SELF-POWERED ELECTRIC GENERATOR THAT WORKS BY CIRCULATING WATER IN A CLOSED CIRCUIT

Abstract

The amount of electricity for industrial and civil use is generated from large alternating current generators that are powered by conversion machines (hydraulics, steam turbines, etc. . . . ) to give up this conversion process, we can use some sources that do not need any conversion operation from any source of energy such as light, steam, water, etc. into electrical energy, these sources are known as internal energy generation sources. An external power source such as a battery is used to initially supply power to start the alternator and generator. Once the system is started, the battery does not have to supply power to the system.

The battery can then be disconnected and the alternator and electric motor will work together to generate electrical power. The alternator supplies one part of this electrical power to the water transformer and another part to the specified load devices. The power output of the water transformer is used to drive the electric motor as feedback. This self-powered generator uses internal energy and will produce more external energy than internal without relying on an external power source.

For the success of this process, a power source must be built that generates energy with a performance factor greater than one.

Claims

1. A method of generating electric power by pushing and circulating water in a closed water circuit, where water is withdrawn from a water tank by a high-pressure pump and pushed back into closed paths, the paths containing turbines (Pelton Wheel) that rotate with high torque under the force of water pressure in the paths, and the turbines are mounted on rollers, wherein, after the water pushes and moves the turbines, the water returns to the tank through the water paths, and the rotational movement of the turbines is transmitted to generation heads through rubber belts.

2. A self-operating electric power generation device that operates according to the method of water circulation in a closed path according to claim 1 includes a metal structure divided into three parts, a lower part of which contains a water tank next to which a high-pressure water pump is installed and connected to the water tank, and the pump is moved by a motor a high-torque 48 volt DC electric current installed next to the pump, connected to it by a metal chain, the lower part contains four 12 volt 80 amp batteries, which are connected in series to feed the pump motor when starting, a central part of the chassis contains water turbines on which rollers are installed, and they rotate by the force of the pump pumping water inside, and the impellers are connected to the pump by closed water paths, the central part of the chassis also contains electric power generation heads on which rollers are installed, and there are rubber belts that transfer the movement from the turbines to the generation heads, an upper part of the chassis contains to convert 220 volts alternating current from one of the generation heads to 48 volts DC, which is used to operate the pump motor when the batteries are automatically separated, as well as to charge the batteries, the upper part also contains a power transformer from 12 volts DC to 220 volts 350 Watt alternating current to feed the control computer and control circuits at startup.

3. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including a number of electric current sensors kept inside a metal box and installed in the upper part of the chassis.

4. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including a number of automatic control circuits kept inside a metal box and installed in the upper part of the metal structure.

5. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including a number of automatic relays kept inside a metal box and installed in the upper part of the metal structure.

6. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device being encapsulated from the outside with a metal body.

7. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including a number of pressure sensors installed inside the water paths in the central part of the metal structure.

8. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including 6 metal doors installed on the metal body.

9. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including an industrial-type computer with a 17-inch touch screen installed in one of the metal doors of the device and can be installed in any other door as needed.

10. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including 2 USB outlets installed next to the computer.

11. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including an operating mantle switch installed on the side of the computer.

12. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including 4 outputs for the generated energy installed in one of the metal doors of the device.

13. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including a computer program (software) to receive and analyze readings from different sensors, as well as control the device and issue commands to automatic relays and control circuits, the program being installed on your computer.

14. The device for generating self-operating electric power by pushing and circulating water in a closed circuit according to claim 2, the device including a Wi-Fi antenna for easy connection of the device to the Internet and remote control.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 is a schematic diagram of the device, according to some embodiments of the present disclosure;

[0031] FIG. 2 is a schematic diagram of the turbines, according to some embodiments of the present disclosure:

[0032] FIG. 3 is a schematic diagram of the movement of the water cycle, according to some embodiments of the present disclosure:

[0033] FIG. 4 is a schematic diagram of electrical circuits, according to some embodiments of the present disclosure; and

[0034] FIG. 5 is a figure of the main screen of the control program, according to some embodiments of the present disclosure.

DETAILED DESCRIPTION

[0035] The device, according to the present invention, as shown in FIG. 1, consists of main parts interconnected with each other, which are [0036] Batteries [0037] Water circuit [0038] Generation heads [0039] 48V DC High Torque Motor High Pressure Water Pump [0040] Turbine set (Pelton Wheel) [0041] Electrical circuits [0042] Control computer and main console

[0043] How to Apply the Invention

[0044] It is clear from FIG. 1 that the water circuit consists of a water tank whose capacity varies according to the capacity of the device and a set of delivery paths so that the water returns again to the tank and the water is withdrawn from the tank by means of a high pressure pump installed in the water path where water is drawn and pumped into the turbines which moves and rotates under water pressure and moves the generation heads with sufficient speeds and torque to generate electric power. A number of pressure sensors are installed inside the water paths to measure water pressure and send readings to the main control unit, as well as a number of electric current sensors are installed on the power lines resulting from the generation heads to measure the intensity of the current and send readings to the main control unit.

[0045] The main computer of the device and the software installed on it analyze the sensor readings and issue commands to the main control unit and then to the electronically controlled relays (CS1 . . . CS3).

[0046] Operation States [0047] When starting, the batteries supply the water pump, the computer and the control unit with the necessary power to start. [0048] The water pump pumps water into the turbines installed on the generation heads. [0049] The generator heads (Alternator 1) and (Alternator 2) rotate to generate electrical power. [0050] The sensors send the various readings to the main control unit, which in turn sends the readings to the computer for analysis. [0051] When the readings from the generator head (Alternator 1) reach the required limit, the computer gives commands to each of the different relays (CS1 . . . CS3) via the control unit in order to convert the necessary energy to feed each of the pump, the computer and the control unit from the battery to the energy issued by 48 volts supply Power (48V DC power supply), which in turn also recharges the batteries. [0052] The energy from the generator head (Alternator 2) is used in various fields of use.

[0053] According to some embodiments, the present disclosure provides a method of generating electric power by pushing and circulating water in a closed water circuit where water is withdrawn from a water tank by a high-pressure pump and pushed back into closed paths, the paths containing turbines (Pelton Wheel) that rotate with high torque under the force of water pressure in the paths, and the turbines are mounted on rollers,

[0054] wherein, after the water pushes and moves the turbines, the water returns to the tank through the water paths, and the rotational movement of the turbines is transmitted to generation heads through rubber belts.

[0055] According to some embodiments, the present disclosure provides a self-operating electric power generation device that operates according to the method of water circulation in a closed path according to the method hereinabove. The a self-operating electric power generation device may include a metal structure divided into three parts, a lower part of which contains a water tank next to which a high-pressure water pump is installed and connected to the water tank, and the pump is moved by a motor a high-torque 48 volt DC electric current installed next to the pump, connected to it by a metal chain, the lower part contains four 12 volt 80 amp batteries, which are connected in series to feed the pump motor when starting. A central part of the chassis contains water turbines on which rollers are installed, and they rotate by the force of the pump pumping water inside, and the impellers are connected to the pump by closed water paths, the central part of the chassis also contains electric power generation heads on which rollers are installed, and there are rubber belts that transfer the movement from the turbines to the generation heads, an upper part of the chassis contains to convert 220 volts alternating current from one of the generation heads to 48 volts DC, which is used to operate the pump motor when the batteries are automatically separated, as well as to charge the batteries,

[0056] the upper part also contains a power transformer from 12 volts DC to 220 volts 350 Watt alternating current to feed the control computer and control circuits at startup.

[0057] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises a number of electric current sensors kept inside a metal box and installed in the upper part of the chassis.

[0058] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises a number of automatic control circuits kept inside a metal box and installed in the upper part of the metal structure.

[0059] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises a number of automatic relays kept inside a metal box and installed in the upper part of the metal structure.

[0060] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit is being encapsulated from the outside with a metal body.

[0061] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises a number of pressure sensors installed inside the water paths in the central part of the metal structure.

[0062] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises 6 metal doors installed on the metal body.

[0063] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises an industrial-type computer with a 17-inch touch screen installed in one of the metal doors of the device and can be installed in any other door as needed.

[0064] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises 2 USB outlets installed next to the computer.

[0065] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises an operating mantle switch installed on the side of the computer.

[0066] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises 4 outputs for the generated energy installed in one of the metal doors of the device.

[0067] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises a computer program (software) to receive and analyze readings from different sensors, as well as control the device and issue commands to automatic relays and control circuits, the program being installed on your computer.

[0068] According to some embodiments, the device for generating self-operating electric power by pushing and circulating water in a closed circuit comprises a Wi-Fi antenna for easy connection of the device to the Internet and remote control.

Graphics and Pictograms

[0069]

TABLE-US-00001 Graphics Index No. Statement 1 Water tank 2 Electrical outlets for different loads 3 Electric current sensors 4 AC electric current 220 volts 5 Power supply 48 volts DC 6 Relay 1 7 Relay 2 8 Relay 3 9 Batteries 48 V DC 10 DC to 220 V AC power converter 11 Generator No. 1 12 Generator No. 2 13 Industrial computers 14 USB connections 15 Main console 16 48 volt high pressure water pump 17 Pressure sensor 1 18 Pressure sensor 2 19 Pressure sensor 3 20 Turbine number 2 21 Turbine number 1 27 Paths for the movement of water