There is a lot of talk about Chas Campbell’s gravitational field invention, but for the beginning I will start with a few notions:
Chas has invented a mechanical device which takes the gravitational energy of Earth and transforms it into kinetic energy. Principally, it uses a wheel having balls in it. It’s known that if you grab a steel rod and you want to lift something up with it by using a ground point, you can lift the thing easier if you grab it as much as far from the base point.
Here is an excerpt from a document I found on panaceauniversity.org, which describes best how this system works (I thought about re-writing it, but I couldn’t do it any better and more accurate). So, many thanks to these guys.
“Most people see this as an electrical system, but applying his gravity “lead-out” theory, Mr Tseung see this
as a gravitational free-energy system and he is building one just like it in China at the present time as he is
so impressed by it.
What the sketch above does not show, is that on the intermediate shafts which appear to be just pivot points
for standard gearing, other large discs are mounted. These appear to have no practical effect and are just
decorative, but that is not necessarily the case.
Let me explain the overall system. A mains motor of 750 watt capacity (1 horsepower) is used to drive a
series of belts and pulleys which form a gear-train which produces over twice the rotational speed at the
shaft of an electrical generator. The intriguing thing about this system is that greater electrical power can be
drawn from the output generator than appears to be drawn from the input drive to the motor. How can that
be? Well, Mr Tseung’s gravity theory explains that if a energy pulse is applied to a flywheel, then during the
instant of that pulse, excess energy equal to 2mgr is fed into the flywheel, where “m” is the mass (weight) of
the flywheel, “g” is the gravitational constant and “r” is the radius of the centre of mass of the flywheel, that
is, the distance from the axle to the point at which the weight of the wheel appears to act. If all of the
flywheel weight is at the rim of the wheel, the “r” would be the radius of the wheel itself.
This means that if the flywheel (which is red in the following photographs) is driven smoothly at constant
speed, then there is no energy gain. However, if the drive is not smooth, then excess energy is drawn from
the gravitational field. That energy increases as the diameter of the flywheel increases. It also increases as
the weight of the flywheel increases. It also increases if the flywheel weight is concentrated as far out
towards the rim of the flywheel as is possible. It also increases, the faster the impulses are applied to the
system. Now take a look at the construction which Chas has used:
You notice that not only does he have a heavy flywheel of a fair size, but that there are three or four other
large diameter discs mounted where they also rotate at the intermediate speeds of rotation. While these
discs may well not have been placed there as flywheels, nevertheless, they do act as flywheels, and each
one of them will be contributing to the free-energy gain of the system as a whole.
If the drive motor were a DC motor which is deliberately pulsed by a special power supply, then the effect is
likely to be even greater. It is not clear if the irregular drive which makes this system work so well is due to
the way that the mains motor works, or to slight slippage in the drive belts. The bottom line is that Chas’
system produces excess energy, and although it is by no means obvious to everybody, that excess energy is
being drawn from gravity.
Ok, so what are the requirements for an effective system? Firstly, there needs to be a suitable flywheel with
as large a diameter as is practical, say 4 feet or 1.2 metres. The vast majority of the weight needs to be
close to the rim. The construction needs to be robust and secure as ideally, the rate of rotation will be high,
and of course, the wheel needs to be exactly at right angles to the axle on which it rotates and exactly
centred on the axle:
Next, you need a motor drive which gives a rapid pulsed drive to the shaft. This could be one of many
different types. For example, the original motor design of Ben Teal where very simple mechanical contacts
power simple solenoids which operate a conventional crankshaft with normal connecting rods:
This style of motor is simple to construct and yet very powerful. It also meets the requirement for rapidly
repeated impulses to the axle of the flywheel. The motor power can be increased to any level necessary by
stacking additional solenoid layers along the length of the crankshaft:
An alternative suitable drive system could be produced by using the same style of permanent magnet and
electromagnet drive utilised by the Adams motor, where electromagnets positioned just clear of the edge of
the rotor disc are pulsed to provide an impulse to the drive shaft, in the case shown below, every 30 degrees
of shaft rotation.
Here, the sensor generates a signal every time that one of the permanent magnets embedded in the rotor
passes it. The control box circuitry allows adjustment of the time between the arrival of the sensor signal and
the generation of a powerful drive pulse to the electromagnets, pushing the rotor onwards in its rotation. The
control box can also provide control over the duration of the pulse as well, so that the operation can be fully
controlled and tuned for optimum operation.
Any ordinary DC motor driven by a low-rate DC motor “speed controller” would also work in this situation, as
it will generate a stream of impulses which are transmitted to the flywheel. The shaft of the flywheel will, of
course, be coupled to an automotive alternator for generation of a low voltage output, or alternatively a
mains voltage generator. It should be stressed that having several flywheels as part of the drive gearing, as
Chas Campbell does, it a particularly efficient way of leading-out excess gravitational energy. Part of the electrical output can be used to provide a stabilised power supply to operate the drive for the flywheel.”