Gravitational-electrical energy converting system [using free falling kinetic energy of round solid heavy mass]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to the machine which is capable of converting gravitational energy of any planet into electrical energy on that planet. This is achieved by the change of gravitational potential energy of specific mass of solid round ball into its falling kinetic energy and this kinetic energy is applied to rotate rotor axis of the dynamo to produce equivalent electrical current.
BACK GROUND OF THE INVENTION
The consumption of electrical power has undergone a relatively rapid increase in recent years. For example, in the United States and in developed countries, the increase in the application and usage of computers, as well as hybrid/electric cars, has created a demand for more electric power plants .In developing countries like india there is a significant demand of electricity to run industries. Large population consumes large quantity of electricity.The present invention describes the use of gravitational energy of any planet into electrical energy on that planet by the change of gravitational potential energy of specific mass of solid round ball into its falling kinetic energy and this kinetic energy is applied to rotate rotor axis of the dynamo to produce equivalent electrical current.
SUMMARY OF THE INVENTION
The present invention uses the principle of change of energy .The machine converts the gravitational potential energy of specific mass of solid round ball inside the cylindrical chamber of the machine. The free fall of specific mass of solid round ball is converted into its final kinetic energy at the moment it is going to strike the movable plate in which a long rectangular rod/bar having toothed surface is attached to the plate on the bottom portion of the plate .The toothed part of the rectangular rodA)ar touches the rotor axis of the dynamo .The rotor axis contains a fly wheel of heavy mass. When solid round ball is dropped from a critical/maximum height in the cylindrical chamber to the movable plate, the kinetic energy of the free falling mass of the round ball is supplied to the rectangular rod/bar. The rectangular rod/bar in turn supplies this energy to the rotor axis of the dynamo. This rotates the rotor axis of the dynamo. This produces electricity in the circuit. The fly wheel in the rotor axis of the dynamo maintains the rotation of rotor wheel for a long time due to the momentum gained by its heavy mass. When the solid round ball mass finally comes to rest after successive rise & fall ,its rest position is sensed by the position sensor and then lifting motor starts the lifting of solid round ball to the critical/maximum possible height inside the cylindrical chamber.

BRIEF DESCRIPTION OF THE DRAWINGS
Fig l shows the construction of the machine" Gravitational- electrical energy converting system' It con sists of a very long cylindrial in terms of its diameter having two plates between the length of a spring of spring mass constant K .There is a long rectangular rod/bar having one side(touching side) a toothed surface which gently touches the toothed-rotor wheel of the rotor axis of the dynamo. The fly wheel in the rotor axis of the dynamo maintains the rotation of toothed-rotor wheel for a long time due to the momentum of the heavy fly wheel mass.
FIG2 shows the diagrammatical representation of the lifting mechanism when the solid round ball comes to rest on upper plate after successive rise and fall on to the plate.
FIG3 shows the successive rise &fall and hitting the movable plate inside the cylindrical chamber. During this process of up &down motion of the rectangular rod/bar rotates the rotor wheel of the dynamo in one direction. The fly wheel in the rotor axis of the dynamo maintains the rotation of rotor wheel for a long time due to the momentum of the fly wheel mass.
DETAILED DESCRIPTION
Attention is initially directed to FIG. 1, which diagrammatically illustrates the internal structure of the machine.The solid heavy round ball 1 after rise to a critical/maximum height ,is dropped freely under the gravitational force inside the cylindrical chamber 19.1t gains initial final velocity when it is just about to strike the surface of the movable plate 2 .When it strikes the plate 2 ,the final kinetic energy is transferred to the movable plate 2.The movable plate 2 is attached with a long rectangular rod/bar 5 followed by a spring 4 round about it at the centre of the movable plate2.The lower bottom end of spring is fixed to another fixed plate 6 .The one- sided toothed part 12 of the rectangular rod/bar 5 gently strikes the toothed rotor wheel 7 of the dynamo 10 with force, It rotates the rotor wheel 7 with equivalent initial gravitational energy at the free fall of the round ball 1 .During the striking process , the rectangular rod/bar 5 comes down to rotate the rotor wheel 7 with speed and then goes upward by the spring action of the spring 4.During this process the heavy fly wheel 9 and the rotor wheel 7 of the dynamo are set into angular motion simultaneously. The fly wheel 9 maintains the rotation of rotor wheel 7 for a long time due to the momentum gained by its heavy mass. This action produces electric current for a long time. The electric current is produced until the solid round ball 1 comes to rest after successive rise & fall and striking the surface of plate 2 . The solid heavy round ball 1 finally comes to rest after successive rise & fall ,its rest position is sensed by the position sensor 13 and then lifting motor starts the lifting of solid round ball 1 to the critical/maximum possible height inside the cylindrical chamber 19.The solid round ball 1 is dropped freely under gravity as it leaves the contact of lifting plate 3 , when the lifting plate 3 moves for downward path as the chain 20 rotates by the lifting motor 21.

FIG 2 shows the diagrammatical representation of lifting mechanism of heavy round ball 1 . The solid heavy round bail 1 finally comes to rest after successive rise & fall ,its rest position is sensed by the position sensor 13 and then lifting motor starts the lifting of solid round ball 1 to the critical/maximum possible height inside the cylindrical chamber 19.The solid round ball 1 is dropped freely under gravity as it leaves the contact surface of lifting plate 3 when the lifting plate 3 moves for downward path as the chain 20 is rotated by the lifting motor 21.The round ball 1 again starts for its successive rise & fall inside the cylindrical chamber 19.
FIG 3 shows the successive rise & fall and striking of the solid heavy round ball 1 inside the cylindrical chamber 19.The solid round ball 1 is freely comes down and strikes the movable plate 2 .After striking it goes upward .The position of the rectangular rod/bar 5 which has come down after the strike of the ball 1 is shifted to its initial position by the spring action of the spring 4.The up & down motion with force of the rectangular rod/bar 5 strikes the toothed -rotor wheel 7 . During this process, the heavy fly wheel 9 and the toothed-rotor wheel 7 of the dynamo are set into angular motion simultaneously. The fly wheel 9 maintains the rotation of toothed- rotor wheel 7 for a long time due to the momentum gained by its heavy mass in single direction. Thus production of electricity takes place. The electrical energy is transmitted to any load if connected to the dynamo 10 with the help of conductor of electricity.
In this way the process continues and the electricity is produced as long as the lifting mechanism is at 'ON' position.

I claim,
CLAIM 1. It produces electricity by using gravitational force of the earth. The gravitational energy is used to develop the potential energy in solid round ball of heavy mass .The solid round ball is going to strike with large final kinetic energy on to the movable plate .A long rectangular rod is attached to the plate centrally having onesided toothed surface on its bottom portion .The toothed surface strikes the toothed-rotor wheel of the dynamo with force .The rotor axis rod of dynamo contains a fly wheel of heavy mass. When the solid round ball is dropped from a certain height in the cylindrical chamber to the plate, the potential energy of the round solid ball is supplied to the rectangular rod/bar. The rectangular rod/bar in turn supplies this energy to the rotor axis of the dynamo. This rotates the rotor wheel with heavy fly wheel of the dynamo simultaneously .This produces electricity in the circuit.
CLAIM2. It consists of long cylindrical chamber .The height of the clindrical chamber is very large in comparison to its internal diameter. This chamber consists of the movable round plate and a fixed round plate .The bottom part of the movable plate is attached to a rectangular rod/bar which has toothed part at its end. There is a spring which is inserted around the rectangular rod/bar and its ends are fixed in-between the two plates .The movable plate is free to move inside the chamber .The fixed plate inside the chamber is kept at a distance equivalent to the length of spring to the bottom side of the movable plate .The fixed plate is fixed inside the chamber. The spring is in-between the two plates . It surrounds the rectangular rod/bar .This spring keeps the rectangular bar to its initial position after the striking of the round heavy solid ball on to the movable plate .
CLAIMS.The ball after striking rises upward and again comes down to strike the movable plate. The fly wheel maintains the motion of the toothed-rotor wheel during the successive striking of the solid round ball.
CLAIM4. When the ball comes into rest position after successive rise and fall, it is taken upward to the critical/maximum height inside the cylindrical chamber and is dropped again by the automatic lifting mechanism having a position sensor ,lifting motor and a chain having lifting plate attached .
CLAIMS. The automatic lifting mechanism consists of a lifting motor ,a chain having a lifting plate and a position sensor. The sensor examines the position of the ball and gives the particular signal to the lifting motor.If it senses the rest position of the ball on the movable plate, it gives signal to start the motor .The motor puts the ball to the critical/maximum height by the chain action on the round solid ball and is stopped by the sensor when lifting plate is again takes the position just above the movable plate touching each other.

CLAIM6. The chain consists of a small rigid lifting surface having sufficient strength to bear the weight of the round solid heavy ball and is maintained just above the movable plate touching each other. When the motor starts , the rigid lifting surface rises inside the chamber and takes the ball upward to the critical/maximum height .In upward motion when the shaft reaches its critical/maximum upward height/ position where there is no longer contact between the ball and the rigid lifting surface. The rigid lifting surface goes downward after leaving the ball to strike on to the surface of the movable plate .