| Claims to Be Protected 1) Transforming the sound source, mechanical pressure (piezoelectric) source, natural or artificial, directly or indirectly, and thermal energy to electric energy automatically. 1.1 Electronic circuit diagram of the invention 1.2 The mechanism of using sound energy and mechanical pressure (piezoelectric) resulting from direct pressure by hand, fingers, lingers and toes, toes, nose, head, or chin, or parts of the human or animal body, or insects, plants, the movement of wind, noise, or any available means of pressure the user can benefit from whatever the source is (natural / artificial) through this power and to operate all types of proposed devices and applications above mentioned. 1.3 To use sound energy and mechanical pressure (piezoelectric) resulting from pressing fingers and toes, feet, or nose of people with disabilities and others in order to get the electric current needed to charge all types of batteries, including batteries of all types of vehicles, cars, and planes; all types of ships; all types of trains, motorcycles, bicycles, mobile batteries, laptops, MP3/MP4 players, tablet computers, LCD screens, etc. This could be done by using electronic circuit or chip that operates through a featured application, which transforms sound, whether the source is natural or artificial. This circuit can be installed inside electronic devices and within the electronic circuit of these devices to become one integrated circuit. It can also be linked to the CPU or the motherboard to receive commands of transforming the sound source into electric power and using it in the process of recharging the battery through a charging-oriented application or through a shape, image, or code, including, but not limited to, drawing a person's face on the battery, with his lips producing semi-circular waves directed to the battery. The application and the drawing will help us know how the battery is charged. This shape can be printed on the circuit, chip, or processor. This shape is also found on the screens of all electronic devices, including, but not limited to, laptops, tablet computers, MP3/ MP4 players, home phones, desk phones, mobile phones, all types of smart phones, and wireless phones. 1.4 Sound magnifier, or what is called megaphone, etc. The application appears to show that the device is currently in the battery charging mode. This application automatically appears for a period of one minute. In case the user wants to make sure that the application is working, they can press any button, and the application should appear again. After charging is complete, the application will appear again to show that the battery has been fully charged, and the battery icon appears as fully charged. The application could show the whole charging process by showing a percentage or showing bars in red, green, or blue to name but a few, or through a sound made by the face drawing in the application alerting the user that the battery has been fully charged. These indicators could be on the face drawing in the battery-charging application). 1.5 To use sound energy and mechanical pressure (direct and indirect piezoelectric) in the utilization of the electric power generated and transmitting it through wired or wirelessly means. 1.6 The mechanism of using this energy for several uses and applications and developing it as needed. 1.7 Capacitor: In addition to storing electric power generated by the process of transforming sound or mechanical pressure (piezoelectric) into electric power, this capacitor discharges electric current, as need, consumption, and use may be. 1.8 To dispense, in the future, with batteries and replace them with a capacitor and an electronic circuit to store the generated electric energy and reuse it. 1.9 To utilize all applications and use them to operate or transform any source of sound into electric energy. 1.10 To utilize sound energy and mechanical pressure (piezoelectric) in media, the Internet, and communications. 1.11 To utilize sound energy and transform it into electric energy in all military and security uses and develop it. 1.12 To use Nanotechnology in order to automatically generate electric energy when applying mechanical pressure through direct or indirect use, through certain types of piezoelectrics that have the ability to transform energy by an increase up to 100% when it is manufactured at extremely small thickness ranging between (15-25 nm). Nanometer is one billionth of a meter. To imagine how tiny it is, the thickness of a human hair is almost 100,000 Nanos. 1.13 To use raw materials of semiconductors, such as graphite, silicone, carbon, zinc or lead oxide, crystal, ceramic, or bones as conductors of electric current, or all kinds of paint pigments, liquid ink, dry ink, wood, paper, or cardboard, carbon fibers, plastic, rubber of all types, chemically and technically treated glass using nanotechnology, plants, leaves, trees, flowers and roses (treated nanoscale chlorophyll), or asphalt which is used in roads and streets can be used after being chemically and technically processed using nanotechnology to exploit it in automatic irrigation in the streets, or the supply of electricity to light poles in the streets and roads. When it comes to vehicles and wheels, we can manufacture chemically treated wheels with built-in nanotechnology to generate electricity. This technology could be used, as well, on road sides to provide electricity to the emergency phone booth available in the streets and roads if we want to ask for help. Depending on the uses and applications required to be provided, or the different types of chemically treated carbon materials that are developed by the use and integration of Nanotechnology to generate the needed electric power by using sound energy or direct and indirect mechanical pressure. 1.14 To fully and absolutely utilize sound energy and mechanical pressure (piezoelectric) resulting from pressing the user's fingers and toes, toes, nose, or head of the user resulting in electric waves or oscillations via Nanosensors. These Nanosensors constitute an important part of electronic devices, screens of smart phones, smart devices, watches and clocks, smart watches, or mobile phones in the future, whether it be built in the screen or behind it, or within the electronic circuit of these devices. This could go hand in hand with sound energy that is transformed into electric power. Both can give us better results in terms benefiting from the generated electric power by designing an application to utilize the two processes together. 1.15 To take full advantage of the process of mechanical pressure (piezoelectric) through a variety of sources, whether natural or artificial, to get the needed electric power. 1.16 To take full advantage of the present invention and apply it to all types of cars, vehicles, motorcycles and bicycles through an operating system specified for this invention. 1.17 To fully utilize this invention and apply it at homes, companies, factories, universities, schools, sports equipment, sports facilities, stadiums, halls of all kinds, gyms, all mass media and press, civil and military airports, meeting and conference rooms, public places, advertising, cinemas, theaters, civil and military aircrafts, the uses of security and military services, the Ministry of Defense, Ministry of Interior, direct and indirect contact, and central control, centralized management and the control unit related to using the technique of this invention. 1.18 To utilize the sound source as well as direct and indirect mechanical pressure (piezoelectric) and transform the heat source, whether coming from the user or any external source to electric power. 1.19 To take full advantage of electrical potential difference and reaction of electronic devices, such as mobile phones, smartphones, Tablet computers, MP4/MP3 players and via the sounds made by these devices, such as ringing, music, and vibration in order to generate electric waves or oscillations that can be utilized in the process of charging through Nanoelectronic sensors contained in or built in with these devices, or through adhesive nanoelectronic sensors that can be attached to these devices on the outer frame of these devices or can be incorporated with them. 1.20 Electronic, sensitive sticker that contains carbonaceous materials, such as zinc oxide, lead oxide, copper oxide, silver oxide, crystal, ceramic, chemically treated carbon fibers that can be utilized to transform sound energy sources or direct or indirect mechanical pressure while walking, for example, or during movement (piezoelectric), or by taking advantage of the lungs or breathing, where you can attach this sticker to the neck, or next to the neck, or to the chest of the user. Or, we can take advantage of the user's pulse or heartbeat to generate the needed electric power, or direct heat source, such as the human body, clothes, types of wool, types of cotton or linen, which contain contained in the user's clothes, or the polyester used in the clothing industry, or light source, sunlight, the sun heat, solar energy, or any other source of heat. In case there is a smart phone, or electronic devices in the user's pocket, or when the device is in the user's hand, it can result in heat that can be transformed, by the sensitive Nanoelectronic sticker, into electric power that can be used in charging. 1.21 USB charger cable for all electrical and electronic devices, which uses sound energy and mechanical pressure (piezoelectric) and external thermal energy or thermal energy generated by electronic and electrical devices, such as smart phones, tablet computers, desktop computers, laptops, MP3/MP4 players, watches and clocks, digital clocks, and all smart watches can benefit from these sources of eco-friendly, alternative free energy. This could be achieved by an electronic circuit containing accurate, highly responsive Nanosensors that transform energy sources into electric energy to be stored in a Nanocapacitor within the electronic circuit of the USB device to be used when needed. This cable works through special program to control the performance and operation of the USB device by means of shapes, symbols. |
This invention is a means to transform the alternative, renewable sound energy i.e. the sound source, and the source of mechanical pressure (piezoelectric) by human hand, fingers, feet, toes, head, and chin, no matter what the source is— natural or artificial using a special operating system into an electric current for multiple purposes. We mention some of the uses including, but not limited to recharging all types of batteries, mobile phone batteries, smart phones, all types and sizes of watches and clocks including wall clocks, grandfather clocks and smart watches, land phones, microphones, PCs, laptops, MP3/MP4 players, tablet computers, USB memory sticks of all models and sizes, wireless phones, radio sets, recorders, headphones, interphones, satellite receivers, hearing aids for hard of hearing, intercoms, car batteries, megaphones, LCD screens, etc.
Other uses might be in airport control tower which could be powered by the sound and mechanical pressure of airplanes engines when taking off and landing (utilizing the sound of wind in airport's runway through high sensitivity sensors fixed on the control tower and the runway), all ships and aircraft carriers, including military ones (utilizing the sound of the engines when taking off and landing and transforming sound and mechanical pressure to electrical power), subway metro (utilizing the sound it produces and the mechanical pressure of the body of the train, or utilizing, when the train is moving, the pressure of the train wheels or that coming from passengers getting on and off the train which could be detected by special sensitive Nanocircuits that generate the necessary electrical power along with a special operating system designed to suit this invented technology). The same applies for all types of cars, vehicles, motorbikes, and bicycles.
The same could be done concerning public places that contain a big number of people, such as sport stadiums. The sounds and mechanical pressure (piezoelectric) made by fans and their entrance, exit and movements of sitting, standing, kicking could be transformed into electrical power after being detected by special Nanoelectric sensors. Such sensors could be fixed or built in with stadium seats, fans or players' corridors, the pitch (whether natural grass, artificial turf, rock, rubber, or wooden tiles), the asphalt used in roads and streets, goal bars, etc.
Discos and party halls, closed and open halls and cafes, loud music and songs, all could be utilized thorough transforming the sound energy and direct and indirect mechanical pressure to electrical power.
l There are so many examples as this invention could be developed and updated to encompass a lot of applications.
The working mechanism of the invention is as follows:
When making a sound or applying direct or indirect mechanical pressure (natural/artificial), a pressure of human hand, fingers, feet, toes, nose, head, in addition to all parts of the human body, animals, insects, plants, or any means of mechanical (piezoelectric) pressure, this mechanical pressure leads to a mechanical movement that produces electric oscillations which are detected by Nanopiezoelectric sensors built in the screen of an electronic device e.g. smart phone. These sensors are made of Nanomaterials that are pressure-sensitive and produce electric oscillations necessary to recharge the battery. The said sensors could be fixed behind the screen of the electronic device to detect the pressure applied by any part of the human body for those who cannot use their hands due to disability.
The second energy that could be utilized is sound energy. This could be done through sonic sensor or sensitive Nanocircuits with thickness of 15-25 Nanometers. They are symbolized with NO-1 as illustrated in the diagram.
These circuits are sound-sensitive no matter what the source is (natural/artificial/surrounding sound, etc.). The sound is detected by the sonic sensor and passes through a circuit into the capacitors (C- Nl) and (C-N2). After that, the signal moves to transformer (M-1973) which, on its part, transforms it into a greater electric oscillation that passes to capacitors (C-N3), (C-N4) then to the diode (D1650) to transform it into Direct Current then to capacitor (C-N5), which, being a special capacitor, has a basic characteristic of discharging electric current slowly. Thus, we were able to transform a sound source to an electric current which could have multiple uses, as the need may be.
To sum up the technical description, we can say that we are transforming the electric oscillations according to capacity and source of sound or mechanical pressure (natural, artificial piezoelectric— strong/weak) to Direct Current to get the needed electric energy.
The Nanotechnology could be utilized as well to be used with materials scientifically known as 'piezoelectrics.' 'Piezoelectrics' are materials which have the ability to generate electric energy when applying mechanical pressure on them, such as crystal, some types of ceramic, bones, and carbon. These materials could be used in devices which have the ability to automatically generate energy without the need to any replaceable power sources like batteries.
There are certain types of piezoelectrics which have the ability to transform energy with an increase that reaches up to 100% when manufactured in very thin thickness ranging between 15-25 Nanometers.
A Nanometer is one billionth of a meter. In order for you to imagine how small a Nanometer is, imagine that a human hair's thickness is 100, 000 Nanometer. Other semiconductor raw materials could be utilized as well, such as graphite, which is a metal widely available in nature. It is one form of carbon allotropes.
In addition to diamond and volerine, graphite is an electric current conductor. It could be used, for example, in the electrodes of an electric arc. There are other materials that could be used as well, such as carbon, carbon fibers, and silicon.
The mechanical (piezoelectric) pressure produced by fingers, feet, toes, nose, head, or chin of the user could be utilized in many electric and electronic devices and many applications by using the Nanotechnology to detect the generated electric waves or oscillations. Nanotechnology will also help us make small, supersensitive electronic circuits that enable us to generate the needed electric power.