0007] The law of conservation of energy was proven and disseminated to the scientific community by Hermann Helmholtz in a series of lectures he gave in Germany in the period 1862-1863. Although Helmholtz and others since have considered many cases of force, work, energy, and motion in thermal, magnetic, electrical, and chemical particles, it is uncertain whether the implications of centrifugal force have been discovered. Specifically, the forces of attraction and centrifugal are equal and opposite but do not act on the same body and therefore do not cancel each other out. Doubling the rotation speed increases the force four times Almost all physics books / scholars in use since the 19th century try to explain Impossibility of creating energy. The law of conservation of energy has not been proven conclusively It is only an assumption because it has not .been proven yet. Newton's laws agree with nature to some extent However, it is not all-inclusive, as Einstein explained. Newton's first law of motion: A body at rest remains at rest, and a body in motion .remains in motion
[0008] Unless some force acts on it, or it moves at a constant speed in a straight line. For movement Angle: A body that is not affected by the torque continues to remain at rest or if the rotation continues in rotation with constant angular momentum store kinetic energy for later use. For example, torque is applied by an electric motor and the kinetic energy is stored in the flywheel. Regardless of the friction, the edge will, in theory, rotate for a long time. Newton's Second Law of Motion: If a force acts on a body, it gives it an acceleration that is directly proportional to its force and inversely proportional to its mass. Regarding angular motion: the rate of change of angular momentum is equal to the applied torque. However, the center wheel is measured at a right angle, or Perpendicular to the angular momentum and any applied or resulting torque. Newton's Third Law of Motion: “Every action force has a reaction force, equal in magnitude and opposite in direction That is, if two particles interact, the force exerted by the first particle on the second particle (called the action force) will be equal in magnitude and opposite in direction to the force that Exerted by the second particle on the first particle (called the reaction force) For angular motion: corresponding to a torque applied to one body (action), there is always An equal and opposite torque on another body (reaction). These three laws describe and allow By measuring kinetic energy and angular momentum But centrifugal force is not equal In contrast to kinetic energy, centrifugal force is a byproduct that is generated at right angles to rotational kinetic energy and angular momentum. Using pendulum torque as a way to produce work has been known for centuries. What has changed are the means of maintaining the pendulum's swing as well as the means of converting the relatively linear motion into a motion more usable for producing useful electricity
[0009] Brief Description of Drawings
[0010] (Fig 1)
[0011] Three drawings of the machine. The first drawing clearly shows the important parts of the machine in detail, including the two horizontal rectangles above (1) and below (2) and the wall gears (3). On each side are seven gears, from the largest to the two small gears at the bottom, and they have (4) ferrules for converting reciprocating motion into motion. They are free in one direction or a straight line. These gears are made of light aluminum. There are also rigid inertia flywheels (5) whose mission is to maintain the maximum levels of speed and torque for the longest possible time. They can be replaced with car tires and planetary gear boxes (6) to increase speed and double the .movement
[0012] Its purpose is to stabilize the instrument so that it does not fall and (7) it can be pulled on wheels, and the pendulum appears in the middle. (8) The bottom is heavier than the top, and it is the source of force, torque, .and movement
[0013] It also clearly shows the planetary gearboxes (9) to increase speed and multiply the movement, and the power generators (10). Under each generator, there are two disconnecting systems that connect the movement alternately at specific times, with pliers or brakes to connect .(11) and separate the movement
[0014] As for the other two drawings, they show the movement of the machine, including the swaying of the machine (12) and the collision of the upper rectangle with the lower rectangle, which led to the pendulum .(13) being set off to a long distance (Fig 2)
[0015] This figure includes three drawings, all of which show four mechanical systems that are components of this machine, including two important and basic mechanical systems, such as the ferrules (1), the system for converting reciprocating motion into free motion in one direction or a straight line, and it is similar to what is found in the rear wheel of a bicycle, and this system is present in the gears. The lower four small ones on both sides, to which are directly attached the flywheels (2), the inertia ones, and the gear boxes (3) the planetary ones to increase the speed and double the movement, and then (4) the generators. Among the optional systems is the mechanical system for separating and connecting the movement from the generators (5). Alternately and at certain times, this system also derives its energy from the machine itself using batteries and works by the reciprocating movement of two pistons under each generator to insert it into the connecting or disconnecting pliers. The generators have been placed outside within easy reach to be installed or removed for maintenance when needed. The second drawing shows all the components of the machine. (6) But in a projection from above, the third drawing shows the axis or Roman ball in the middle, slightly raised above the surface of the earth to help the upper rectangle sway (7) and striking with its two ends the two ends of the lower rectangle, called the ground base, which gives the pendulum .more momentum and movement
[0016] (Fig 3)
[0017] This figure includes three drawings, the first of which shows the machine working in a normal movement (1), and the pendulum (2) appears to have risen upward due to the swaying and due to the collision of the upper (3) and lower (4) rectangles with each other, which gave it more momentum and movement to move as far as possible, giving The machine is more mobile by making it produce more electricity at the times specified for operating this machine. The second figure (5) gives another picture of the machine’s movement, which does not stop during the time it is allowed to work. The third figure (6) gives another picture of the machine’s movement so that it produces clean, friendly electricity at any time and in every situation. Possibly and under any .circumstances during its working hours
[0018] Detailed Description
[0019] This is a machine that works with free reciprocating oscillation due to gravity to generate sustainable green electricity. This machine consists of two rectangles on top of each other with a short distance between them, as they are connected together by a rotating ball bearing and fixed in the middle. The rectangle above is shorter than the rectangle below, and the rectangles can be raised up for security and safety reasons This lift is then used as a warehouse of tools, batteries, and spare parts for maintenance, and two iron walls in the shape of two triangles are installed above the second rectangle above in the middle, and between them is the pendulum suspension area. The machine contains important mechanical systems, such as freewheels that convert reciprocating motion into free movement in one direction or in a straight line, and are similar to the freewheels found in This machine also contains toothed gears, .the rear wheel of a bicycle from the two very large gears at the top to the very small gears at the bottom. The number of components of this machine can be increased or decreased according to need. The gears can be placed on the triangle called the iron wall from the inside or from the outside according to the final engineering design, and large solid wheels. Due to inertia, they are called flywheels, which contribute to maintaining the maximum levels of speed and torque. These solid wheels can be replaced with car tires with their own rims Two wheels can be placed on either side of the machine, or four or eight wheels, four on the inside and four on the outside, to increase power production. The function of the planetary gear boxes installed in the solid rotating wheels from the outside is to increase the speed and double the movement of the generators by tens of times the movement of the flywheels. Planetary gear boxes can be installed between the pendulum and the gears. The upper one is to increase its movement, and the pendulum in the middle of the machine is fixed at the top between the two large gears, and the lower one is heavier than the upper one, which is the source of torque and
[0020] .movement The movement is connected or disconnected from the generators by stopping the machine temporarily with magnets, which are similar to the magnets of door locks and operate with electricity stored in the batteries of the machine itself at times other than peak times, or by using small switches to separate and connect the movement from the generators alternately and place them under each generator. This process is controlled by the robot or computer in the machine, which connects or disconnects the movement from the generators at specific times, stops the machine from moving or allows it to move at the specified times, measures and calculates the machine’s movements using sensors, probes, and brakes, and turns it on and stops it from moving at the .specified time
[0021] The generators that produce energy are similar to those found in machines that generate energy from the passage of wind, which bear heavy work. In the middle of the machine there is a pendulum hanging below, heavier than the top, which moves the large gears at the top, moving all the gears beneath them in a reciprocating motion that does not stop unless the machine is stopped from moving. The machine also contains magnets that operate with battery electricity to stop the machine from moving at the specified time and for maintenance purposes or to insert locks into place at both ends of the machine when the rectangles touch during tilt. The machine derives its energy directly from its own movement using storage batteries. This machine can be operated manually by remote control. Near or remotely using the remote .control or its application via the Internet
Claims
Claims[Item 1 ] the machine in Item 1, This invention includes a mechanical machine that operates by reciprocating swaying, a free physical motion by the effect of gravity, and the services of this machine can be used to generate clean energy at the specified times in which it operates, and .this machine is turned on or off closely or remotely[ Item 2] the machine in Item 1, two Iron rectangles are put on which all the details and parts of the invention are fixed on second rectangle above .and first rectangle on below as installation base[ Item 3] the machine in Item 1, this machine includes a suspended pendulum that does not reach the ground in the middle of the machine, the bottom of which is heavier than the above, and it is the source of .strength, torque, and motion[Item 4] the machine is in Item 1, the pendulum is the actuator of all gears, flywheels, planetary gearboxes and generators on both sides of the machine and is in interaction with the reciprocating swaying of the .machine[ Item 5]The rectangle above is fixed in the middle with a roll bearing above the rectangle below, so the machine sways reciprocally, striking the ends of the rectangle below with its two ends, which makes the pendulum move further each time, thus increasing the motion of the .machine[ Item 6] the machine in Item 1, this machine includes a magnet that work with electricity from storage batteries, similar to magnets that lock doors .to turn off the machine motion temporarily[Item 7]Magnets are attached to the bottom beside pendulum between the two installation walls when the machine is in a state of tilt and the other two when the rectangles meet each other, their task is to stop the .machine from moving temporarily while it is tilting at the specified time[Item 8] the machine in Item 5, one of the magnets is attached directly to the bottom of the pendulum and the other is attached to the bottom of the machine between the two iron walls, and there is a small distance between them, their task is to stop the machine from moving temporarily at the specified time, [Item 7] the machine in Item 1, there are two large gears at the top of the machine from the outside, between them the pendulum from the inside moves them, so they move all the othersmaller gears under them, the flywheels, the planetary gearboxes and .the generators on both sides during the movement of the machine[Item 8] the machine in Item 1, There are two large gears at the top of the machine from the inside, fixed to the two triangular iron walls from the inside, and fixed to the pendulum between them, which moves them. They move all the other smaller gears underneath them in a reciprocating motion. As for the flywheels, planetary gearboxes, and generators, they move in one direction because of the ferrules that convert the reciprocating motion into Free movement in one direction while the machine is swaying. Planetary gear boxes can be placed between the pendulum and the large gears at the top to increase their .movement[Item 9] the machine in Item 1, Speed and torque depend on the weight in the pendulum, the weights of the flywheels, the sway distance, the sizes of the gears from largest to smallest, the type and size of planetary .gearboxes, and the types of power generators[Item 10] the machine is in Item 1, where There are solid flywheels in the machine due to inertia, each of which moves in one direction or in a straight line due to the freewheels or devices for converting reciprocating motion into free motion in one direction installed in the small lower gears. Solid wheels or tires in their free motion resemble the motion ofthe rear wheel of a bicycle, and it can be replaced Solid flywheels with ,car tires are ready with their own rims with some modifications[ Item 11 ] the machine in Item 1, The machine’s height distance from the middle, its reciprocating sway, the movement of the suspended pendulum, the sizes of the gears from largest to smallest, ferrules that convert reciprocating motion into free motion in one direction, solid inertia flywheels or tires, planetary gearboxes to double the motion and increase speed, and power generators. All of this is used to generate .clean, sustainable energy[Item 12] the machine in Item 1, All the details of this invention sway in two opposite directions due to the rise and sway of the upper rectangle fixed to the Roman ball on the lower rectangle called the floor base in a continuous reciprocating movement that does not subside or stop during .the working hours of operating the machine