WO2014178734A2 - Machine and method for gravitational-magnetic electricity production - Google Patents
Machine and method for gravitational-magnetic electricity production Download PDFInfo
- Publication number
- WO2014178734A2 WO2014178734A2 PCT/PH2014/000011 PH2014000011W WO2014178734A2 WO 2014178734 A2 WO2014178734 A2 WO 2014178734A2 PH 2014000011 W PH2014000011 W PH 2014000011W WO 2014178734 A2 WO2014178734 A2 WO 2014178734A2
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- spinner
- shaft
- magnetic
- attached
- dynamo
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K53/00—Alleged dynamo-electric perpetua mobilia
Definitions
- the present invention relates generally to the machine as a prime mover; and also used in the production of electricity or electrical energy from gravitational and magnetic energies.
- This invention primarily is a machine that is being used in the production of electricity but this can also be used in many day-to-day applications like that of the conventional internal combustion machines or engines.
- the invention as a prime mover or a machine, does not use fossil fuels - diesel or gasoline - as what the conventional internal combustion machines or engines require or needed to operate.
- This invention rather uses the gravitational and magnetic energies to function and operate.
- this invention can be said or classified as a gravitational-magnetic machine as compared and contrasted with the internal combustion machines or engines.
- the invention machine then as a prime mover drives the dynamo or the generator to produce electrical energy as what other conventional machines in use for electricity production.
- the present invention as herein disclosed is another kind of machine used in the production of electricity.
- the machine can also be used in other day-to-day applications as may be deemed suited or applicable.
- What we observe at present mostly are the internal combustion machines like those used in vehicles. These machines operate or function with the burning of fossil fuels - mostly diesel and gasoline fuels.
- the present invention has no cylinder but rather a “driver” with the use of gravitational and magnetic energies as "fuels.” Depending upon on the capacity of the machine, up to 80 to 95 percent of the power comes from the gravitational energy while the 5 to 20 percent comes from the magnetic energy.
- the major parts of the invention are the shaft, the spinner and the magnetic spinner.
- the spinner is composed of the "weights" wherein one of them is the driver which is the heaviest of the weights.
- the spinning of the driver creates the rotation of the spinner and the shaft just like what the cylinder does upon combustion of the fuel inside the machine.
- the weights (mostly connected to the pole, rod or stick) attached to the spinner are with different heaviness and are placed more or less in angular position with different distances from the center and synchronized for the spinning or rotation of the spinner.
- the number of weights attached to the shaft or spinner may depend on the size or capacity of the machine.
- the driver in the spinner placed on the position at 1 :00 o'clock is ready to fall to due to gravity.
- the driver is allowed to drop freely turns the shaft and the spinner and the driver reaches up to the position of more or less eleven o'clock or at almost 360 degrees due to the acceleration of gravity. (For lesser pace spinning may complete the rotation in some instances but it become slower and eventually stops.)
- the magnetic spinner which composed of the magnets- permanent or electromagnets or the combination of both - attached to or built-in on the shaft, which rotates when switch on, provides the "lacking" and needed energy and help spin the shaft and the spinner.
- the driver As the driver returns to its former position at 1 :00 o'clock, it falls or drops due to gravity; and the series of the "droppings" generate the spinning of the shaft and the spinner and runs or operate the invention machine just like that of the combustion engine.
- the driver dropped freely is working with the gravity. With the acceleration due to gravity, the driver is "thrown” to the left side making a rotation. However, as the driver crosses the vertical imaginary line and the driver travels to the left side, it is working or traveling against the gravity that is why it cannot complete its rotation or spinning as the driver "losses” energy in the process due to the interference of gravity.
- the magnetic energy then replenishes the lost gravitational energy generated by traveling against the gravity and also supplements and reinforces the gravitational energy or the needed power in the spinning; and the motions generated produce acceleration to the rotation of the spinner.
- the mechanical energy produced by the rotation of the shaft and the spinner generates electricity with the dynamo attached to or built-in on the shaft.
- the electricity then produced in the process powers the electromagnets in the magnetic spinner that "help" rotate the shaft and the spinner.
- the invention machine may use or consume from 5 per cent to 20 percent of its total produced electricity to power itself.
- the 80 per cent to 95 per cent remaining electricity are the net power produced and for human consumption or utilization.
- FIG. 1 is an illustrative diagram of the machine present invention
- FIG. 2 is an illustrative diagram for another view of the present invention
- Figure 3 is an illustrative diagram for a chain type of the present invention; also for a detached spinner with pulleys for step down round per minute (RPM)
- Figure 4 is an illustrative diagram for a gear type of the present invention
- FIG. 5 is an illustrative diagram of the present invention wherein the magnetic spinner is removable from the shaft and connected with joints
- FIG. 6 is an illustrative diagram of the present invention with removable
- FIG. 7 is an illustrative diagram showing using gears for the starter
- Figure 8 is an illustrative diagram of the present invention, mostly used as prime a mover for another uses with removable dynamo on the shaft
- Figure 9 is an illustrative diagram of the present invention with built-in dynamo on the shaft and is not connected by joints also showing the inside gears of the dynamo also mostly used as prime mover for another uses
- Figure 10 is an illustrative diagram for the belt type (can also be chain type) for the step-up for the round per minute (RPM) of the present invention
- FIG 11 is an illustrative diagram for the gear type for the step-up for the round per minute (RPM) of the present invention
- FIG 12 to Figure 18 are illustrative diagrams for the variations of the spinner of the present invention.
- Figure 20 is an illustrative drawing for the variations of magnetic spinner
- Figure 21 is an illustrative drawing for spinners inside the natural magnets
- Figure 22 is an illustration of the process flow of the electricity production of the present invention with the magnetic spinner using electromagnets or in combination of natural or permanent magnets.
- Figure 23 is an illustration of the process flow of the electricity production of the present invention with the magnetic spinner using natural or permanent magnets; or, no magnetic spinner but rather triangular tube
- Figure 24 is an illustration of the process flow of the electricity production of the present invention using no magnetic spinner but rather triangular tube
- an apparatus or a machine as a prime mover for electricity production and other applications that may be suited or applicable generally designated as 10 comprising a shaft (11) attached to the bearings (1 A) mounted on stands (11 B), a spinner [classified as the gravity spinner but referred to as “spinner” in this invention] (12) which is a movable or spinning structure attached to the shaft (11), a magnetic spinner [referred to as “magnetic spinner” in this invention as contrasted to gravity spinner which is also referred to as “spinner”] (13) composed of magnets which can be permanent or electromagnets attached to the shaft (1 1), a dynamo or generator [referred to as “dynamo” in this invention] (14) attached or built-in on to the shaft (11), a battery (15), a starter (16) attached to the shaft (1 1 ), a brake (17) attached to the shaft (1 1 ), pulleys or belt wheels (18A, 18B, 18C) attached or welded to the
- the said magnetic spinner (13), dynamo (14) and battery (15) are connected to or in communication with each other through the wirings (20A, 20B) and a switch (19A) installed.
- the battery (15) and the starter (16) are connected or in communication with each other through the wirings (20C) and a switch (19B) provided for.
- the spinner (12) consists of the plate (P), the weights or balls [referred to as "weights” in this invention] (D, 0, C, I, Ft), the flywheel (Fl) and a triangular tube (T).
- the plate (P) is attached or welded to the spinner (12) if the whole spinner (12) is separate or removable from the shaft (1 1), on the other hand, the plate (P) is attached or welded to the spinner (12) and the shaft (1 1 ) if the spinner (12) is not separate from the shaft (1 1) and is attached or welded permanently to the shaft (12).
- the weights on the spinner (12) consists of three classes which are the inner weights (I), the center weights (C), the “flywheel” weights [referred to as “flyweights”] (Ft), and the outer weights (O) which one of them is the driver (D). Except for the flyweights (Ft), the weights (D, O, C, I, Ft) are of different sizes and heaviness and are placed or positioned in angular arrangements and synchronized to the advantage for the rotation of the spinner (12).
- the weights may be attached, connected or mounted on a rod, stick or pole; however, the inner weights (I) may not be connected to the pole, rod or stick but directly attached to the plate (P). (The driver may have a longest stick, pole or rod among all weights; however this not anymore provided in the drawing) Also, all the weights (D, O, C, I, Ft) may not be mounted or attached to the rod, stick or pole but rather directly attached to the plate (P) welded or attached to the shaft (11) making the plate (P) as the spinner (12) itself.
- the weights (D, 0, C, I, Ft) are attached or welded to the plate (P), or welded to the plate (P) and the shaft (11) if the spinner (12) is permanently attached or welded to the shaft (11).
- the plate (P) may be optional and may not be used depending upon the size and capacity of the invention machine, and if the plate (P) is not in use, the weights (D, 0, C, I, Ft) are directly attached or welded to the shaft (11).
- All the weights (D, 0, C, I, Ft) in the spinner (12) may be made up of whatever material that may serve the purpose; however, concrete or metals are preferable as they are more suitable for the invention machine. And the number of weights (D, 0, C, I, Ft) needed in and for the spinner (12) depends on the size and capacity of the invention machine.
- the spinner (12) has only the driver (D), and does not have the other outer weights (O), or the spinner (12) with the driver (D) and other outer weights (O) only, or the spinner (12) with the driver (D) and the other outer weights (0) together with the inner weights (I) only.
- a flywheel (Fl) and a triangular tube (T) which is a liquid container may be provided and attached to the spinner (12). It may happen, for balancing, that there are two flywheels (Fl) attached to the spinner (12), one in each side, and also two for the triangular tubes (T) also one in each side of the spinner (12). It may happen also that there are two or more spinners (12) attached to the shaft (11) of the invention machine.
- the sizes and capacities of the invention machine may vary with the range from 1.5 volts for souvenir items to the big ones for the production of electricity by megawatts.
- Appropriate regulators, electrical wirings and other suitable parts and materials are provided for in the system of the invention machine.
- the battery (15) and the starter (16) is not necessary anymore when all the permanent magnets are used in the magnetic spinner (13).
- the magnetic spinner (13) may not be provided anymore when triangular tube (T) is used; and this may happen, in some cases, in lower capacity or miniature size.
- the flow and changes of liquid volume inside the triangular tube (T) brought about by the changes in the center of gravity reinforce the gravitational energy in the rotation of the spinner (12); the triangular tube (T) then functions like that of the magnetic spinner in providing the additional energy for the spinning of the spinner (12) .
- the dynamo (14) and the battery may be attached to the spinner (12) even if the triangular tube (T) is present in the spinner (12).
- additional attractions - like lightings or any attractive features - may be provided in the units of the invention machine.
- the dynamo (14), magnets which may be permanent or electromagnets in the magnetic spinner (13), battery (15) and other parts and materials like the pulleys or the belt wheels (18A, 18B, 18C), the belts (21 A, 21 B), switches (19A, 19B), the wire installed in the wirings (20A, 20B, 20C) and the bearings (11 A) are the usual ones sold in the market.
- Figure 2 shows that the magnetic spinner can be placed at the rear portion of the of the invention machine while in Figure 3 illustrates that the present invention can use the chain (23A, 23B) alternately or instead of the belt (21 A, 21 B) in the connection of the starter (16) to the shaft (11 ) and also the connection of the dynamo (14) to the shaft (1 1 ); and also Figure 3 illustrates with a magnetic spinner detached from the shaft with pulleys for step down round per minute (RPM).
- RPM round per minute
- the present invention can be a gear (24) type as illustrated in Figure 4 wherein instead of using chain (23A, 23B) or belt (21 A, 21 B) for the connections of the starter (16) to the shaft (11 ) and also the dynamo ( 4) to the shaft, the gear (24A - 24 E) can be used as a replacement or an alternative to the chain (23A, 23B) or belt (21 A, 21 B).
- the magnetic spinner (13) of the present invention can be removable and not welded or permanently attached to the shaft (11) but rather connected with the joint (22) to the shaft (11) and also the magnetic spinner (13) can be of different size or shape as shown in Figures 5 and 6.
- gear (25A,) which can be a larger one, can be used in the connection of and between the gear (25B) of the starter (16) and the shaft (1 1) wherein the scenario, situation or set-up can be more or less the same with the starter of the conventional machines using gasoline or diesel fuels sold in the market at present.
- the present invention can also used as a prime mover for another day to day uses as shown in Figure 8 with its removable dynamo (16) built-in on the shaft (1 1 ) connected with joint (22), and in like manner the magnetic spinner (13) can be removable too connected by joint (22) to the shaft (11).
- the magnetic spinner (13) and the built-in dynamo (13) that shows the gears (26A - 26D) can be permanently attached to shaft (11) as shown in Figure 9.
- a dynamo (13) can be a low speed or a high speed one.
- the RPM of the present invention has to be increased or stepped-up to meet the requirements of the needed speed of the dynamo ( 3) used in the production of electricity, or that of the high speed dynamo (13) used by the present conventional internal combustion machines.
- Figure 10 illustrates the stepped-up of RPM of the present invention with the use of the wheel pulleys (27A - 27 F) connected with the wheel pulley belts (28A - 28C).
- the spinner (12) of the present invention varies with the usage and the size or the capacity of the invention machine.
- the spinner (12) can be built-in. welded or permanently attached to the shaft (11) as shown in Figure 12 A or it can be detachable or removable as illustrated in Figure 12 B. [The presentation of the spinner in the succeeding drawings are with the shaft (11) permanently welded or attached].
- the triangular tube (T) in the spinner may exceed beyond the flywheel (Fl) as shown in Figure 13 C or the triangular tube (T) may not be present in the spinner (12) as shown or illustrated in Figure 13 D.
- the flywheel (Fl) may not be present in the spinner (12) as shown in Figure
- the plate (P) attached or welded to the shaft (11) may serve as the spinner (12) itself wherein all the weights (D, O, C, I, Ft) of the spinner (12) are placed or present in the plate (P). All the weights (D, 0, C, I, Ft) are directly welded or attached to the plate (P) as shown in Figure 15 H and also the plate (P) serving as the spinner (12) may include the triangular tube (T) as illustrated in Figure 16 I.
- the spinner (12) may consist only of the driver (D) and other outer weights, the plate (P), the inner weights (I) and the triangular tube (T) as illustrated in Figure 16 J and the triangular tube (T) may be absent in this variation of this spinner as shown in Figure 17 K.
- the spinner (12) may consist only of the driver (D) and other outer weights, the plate (P) and the triangular tube (T) as illustrated in Figure 17 L and also the triangular tube (T) may be absent in this variation of this spinner as shown in Figure 17 M. Further, the spinner (12) may consist only of the driver (D), the plate (P) and the triangular tube (T) as illustrated in Figure 18 N and it may happen that the spinner (12) may consist only of the plate (P) and the driver (D) as shown in Figure 18 O.
- the spinner (12) may have two flywheels (Fl) and also two triangular tubes
- the invention machine may have two spinners (12) or multiple spinners
- the magnets in the magnetic spinner (13) may consist only of permanent or natural magnets (NM) as shown in the drawing in Figure 20 A or it can be a combination of the permanent or natural magnets (NM) and the electromagnets (EM) as shown in Figure 20 B or it can be all electromagnets (EM) only as further shown in Figure 20 C.
- NM permanent or natural magnets
- EM electromagnets
- (13) may differ depending upon the capacity and the size of the invention machine.
- the spinner (12) is inside the permanent or natural magnets (NM) serving like a circle wherein the spinner (12) likewise has the permanent or natural magnets (NM) on its outer portion as shown in the illustration in Figure 21 A and B.
- the natural or permanent magnets in circle maybe one or whole or maybe divided into halves as illustrated in Figure 21 A and B.
- the circle of the natural or permanent magnets as a whole or both of the halves are slide in and put in place accordingly to switch on the magnetic spinner (13).
- the circle is slide out to switch off the magnetic spinner.
- the natural magnets as stated above in Figure 21 A and B could also be electromagnets. (However, this is not anymore provided in the drawing)
- the magnetic spinner (13) is switch-on with the switch (19A) to power the said magnetic spinner
- the switched-on magnetic spinner (13) powered by the electricity from the dynamo (14) supplements the energy needed in the spinning or rotation of the spinner (12) that runs the invention machine.
- the motions in the spinning process of the spinner (12), powered by both the gravitational and magnetic energies, produce acceleration.
- the driver (D) is "thrown” with the increasing speed and correspondingly the round-per-minute or the velocity of the spinner (12) rises.
- the invention machine generates or produces electricity that continuously powers the magnetic spinner (13) in its rotation that helps in the spinning of the spinner (12), and for human consumption.
- the flow of the electric current is being monitored through the gauges (13A, 14A, 15A) installed in the system.
- the dynamo (14) also charges the battery (15) that provides the initial electrical energy for the starter (16) in the initial operation.
- the invention machine may get its power from outside source to help spin the magnetic spinner (13) when the attached dynamo (14) fails to provide the necessary or needed energy for magnetic spinner (13) to spin.
- the invention machine is already in its full motion and the attached dynamo (16) can provide at this moment the needed or necessary energy for the magnetic spinner (13) to spin and function and help the spinner (12) in its operation, simultaneously the outside power source is cut off and switch on to the power from the attached dynamo (14).
- the magnetic spinner (13) which may require a lower voltage may get its power from the electrical energy stored in the battery.
- the invention machine may produce 220 volts but the magnetic spinner (13) needs only 12 or 24 volts and in this situation the magnetic spinner (13) may be powered with the stored energy in the battery or the electrical energy produced by the attached dynamo (14) that may power the magnetic spinner ( 3) passes on through the battery.
- the magnetic spinner (13) uses all the natural or permanent magnets (NM) the magnetic spinner (13) is "switch on” by placing together the circle of the natural magnets and the magnetic spinner (13) accordingly to create polarities and spin the magnetic spinner ( 3). The circle of the natural or permanent magnets are slide in to switch on the magnetic spinner (13) and slide out to switch off.
- the triangular tube (T) is used instead of the magnetic spinner (13) the operation may be started by just spinning the spinner (12) with the dynamo (14).
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Magnetic Bearings And Hydrostatic Bearings (AREA)
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
Abstract
Description
Claims
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AP2015008829A AP2015008829A0 (en) | 2013-04-29 | 2014-04-25 | Machine and method for gravitational-magnetic electricity production |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
PH1-2013-000122 | 2013-04-29 | ||
PH12013000122A PH12013000122A1 (en) | 2013-04-29 | 2013-04-29 | Machine and method for gravitational~magnetic electricity production |
Publications (2)
Publication Number | Publication Date |
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WO2014178734A2 true WO2014178734A2 (en) | 2014-11-06 |
WO2014178734A3 WO2014178734A3 (en) | 2015-11-26 |
Family
ID=51844074
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/PH2014/000011 WO2014178734A2 (en) | 2013-04-29 | 2014-04-25 | Machine and method for gravitational-magnetic electricity production |
Country Status (3)
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AP (1) | AP2015008829A0 (en) |
PH (1) | PH12013000122A1 (en) |
WO (1) | WO2014178734A2 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2017025804A (en) * | 2015-07-23 | 2017-02-02 | 導啓 金濱 | Power converter |
JP2017025805A (en) * | 2015-07-23 | 2017-02-02 | 導啓 金濱 | Power converter |
JP2017025808A (en) * | 2015-07-23 | 2017-02-02 | 導啓 金濱 | Output generator |
WO2018074914A1 (en) * | 2016-10-20 | 2018-04-26 | Mohmat Gapar @ Mohd Japar B Judin | Self-sustaining power generating engine |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3625089A (en) * | 1970-04-30 | 1971-12-07 | Edward Rutkove | Gravity wheel apparatus |
JPH02136577A (en) * | 1988-11-15 | 1990-05-25 | Keizo Yoshinaga | Manufacture of prime mover utilizing gravity |
US7288849B1 (en) * | 2006-10-27 | 2007-10-30 | Chin-Hui Chiang | Gravitational electric power generating device |
US20080174121A1 (en) * | 2007-01-23 | 2008-07-24 | Scott Wattenbarger | Gravitational magnetic energy convertor |
US8053913B2 (en) * | 2009-04-02 | 2011-11-08 | Rosace International Co., Ltd. | Physical energy-converting rotor, rotating method of the same and generating set using the same |
KR20110116983A (en) * | 2010-04-20 | 2011-10-26 | 홍석수 | Power generating device using gravity and magnet |
-
2013
- 2013-04-29 PH PH12013000122A patent/PH12013000122A1/en unknown
-
2014
- 2014-04-25 WO PCT/PH2014/000011 patent/WO2014178734A2/en active Application Filing
- 2014-04-25 AP AP2015008829A patent/AP2015008829A0/en unknown
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2017025804A (en) * | 2015-07-23 | 2017-02-02 | 導啓 金濱 | Power converter |
JP2017025805A (en) * | 2015-07-23 | 2017-02-02 | 導啓 金濱 | Power converter |
JP2017025808A (en) * | 2015-07-23 | 2017-02-02 | 導啓 金濱 | Output generator |
WO2018074914A1 (en) * | 2016-10-20 | 2018-04-26 | Mohmat Gapar @ Mohd Japar B Judin | Self-sustaining power generating engine |
Also Published As
Publication number | Publication date |
---|---|
WO2014178734A3 (en) | 2015-11-26 |
PH12013000122B1 (en) | 2014-11-17 |
PH12013000122A1 (en) | 2014-11-17 |
AP2015008829A0 (en) | 2015-10-31 |
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