GENERATING ELECTRICITY BY GRAVITATIONAL FORCE / A DEVICE AND A METHOD FOR GENERATING ELECTRICITY BY GRAVITATIONAL FORCE Description Background of invention – Electricity can be manufactured by different ways. Electricity is produced from solar energy and wind energy which can be available abundant in nature. In this invention Electricity is produced from Gravitational force. Known prior art – As of know there is no known prior art which can derive electricity from gravitational force Summary of invention – Here two Aluminum Florence flasks are used. One is length shaped Florence flask and another one is oval shaped Florence flask. The oval shaped Florence flask is filled with water. It is closed air tight along with a pipe. A clamp is attached just above where the pipe and the pot shaped Florence flask are in contact. Because of pressure difference the water flows towards A through in the upward direction. Therefore the weight of A increases and it moves downwards due to the gravitational force when it moves downwards the Gear attached to the shaft rotates thereby rotating the armature coil of the dynamo which is connected to the Gear which in turn produces current. Thus the current is produced throughout the day because of the downward and upward molecule of the shaft and gear due to the gravitational force. It is an object of this invention to provide a device for generating electricity by gravitational force comprising (a) A length-wise shaped Aluminum Florence flask A (b) An oval shaped air-tight Aluminum Florence flask C just like a pot. (c) A pipe B connecting flasks A and C, and a lower portion D of the pipe B (d) A clamp G attached just above the part-C where the pot shaped flask C and the pipe D are in contact (e) Two long shafts (H) are attached on two sides of the clamp wherein two shafts have a 1800 phase difference between them. (f) Two bearings representing Part I, are connected on both sides of the Shaft H which in-turn are connected to the steel stand which rest on the ground. (g) Two gear wheels J connected to the ends of the shaft (h) A dynamo connected to a concrete bed (i) A stand Q for supporting the structure and a part Q1 which acts as a sponge thereby preventing damage to B Moreover it is another object of this invention to provide a method of generating electricity by gravitational force comprising the steps of (a) Pasting a thick cloth A1 on the aluminum Florence flask A (b) Wetting the cloth section A1 pasted on Florence flask A (c) Creating a vacuum inside Florence flask as a result of the reduction in temperature and pressure. (d) Filling up of the vacuum thereby created by water which flows into flask A from pot C through tube D (e) Increasing the weight of flask A which in turn moves downwards to an angle of 135 degree due to gravitational force which in-turn moves the gear wheel attached to the shaft. (f) Subsequent creation of an increase in weight of pot C by the upward movement of air through tube D into flask A, whereby water again flows into pot C. (g) Downward movement of pot C by gravitational force because of the increase in weight which in-turn causes flask A to move upwards. (h) Subsequent rotation of the shaft and gear which in-turn are connected to the armature of a dynamo. (i) Repeating steps (c) to (h) thereby producing electricity The foregoing and other objects, features and advantages of the invention will be apparent from the following more particular description of preferred embodiments of the invention, as illustrated in the accompanying drawings in which like reference characters refer to the same parts throughout the different views. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention Brief description of drawings – 1. Fig 1 illustrates 2. Fig 2 illustrates 3. Gig 3 illustrates 4. Gig 4 illustrates Detailed description of drawings – Here there are two Aluminum Florence flasks A and C. One is length - wise shaped flask A and another one is oval shaped flask C just like a pot. Half of the pot shaped Florence flask contains water. The front portion of the length shaped flask D is immersed in water contained in Florence flask C. The Florence flask C is closed air tight along with the tube D. There is a clamp attached just above the part-C where the pot shaped flask C and the pipe D are in contact. Two long shafts are attached on two sides of the clamp. The two shafts are 1800 phase difference between them. Two bearings are attached to the center of the two shafts. They are connected to the steel stand which rest on the ground. So that the pot containing water and Florence flask A and C freely rotate about its axis Two Gear wheels J are connected to the two ends of the shaft. Other end of the tube D contains a hollow ball shaped cloth vessel. Outer surface of the hollow ball is covered by thick cloth. When the cloth gets wet, temperature inside A is reduced and the pressure inside also gets reduced and becomes a vacuum. In order to fill up the vacuum, water from the Florence flask C flows through D onto A. When water from D fills A its weight increases and it behaves like a lever moving downwards due to gravitational force. The Gear wheel which is attached to the shaft begins to rotate. Hence the armature coil of the Dynamo which is connected with the Gear wheel also rotates and produces the current. Thus the part A which behaves like a lever when it moves downwards rotates through an angle 1350 and it is stopped by a steel stand. Now air rushes from pot C into flask A which in-turn creates water from A to flow back into pot C. Now the water from the A part flows through D onto the Florence flask C. Therefore the weight of C increases and it moves downwards due to gravitational force and A part move upwards. Hence the shaft and gear rotates the same angle 1350 and the armature of the Dynamo which is connected to the Gear wheel also rotates and produces the current in the opposite direction. This process gets repeated and more amount of current are produced for every downward motion of A and C due to gravitational force. Thus we can obtain current for all the 24 hours of the day because of the availability of gravitational force. For small level production of this invention requirements are (1) Part A of length 50 cm and breath 40 cm. (2) Pipe B of length = 180 cm (3) Pipe D is length 99cm diameter 8mm. (4) Part C of height 100cm diameter 60cm. (5) The clamp should the fitted at a height of 50cm from C at the pipe B. (6) 15ml water is essential for this system we can produce this system using an Aluminum sheet of thickness 1 mm. Fig: 1 The bottom of the long aluminum Florence Flask is covered by a cloth. The flask is used in the upside position. The B & D portions of the flask are in long tubular structures. Clamp- G is fitted to that the front tip of the flask is D. The flask is fitted to C which is a pot, filed with water half level. Part-A1 The base of Part –A is fitted with a glass. This glass is used to view the water level in C as it reaches A1 while A & C are in function. Part B: B is the next portion to A in the flask, fitted with a clamp. This portion is used to draw the water forward and backward. Part C: This is made of aluminum and water is filled in portion E. Water is filled till the half level in C portion. The tubular portions of B & D are connected with this, so that no air from outside enters the portion A to E. Since the portion C is in a oval pot, it functions forward and backward easily, prompted by centre of gravity. As it is in a oval shape, the water in C is accumulated in an area and through D, easily reaches C. Part C1: This is a plug on part C. The water level in Part C can be seen through this, and if water is required, this part is used to fill water. Part E: Half the area of C is filled with water. Part E is filled with water. Part F: This is the cloth pasted to Part A in the flask on the upper side. When we soak it with cold water, the air inside Part A, becomes cool and reduces in amount, hereby creating vaccum. So, Part A, sucks the water in Part C, through the pipe via B and D. Part G: G is the clamp fitted to pipe B. This is fitted just above part C, and functions as the central portion of a level. Part A to D, when fitted to a stand, does not maintain 90 degrees, but fitted in 50 slanting viewing Part Q. When Part A is filled with water, it slants forward viewing Q. Part H: This functions as a pivot. Along with this bearings denoting I and gears denting J are connected. Part I: Two bearings representing Part I, are connected on both sides, which are in Part H. Part J: This is linked to the two extremes in Shaft H. When Part A & C moves forward & backward, the Gear H, rotates with 1350. The diameter of the Gear Disk is made bigger and the teeth are smaller in size. As the diameter of the Gear is small, which is linked to the Dynamo, and the big Gear in A & C rotates with 1350, he small gear in the Dynamo makes many rotations. The connected Armature also rotates many times. Fig: 2 A detailed and part by part description of illustration 2 is as follows Part K: This bears Part A to J1¬ made of steel. Since this is made strong and long, Part A & C works easily. Part I is linked with this. Part L: This is a hole where Part I, should fit in Part K. Part M: This is the concrete area, where Part K stands. Fig 3: A detailed and part by part description of illustration 3 is as follows Part N: This is the Gear connected to the Dynamo in the Armature. Part O: When the Dynamo, part N rotates the connected Armature rotates and creates electricity output. Part O1 & O2: This is the part which brings the output + & - from the Dynamo. Part P: This is the concrete Bed area, where the Dynamo is fitted with. Fig 4: A detailed and part by part description of illustration 3 is as follows Part Q: This is the stand, made for the slanting of Part A & B on the front side, for a specific degree. The water in part C is filled in part A, through Part B, with the velocity of filling the vaccum. At this moment, part A moves forward in slanting position. With the help of the stand, as Part A slants in a specific degree, the water in part A again reaches Part C. A is moved forward to a specific degree only. When it moves and slants, the air in Part C, moves to Part A, through Part D. At the same time, the water in A & B again reaches Part C. So, part C is pushed down due to centre of gravity and Part A moves upward. Part Q1: When Part B moves downward to a certain degree, Part Q, the stand, checks it. Q1 is the Rubber sheet used to have sponge effect, when Part B moves. So, Part B is protected from any damage. Industrial applicability / Advantages - This method of generating electricity from gravitational force is cost effective and the amount of output generated is phenomenal, Practical implementation of the above described apparatus and method showed a positive result of generation pf 5v electricity. A large scale implementation of the same will result in phenomenal increase in output generated. While considerable emphasis has been placed herein on the various components of the preferred embodiment, it will be appreciated that many alterations can be made and that many modifications can be made in the preferred embodiment without departing from the principles of the invention. These and other changes in the preferred embodiment as well as other embodiments of the invention will be apparent to those skilled in the art from the disclosure herein, whereby it is to be distinctly understood that the foregoing descriptive matter is to be interpreted merely as illustrative of the invention and not as a limitation Claims We claim 1. A device for generating electricity by gravitational force comprising (a) A length-wise shaped Aluminum Florence flask A (b) An oval shaped air-tight Aluminum Florence flask C just like a pot. (c) A pipe B connecting flasks A and C, and a lower portion D of the pipe B (d) A clamp G attached just above the part-C where the pot shaped flask C and the pipe D are in contact (e) Two long shafts (H) attached on two sides of the clamp wherein two shafts have a 1800 phase difference between them. (f) Two bearings representing Part I, are connected on both sides of the Shaft H which in-turn are connected to the steel stand which rest on the ground. (g) Two gear wheels J connected to the ends of the shaft (h) A dynamo connected to a concrete bed (i) A stand Q for supporting the structure and a part Q1 which acts as a sponge thereby preventing damage to B 2. The device as claimed in claim 1 wherein the outer surface of the hollow ball A is covered by thick cloth 3. The device as claimed in claim 1 wherein half of the oval shaped pot C contains water., ie portion E is filled with water through a plug 4. The device as claimed in claim 1 wherein the Florence flasks A and C freely rotate on the shaft axis 5. The device as claimed in claim 1 wherein the tubular portions B and D are connected to the oval pot C so that no air from outside enters the portions from A to E.. 6. The device of claim 1 wherein the cloth pasted onto aluminum flask A is made wet. 7. The device of claim 1 wherein a vacuum is created inside Florence flask A as a result of the reduction in temperature and pressure. 8. The device of claim 1 wherein flask A is filled by water which flows from pot C through tube D as a result of the vacuum created 9. The device of claim 1 wherein the weight of flask A gets increases and hence it moves downwards to an angle of 135 degree due to gravitational force which in-turn moves the gear wheel attached to the shaft. 10. The device of claim1 wherein air rushes from pot C into flask A which in-turn creates water from A to flow back into pot C. 11. The device of claim 1 wherein the weight of oval pot C increases and it moves downwards by gravitational force which in-turn creates flask A to move upwards. 12. The device of claim 1 wherein subsequent rotation of the shaft and gear which in-turn are connected to the armature of a dynamo creates electricity. 13. The device of claim 1 wherein the diameter of the gear disk connected with the ends of the shaft which has smaller teeth is bigger in diameter than of the gear disk connected to the dynamo which thereby makes the dynamo rotate multiple of times thereby creating electricity. 14. The device as claimed in claim 1 wherein pipe A is of length 50cm and breadth 40 cms 15. The device of claim 1 wherein pipe B is of length 180 cms. 16. The device of claim 1 wherein pipe D is of length 99cms and diameter 8mm. 17. The device of claim 1 wherein part c is of height 100 cms and diameter 60 cms. 18. The device of claim 1 wherein the clamp is fitted at a height of 50 cms from pot C at the pipe B 19. The device of claim 1 wherein a minimum of 15 ml of water and an aluminum sheet of 1 mm thickness is required to generate electricity 20. The device as claimed in claim 1 where flask A and tube D when connected are on a 5 degree slanting position, viewing part Q 21. The device of claim 1 wherein flask A and tube D when connected are on a 5 degree slanting position viewing part Q. 22. The device of claim 1 wherein the base part of A is made of glass which enhances viewing water level in the progress. 23. The device of claim 1 wherein part H functions as a pivot onto where bearings I and J are connected 24. The device of claim 1 wherein the end portions of part H indicated as J are connected to gear-wheels which in-turn are connected to the dynamo armature 25. The device of claim 1 wherein the entire structure is fitted to a stand k fitted onto though holes L whereby the stand is firmly fixed on to a concrete bed. 26. The device of claim 1 wherein damage to tube B is prevented by a rubber sheet fixed onto the stand, which in-turn provides a sponge effect. 27. The device of claim 1 wherein the negative and positive poles are taken from the dynamo from points O AND O1 28. A method of generating electricity by gravitational force comprising the steps of (a) Pasting a thick cloth A1 on the aluminum Florence flask A (b) Wetting the cloth section A1 pasted on Florence flask A (c) Creating a vacuum inside Florence flask as a result of the reduction in temperature and pressure. (d) Filling up of the vacuum thereby created by water which flows into flask A from pot C through tube D (e) Increasing the weight of flask A which in turn moves downwards to an angle of 135 degree due to gravitational force which in-turn moves the gear wheel attached to the shaft. (f) Subsequent creation of an increase in weight of pot C by the upward movement of air through tube D into flask A, whereby water again flows into pot C. (g) Downward movement of pot C by gravitational force because of the increase in weight which in-turn causes flask A to move upwards. (h) Subsequent rotation of the shaft and gear which in-turn are connected to the armature of a dynamo. (i) Repeating steps (c) to (h) thereby producing electricity 29. The method as claimed in claim 28 wherein a minimum of 15 ml of water is required for the process. 30. A device for generating electricity by gravitational force substantially as herein described with respect to the accompanying drawings. 31.A method of generating electricity by gravitational force substantially as herein described with respect to the accompanying drawings. xavierraja/gravitationalforce.php.... https://youtube/watch?v=Yj2I4ZE313Y
Posted on: Thu, 18 Dec 2014 14:25:57 +0000
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