Title of invention:

Electricity production from hydraulic technology without using any fuel Field of invention:

The described invention explains production of electrical energy by using the concept of Hydraulics without using any fuels.

Back ground:

Now-a-days we are using various kinds of generators (diesel, kerosene, etc.) for our electrical needs. The model described here will replace the above said generators and also it doesn't require any fuels for the production of electricity.

We can use this for major electrical needs also. In the case of major electrical needs we are using water, wind, coal and fission of atoms. While the instrument explained here is developed as a huge model, it will produce the same quantity of electrical energy as done in thermal and wind mill productions.

As this method doesn't require any fuel, it is an eco-friendly method. It has not affected the environment.

In the present situation the electrical energy is produced at a place and it is transferred to various parts of the nation through the grids. During this process most of the energy is wasted because of conduction loss. For avoiding this, we may install this device at major and small towns and can produce the electrical energy as per the neediness' of the town. The energy need of the town will be satisfied there itself without any loss.

This idea can be expanded to hotels, shopping malls, industries and automobiles also. While using this concept in an electrical cars and electrical scooters, they need not to be charged.

The notable pluses of this method are,

♦ It doesn't require any fuel

♦ Reduces the energy loss

♦ Does not produce hazardous products

♦ Multiplying energy using hydraulics

Brief description of the drawing:

The below flowchart explains the stepwise development of energy production. Initializing energy is fed to motor from a battery Rotational motion in motor

Rotational motion is converted into to and fro motion Feedback I

Energy is multiplied in hydraulics using pistons

Multiplied energy produces to and fro motion

To and fro motion is converted into rotational motion I

AC dynamo utilizes the rotational motion to produce AC energy (1/4) J. (3/4) Applications Detailed description:

The image drawn here is an approximated one. The magnitude of energy produced, efficiency of the motor and the efficiency of the hydraulics are not denoted here.

In the present days generators can be run by using petrol (or) diesel engines but model described here is using an electric motor. The usage of hydraulic reduces the energy required to run the generator. Actually the minimum mechanical energy of the electric motor is multiplied by means of hydraulics and it is used as the mechanical energy of the high power electric motor which is connected to a generator.

Example:

If an electric motor requires 6 HP power to run a generator, we may use 1 HP motor. Because the hydraulic that we used here will multiply the 1 HP power into 6 HP power and it is sufficient to run the generator.

Here I'm explaining the function with reference of the diagram.

By operating the switch S2 the DC saved in Battery is converted to AC by a converter C2 and fed to the electric motor M through alternate change over (ACO).

The rotational motion of the motor (M) is converted into to and fro motion by means of motion modifier (Ti). This to and fro motion is fed to a hydraulic who multiplies the mechanical energy into 5 times as we fed.

Then the to and fro motion of the hydraulic is fed to motion modifier (T2). Here it is converted to rotational motion and it was used to run an AC dynamo and produces AC current.
As the mechanical energy is multiplied the AC yield is also multiplied. If we fed 1 unit to electric motor, the output AC is 4+ units.

(i.e.) the ratio is 1:4
From the 4+ units of output, 1 unit is fed back to electric motor (M) so the energy supplied from battery is stopped.
The remaining 3+ units of output is used for domestic purpose.
Production in 1 unit is used .
AC dynamo is ^ to run the T 3+ units is used for
4+ units motor domestic purpose
For the next ignition, the battery B must be charged again. For this purpose switch Si is used. AC current from AC dynamo is converted to DC by a convertor C\ and used to charge the battery. After the 30 minutes switch Si can be released and recharging circuit remains open.

Claims:

1. The given initial electrical energy is converted into the mechanical energy and used to generate electrical energy. A part of output is used as initializing energy.

2. Given energy is multiplied in the hydraulics. So hydraulics acted as energy multipliers.

3. Mechanical energy fed at piston (PI) will be multiplied at another piston (P2). This multiplied energy is used to generate electrical energy.

4. The net output at AC dynamo will be several times greater than that of the input at the motor (M).

5. The generated electrical energy is used for domestic applications but a part of it is used in feedback circuit.

6. Initially the motor is started by using the charge in a battery (B), but when the AC dynamo starts in production the circuit from battery to motor will be disconnected automatically.

7. Electrical energy is the driving force of this instrument, but the output is much greater than the given output.

8. AC dynamo will supply the energy which drives the motor (M), also the excess energy is used for applications.

9. Initializing force is the driving force and the hydraulic is act as the energy resource by multiplying the energy. This device uses the concept of conservation of energy and hydraulics.

10. Electrical energy given to(M) is obtain from AC dynamo, the mechanical energy given to AC dynamo is from motor(M) through hydraulic. So dynamo and motor acts as a driving force on each other. The process will be repeated unless the energy given to motor (M) will be stopped.