| JPH09247922 | MAGNETIC FORCE ROTATED CONNECTION MECHANISM |
| JP2001136730 | COMBINED GENERATOR |
| JPH11136915 | PERMANENT MAGNET TYPE POWER GENERATOR |
CALAR, M ET AL.: "3-Phase Multi-Pulse Rectifiers with Different Phase Shifting Transformers and Comparison of Total Harmonic Distortion", INTERNATIONAL CONFERENCE ON ELECTRICAL AND ELECTRONICS ENGINEERING (ICEEE, 29 March 2022 (2022-03-29), pages 60 - 64, XP034123978, DOI: 10.1109/ICEEE55327.2022.9772606
| Claims Due to this system is a system that can produce electricity of many sizes. Therefore, we would like to hold the rights on the following topics: 1) Power Generation System Starting from winding low-voltage and high-voltage coils on steel cores, counting as 1 set per 1 core, 3 cores in 1 machine have internal wiring in the form Connecting the low voltage windings between the cores The innermost end shall be treated as the No. 1 end, the other outer end as the No. 2 end. Thus, the ends of the 3 cores of the low voltage coil will be AL1 AL2, BL1 BL2, and CL1 CL2. Lead the ends of AL1-. BL1-CL1 is connected and terminated at Neutral, while AL2 BL2 and CL2 are connected to the outer power terminal. Connection of high voltage windings between cores the top end shall be treated as the No. 1 end, the lower end as the No. 2 end. Thus, the ends of the 3 core high voltage windings will be AHI AH2, BH1 BH2, and CHI CH2. The connection will be in the following manner, AH2 connects to BH2, BH1 connects to CHI, CH2 connects to AHI. A power generator used to increase the system's power capacity. Each of the 2nd and subsequent layers has the same crafting method as the ones in the first layer. The size may be the same or larger than the first floor. If using the same size, it must be 2 times the amount of the previous floor. And if choosing a larger size, it will use 2 times the size but the same amount as the previous layer. As the invention method has already been mentioned in the topic of electric power generation system. 2) Power Up Scale System By connecting the output electricity obtained from the generator AL and CL cores of Layer 1 into the BL cores of each Generator in Layer 2, the electricity in each Core in Layer 2 is discharged. To the BL cores of each generator in Layer 3, the electricity in each Core in Layer 3 is discharged into the BL Cores of each Generator in Layer 4. This continues until the power is achieved as need. The electricity generated from each core in the final layer is then summed up before being supplied to the load, by the power integrating devices that are commercially available in the market |
| AMENDED CLAIMS received by the International Bureau on 8.11 .2023 Claims [Claim 1] [Amended] We claim that the Electromagnetic Power Enhancing Generator is able to take a 3-phase alternating current (AC) of input voltage V and amperage A in each phase, when routed through all the internal functions provided by the internal components of the generator, is able to produce a 3-phase AC output, whereby in each phase of the output, the output voltage V' is similar to V, and an output amperage A’ where A’ » A. Prior Arts: 1. Transformer: this method makes use of the principles of transformer technology, specifically in the way coil of wire with an AC flowing through it, is able to induce a current in a secondary coil, when place in the magnetic flux generated by the first coil when current passes through it. 2.Delta connections & Star connections: this method uses delta connections and star connections in the interconnections between the internal components of the generator, but not in the conventional way. The generator system consists of a series of specially modified and configured transformers. Each transformer is specially built with the appropriate windings (number & method), and core (shape & size), to perform a specific function, which will be described below. The 3-phase AC is passed into this series of transformers, which we will number 1, 2, 3... etc. in the order which the 3-phase AC flows through. Transformer set 1 - specially configured with the correct windings and core, to first reduce the voltage to an appropriate level, with an increase in amperage. Transformer set 2 - specially configured with the correct windings and cores, to stabilize the power, and increase in amperage. Transformer set 3 - specially configured with the correct windings and cores, to increase the voltage. Transformer set 4 - specially configured with the correct windings and core, to increase the amperage & voltage. Transformer set 5 - specially configured with the correct windings and cores, to increase the voltage. Transformer set 6 - specially configured with the correct windings and cores, to increase the amperage & lower voltage. AMENDED SHEET (ARTICLE 19) Transformer set 7 - specially configured with the correct windings and cores, to increase the amperage & voltage. Transformer set 8 - specially configured with the correct windings and cores, to increase the amperage & voltage ... and so on. The interconnections between every adjacent transformer in the series are Delta connections. Additionally, all the transformer sets from set 5 onwards are also connected via Delta connections. When the desired voltage is reached, we can stop adding more of these specially configured transformers set in the series. Finally, on the last transformer set in the series, we can draw the 3-phase AC output for use to power appliances. Each phase of the 3-phase output will have voltage V’ and amperage A’. Depending on the desired output, the correct number of transformer sets can be used in the series, e.g. in the case where the V’ needs to be the same/similar as V, and A’ » A, then we can keep adding more transformer sets to the series until V’ = V, and we can draw the new increase amperage A’ from the last transformer in the series using a Star connection. [Claim 2] [Amended] Using Claim 1, generators of different output (voltage and amperage) can be achieved by: Modifying the configurations (windings & core) of the transformers in the series Modifying the number of specially configured transformers in the series of transformers AMENDED SHEET (ARTICLE 19) |
Technical Field
Electrical Engineering
Backgrounds of Art
From the past to the present, there have been many studies and discoveries concerning various forms of electric power generation, which generates energy with electromagnetic waves Can be considered as another approach that can be used very much. Neither Nicola Tesla nor Don Smith took advantage of the inductance of various types of coils and cores, to generate electricity. The coil is attached to various types of cores such as Metal Core, Ferrite Core, Toroid Core and Air Core, which can generate electricity. However, it cannot be used in real conditions effectively yet due to many reasons. Mostly, it is about the heat that occurs in working conditions, the workload required to load loads from electrical appliances. And most importantly, the system is powered and built on its own without the need for external power.
At present, we can generate electricity from other natural energy sources. A lot from natural gas, coal, oil, power plants, solar, wind, steam or even garbage. But obtaining electricity from these various energy sources all have a negative impact on the environment. Without these energy sources the power generators that are in use today are no longer able to produce electricity. Electromagnetic Power Enhancing Generator developed as an innovative power generation that can solve the above problems fully and effectively. Help create a good environment back to Earth.
Brief Description of drawing
• Figure 1
Power Production Circuit Disclosure of Invention
The Electromagnetic Power Enhancing Generator consists of 3 main components:
1) Input Power System
The Input Power System is any electrical power source outside the electromagnetic power booster, outside the power generation system of the electromagnetic power booster where it is used only as an initial power source for the electromagnetic booster power generation system to start operating. The power system is the alternating current (AC) electricity to the power generation system of the Electromagnetic Power Enhancing Generator
2) Power Generation System
It is a method of generating electricity from an inductor coil that is wound on a core. Made from materials capable of conducting electricity, including a metal core, a ferrite core, a toroid core, and an air core. The coil must be made of materials that have the ability to conduct electricity as well, such as gold, silver, aluminum, copper, iron.
Operation is performed by receiving electricity from the power supply system, into the axis in the middle When the voltage enters the coil unit Current flows through the coil and the core to which the coil is wound. This will cause an electric current to occur within the coil layer. The current is then flowed out and used from the other two axes on each side in a ratio of in 1 out 2 and/or in 1 out 4.
Selection of coil size turns of winding and the size of the core depends on the power required for the system to be produced. The calculation is in accordance with the calculation principles in the general universal system of making transformers. There are 3 axes in total, starting from the A axis, the B axis, and the C axis, respectively. On each core, two types of coils are wound on each core: a low-voltage coil is wound inside, and wrapped the high voltage coil outside Barrier with insulating paper between each wrap, according to the winding characteristics of general transformers the direction of winding the low voltage and high voltage windings is wound in the same direction. It starts by winding the inner low-voltage coil on the core in the top-to-bottom direction and winding it back up until the required number of turns as previously calculated. Before each winding, the inner and outer windings are blocked by insulating paper. In the low voltage winding, the last end must end at the top. The high voltage winding is performed in the same way as the low voltage winding, but the end of the high voltage coil It must end only at the bottom center of the axis. Do this for all three axes, where the sequence of axes is primarily counted from the left-hand axis and descending to the right, counting as axis A, axis B, and axis C, respectively. Connecting the low voltage windings between the cores the innermost end shall be treated as the No. 1 end, the other outer end as the No. 2 end. Thus, the ends of the 3 cores of the low voltage coil will be AL1 AL2, BL1 BL2, and CL1 CL2. Lead the ends of AL1-. BL1-CL1 is connected and terminated at Neutral, while AL2 BL2 and CL2 are connected to the outer power terminal. Connection of high voltage windings between cores the top end shall be regarded as the No. 1 tip, the lower end as the No. 2 end. Therefore, the ends of the 3 core high voltage windings are AHI AH2, BH1 BH2, and CHI CH2. The connections are as follows: AH2 is connected to BH2, BH1 is connected to CHI, CH2 is connected to AHI as a transformer, so called It is a Dy 11 connection that generates resonant on the coil layer and can generate electricity at least 2 times the amount of input power. Here, the input power is supplied to the BL core, and the output power is equal to the AL and CL cores. The capacity of each power generation system depends on the needs of the inventor.
The coil number, coil size and universal coil dimensions must be calculated according to international principles. However, this kind of circuit connection will cause mutual neutralization of the power and current in the coil. This allows the output power to be 2 times the input power. The operation of the power generation system starts from receiving electricity from various power sources. As mentioned in the power system section, enter the BL core of the first power generator in layer 1 for the power generation system to start, resulting in other systems Work sequentially until the complete cycle of the system works.
3) Power Up Scale System
It is a layered system that is connected from the 1st unit to enable more power to be used. By relying on the power produced from the side axes of the first class of the machine, the power from each axis is fed to the center of the machine in the next 2 layers of power generation, each of which is Able to produce electricity out of another 2 axes each, totaling 2 into 4 axes to feed into the next 4 electric generators in the next layer. This continues, until the desired power is obtained. A Power Up Scale System used to increase the system's power capacity. Each of the 2nd and subsequent layers has the same crafting method as the ones in the first layer. The size may be the same or larger than the first floor. If using the same size, it must be 2 times the amount of the previous floor. And if choosing a larger size, it will use 2 times the size but the same amount as the previous layer. As the invention method has already been mentioned in the topic of electric power generation system.
Increasing the power capacity is achieved by connecting the output power obtained from the generator AL and CL cores in layer 1 to the BL cores of each generator in layer 2. The electricity on each core in layer 2 is This 2 is discharged into the BL cores of each generator in Layer 3. The electricity in each core in Layer 3 is discharged into the BL cores of each generator in Layer 4. Consequently, until the desired power is obtained. The electricity generated from each core in the final layer is then summed up before being supplied to the load, by the power integrating devices that are commercially available in the market. Best Mode for out the Invention
The Best way to fabricate the power unit, without having to worry about calculating the size and coil layer including the absence of the core coil This can be done by using a transformer that is available in the market. In the size of the power required to connect the inner cables according to the wiring system mentioned in the topic of power generation, the 3 phase 50KVA and 100KVA transformers are the most suitable size transformers. The 50KVA transformer will be used as a transformer in Tier 1. The power provided by the AL and CL cores will be sufficient to supply the BL core of another 100KVA transformer in Class 2. The power produced from The AL and CL cores of this 100KVA transformer will be sufficient to supply two additional 100 KVA transformer BL cores in layer 2 where power is output to the AL and CL cores to the 100 KVA transformers in subsequent layers onward until the transformer in the last layer Therefore, the current from all cores is pooled together before supplying power to the load, by the power integrating devices that are commercially available in the market.
Industrial
This Electromagnetic Power Enhancing Generator aims to solve all the problems mentioned in the background of the arts. By building a power generator, it can produce electricity that uses less energy to produce but has more energy that can be used than the energy used to produce it. low wear easy maintenance environmentally friendly.