Form2
The Patent Act 1970
And
The Patent Rules 2003
(See section 10 and rule 13)
COMPLETE SPECIFICATON
Self breeding energy device and the mechanism thereof
Applicant
Name: NB-4 Energy solutions Pvt. Ltd.
Address: J-25, Phase-3, M1DC, Shivar, Akola, Pin-444104, Maharashtra Nationality: Indian
Preamble:
The following specification fully and completely describes the invention and the manner in which it is to performed.

DESCRIPTION OF THE INVENTION
FIELD OF THE INVENTION:
The present invention relates to the method and mechanism for the production of energy. More particularly it relates to Self breeding energy device and the mechanism thereof wherein continuous alteration of kinetic energy into any required form of energy is possible through a novel device of flywheels, a diaphragm and controlling unit consisting of pin and auto control socket button.
BACKGROUND OF THE INVENTION:
In industrialized countries of the World and in emerging third World countries, there is an addiction to use of natural resources for fulfillment of the energy requirements. The thermal-electric power plants, hydro-electric power plants, and nuclear power plants are often referred as conventional energy sources. However fossil fuels generate pollutants such as CO, CO2. NOx, SOx, particulate matter and heat. The pollutants degrade the environment, pose health hazards and cause various health problems. The waste material generated in nuclear plants has dangerous levels of radioactivity and thus a health hazard. Hydroelectric plants occupy large area which leads to deforestation and ultimately to ecological disturbance.
Non- conventional energy is referred to energy generated by using wind, tides, solar, geothermal heat, and biomass including farm and animal waste as well as human excreta. Though available freely in nature, the cost of harnessing energy from non- conventional sources is high since they are available in dilute forms in nature. Besides the availability is uncertain and even if available transportation of resources is difficult.
Also many scientists have attempted to develop a self activated machine; a fuel less generator but this concept was objected due to use of perpetual motions.

From the above briefly exposed state of affairs with regard to the energy problems, it becomes evident that the need exists to find alternative energy solutions that might guarantee the secure and unobstructed development of humans on our planet.
OBJECTS OF THE INVENTON:
The main object of the present invention is to provide a Self breeding energy device and the mechanism thereof for the production of energy.
The further object of the present invention is to provide a Self breeding energy device and the mechanism thereof in which continuous alteration of kinetic energy into any required form of energy is possible through a novel device of flywheels, a diaphragm and controlling unit consisting of a pin and a auto control socket button.
The another object of the present invention is to provide a Self breeding energy device and the mechanism thereof which is environment friendly and does not generate any pollutants such as CO, C02,NOx, SOx etc.
The furthermore object of the present invention is to provide a Self breeding energy device and the mechanism thereof which supplies a safe alternative energy solution and helps to unobstructed development of humans on our planet.
SUMMARY OF THE INVENTION:
Accordingly the present invention a Self breeding energy device and the mechanism thereof comprises a novel device of flywheels, diaphragm and controlling unit consisting of a sliding pin and auto control socket button. In the preferred form of the invention, two flywheels are used in the device. The mechanism of the present invention is based on the simultaneous exploitation of an action exerted on a diaphragm and of the reaction being associated with that action. Through this mechanism continuous alteration of kinetic

energy (generated from flywheels) into any required form of energy is possible. The invention will now be described with reference to the accompanying drawings in detail as follows.
BRIEF DESCRIPTION OF THE DRAWINGS:
In the accompanying drawing wherein,
Fig.l: Perspective view of the present invention showing different parts of the invention
Fig.2: Top view of the present invention
Fig.3: Top view of the case-1 of the present invention
Fig.4: Top view of the case-17 of the present invention
Fig.5: Inner view of the easel
Fig.6: Sliding Pin Assembly
Fig.7: Sliding Pin Foundation
Fig.8: Auto controller Socket Button
Fig.9: Diaphragm Assembly
Fig.10: Flywheel-1 and its assembly
Fig.l1: Flywheel-2 and its assembly
Fig.12: Vacuum valve
Fig. 13: Arrangement of gear, shaft and cam
Fig.14: Positions of the Sliding Pin in Auto Controller Socket Button
Fig.l 5: Positions of Cam and Sliding Pin

DETIALED DESCRIPTION OF THE DRAWINGS:
The reference numerals used in the drawings are as mentioned herein below table:

Part Number Sub-part Number Part Name
1 Case - 1
2 Dual Pins
3 Bearings
4 Shaft-1
5 Transmission Gear-1
6 Flywheel Coupling Key
7 Transmission Gear-2
8 Transmission Gear-2 Bush
9 Flywheel-2
9.1 Die Cut Alloy Plates(Sheets)
10 Flywheel-1
10.1 Bolt

10.2 Visor
11 Cam
12 Diaphragm
12.1 Diaphragm O-ring (body)

12.2 Rubber

12.3 Variable Screw Hole

12.4 Air Pilot hole connected to Auto Controller Socket Button
12.5 Vacuum Outlet Hole connected Vacuum Valve
13 Auto Controller Socket Button
13.1 Foundation

13.2 Spring
13.3 Air Pilot Hole
13.4 Auto Control Socket
13.5 Push Button
14 Vacuum Valve
14.1 Lock
14.2 Vacuum Outlet Hole
15 Sliding Pin Foundation
15.1 Gun Metal Bush
15.2 Adjustable nut- visor
16 Sliding Pin
16.1 Pin
16.2 Spring
16.3 Spring Lock
17 Case - 2
18 Shaft-2
As illustrated in Fig.l different parts in the preset invention are:
Flywheel:
A flywheel is a rotating disk that stores energy as kinetic energy. The flywheel rotates with a connecting rod known as the shaft. Through shaft the energy of the flywheel moves in and out.
In the present invention, Flywheel-1 is typical flywheel whereas Flywheel-2 is custom made flywheel. The Flywheel-1 is mounted on Shaft-1 as shown in Fig.10 with the help of Flywheel Coupling Key. The arrangement of Gear, Shaft-1 and Cam is as shown in the Fig.l1. The Flywheel-1 and Flywheel-2 are positioned in such a way that simultaneous

exploitation of energy through Diaphragm is possible. Preferably in t he device of the present invention Flywheel-1 is bigger than the Flywheel-2.
The Flywheel-2 is assembled with thin sheets which are compressed together. These sheets are made from a novel combination of Copper, Zinc and Ferrous together with Poly Vinyl Alcohol. Fig. 11 illustrates the assembly of Flywheel-2. The procedure to assemble the Flywheel-2 in the present invention is given below:
1. Ferrous is heated at temperature 1500° C - 1600 C. As the melting point of Ferrous is achieved, other metals Copper and Zinc are added to it. These metals are added later because melting points of Copper and Zinc are low as compared to the Ferrous.
2. Copper and Zinc melt immediately after their addition as the temperature is too high.
3. The melted mixture of these three metals is allowed to cool.
4. This cooled alloy mixture is converted into powder form and is then added to the Poly Vinyl Alcohol solution.
5. The solution above is spread uniformly over a glass sheet with the help of brush. After 2-3 hours, a thin sheet of the film is formed.
6. This sheet is now cut into round pieces with the help of metal die having teeth at the circumference. Each of these sheets is punched at the center so that a shaft can pass through it.
7. Such 171 sheets of 95 mm diameter are press fitted together to form one flywheel.
8. To comply with the upcoming power requirements, either size of the sheets or numbers of sheets used in Flywheel-2 may be increased.
Diaphragm:
The diaphragm is a vibration system that runs on the strokes generated in the device. It comprises a cylindrical body with rubber fitted at its ends, a vacuum valve at the top and

the Auto Controller Socket Button at the front of the body. Fig. 9 illustrates the Diaphragm Assembly.
The cylindrical body (Diaphragm-o-ring) is made up Aluminum alloy along with Zinc.
The Rubber at the cylindrical body's end is made from a raw rubber. As the Rubber has elasticity in it, it is helpful in vibration/ stroking and works better than the metal, in the present invention, Rubber has been molded into a curved shape so that Rubber can survive the continuous strokes. To mould the Rubber, the raw rubber is put into a metal mould and heated. After cooling down, the Rubber acquires the shape of the mould. This Rubber is then stretched and fitted on the cylindrical body's end. To obtain optimum benefits, two rubbers are used on both sides of diaphragm. The pasting of two rubbers makes them brittle and susceptible to damage soon after installation. Therefore, at the time of installing the Diaphragm in the Device, instead of pasting these two rubbers at cylindrical body's end, the air between them is removed with the help of Vacuum Valve. The Vacuum Valve placed at the top of the Diaphragm's body. Fig. 12 illustrates the Vacuum Valve. As soon as the air between two rubbers is removed from the Vacuum Outlet Hole, it is locked with Lock of the Vacuum Valve. Now two rubbers stick to each other completely and act as single Rubber which makes the Device work for a real long time. The Diaphragm is mounted on the Flywheel-2 as shown in the Fig.l
Controlling Unit:
Controlling Unit comprises Auto Controller Socket Button and Sliding Pin which is attached to the Diaphragm's body. The controlling unit controls the working of the Device. The Auto Control Socket Button is used to initiate the mechanism of the present invention. The Device of the present invention is running till this button is pressed. It can be made from Steel, Aluminum or Brass. In the present invention, steel is used to make the Auto controller Socket Button. Fig.8 illustrates Auto Controller Socket Button Assembly. It has two holes; one is parallel to the Diaphragm's body which is actually a socket for sliding pin's end. This hole in socket button is not thorough. It starts from one

end and ends at 2/3rd width of the Auto Controller Socket Button. Another hole is perpendicular to the Diaphragm's body which is an air pilot hole. This hole is thorough; it starts from the cylindrical body of the diaphragm and runs up to the above parallel hole. This hole is thinner as compared to the parallel hole. When the Sliding Pin moves to and fro, it inserts into the parallel hole which causes the air inside the Diaphragm to expand or compress. Due to the compression, the air inside the hole enters the Diaphragm's body through the tiny perpendicular hole causing the Rubber of the Diaphragm to move outwards. Exactly the reverse sequence of events happens when the Sliding Pin moves back from the hole.
Fig.14 illustrates the positions of the Sliding Pin in Auto Controller Socket Button. Initially when the Device is not working the position of the Auto Controller Socket Button and Sliding Pin is as shown in pos-A. To initiate the mechanism when Auto Controller Socket Button is pushed or pressed, the Sliding Pin gets into the position as shown in pos-B. Simultaneously when Flywheel-1 is set in rotating motion, the Sliding Pin moves to and fro and acquires positions as in pos-B or pos-C.
Sliding Pin:
The Sliding Pin associated with the Diaphragm and positioned in such a way that it regulates the compression and relaxation of the diaphragm. The Sliding Pin is used to generate strokes in the Device. It continuously collides with the Cam attached on Shaft-1 which generates strokes. A rigid metal such as high Carbon steel or Tungsten is used in sliding pin to avoid wear and tear of the metal of the Sliding Pin resulting into a gap between the Sliding Pin and Cam which culminates into stoppage of the system.
The Sliding Pin has a spring fitted to it for appropriate to and fro motion and the spring is followed by a lock to prevent the spring from coming out of the working system. Fig.6 illustrates the Sliding Pin assembly. The Sliding Pin is attached to Auto Control Socket Button through Sliding Pin Foundation. Fig.6 illustrates the Sliding Pin and its assembly.

Fig.7 illustrates the Sliding Pin Foundation. This foundation is made of Aluminum alloy and has a gun metal bush fitted in it. The pin is passed through gun metal bush instead of the foundation directly. This avoids the friction between the pin and the foundation; caused by to and fro motion of the pin.
To set the distance between the Sliding Pin and the Cam, a screw hole space (in Auto control Socket Button) is made. Until and unless the distances are set properly, the device will not start. The appropriate distance is set at the time of the installing the device
For device to work, the Shaft-1, Sliding Pin and Diaphragm have to be set at their exact positions for to and fro motion of the Sliding Pin.
Bearings:
Bearings used in the present invention due to its ability to rotate freely. These are commonly available in market e.g. Bearing no. 6204. Bearings are fitted in the system with the help of 0 rings. The Shaft-1 and Shaft-2 are passed through Bearings.
Transmission Gears Assembly:
The Transmission Gear Assembly consisting of Transmission Gear-1 and Transmission Gear-2. The Transmission Gearl attached to the Shaft-1 and Transmission Gear2 is coupled with Transmission Gear-1. These Transmission Gears are used for transmission of energy generated within the system. Gears used in the present invention are commonly available in the market.
Shafts:
Shafts used in the present invention are basically stainless steel rods and are given appropriate shape towards the end so that the flywheel can be push fitted on it. Shaft-1 has a lock system at its end and the Cam (made up of high Carbon steel or Tungsten and having an eccentric portion on it) is fitted on it. Cam's function is to push the Sliding Pin, which eventually keeps the Device working.

Holding Case:
The holding Case-1 and Case-17 are made up of Aluminum and used to hold the complete Device.
Working of the Device:
To initiate the mechanism the Auto Control Socket Button is pressed and simultaneously Flywheel-1 is given a mechanical pull to rotate it. The Flywheel-1 starts rotating which generates kinetic energy. As Flywheel-1 is rotating Shaft-1 where the Flywheel is mounted also rotates. Also Cam which is attached to the Shaft-1 starts rotating. This Cam has an eccentric portion which collides with the Sliding Pin and makes the Sliding Pin to be pushed. As the Sliding Pin is pushed by Cam, it gets more inserted in the auto control socket (13.4) of the Auto Controller Socket Button and gains the position as shown in pos-C of Fig.14. The Cam collides with the Sliding Pin after each rotation of the Flywheel-1. The respective positions of the Sliding Pin and Cam are as shown in the Fig. 15. As the Sliding Pin is fully inserted in the Auto Control Socket Button, the air inside the auto controller socket (13.4) gets compressed and enters into the Diaphragm through Air Pilot Hole. The Rubber (12.2) of the Diaphragm blows up to adjust the space and gains the position as shown in pos B of the Fig.9 When Sliding Pin moves backward as in pos-B of Fig. 14. there will be space for air in auto control socket (13.4) and the rubber (12.2) of the Diaphragm gets back to normal form as the air is blown back. The Sliding Pin is associated with the Diaphragm and positioned in such a way that it regulates the compression and relaxation of the diaphragm. The Sliding Pin is used to generate strokes in the system. It continuously collides with the Cam on Shaft-] due to which there is continuous compression and relaxation of the diaphragm. When the Diaphragm is compressed it gains some energy and when the Diaphragm is released it throws its energy on the Flywheel-2. In the compressed state of the diaphragm, the gained energy is concentrated at the center of the rubber and while relaxation it throws that energy on Flywheel-2. Sheets used in assembling of Flywheel-2 attract this energy which eventually makes Flywheel-2 in rotating position. The Flywheel-2 starts rotating in opposite

direction of the Flywheel-1 and generates the field of attraction. The Flywheel-1 and Flywheel-2 are positioned such a way that this generated Field of Attraction of Flywheel-2 attracts Flywheel-1. Since Flywheel-1 is mounted on Shaft-1 through Bearing, the attraction of Flywheel-1 sets Flywheel-1 in rotary motion. With each rotation of Flywheel-1 the Flywheel-2 gets energy released from the Diaphragm which in turn helps Flywheel-1 to remain in continuous rotary motion. This simultaneous exploitation of an energy exerted on a diaphragm and the reaction associated with it keeps the both flywheels in rotary motion.
At the same time as Transmission Gear-1 is attached to Flywheel-1 and Transmission Gear-2 is also assembled with it, the continuous rotary motion of Flywheel-1 in turn sets Transmission Gear-1 and Transmission Gear-2 in rotary motion from where the produced energy can be utilized. With the help of Transmission Gear-2, produced energy can be utilized in any required form. For e.g. the water pumping motor can be attached to Transmission Gear-2 for water pumping.
By means of energy conservation law. the wheel in the motion tends to remain in motion till it is not opposed by any external force. Hence rotating mechanism set forth herein above remains intact till the Auto Control Socket Button is pressed. Once the Auto Control Socket Button is released, the Sliding Pin is removed from Auto Control Socket button leaving no space for the to and fro motion of the Sliding Pin. The sliding pin now gets the position as shown in pos-A of Fig. 14 and stops moving to and fro. Hence there is no compression and relaxation of the diaphragm causing no energy transfer from diaphragm to Flywheel-2. Thus the rotary motion Flywheel-2 is suspended and eventually Flywheel-2 stops rotating. Due to lack of field of attraction of Flywheel-2, Flywheel-1 also stops rotating which in turn makes the Device to stop working.
The initial pull given to Flywheel-1 has to be powerful so that it will rotate at least 6-7 times on its own which helps the complete system to start working.

CLAIMS:
We Claim
1. A Self breeding energy device and the mechanism thereof for the production of energy.
2. A Self breeding energy device and the mechanism thereof as claimed in claim 1 wherein continuous alteration of kinetic energy into any required form of energy is possible through a novel device of flywheels, a diaphragm, a transmission gear assembly and a controlling unit.
3. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein the Controlling unit is used to control the working of the device and is consisting of a Sliding Pin and Auto Control Socket Button.
4. A Self breeding energy device and the mechanism thereof as claimed in claim 1,2 and 3 wherein the Auto Control Socket Button consisting of Foundation, Spring, Air Pilot Holes, Auto Control Socket and Push Button is used to initiate the mechanism of the present invention and the Device of the present invention is running till this button is pressed.
5. A Self breeding energy device and the mechanism thereof as claimed in claim 1,2 and 3 wherein the Sliding Pin is used generate strokes in the Device; it is associated with the Diaphragm and positioned in such a way that it regulates the compression and relaxation of the diaphragm.
6. A Self breeding energy device and the mechanism thereof as claimed in claim 1, 2 and 5 wherein Sliding Pin is attached to Auto Control Socket Button through Sliding Pin Foundation; Cam attached on Shaft-1 continuously collides with Sliding Pin which generates strokes in the device.
7. A Self breeding energy device and the mechanism thereof as claimed in claim 1. 2, 5 and 6 wherein the Sliding Pin is consisting spring and the lock; Spring provides appropriate to and fro motion to the pin and lock prevents the spring from coming out of the working system.

8. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein two flywheels Flywheel-1 and Flywheel-2 are used in the device to generate the Kinetic energy; the Flywheel-1 is typical flywheel and is bigger than Flywheel-2. The Flywheel-1 and Flywheel-2 are positioned in such a way that simultaneous exploitation of energy through Diaphragm is possible.
9. A Self breeding energy device and the mechanism thereof as claimed in claim 1,2 and 8 wherein the custom Flywheel-2 is assembled with thin sheets which are compressed together. These sheets are made from a novel combination of Copper, Zinc and Ferrous together with Poly Vinyl Alcohol. The procedure to assemble the Flywheel-2 in the present invention is given below:
a. Heating Ferrous at temperature 1500° C - 1600° C. Adding other metals
Copper and Zinc to it
b. Cooling the melted mixture of these three metals
c. Converting the cooled alloy mixture into powder form and then adding to
the Poly Vinyl Alcohol solution.
d. Uniformly spreading above solution over a glass sheet with the help of
brush. After 2-3 hours, a thin sheet of the film is formed.
e. Cutting the above sheet into round pieces with the help of metal die
having teeth at the circumference. Each of these sheets is punched at the
center so that a shaft can pass through it. Press fitting the sheets together
to from one flywheel.
10. A Self breeding energy device and the mechanism thereof as claimed in claim 1, 2 and 9 wherein the energy generated through the device is depending on the size and number of the sheets used Flywheel-2
11. A Self breeding energy device and the mechanism thereof as claimed in claim 1, 2, 9 and 10 wherein upcoming power requirements are achieved by increasing number of sheets used in the Flywheel-2 of the device.

12. A Self breeding energy device and the mechanism thereof as claimed in claim 1, 2, 9 and 10 wherein upcoming power requirements are achieved by increasing size of sheets used in the Flywheel-2 of the device.
13. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein the diaphragm is a vibration system consisting of a cylindrical body with rubber fitted at its ends, a vacuum valve at the top and the Auto Controller Button Socket at the front of the body.
14. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein the Transmission Gear Assembly is used for transmission of energy generated within the device into any required form and is consisting of Transmission Gear-1 and Transmission Gear-2.
15. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein to initiate the mechanism the Auto Control Socket Button is pressed and simultaneously Flywheel-1 is given a mechanical pull to rotate it.
16. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein due to rotation of Flywheel-1, Cam attached Shaft-1 continuously collides Sliding Pin and causes continuous compression and relaxation of the diaphragm.
17. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein when the Diaphragm is compressed it gains some energy and when the Diaphragm is released it throws its energy on the Flywheel-2.
18. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein the sheets used in Flywheel-2 attracts the energy thrown by Diaphragm and gives Flywheel-2 a rotary motion due to this the Flywheel-2 starts rotating in opposite direction of the Flywheel-1 and generates the field of attraction.
19. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein Flywheel-1 and Flywheel-2 are positioned in such a way that simultaneous exploitation of energy through Diaphragm is possible.

20. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein the Field of Attraction of Flywheel-2 causes Flywheel-1 to remain in continuous rotary motion as Flywheel-1 is mounted on Shaft-1;
21. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein with each rotation of Flywheel-1 the Flywheel-2 gets energy released from the Diaphragm and remains in continuous rotary motion. This simultaneous exploitation of an energy exerted on a diaphragm and the reaction associated with it keeps the both flywheels in rotary motion and generates the energy till the Auto Control Socket Button is pressed.
22. A Self breeding energy device and the mechanism thereof as claimed in claim 1 and 2 wherein at the time of installing the Diaphragm in the Device, the air between two rubbers at cylindrical body's end is removed with the help of Vacuum Valve which increases the life span of the Diaphragm.