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Mechanical Magnetic Torque Amplifier

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  • Hi Cat,

    thanks for posting your suggestion

    What I'm thinking of making is an electric motor using this principal but this can be applied to many other things.

    The point that I'm trying to demonstrate here is this BEMF, Inductive Collapsing Field, Flyback Voltage or what ever you want to call it! has many more times the power to react with a magnet then the energy it takes to create it.

    To me, that is amazing enough!... it is real and right in front of us

    Lets use it!

    Luc

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    • Power stroke

      Luc says we're in for five times the force from the kickback alone. Increasing the magnet strength and coil mass can increase this force by direct proportion. This design turns the backspike secondary into the primary. The primary merely acts as a trigger for the flyback.

      It appears that Gotoluc scaled his flyback secondary motor coil down to balance the stator forces to compensate for the additional power of the flyback. Two power stroke linear solenoids can spin Luc's wheel with a geometry that allows us to scale the flyback secondary coil up to increase output.

      This kickback Mendocino oscillator has the potential to go many times over unity as a solenoid. Linking two offset force oscillators to a yoke, balances the forces. They could V-12!
      Last edited by Allen Burgess; 11-29-2018, 07:25 PM.

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      • Updated design

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        • Comment


          • What effect would a recycling diode have on the secondary? Would the twin ferrite reciprocator BEMF attraction motor in the schematic above have an OU cop of 5?
            Last edited by Allen Burgess; 11-29-2018, 07:38 PM.

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            • flyback from a choke

              Simple to connect an electro-magnet and diode where the led is across a larger choke in this video by lidmotor: This should super charge the electro-magnet with 5 times the power, right? Two diodes, one to direct the choke flyback to the electro magnet and a second recycling diode on the coil itself.

              https://www.youtube.com/watch?v=VjqBRXU3XnU
              Last edited by Allen Burgess; 11-30-2018, 12:15 AM.

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              • Here's how fantastic that worked:

                https://youtu.be/g3sH8fqOqb4
                Last edited by Allen Burgess; 11-30-2018, 02:26 PM.

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                • Here's the "Super Charged" oscillator speeding up: Next I'll take a measure of voltage output from the other side of the switch.

                  https://youtu.be/uC5O77VkSw8
                  Last edited by Allen Burgess; 11-30-2018, 03:33 PM.

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                  • Tests.

                    Tests show that the output in millivolts from the SPDT switch dies off when the recycling diode is attached. The oscillator can be heard to run more forcefully when the loop diode's connected.
                    Last edited by Allen Burgess; 12-01-2018, 03:55 PM.

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                    • Correct wiring different results.

                      Wired correctly, the output goes from under one volt from the DPDT switch when the recycling diode is unattached to over two volts when it's connected:


                      https://youtu.be/Ut5MKU3Gobs
                      Last edited by Allen Burgess; 11-30-2018, 09:02 PM.

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                      • 2nd diode.

                        I looped the SPDT output back to the primary along with the flyback through a second diode. The BEMF and the Flyback are both recycled to reinforce the torque of the oscillator hammer.

                        Attaching the "Mendocino Axle" and the stator mounted oscillating output coil would generate power from the additional torque in the hammer. This may result in the same advantage as sending the flyback to a secondary.

                        The question remains; What would the initial power amount to from the primary if we looped the output from the "Axle Coil" back to the power coil too?
                        Last edited by Allen Burgess; 12-01-2018, 01:32 PM.

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                        • Diode and switch.

                          Exporting the high voltage counter directional flyback annihilates the low voltage induction BEMF; Recycling the high voltage flyback doubles the low voltage BEMF output. Redirecting the flyback to a secondary kills the switch output; looping the fly back adds force to the oscillator flipper and doubles the switch output. Looping the switch output along with the flyback does not cause a problem, but the effect is difficult to measure because it results solely in increased flipper torque.
                          Last edited by Allen Burgess; 12-01-2018, 05:34 PM.

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                          • Speaker generator.

                            The "Super Charged" oscillator can connect directly to this speaker generator. Look at the power at the resonant frequency of the speaker. Has to be 300 volts!

                            https://www.youtube.com/watch?v=XU_OHh2JR1c

                            The tiny electric motor in the video looks like a 12 volt D.C. that draws one amp of current. Think about it rough math: The input can't be over 12 watts; What's the output in watt "Lumens"? 300 watts of light? It would take 300 watts of grid power to generate that amount of light with an incandescent bulb. This setup makes a photonic reactor possible recycling photovoltaic power.
                            Last edited by Allen Burgess; 12-01-2018, 06:45 PM.

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                            • BEM output.

                              The "Electro-Magnet Power Coil" generates and loops it's own flyback through a diode and powers the speaker generator at resonance illuminating 100 3 volt LED's in series. The SPDT switch is capable of generating 3 volts that can be fed directly into a second bank of LED's that are connected in parallel. I'm testing the amperage and number of LED's we can light this way, but it currently appears to be substantial.

                              Comment


                              • This video shows the latest version of the oscillator with speed control, slow, medium and fast:


                                https://youtu.be/L7C4BCZm7Yc
                                Last edited by Allen Burgess; 12-02-2018, 04:28 PM.

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