Here is more information on

Mehess Magnetic Motor

originally designed by: Bill Mehess

Here is an interview between Bill and American Anti-Gravity

( this is the audio file interview. Right click on this link and choose save as )

The audio Interview in zip format:

Download:

http://rapidshare.com/files/133724922/Bill-Mehess-Interview.zip

Archive Password: larrylawrencejr.com

I have invented a device that can be classified as a permanent magnetic
motor. The object of this invention is to show that a magnetic motor can
be built that will power itself and produce extra voltage to be able to
power an external load.

Advantage

The advantage of this device is that it can produce electricity
with no external input. It is not area specific, does not require wind,
hydro, sunlight, petrol fuel or any other other product or products to
work. It is a totally closed loop system.

History

The problem with these types of inventions has been that electrical
energy must be created on a immediate and on going basis to run the
device. Usually a number of permanent magnets are attempted to be
configured to cause rotation. Up to one rotation can be achieved but
when the magnet return to its original point it gets stuck. This has
been referred to as “the sticky point”. At this point it requires more
power than can be generated by the one rotation to start the magnet
moving again.
Even spinning the magnet(s) at high speed which may cause it to appear
to be functioning will in time slow down and stop.

Drawings

See page ____

List Of Parts

See page ____

Operation

I am using a 30 day mechanical clock movement to swing permanent magnets
thru a coil to produce an emf.
The emf is stored in a bank of capacitors which can then be discharged
into a 12 volt deep cycle battery via a pulsing method to keep the
battery fully charged.
The invention is totally scaleable. In such that the performance can be
greatly increased by:
1. Adding more magnets and coils
2. Larger and stronger magnets
3. Any number of capacitors to store electricity

What is unique about this invention is that the force required to move
the magnets through the coils is totally independent of the
magnets. The definition of a permanent magnetic motor is that it can
produce enough energy to run itself without the aid of any external
input. This design meets these criteria.
When the magnet swings in and out of the coils it will produce
a negative and positive indication on a voltmeter. The negative side is
connected to a germanium IN-34 diode. This diode is used
because unlike a standard signal diode which exhibit a 0.7 (and higher)
forward voltage drop the IN-34 exhibits on around a 0.2
dc voltage drop. This allows more emf into the capacitor to charge the
capacitor faster. The diode only allow electricity to pass on one
direction so only the positive emf flows into the capacitor.
The capacitor is a 50 volts 1000uf electrolytic air foil capacitor.
Exhibits fast emf build up and very little leakage.
The negative side of the capacitor is connected to the clock
body. The reason for this is that there is a hand connected to the hour
hand shaft witch when rotating will complete the circuit
by moving over the plastic disk.
On the disk are any number of copper (or like) strips that when the hand
touches them will complete the circuit to charge the
capacitor.
The capacitors(s) will then be pulsed into a 12volt deep cycle
motor cycle battery after a total of 16-20 volts dc have been stored in
the capacitors.
Since a bank of capacitors will store the 16-20 volts it will take
approx. 15-20 banks to pulse the battery the required number of times to
keep it charged up.
The average charge per capacitor is around 700mv. Thus to store a one
time pulse charge would require around 22 capacitors per bank. Or as
many as 400+ capacitors.
Once the motor is energized by the battery it needs to run for approx.
12 seconds to totally rewind the 30 day main spring.
The motor under the load of rewinding the main spring draws around 4.7 amps.
The uniqueness of this invention is that the moor only has to be on for
12 seconds per month. But the clock pendulum swinging just these 2 coils
can produce approx. 600 mv pr minute.
This equates out to:
1. 600 mv/min  X 60 min= 36 v/hour
2. 36 v/hr X 24 hr = 864 v/day
3. 864 v/day x 30 days = 25920 v/month

Example: If the invention was charging the capacitor at around 26
volts/pulse there would be enough stored voltage to pulse the battery
approx. 1000 times. The pulse rate should be a 1 pulse per second. Or
one could pulse for over 16 minutes to charge the battery. It only takes
about 4 minutes to recharge the battery when it has been running the
motor for 12 seconds.
The voltage drop on the battery is around 80 mv. But after about an hour
the voltage will recover 40 plus millivolts. Due to the
unique chemical properties of a deep cycle lead acid battery.
The deficit voltage of around 40 mv is equally charged up by the pulsing
method in about 3-4 minutes.

Thus the invention can run itself as well as store excess energy.

Parts List
1. Front face of mechanical clock.
1a. Clock 30 day main spring.
2. Idler assembly with sproket and tension spring.
3. 12 volt dc motor, auto window motor.
4. Permanent magnet, neo N-35 cyclinder 5/8″ x 1″.
5. Same.
6. Coil.
7. Same.
8. Diode In-34 Germanium .2 volts forward drop.
9. 1000 uf 50 volt electolytic air foil capacitor.
10. Standard Multimeter.
11. Off-On toggle switch.
12. Standard Multimeter.
13. 12 volts deep cycle motor cycle battary.
14 Plastic round plate.
15. Chain connecting clock thru idler into motor.
16. Sproket on clock.
17. Conductive hand from clock.
18. Shaft connecting plastic dial to base.
19. Clock pendulum.
20. Copper strips.

Additional Information
1. Time it takes clock hand to make one complete revolution
is 75 minutes.

2. Time it takes for hand to move over the 7 copper strips
closing the circuit to charge a bank of 7 capacitors is
11 minutes. About 1.6 minutes per cap.

3. Average voltage per capacitor stored is .575 to .725 volts.

4. Pulsed a charged capacitor from the device across a 600 ma
meter. Pegged the meter! No resistive load used. But this is
what is required to charge the battery. This was with one cap!
Do the math there is sufficient voltage and amperage generated
to do the job with a lot left over.

Much more amperage than I thought would be there.-Great news!!

5. Need to design a mechanical switching unit to be able to
discharge a bank of capacitors (around 16-20) into the
battery-the pulse need to charge the battery, only an
engineering problem.

6. Will now begin to put the full number of capacitors on the
to complete the charging cycle.

7. The battery shown in the video is connected to the motor it is
in no way running the clock or generating the electricity stored in the caps.

Here are some pics of my own from playing with the original design layout.

Here is a video Interview with Bill talking about his original design

??Still Uploading??

Here is a very nice addition to the renewable energy projects. Its a cheap (under $10 at CVS pharmacy) very bright flash light and AM/FM radio.

To use this simply crank the handle a couple of time and you have up to 30 minutes to use the light or listen to the radio. Need more time? Just crank it a couple of more times and get all the power you need.

This is great for emergencies and its always available unlike its now old ‘traditional’ flashlight.

Think the light is not bright enough? You better think again. The ultra bright white LEDS are like nothing I have ever seen in any flashlight, much less a traditional flashlight.

Once I tried it for the first time I can tell you that I will NEVER use another flashlight again unless its crank powered.

Here are some pics of it. They are rather large.

Take this ANYWHERE with you. Put it in your car, motorhome, or just in the kitchen drawer in case of the power outages that often happen during storms.

You will spend more then the cost of this (under 10 bucks) then you would to buy just one battery to replace the dead ones that are in your current flashlight.

Need a free energy generator that can power almost anything?

Check this hack out! Using adapters you can charge and use this free energy for anything including your cell phone.

Someone said that mounting your wind generator towards the ground was like mounting your solar panels in the shade as the wind is almost nothing near the ground. This proves to be true as I try to test the different blades. I find that there is simply not enough wind in my location to make them spin.

So, I took the time to bury 1″ steel water pipe (black) into the ground and cement it in for a base so that I can get the generators more off the ground. They will be between 15 and 20 feet in the air when I am finsihed with them. I know this is not even as high as they recommend however its still alot better then having them less then 5 feet from the ground.

Look at the video and you will see more about this.

Update: Here is the generator up on about 15 foot plole. Its now using the long skinny blades but as you will see they are too thin for cut in speed. (start up speed) Once spinning they are like nothing I have seen to date as far as speed goes. They are very, very fast.

Watch the video below to see more about this.

Here are some pics of some hubs I have made from cheap cutting boards from Lowes Home Improvement in Michigan City. These hubs are 1/8 of an inch thick. Very thin yet seem to be very strong. However I guess when we are talking about all the power in the wind, nothing may end up being as strong.

Using the cutting board to make a hub circle. You can see from above this will make a perfect 6 blade hub.

Cant be seen very well but its 1/8 of an inch thick.

This one is very nice and works great. I think this is my favorite.

Showing the thickness.

A ravaged cutting board after ripping a couple of hubs out of it.

I cut some 3 foot pvc blades for the WindBlue Alternator today. They are in raw form as I have not sanded them on the edges or rounded the tips. I ordered the entire system along with the one piece blade system that acts as 2 blades but I want to try lighter pvc blades and see how they work…..or how they dont.

Dont forget if you guys want to see how I am doing other things with the wind gens please drop me a line and I will try to get it on video and get it posted for you. Chances are, if it interests you it will be of interest to others as well.

Below is an updated video. I got it outside waiting for the wind to blow but as some people say you have to wait 6 days for the wind to blow when you are waiting for it;-)

I will post another video when I can see it spinning. I may end up having to add more blades to this one but its really hard to tell as it might not want to spin when near to the ground but if I get it up onto a tower it could spin like hell. I read somewhere that having a wind generator near the ground is like putting your solar panels in the shade. But, This makes it alot easier for me to be able to test different blades, speeds, and power output….or lack thereof.

In this video I cut new blades for the new Amatek Wind Generator that I ordered from eBay. This motor spins counterclockwise so I had no choice but to make new blades that reflected the counterclockwise rotation of the shaft.