• Windless Turbines

    Downward force to create torque

  • Desert Efficient Turbines

    Solar panels supply current to ducted fans

  • Compounding Mechanical Advantage

    Lever-Based system that increases the solar panel output

  • Energy-Saving Solar & Wind

    Increase output power through compounding mechanical advantage

  • A bright idea for a greener planet

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    Solar Wind Turbine with Lever Assist

    Introduction

    The Solar Wind Turbine with Lever Assist is an advanced technology that draws solar-based current and diverts the energy to ducted fans that are located at the ends of the turbine arms. This innovation employs a lever-based system that increases the solar panel output considerably by means of compounding mechanical advantage. Simultaneously, existing wind turbines could operate efficiently without any wind.

    A key differentiator is the solar panels, whether on ground level or fixed to the apparatus itself, to supply current and power the newly incorporated ducted fans. These powerful fans are located on the distal ends of each extendable turbine arm. Once powered, these ducted fans function as the driving force that provides the needed downward torque to initiate the rotating motion that is commonly seen on existing turbines.

    With the present invention in desert mode, there is no energy collected and stored by either the wind or the sun. Instead, the arms are converted into extendable energy-producing levers.

    This downward force creates torque as a lever pivots on the central fulcrum. When this is in motion, it rotates the load and compounds the mechanical advantage. More torque or energy requires levers or extension rods which move the downward force (ducted fans) farther from the central fulcrum (a variable-length lever).

    In a normal solar and wind turbine combination the solar panels and wind turbines both extract small amounts of power from the sun and wind to combine together total output. (A + B = C) That type of system is not a “Solar Wind Turbine”. Instead, it is a stand-alone “Solar Panel” plus a stand-alone “Wind Turbine”.

    In our novel system, the solar panels’ only function is to allow the turbine to rotate by means of low-resistance downward force on the distal ends of the multiple levers. Essentially, it can be described as a high-speed turbine that works on a lever-based system.

    Archimedes once said, “Give me a firm place to stand and a lever and I can move the earth.” This invention works on the same principle Archimedes discussed over two thousand years ago. The farther outward you extend the levers, the more torque and energy you will extract from the central pivoting point or generator. This is a Lever Assist technology that utilizes compounding mechanical advantage. 

    Solar Wind Turbine

    Solar Wind Turbine with Lever Assist connected to a power distribution charge controller

    Projected Efficiency Ratings

    Solar Panel Efficiency Rating

    Today's solar panels average 15% to 20% efficiency. Anything above 20% is considered a high efficiency. Solar panels can only be used when the sun is shining.

    Wind Turbine Efficiency Rating

    Today's wind turbines average 20-40% efficiency increasing to 50% during peak wind times. Modern wind turbines only work when wind is abundant.

    Solar Wind Turbine Efficiency Rating

    The Solar Wind Turbine with Lever Assist uses compounding mechanical advantage to apply a downward force to lever arms. We expect efficiency ratings of 80% or more.
    Wind Turbine Conversion Kit Energy Efficiency Solutions Industry Standard Expansion Compounding Mechanical Advantage
    Wind Turbine Conversion Kit Energy Efficiency Solutions Industry Standard Expansion Compounding Mechanical Advantage

    How does it work?

    How a Lever Works
    Compounding Mechanical Advantage with a lever

    Specifically designed to alleviate greenhouse gas emissions, the apparatus accommodates custom features that primarily showcase the addition of aerodynamic ducted fans and telescopic extension rods. This system uniquely balances on a central rotating fulcrum.

    The ducted fans initiate the spiral motion of the turbine, which functions as mechanical levers.  This contributes torque to the central fulcrum that rests inside the generator housing.

    Already established and fully operating wind turbines will also benefit from this new technology by way of implemented conversion kits that attach to early wind turbine models. The basis this technology is founded upon showcases greater outputs of energy while focusing on more economical and net-zero solutions. (More info…)

    Solar Wind Turbine with Lever Assist Investment Opportunities

    Solar Wind Turbine in Hybrid Mode

    In the arena of innovation encompassing today’s fast-paced research and development standards with competition in various competitive markets, it is rare to find a novel concept that can provide such a positive organic concurrent influence on two entirely different environmental sectors. The wind turbine and solar panel industries are technologies that meet this challenge. This innovation growth is simply waiting to be tapped into.

    The Solar Wind Turbine with Lever Assist via Compounding Mechanical Advantage is a novel innovation and viable approach to a concept that can change how both previously founded technologies can function together in unison to meet the needs of a more robust green energy future. (More info…)

    Diverse Models for Various Geographical Areas

    How Compounding Mechanical Advantage works with a lever-based system.

    Solar Mode is for geographical areas that have no wind. This is a major problem in the wind turbine industry. In the United States, there are very few places where wind turbines can be placed that are efficient. This creates a situation where wind turbine companies are spending billions of dollars each year to try to place their turbines in offshore conditions.

    Wind/Solar Mode looks remarkably like traditional wind turbines, but it works completely differently. For starters, it still uses the same principle and technique to convert wind into electricity. However, any solar panels that are connected to the turbine, arms, or around the system are not used for general electricity. Instead, they are specifically used to power the ducted fans, which spin the turbine even when the wind is not blowing. This system can increase efficiency substantially for extended periods of time. The only time it would not be working is if it were completely dark, and there was absolutely zero wind.

    Hybrid Mode is a combination of the Desert and Mountain Version. It has a rotating disc that rotates with extendable extension arms. The further you extend the arms, the less force it takes to rotate the generator on the central fulcrum. This is a huge advantage to step up power when sun conditions are lower to have a more stable energy output.

    Compound Solar Panel Output by using it to power a lever.

    USPTO Publication

    Solar Wind Turbine with Lever Assist publication

    United States Patent and Trademark Office Publication #2023-0383728-A1 published on 11/30/2023

    Broad Impacts, Key Differentiators and Intellectual Merit

    The broad impacts, key differentiators, and intellectual merit of this invention are not limited to the scope in this description of this application and cover all aspects of scalable turbines as described in its preferred embodiment.

    Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The instant invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore desired that the present embodiment be considered in all respects as illustrative and not restrictive.

    This innovation is truly a unique project design in and of itself with forethought that is the cornerstone of another chapter of solar and wind energy conservation. Not only is it an alternative source for both industries but it is also a potential market disruptor that could possibly challenge the way modern turbines are made. Designs with descriptions will prove a true-to-life Solar Wind Turbine with Lever Assist via Compounding Mechanical Advantage can function more efficiently than traditional systems conducive to a better understanding of how lever assist technology will be presented to qualified scholars.

    The invention is not limited to the scope in this description and covers all aspects of scalable heating and cooling solutions in its preferred embodiment. Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The instant invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it is therefore desired that the present embodiment be considered in all respects as illustrative and not restrictive.

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    Contact Information

    Solar Wind Turbine With Lever Assist

    Robert Wajda
    Box 551293
    Jacksonville, FL 32255

    Phone: 904-631-8499
    EMail: Robert@SolarWindTurbine.com

    Investor Connect

    In the arena of innovation encompassing today’s fast-paced research and development standards in keeping stride with competition in various competitive markets, it is rare to find an invention or novel concept that can provide such positive organic influence on two entirely different environmental sectors at the same time. (More…)

    Robert G. Wajda, born February 1, 1968, is an American inventor and entrepreneur who specializes as a product visionary for innovations geared toward the future. (More…)

    Intellectual Property

    US PAT NO. 11699760

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    US Publication #2023-0383728-A1

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