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Title:
AN ELECTRIC POWER PRODUCER
Document Type and Number:
WIPO Patent Application WO/2018/146696
Kind Code:
A1
Abstract:
An electric power producer 11 mainly comprises of: Input Assembly (1); Base Assembly (2); Power Generation Assembly (3); Hydraulic Pump Assembly (4); Oil Circulating Assembly (5); Output Assembly (6); Controlling Assembly (7). Wherein Power Generation Assembly (3), further comprises of Rotating Assembly (3A) and Tilting Assembly (3B). Said base assembly (2) supports the Tilting Assembly (3B) that tilts using sensor (7) controlled hydraulic jacks (4D) of the Hydraulic Pump Assembly (4); with the help of weight exerted on the cylinders (3B 11, 3B 12, 3B13...3B1n) by the Load Wheel Assembly (3A5) of the Rotating Assembly (3A) taking advantage of oil pressure and gravitational force. Said Oil Circulating Assembly (5) supplies oil to the power generation assembly (3) for generation of power and receives pressurized oil from it to generate power through a generator 5C. Output Assembly (6) collects the produced energy and passes the same to the Grid 6B.

Inventors:
PATEL GHANSHYAMBHAI (IN)
Application Number:
PCT/IN2017/050556
Publication Date:
August 16, 2018
Filing Date:
November 25, 2017
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
PATEL GHANSHYAMBHAI (IN)
International Classes:
F03G7/10
Domestic Patent References:
WO2014158036A12014-10-02
Foreign References:
US20150219192A12015-08-06
US20150180310A12015-06-25
CA2839273A12015-07-20
Other References:
None
Attorney, Agent or Firm:
TRIVEDI, Gopi (IN)
Download PDF:
Claims:
CLAIMS:

1. An electric power producer 11 mainly comprises of: · Input Assembly ( 1);

• Base Assembly (2);

• Power Generation Assembly (3);

o Rotating Assembly (3A) ;

o Tilting Assembly (3B);

· Hydraulic Pump Assembly (4);

• Oil Circulating Assembly (5) ;

• Output Assembly (6);

• Controlling Assembly (7) ;

Wherein:

• Said Input Assembly 1 further comprises of:

o Power Supply 1A;

• Base Assembly 2 further comprises of:

o Base 2A,

o Pedestal 2B;

• Power Generation Assembly 3 further comprises of: o Rotating Assembly 3A; in-turn comprising of:

Weight Beam 3A1,

Counter Weight Beam 3A2,

Balancing Weight Beam 3A3,

Linking rod 3A4, Load Wheel Assembly 3A5 having:

> Wheel 3A51,

> Gear Box with Motor 3A52,

> Bearing 3A53,

Shafting And Slip Ring 3A6,

Hinge 3A7,

Pedestal Assembly 3A8,

Extension 3A9; o Tilting Assembly 3B further comprising of:

Multi-cylinder Assembly 3B1,

First Cylinder 3B 11 ,

Second Cylinder 3B12,

Third cylinder 3B13,

Structure 3B2,

Structural Ring 3B3,

non-return valves 3B4;

• Hydraulic Pump Assembly 4 further comprises of:

o Motor 4A,

o Oil Hydraulic Motor 4B,

o Oil Tank 4C,

o Hydraulic Jack 4D,

o Pressure Control Valve 4E;

• Oil Circulating Assembly 5 further comprises of:

o Inlet Pipe 5A,

o Inlet Pump 5B,

o Hydraulic gear motor coupled with Generator 5C, o Outlet Pipe 5D, Oil cooling condenser 5E,

High Pressure Pipes 5F,

Oil tank 5G,

Accumulator 5H;

• Output Assembly 6 further comprises of:

o Electric Grid Panel 6A,

o Grid 6B;

• Controlling Assembly 7 further comprises of:

o Controller 7A,

o Sensor 7B;

Wherein said input assembly 1 is provided for power input through a power supply 1A that supplies power to the present electric power producer 11 to start;

Said Base Assembly 2 provides base to the whole electric power producer 11 and is preferably made of Reinforced Concrete Cement (RCC); Said base assembly 2 manly comprises of a base 2A and plurality of pedestals 2B on which assemblies for power production are mounted;

Said Power generation Assembly 3 is provided with Rotating Assembly 3A and Tilting Assembly 3B; wherein said Tilting Assembly 3B has a basic Structure 3B2 with a Structural Ring 3B3; Further, on said Structure 3B2 with a Structural

Ring 3B3; plurality of cylinders (3B11, 3B12, 3B13...3Bln) are mounted constituting multicylinder assembly 3B1; wherein said cylinders (3B11, 3B12, 3B13...3Bln) are placed on a saw tooth like structure of said Structural Ring 3B3. Cylinders (3B11, 3b 12, 3B 13...3b In) being placed on saw tooth like structure; forms equal angles DG1 (fig.5) with each other (see figure -9A, 9B, 12, 13, 14A and 14B) and with the ground (for example; each cylinder may form an angle of 13° with each other) ; The saw tooth like structure surface of said Structural Ring 3B3 is thus made so with predecided degrees say 13° or 15°; the whole structure including Structure 3B2 with a Structural Ring 3B3; plurality of cylinders (3B11, 3B12, 3B13...3Bln), constitutes tilting assembly 3B and is mounted on the base assembly 2 through pedestals 2B; enabling it to tilt;

Said Rotating Assembly 3A comprises of Weight beams 3A1, 3A2, 3A3, linked by a linking rod 3A4, and a Load Wheel Assembly 3A5 with a Wheel 3A51; Gear box with motor 3A52 and bearing 3A53; Said Load Wheel Assembly 3A5 is attached to a weight beam 3A1 which is balanced by a Counter weight beam 3A2 on the opposite side; Also, a Balancing weight beam 3A3 is provided to facilitate the rotation of rotating assembly 3A as a whole by exerting weight towards the weight beam 3A1; Said weight beam 3A1 and Counter weight beam 3A2 are connected on one end through a Shafting and Slip ring housing 3A6 on its extension 3A9 through hinge 3A7 and a Linking rod 3A4 on its top; Pedestals 3A8 are used for its connection to linking rod 3A4; Said rotating assembly 3A is mounted on titling assembly 3B and rotation is enabled using a thrust bearing; plurality of hydraulic Jacks 4D of the Hydraulic pump assembly 4 are provided for tilting of tilting assembly 3B; wherein pressurised oil is passed to the jacks through motors 4A and 4B for upward and downward movement of said plurality of hydraulic Jacks 4D;

Said Oil circulation Assembly 5 is provided for supplying oil to the power generation assembly 3 for generation of power and receives pressurised oil from it to generate power through a generator 5C; inlet pipe 5A is provided, which pumps oil through input pump 5B from the oil tank 5G to the power generation assembly 3 for generation of power and the outlet pipe 5D brings the pressurised oil from the power generation assembly 3 to the hydraulic gear motor coupled with generator 5C wherein the pressure is maintained using accumulator 5H; said hydraulic gear motor coupled with generator 5C is for generation of power from the pressurised oil; oil cooling condenser 5F is also provided for cooling the oil;

Said output assembly 6 comprises of Electric Grid Panel 6A and Grid 6B for collection of energy produced and passing the same to the Grid 6B;

Said controlling Assembly 7 is provided to control the titling of the tilting assembly 3B by controlling the upward and downward movement of said plurality of hydraulic Jacks 4D based on sensor inputs while the rotating assembly 3A rotates; It senses the movement of the Weight Beam 3A1 which moves along with the Wheel 3A51 as Load wheel Assembly 3A5; the sensor 7B then sends signals to the controller 7A for controlling the up down movement of the Hydraulic Jacks 4D;

Wherein further, each of the said cylinders (3B11, 3B12, 3B13...3Bln) further comprises of a housing 3Bla, encompassing a spring 3Blb, with a top plate 3Blc and a cylinder base 3Bld; A piston like arrangement is provided with additional inner housing 3Ble with a slot 3Blf; Said spring 3Blb is internally connected to said inner housing 3Ble; Said slot 3Blf in the inner housing 3Ble has a bolt 3Blg fastened from the housing 3Bla; wherein when the top plate 3Blc of the cylinder (3B11, 3B12, 3B13...3Bln) gets pressed due to the weight exerted by the load wheel assembly 3A5; said bolt 3Blg slides inside said slot 3Blf to the upper end of said slot 3Blf and ensures respective amount of pressing of the top plate 3Blc and thus the spring 3Blb; further, the cylinder base 3Bld has inlet/ outlet 3Blh provision for oil as a part of oil circulation assembly 3 for electric power production using gravity and pressure of oil.

An electric power producer 11 as claimed in claim 1; wherein said oil circulating assembly 5 is connected with the tilting assembly 3B through inlet and outlet pipes 5A and 5D; wherein said inlet pipe 5A is attached to the cylinders (3B11, 3B12, 3B13...3Bln) for filing in the oil; and said outlet pipe 5B brings out pressurised oil from said cylinders (3B11, 3B12, 3B13...3Bln|.

3. An electric power producer 11 as claimed in claim 1 and 2; wherein the sensor is placed in the bottom part of the weight beam 3A1 such that Sensor reading part is placed on the structure 3B2 at exactly opposite positions when the present electric power producer 11 is at resting position.

Description:
"AN ELECTRIC POWER PRODUCER"

FIELD OF THE INVENTION The present invention relates to an electric power producer. More particularly, the present invention relates to an electric power producer that produces high energy output with minimal energy input; using gravity and hydraulic pressure for production of electricity. The present electric power producer optimally utilizes the gravitational force and produces energy using hydraulic mechanisms.

BACKGROUND AND THE PRIOR ART Since ancient time, man has been constantly researching to obtain energy in one or the other forms in order to reduce human efforts. For example, the invention and use of horse riding, horse cart, bull cart etc were done after the invention of wheel. In the same way, man is utilising fire, wind, water and sunlight in one or the other manner for obtaining more or less amount of energy. For example, solar energy is used to obtain solar power using solar panels which is further used to generate electricity; from the earth's mineral, coal is used and petrol and gases are also used to obtain electricity. Similarly, human has made technical and technically advanced efforts to generate power from water flows of hydro dams. Also, now-a-days nuclear reactors are used for power generation and power is also generated using sea waves; these sea waves are formed by air pressure and gravitational force by sun and moon. And in the advanced technology, uranium is also used to generate energy is huge amount. And human is reducing the mineral resources of the world leading to new diseases which in the form of gas and nuclear radiation is harmful for mankind and the nature. It is also harmful for the health of human beings. And this poses a danger of global warming. Thinking of all this, all the countries of the world are trying to increase the importance to the green energy. Amongst which especially includes solar energy, hydro based energy, wind energy and energy generated from sea waves is given prime importance. Basically solar energy used to obtain energy 8 to 10 hours of a day. However we do not get energy from it at night and the energy is obtained in more or less amount. Hydro based energy is dependent on rain and accordingly is obtained in more or less amount. Wind energy also depends on speed of wind and is obtained in more or less amount. Also energy obtained from sea waves is more or less in amount. Therefore, the development hasn't been reached as per human needs and the requirement of energy of mankind is increasing day by day. When we specifically consider the means of production of energy that utilised gravitational force as source of energy; majority of the work has been done using water; however, the same is not possible at any given place and time. Limited sources of water that fall from height in turn limits the possibility of power generation by utilizing gravitational force.

Basically it is to note that every country of the world is to obtain energy by various researches. However, they have failed to optimally utilise the gravitational force as a source of energy. Thus, there is an unmet need to develop an electric power producer that produces high amount of energy by optimal utilization of the gravitational force as source of energy. OBJECTIVES OF THE PRESENT INVENTION

The main objective of the present invention is to provide an electric power producer using gravity and hydraulic pressure for production of electricity.

Another objective of the present invention is to provide an electric power producer using gravity and hydraulic pressure which will ensure the fulfilment of the requirement of large requirement of electricity.

Yet another objective of the present invention is to provide an electric power producer using gravity and hydraulic pressure that makes the optimal utilization of gravitational force for generation of power using hydraulic pressure.

BREIF DESCRIPTION OF DRAWINGS

Fig.5 Shows the side view of the present electric power producer

Fig. 6 Shows the side view of the present electric power producer in tilt position; when power generation assembly is tilted on one side by the tilting assembly

Fig. 7 Shows the side view of the present electric power producer in tilt position; when power generation assembly is tilted on another side by the tilting assembly

Fig. 8A Shows the perspective view of the base assembly with enlarged view of the pedestal

Fig. 8B Shows the perspective view of the alternative base assembly with enlarged view of the pedestal

Fig. 9A Shows the perspective top view of the tilting assembly

Fig. 9B Shows the front view of the tilting assembly

Fig. 10A Shows the perspective top view of the rotation assembly

Fig. 10B Shows the top view of the rotation assembly

Fig. IOC Shows the front view of the rotation assembly

Fig. 10D Shows the side view of the rotation assembly

Fig. 1 1A Shows the front view of the cylinder of the titling assembly

Fig. 1 1B Shows the internal parts of the cylinder of the titling assembly

Fig. l lC Shows the perspective view of the cylinder of the titling assembly

Fig. 12 Shows the close view of the load wheel assembly illustrating it's movement on the tilting assembly

Fig. 13 Shows the arrangement of the high pressure outlet pipe of the oil circulating assembly; in the titling assembly which collects the pressurized pipe from the cylinder to the oil circulating assembly through nonreturn valve.

Fig. 14A Shows the inlet and outlet high pressure pipes of the and Fig. oil circulating assembly that provides the input oil to 14B and collects the output oil respectively from the power generation assembly

Fig. 15A Shows the top view and bottom view of the and Fig. arrangement of the outlet high pressure pipes of the 15B oil circulating assembly

Fig. 16A Shows a non-return valve

and Fig.

16B

Fig. 16C Shows front view of arrangement of a cylinder; oil inlet and oil outlet with a non-return valve.

Fig. 17 Shows the illustrative perspective view of Load wheel assembly

Meaning of reference numerals and abbreviation used figures:

A Power Supply

Base Assembly

A Base

B Pedestal

Power Generation AssemblyA Rotating Assembly

A1 Weight Beam

A2 Counter Weight Beam

A3 Balancing Weight Beam

A4 Linking rod

A5 Load Wheel Assembly

A51 Wheel

A52 Gear Box with Motor

A53 Bearing

A6 Shafting And Slip Ring

A7 Hinge

A8 Pedestal Assembly

A9 Extension

B Tilting Assembly

B1 Multicylinder Assembly

B11 First Cylinder

B12 Second Cylinder

B13 Third cylinder

Bla housing

Blb spring

Blc top plate

Bld cylinder base

Ble inner housing

Blf a slot Blg bolt

b lh inlet/ outlet of the cylinder

B2 Structure

B3 Structural Ring

B4 non-return valves

Hydraulic Pump Assembly

A Motor

B Oil Hydraulic Motor

C Oil Tank

D Hydraulic Jack

E Pressure control valve

Oil Circulating Assembly

A Inlet pipe

B Input Pump

C Hydraulic gear motor coupled with GeneratorD Outlet pipe

E Oil cooling condenser

F High Pressure Pipes

G Oil tank

H Accumulator

Output Assembly

A Electric Grid Panel

B Grid

Controlling System

A Controller

B Sensor BREIF DESCRIPTION OF THE INVENTION

Referring to figures 1 to 17; the embodiment of the present invention is to provide an electric power producer 11 using gravity and hydraulic pressure for production of electricity. Present electric power producer 1 lmainly comprises of:

• Input Assembly (1);

• Base Assembly (2);

• Power Generation Assembly (3);

o Rotating Assembly (3A) ;

o Tilting Assembly (3B);

• Hydraulic Pump Assembly (4);

• Oil Circulating Assembly (5) ;

• Output Assembly (6);

• Controlling Assembly (7) . Wherein:

• Said Input Assembly 1 further comprises of:

o Power Supply 1A

• Base Assembly 2 further comprises of:

o Base 2A

o Pedestal 2B

• Power Generation Assembly 3 further comprises of:

o Rotating Assembly 3A; in-turn comprising of:

Weight Beam 3A1

Counter Weight Beam 3A2

Balancing Weight Beam 3A3

Linking rod 3A4

Load Wheel Assembly 3A5 > Wheel 3A51

> Gear Box with Motor 3A52

> Bearing 3A53

Shafting And Slip Ring 3A6

Hinge 3A7

Pedestal Assembly 3A8

Extension 3A9

• Tilting Assembly 3B further comprising of:

Multi-cylinder Assembly 3B1

First Cylinder 3B 11

Second Cylinder 3B12

Third cylinder 3B13

Structure 3B2

Structural Ring 3B3

non-return valves 3B4

• Hydraulic Pump Assembly 4 further comprises of:

o Motor 4A

o Oil Hydraulic Motor 4B

o Oil Tank 4C

o Hydraulic Jack 4D

o Pressure Control Valve 4E

• Oil Circulating Assembly 5 further comprises of:

o Inlet Pipe 5A

o Inlet Pump5B

o Hydraulic gear motor coupled with Generator 5C o Outlet Pipe 5D

o Oil cooling condenser 5E

o High Pressure Pipes 5F

o Oil tank 5G

o Accumulator 5H • Output Assembly 6 further comprises of:

o Electric Grid Panel 6A

o Grid 6B

• Controlling Assembly 7 further comprises of:

o Controller 7A

o Sensor 7B

Wherein said input assembly 1 is provided for power input through a power supply 1A that supplies power to the present electric power producer 11 to start. The power is supplied to the rotation assembly 3A to start the present electric power producer 11. The power supplied is also used by all the pumps and motors 3A52, 4A, 4B, 5B, 5C in the present electric power producer 11. (see figure 1, 2, 3 and 14B) Said Base Assembly 2; as shown in figures 1, 2, 8A and 8B; provides base to the whole electric power producer 11 and is preferably made of Reinforced Concrete Cement (RCC) . A preferable structure and arrangement of base assembly is shown in figure 8A and an alternative arrangement is shown in figure 8B. Said base assembly 2 manly comprises of a base 2A and plurality of pedestals 2B on which assemblies for power production are mounted.

Said Power generation Assembly 3 is provided with Rotating Assembly 3A and Tilting Assembly 3B (see figure 1 to 9). Said Tilting Assembly 3B has a basic Structure 3B2 with a Structural Ring 3B3; wherein inlet pipe 5A and outlet pipe 5B are placed. Said inlet pipe 5A carry oil into the power generation Assembly 3 from said Oil circulating Assembly 5 and outlet pipe 5D carry oil outside it to the said Oil circulating Assembly 5 through non-return valves 3B4. Said pipes 5A and 5D are high pressure pipes and thus can withstand the pressure of the oil passing through it. Further, on said Structure 3B2 with a Structural Ring 3B3; plurality of cylinders (3B11, 3B12, 3B13...3Bln) are mounted constituting multicylinder assembly 3B1; wherein said cylinders (3B11, 3B12, 3B13...3Bln) are placed on a saw tooth like structure of said Structural Ring 3B3. Cylinders (3B11, 3b 12, 3B 13...3b In) being placed on saw tooth like structure; forms equal angles DG1 (fig.5) with each other (see figure -9A, 9B, 12, 13, 14A and 14B) and with the ground, (for example; each cylinder may form an angle of 13° with each other). The saw tooth like structure surface of said Structural Ring 3B3 is thus made so with predecided degrees say 13° or 15°. The whole structure including Structure 3B2 with a Structural Ring 3B3; plurality of cylinders (3B11, 3B12, 3B13...3Bln), inlet and outlet oil pipes with non -return valves 3B4; constitutes tilting assembly 3B and is mounted on the base assembly 2 through pedestals 2B; enabling it to tilt; as the name suggest. The titling is required to facilitate the movement of the rotating assembly 3A; which in turn generates pressure on the cylinders (3B11, 3B12, 3B13...3Bln) creating pressure for the oil and thereby generation of energy. Thus, tilting is essential for present electric power producer 11 for generation of efficient energy with low input energy. Said Rotating Assembly 3A (see figures 1 to 7, 10A, 10B, IOC, 10D) comprises of Weight beams 3A1, 3A2, 3A3, linked by a linking rod 3A4, and a Load Wheel Assembly 3A5 with a Wheel 3A51; Gear box with motor 3A52 and bearing 3A53. As shown in fig. 2 and 10A Said Load Wheel Assembly 3A5 moves on circular path on said Structural Ring 3B3 with plurality of cylinders (3B11, 3B12, 3B13...3Bln). Said Load Wheel Assembly 3A5 is attached to a weight beam 3A1 which is balanced by a Counter weight beam 3A2 on the opposite side. Also, a Balancing weight beam 3A3 is provided to facilitate the rotation of rotating assembly 3A as a whole by exerting weight towards the weight beam 3A1. Said weight beam 3A1 and Counter weight beam 3A2 are connected on one end through a Shafting and Slip ring housing 3A6 on its extension 3A9 through hinge 3A7 and a Linking rod 3A4 on its top. Pedestals 3A8 are used for its connection to linking rod 3A4. Said rotating assembly 3A is mounted on titling assembly 3B and rotation is enabled using a thrust bearing.

Referring to figure 5, at the resting position of the present electric power producer (not in tilt position); the tilting assembly 3B is also at resting position; i.e. the Structure 3B2 with a Structural Ring 3B3 are at 0° from the ground and the cylinders (3B11, 3B12, 3B13...3Bln) are at an angle DGl say 13° with the ground as well as with each other. Said tilting assembly 3B is, at that time, at - 13° on its other side. And when the power production is On and the tilting assembly 3B is in tilting position; figures 6 and 7 are referred as illustrations. The Structure 3B2 with a Structural Ring 3B3 forms an angle DG2 with the ground; say 13° and the cylinders come in a position parallel to the ground i.e. at 0°. Similarly, when the tilting assembly 3B is at 15°; the cylinders are at -2°. The additional tilt of 2° enables the rotation assembly 3A to take the advantage of gravitational force also thereby facilitating the smooth and easy movement of rotation assembly 3A with minimum power input. With the given arrangement of said rotating assembly 3A on said titling assembly 3B; the Load Wheel Assembly 3A5 with a Wheel 3A51 of the rotating assembly 3A rotates such that said wheel presses the cylinder (3B11, 3B12, 3B13...3Bln) on which it arrives. Referring to figure 6and figure 12; when the tilting assembly 3B is in tilting position; and when the wheel 3A51 is on a first cylinder 3B11 , said first cylinder 3B11 gets pressed such that it comes in line with an adjacent second cylinder 3B12; and it is easier for the wheel 3A51 to move on said second cylinder 3B12 in the tilt position. Similarly; when the wheel 3A51 is on the second cylinder 3B12 and the tilting assembly 3B is in tilt position; the wheel 3A51 then moves to the third cylinder 3B13 and so on. This way, the wheel 3A51 of the rotation assembly 3A moves on the cylinders (3B11, 3B12, 3B13...3Bln) one by one, pressing them.

The pressing position of the cylinder (3B11, 3B12, 3B13...3Bln) generates pressure in the oil filled in the cylinder (3B11, 3B12, 3B13...3Bln) and the pressurized oil moves out of the cylinder through outlet high pressure pipes and is used for the generation of power through output assembly 7 using oil circulation assembly 6. The cylinders being arranged at a fixed angle; allows the movement of the wheel 3A51 from one cylinder to another; when the tilting assembly 3B is in tilt position. Referring to figures 1 1 A, 1 1B and 11C; each of the said cylinders (3B11, 3B12, 3B13...3Bln) further comprises of a housing 3Bla, encompassing a spring 3Blb, with a top plate 3Blc and a cylinder base 3Bld. A piston like arrangement is provided with additional inner housing 3Ble with a slot 3Blf. Said spring 3Blb is internally connected to said inner housing 3Ble (see figure 11B). Said slot 3Blf in the inner housing 3Ble has a bolt 3Blg fastened from the housing 3Bla; wherein when the top plate 3Blc of the cylinder (3B11, 3B12, 3B13...3Bln) gets pressed due to the weight exerted by the load wheel assembly 3A5; said bolt 3Blg slides inside said slot 3Blf to the upper end of said slot 3Blf and ensures respective amount of pressing of the top plate 3Blc and thus the spring 3Blb. In this manner, each cylinder gets equally pressed according to a predecided length of said slot 3Blf. This constructional arrangement of the present (3B11, 3B12, 3B13...3Bln) enables proper working of present electric power producer 11 and enables calculations required to scale up and/ or scale down the system of present power producer 11. The cylinder base 3Bld has inlet / outlet provision for oil as a part of oil circulation assembly 3 for electric power production using gravity and pressure of oil. The tilting assembly is tilted using the plurality of hydraulic Jacks 4D of the Hydraulic pump assembly 4; wherein pressurised oil is passed to the jacks through motors 4A and 4B for upward and downward movement of said plurality of hydraulic Jacks 4D. Referring to figure 1; a set of plurality of hydraulic Jacks 4D are provided on front and a set on back. Sensor based controlling system 7 controls the upward and downward movement of said plurality of hydraulic Jacks 4D. For the said purpose, the sensors 7B is placed on the structure 3B2 senses the movement of the Weight Beam 3A1 which moves along with the Wheel 3A51 as Load wheel Assembly 3A5; the sensor 7B then sends signals to the controller 7A for controlling the up down movement of the Hydraulic Jacks 4D. This constructional features thus enables the present invention to take optimum advantage of the gravitational force while using optimally minimum energy through pressurized oil. Said Oil circulation Assembly 5 is provided for supplying oil to the power generation assembly 3 for generation of power and receives pressurised oil from it to generate power through a generator 5C. For the same, it has an inlet pipe 5A which pumps oil through input pump 5B from the oil tank 5G to the power generation assembly 3 for generation of power. The outlet pipe 5D brings the pressurised oil from the power generation assembly 3 to the hydraulic gear motor coupled with generator 5C wherein the pressure is maintained using accumulator 5H. The power is generated in said generator 5C from the pressurised oil; which is then cooled in the oil cooling condenser 5F and the oil is returned to the oil tank 5G. Said oil circulating assembly 5 is connected with the tilting assembly 3B through inlet and outlet pipes 5A and 5D; wherein said inlet pipe 5A is attached to the cylinders (3B11, 3B12, 3B13...3Bln) for filing in the oil; and said outlet pipe 5B brings out pressurised oil from said cylinders (3B11, 3B12, 3B13...3Bln).

Said output assembly 6 comprises of Electric Grid Panel 6A and Grid 6B for collection of energy produced and passing the same to the Grid 6B. Said controlling Assembly 7 controls the titling of the tilting assembly 3B by controlling the upward and downward movement of said plurality of hydraulic Jacks 4D based on sensor inputs while the rotating assembly 3A rotates. The sensor is placed in the bottom part of the weight beam 3A1 such that Sensor reading part is placed on the structure 3B2 at exactly opposite positions when the present electric power producer 11 is at resting position. It senses the passing of the Weight beam; each time it passed from above the sensing part.

WORKING OF THE INVENTION

The present electric power producer 11 works in following manner:

1. Power Supply 1A of the Input Assembly 1 is turned ON. This turns ON the motors of the present electric power producer 11.

a. Input pump 5B pumps oil through inlet pipe 5A from the oil tank 5G to the power generation assembly 3 for generation of power. In particular, the oil gets pumped into the cylinders (3B11, 3B12, 3B13...3Bln);

b. the motor 3A52 of the Load Wheel Assembly 3A5 also starts after obtaining the power supply; which initiates the rotation of the rotation assembly 3A;

2. The sensor 7B, which is placed on the structure 3B2 senses the movement of the Weight Beam 3A1 which moves along with the Wheel 3A51 as Load wheel Assembly 3A5; the sensor 7B then sends signals to the controller 7A for controlling the up down movement of said plurality of Hydraulic Jacks 4D. The controlling is done in following manner: a. When the passing of the Load wheel Assembly 3A5 is sensed by the sensor 7B; it send the signal to the controller 7A; which initiates the upward movement of said plurality of Hydraulic Jacks 4D from that side. Then said plurality of hydraulic jacks 4D of the side where the position of Load wheel Assembly 3A5 is detected is signalled by the controller 7B for the upward movement. This tilts the tilting assembly 3B facilitating the movement of the rotation assembly 3A and thereby the Load wheel Assembly 3A5 in the opposite direction. Same is illustrated herein below through example:

Table 1 : Controlling of said plurality of hydraulic Jacks 4D and movement of Load wheel Assembly 3A5 b. Once the Load wheel Assembly 3A5 is moved from one side to the another; the sensors 7B on the other side senses the passing of the Weight beam 3A1 from that side and so, the sensor 7B send the signals to the controller 7A which then initiates the upward movement of said plurality of Hydraulic Jacks 4D. Thus, the tilting assembly 3B tilts in reverse fashion and so as the movement of the Load wheel Assembly 3A5 (see table 1). c. The titling assembly 3B thus tilts on either sides with the help of said plurality of hydraulic jacks 4D and thereby facilitates the movement of Load wheel Assembly 3A5. d. When the signal for making said plurality of hydraulic Jacks 4D upward is received, pressurised oil is passed to the jacks 4D through motors 4A and 4B for upward movement of said plurality of hydraulic Jacks 4D. Similarly, when signals for upward movement of the other side of jacks 4D is received, the upward movement of said jacks 4D is initiated in same fashion and the first side moves downwards and the oil from said side of jacks 4D moves out of the jacks 4D. e. With the tilting of the said tilting assembly 3B, the rotation of the rotation assembly 3A is facilitated and the wheel 3A51 of load wheel assembly 3A5 initially moves with minimum energy and then with almost zero energy input. f. The titling assembly 3B tilts up to 15° downwards and 15° upwards. The calculations pertaining to the energy input and energy generation using present power producer 11 is provided under the experimental data herein after. Referring to figure 5, at the resting position of the present electric power producer (not in tilt position); the tilting assembly 3B is also at resting position; i.e. the Structure 3B2 with a Structural Ring 3B3 are at 0° from the ground and the cylinders (3B11, 3B12, 3B13...3Bln) are at an angle DG1 say 13° with the ground as well as with each other. Said tilting assembly 3B is, at that time, at - 13° on its other side. And when the power production is On and the tilting assembly 3B is in tilting position; figures 6 and 7 are referred as illustrations. The Structure 3B2 with a Structural Ring 3B3 forms an angle DG2 with the ground; say 13° and the cylinders come in a position parallel to the ground i.e. at 0°. Similarly, when the tilting assembly 3B is at 15°; the cylinders are at -2°. The additional tilt of 2° enables the rotation assembly 3A to take the advantage of gravitational force also thereby facilitating the smooth and easy movement of rotation assembly 3A with minimum power input.

With the movement of said wheel 3A51 of load wheel assembly 3A5; the cylinders (3B11, 3B12, 3B13...3Bln) on which the wheel 3A51 moves; gets pressed (refer figure 12) which in turn generates pressure on the cylinders (3B11, 3B12, 3B13...3Bln) creating pressure for the oil and thereby generation of energy.

Referring to figures 1 1A, l ib and 1 1C; the pressing of the cylinders involves the mechanism wherein, when the top plate 3Blc of the cylinder (3B11, 3B12, 3B13...3Bln) gets pressed due to the weight exerted by the load wheel assembly 3A5; said bolt 3Blg slides inside said slot 3Blf to the upper end of said slot 3Blf and ensures respective amount of pressing of the top plate 3Blc and thus the spring 3Blb. In this manner, each cylinder gets equally pressed according to a predecided length of said slot 3Blf. This constructional arrangement of the present (3B11, 3B12, 3B13...3Bln) enables proper working of present electric power producer 11 and enables calculations required to scale up and/ or scale down the system of present power producer 11. The cylinder base 3Bld has inlet/ outlet provision for oil as a part of oil circulation assembly 3 for electric power production using gravity and pressure of oil.

6. Referring to figure 6 and figure 12; when the tilting assembly

3B is in tilting position; and when the wheel 3A51 is on a first cylinder 3B11, said first cylinder 3B11 gets pressed such that it comes in line with an adjacent second cylinder 3B12; and it is easier for the wheel 3A51 to move on said second cylinder 3B12 in the tilt position. Similarly; when the wheel 3A51 is on the second cylinder 3B12 and the tilting assembly 3B is in tilt position; the wheel 3A51 then moves to the third cylinder 3B13 and so on. This way, the wheel 3A51 of the rotation assembly 3A moves on the cylinders (3B11, 3B12, 3B13...3Bln) one by one, pressing them.

7. The pressing position of the cylinder (3B11, 3B12, 3B13...3Bln) generates pressure in the oil filled in the cylinder (3B11, 3B12, 3B13...3Bln) and the pressurized oil moves out of the cylinder through outlet high pressure pipes and is used for the generation of power through output assembly 7 using oil circulation assembly 6. The cylinders being arranged at a fixed angle; allows the movement of the wheel 3A51 from one cylinder to another; when the tilting assembly 3B is in tilt position.

EXPERIMENTAL DATA

An experimental model of the present electric power producer was constructed; wherein weight beams 3A1, 3A2 and 3A3 of 300 Ton were used; the structural ring was mounted with 80 cylinders (3B11, 3B12, 3B13...3Bln) whose diameter was 300mm and its height was 100mm. The cylinder (3B11, 3B12, 3B13...3Bln) capacity was to carry 7.065 liters of oil. The pressure generated was 424 BAR.

Table 2: observations of power production from the present electric power producer.

It was observed that the present electric power producer 11 required power input of 614 HP when the tilting assembly 3B was at respecting position (see last raw) to produce a power of 600HP. The torque was also as high as 73331 kg force. However in the tilted position; when the tilting assembly 3B was at 13° (cylinders at 0°); the power input required was only 50HP for generation of same amount of energy. Furthermore, the energy input becomes zero when the tilting assembly 3B tilts up to 15° (cylinders at -2°) for production of same amount of power. Therefore, the constructional features of present electric power producer 11 thus enables the present invention to take optimum advantage of the gravitational force while using optimally minimum energy through pressurized oil.

Further, when the functioning of the hydraulic jack 4D of the present electric power producer 11 was studied with experiments; it the experimental data obtained was as under:

230 1335 110.8 n 6 3

230 1285 106.5 n 5° 2.9

230 1235 102.5 n 4 2.8

230 1185 98.5 n 3° 2.7

230 1135 94 n 2 2.5

230 1085 90 π 1° 2.4 e 3: Shows tle working of the hydraulic jack 4 D.

The power input shown herein above is for HP power input per minute. However, the tilting assembly 3B of the present electric power producer 11 needs to be tilting in speed; in order to tale the advantage of potential energy stored in the load wheel assembly 3A5 to convert into kinetic energy using pressurized oil and gravitational force. Thus, when tilting assembly 3B is tilted to 15°; then the power input per minute is 4Hp; however; we need to take minimum time to tilt it; in order to take maximum benefit of the energy. Thus, the tilting assembly 3B is tilted in 5seconds and accordingly, the load wheel assembly 3A5 moves faster and optimum benefit of the load, energy input, gravity, pressurised oil and the constructional features of the present electric power producer 11 is obtained.