ALI AHMED (EG)
ALI AHMED MOHAMED ABDALAZIZ (EG)
US20200067315A1 | 2020-02-27 |
Claims 1- The first element: an electronic electricity generator device without fuel and does not work in its operation and fossil fuels of various types, as the device relies in its operation on files and electronic circuits that work on making use of the stored energy in a new scientific way, and it is a charging circuit that works with high efficiency that ensures the continuity of compensation for the lost energy stored Without interruption, therefore, the device does not emit any environmental pollution such as carbon gas or fumes or any gases harmful to humans and the environment, and the device does not emit noise pollution as it does not emit loud sounds or noise, and the device is light in weight and can be transported and carried in Any place, and the device is easy to operate and does not require any special expertise in dealing with it, and all the components of the device are available locally . 2- The second element: As in the first element, the device does not work and does not need fossil fuels of various types in its operation . 3- The third element: As in the first element, the device depends in its operation on files and electronic circuits that work to take advantage of the stored energy in a new scientific way, and it is a charging circuit that works with high efficiency that ensures the continuity of compensating the loss of stored energy without interruption . 4- Fourth element: As in the first element, the device does not emit any environmental pollution, such as carbon gas, fumes, or any gases harmful to humans and the environment . 5- Fifth element: As in the first element, the device does not emit noise pollution such as loud sounds or noise . 6- The sixth element: As in the first element, the device is light in weight and can be moved and carried anywhere . 7- The seventh element: As in the first element, the device is easy to operate and does not require any special expertise in dealing with it . 8- The eighth element: as in the first element, the device, all its components are available locally . 8 |
Technical Field:
Electrical Generators
Background Art:
There are currently many ways to produce electricity, including old traditional methods, and these depend on fossil fuels of various types, which negatively affect human and animal health as a result of the emission of carbon dioxide and other harmful gases polluting the environment. There are also many other technologies in the production of electricity that depend on sources Clean renewable energy such as solar energy, which depends in the production of electricity on several main components, which are solar panels, which in turn convert sunlight and heat into a DC (12/24/48/etc.) The inverter, which converts the DC current coming from the battery into AC (110 / 220 / 380) volts with different capacities that cover all the needs of lighting, running home appliances, and commercial and industrial purposes .
The problem in the previous art:
The traditional and old methods of producing electric power depend on different types of fuel, which has caused an increase in the demand for fuel used to operate electric power plants, which negatively affects human and animal health as a result of the emission of carbon dioxide and other harmful gases polluting the environment, which is one of the largest The causes of climate changes and global warming, but in the case of using clean renewable energy sources there are many problems, including in the case of using solar energy, the first of these problems are solar panels, which need large areas on the roofs to be able to convert sunlight and heat into a current Continuous DC, which is not available in many places, and this becomes impossible in the event that we need large amounts of electrical energy, in addition to that there are many other problems for solar panels such as being broken and dusty, etc . Disclosure of the Invention:
The new in the of invention
It is to dispense with solar panels in this device by adding another electrical transformer (inverter) to the system, as well as a charging circuit with high capacities, so that the device has 2 inverters, the first major number 1
The second is the feeder No. 2, provided that the main inverter is responsible for converting the DC current from the battery to AC (110/220/380) volts to use this electrical energy resulting from it in lighting and operating equipment and electrical appliances in the house. In commercial uses, the main inverter No. 1 must also contain the recharging feature to ensure the continued renewal of the battery charge, a feature found in the hybrid inverter (off grid) that contains the charging regulator inside, and the role of the feeding inverter No. 2 is to feed the inverter Main No. 1 with the necessary electricity and also supplying the charging circuit No. (10) with the electric current 220 AC volts to convert it to DC 12/24/48 volts according to the capacity required to charge the battery No. (1) to constantly compensate for the loss so that the battery always remains in a state of full filling and stops Charging automatically in case the battery is full, and so on ... Thus, we guarantee the continuity of electricity production from the main inverter No. 1 without interruption of the AC electric current .
Detailed description:
It is to dispense with solar panels in this device by adding another electrical transformer (inverter) to the system, so that the device has 2 inverters, the first major number 1
The second is the feeder No. 2, provided that the main inverter is responsible for converting the DC current from the battery to AC (110/220/380) volts to use this electrical energy resulting from it in lighting and operating equipment and electrical appliances in the house. In commercial uses, the main inverter No. 1 must also contain the recharging feature to ensure the continued renewal of the battery charge, a feature found in the hybrid inverter (off grid) that contains the charging regulator inside, and the role of the feeding inverter No. 2 is to feed the inverter Main No. 1 provides the electricity necessary to ensure the continuity of charging the battery, and also supply the charging circuit No. (10) with the electric current 220 AC volts to convert it to DC 12/24/48 volts according to the capacity required to charge the battery No. (1) to constantly compensate for the lost so that the battery remains always In the case of a full filling and the charging stops automatically if the battery is filled and so on ... and thus we guarantee the continuity of electricity production from the main inverter No. 1 without interruption of the AC electric current, as described in detail in the explanation of the dashboard M No. (1) in numbers
1 - Battery: It is a device that stores electrical energy as chemical energy, and then supplies this energy as electrical energy when needed with a constant current of 12 volts or 24 volts and may reach 600 volts by connecting a number of batteries in succession as needed .
2- Wire: To connect a DC current from the battery to the main inverter No. 1, 12 volts, 24 volts or more as needed.
3- Key: To control the opening and closing of the device.
4- The main inverter No. 1 : It is a device that converts the direct current of DC electricity coming from the battery or solar panels and others into AC (110 / 220 / 380) volts to Operate various household appliances, lights or pumps, in a simpler form, it is a transformer of electric current, and from The main thing is that the main inverter No. 1 contains the recharging feature to ensure the continued renewal of the battery charge, a feature found in the hybrid inverter (off Grid), which contains the charging regulator inside .
The voltage of the batteries supported by the inverter is generally as ... follows :-
12 volts DC for the inverter with small capacities up to 2 kilowatts.
24 volts DC for the inverter up to 3 kilowatts.
48 volts DC for the inverter from 3: 10 kilowatts.
96 volts DC for the inverter from 10: 20 kW.
192 volts DC for the inverter from 20: 50 kilowatts. 600 volts DC for the inverter, from 50 to 500 kilowatts.
By connecting several batteries in series to obtain the appropriate voltage to operate the inverter to convert it to AC alternating current to benefit from it in operating various devices, lighting, pumps, etc.
5- AC (110 / 220 / 380) volts to operate various household appliances, pumps, lighting, etc.
6- DC connection wire from the battery to the feeding inverter No. 2 of the main inverter No. 1 with the electric current to ensure the continuity of charging.
7- Inverter Feeder No. 2: As we mentioned earlier, it is a device that converts the DC current coming from the battery into AC 220 volts to supply the main inverter No. 1 with the electricity necessary to ensure the continuity of charging the battery, thus ensuring the continuity of electricity production from the main inverter No. 1 without interruption For AC alternating current, in addition, part of this electricity is used to operate the cooling fans of the device, and this feeding inverter No. 2 has limited potential and low capacities.
8- AC 220 volt AC connecting wire outside from the feeding inverter No. 2 to the main inverter No. 1 to supply it with electric current to ensure the continuity of charging the battery and no power outage.
9- AC 220 Volt AC power connection wire out of the feeding inverter No. 2 to a step-down transformer to convert 220 AC Volt AC to DC 12 Volt DC.
10- Charging circuit: It converts the voltage coming from the feeding inverter No. (2) from AC 220 volts to DC 12/24/48 volts according to the capacity required to charge battery No. (1) to constantly compensate for the loss so that the battery always remains in a fully filled state. Charging stops automatically when the battery is full, and charging again when needed to constantly compensate for the loss, and so on.
The charging circuit also supplies the cooling fans to the device with the necessary energy. 11- DC wire from the charging circuit to battery No. (1) to supply it with electric current to ensure continuity of charging .
12- DC wire connection from the charging circuit to operate cooling fans No. 13 and No. 14 to maintain a low temperature of the device.
13- Fan No. 1 to cool the device works on DC.
14- Fan No. 2 to cool the device works on DC.
Exploitation method
The device produces electricity for use in lighting and operating electrical equipment and devices in homes, hospitals, offices, companies, factories, residential communities, tourist villages, hotels, new cities and desert cities, as it benefits all members of society .
Brief Description Of the Drawing:
As shown by numbers in drawing board No. (1) :-
1 - Battery: It is a device that stores electrical energy as chemical energy, and then supplies this energy as electrical energy when needed with a constant current of 12 volts or 24 volts and may reach 600 volts by connecting a number of batteries in succession as needed .
2- Wire: To connect a DC current from the battery to the main inverter No. 1, 12 volts, 24 volts or more as needed.
3- Key: To control the opening and closing of the device.
4- The main inverter No. 1 : It is a device that converts the direct current of DC electricity coming from the battery or solar panels and others into AC (110 / 220 / 380) volts to operate various household appliances, lights or pumps, in a simpler form, it is a transformer of electric current, and from The main thing is that the main inverter No. 1 contains the recharging feature to ensure the continued renewal of the battery charge, a feature found in the hybrid inverter (off Grid), which contains the charging regulator inside . The voltage of the batteries supported by the inverter is generally as ... follows:-
12 volts DC for the inverter with small capacities up to 2 kilowatts.
24 volts DC for the inverter up to 3 kilowatts.
48 volts DC for the inverter from 3: 10 kilowatts.
96 volts DC for the inverter from 10: 20 kW.
192 volts DC for the inverter from 20: 50 kilowatts.
600 volts DC for the inverter, from 50 to 500 kilowatts.
By connecting several batteries in series to obtain the appropriate voltage to operate the inverter to convert it to AC alternating current to benefit from it in operating various devices, lighting, pumps, etc.
5- AC (110 / 220 / 380) volts to operate various household appliances, pumps, lighting, etc.
6- DC connection wire from the battery to the feeding inverter No. 2 of the main inverter No. 1 with the electric current to ensure the continuity of charging.
7- Inverter Feeder No. 2: As we mentioned earlier, it is a device that converts the DC current coming from the battery into AC 220 volts to supply the main inverter No. 1 with the electricity necessary to ensure the continuity of charging the battery, thus ensuring the continuity of electricity production from the main inverter No. 1 without interruption For AC alternating current, in addition, part of this electricity is used to operate the cooling fans of the device, and this feeding inverter No. 2 has limited potential and low capacities.
8- AC 220 volt AC connecting wire outside from the feeding inverter No. 2 to the main inverter No. 1 to supply it with electric current to ensure the continuity of charging the battery and no power outage. 9- AC 220 Volt AC power connection wire out of the feeding inverter No. 2 to a step-down transformer to convert 220 AC Volt AC to DC 12 Volt DC.
10- Charging circuit: It converts the voltage coming from the feeding inverter No. (2) from AC 220 volts to DC 12/24/48 volts according to the capacity required to charge battery No. (1) to constantly compensate for the loss so that the battery always remains in a fully filled state. Charging stops automatically when the battery is full, and charging again when needed to constantly compensate for the loss, and so on.
The charging circuit also supplies the cooling fans to the device with the necessary energy.
11- DC wire from the charging circuit to battery No. (1) to supply it with electric current to ensure continuity of charging .
12- DC wire connection from the charging circuit to operate cooling fans No. 13 and No. 14 to maintain a low temperature of the device.
13- Fan No. 1 to cool the device works on DC.
14- Fan No. 2 to cool the device works on DC.
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