JP2001082317A - Producing method of new energy, actuating device for generation thereof, and producing device thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To utilize water buoyancy. SOLUTION: While water is mechanically poured into water tanks 1, 2, and floats 5, 6 are made to rise with floating weights by means of generation of buoyancy in the floats 5, 6, the floats 5, 6 supply energy to an outside while increasing self internal energy. The water tanks 1, 2 are filled with water, the weights 5, 6 are laid on the water, thereby discharging the water. The tanks 1, 2 from which the water is discharged become vacant. While increasing self internal energy by dropping the floating weights from an upper space of the vacant water tanks 1, 2, the energy is supplied to an output shaft 20. In this manner, the floats 5, 6 rise with the floating weights by means of buoyancy generated by pouring water in the tanks 1, 2 in which the floats are repeatedly fall into their bottoms, and supply energy to the outside while increasing its internal energy. By alternately repeating this method, mechanical power is generated.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing new energy, a power generating device for generating new energy, and an apparatus for producing new energy.

[0002]

2. Description of the Related Art Conventional power generators include thermal power generators that burn fossil fuels, hydroelectric power, wind power, solar thermal power,
There are geothermal power generation, tidal power generation, fuel cell, magma power generation, pumped-storage power generation, garbage power generation, nuclear power generation equipment using nuclear fuel reaction heat, etc. There are petroleum engines, coal-fired power engines, and currently the most widely used gasoline engines, and nuclear engines with the heat of reaction of nuclear fuel.

[0003] In an engine that burns fossil fuels, a huge amount of toxic gas is continuously emitted and diffused with the combustion, polluting the global environment such as acid rain, global warming, and tree death due to carbon dioxide, and leading to the destruction of the ozone layer. The danger of radioactivity in nuclear power plants and nuclear engines, which has reached or depends on the heat of reaction of nuclear fuel, is extremely large and, as shown in the past damage cases, is truly enormous. Facilities are constantly in danger of radioactive contamination, and accidents occur frequently, and it is not safe to know that accidents are preceded and safety measures are delayed and there is no ability to detect the occurrence of accidents. Can not. Furthermore, many of the current nuclear power plants are aging, and decommissioning, abandonment of aging contaminated facilities, facilities by dismantling, widespread pollution by treating materials, nuclear reactors, nuclear ash, mud, sewage, dust, etc. Marine pollution continues indefinitely, and semi-permanent local pollution after nuclear use, such as long-term storage, management and preservation of a large amount of radioactive nuclear fuel waste emitted by nuclear power plants, and an extremely long term requiring labor and cost There are huge losses over a period of time.

[0004] The fossil fuel has a recoverable life of 35 to 50 petroleum.
Years, nuclear fuel is a finite substance that will be depleted or extinguished in 50 years and 150 years of coal, so for the coming depletion and depletion of this fossil fuel and nuclear fuel, we need alternative energy related to it. It needs new energy with a background of energy sources larger than nuclear and fossil fuels.

[0005]

As described above, the emission and diffusion of toxic gas and the diffusion of harmful radioactivity generated to generate heat energy of combustion or reaction heat of fossil fuels and nuclear fuels pollute the environment. The following items are related to issues that cannot be avoided, such as fatal problems, depletion of nuclear and fossil fuel energy sources, and necessity of securing alternative energy sources in preparation for depletion. To solve the above problems.

[0006] The first object is to create a new alternative energy in order to completely abolish the use of nuclear and fossil fuels.

A second object is to completely abolish the use of nuclear and fossil fuels and to cut off the sources of harm.

A third object is to develop a power generator that generates new energy by gravity larger than nuclear or fossil fuels and to provide new motive energy.

A fourth object is to develop and widely provide a new energy producing apparatus.

A fifth object of the present invention is to solve the fatal and problem of the current energy that is depleted and disappears of nuclear and fossil fuels.

Since nuclear and fossil fuels are unevenly distributed on the earth and are inconvenient and difficult to obtain, it is necessary to solve the difficulties by utilizing the ubiquitous gravity and to obtain energy easily and easily in the vicinity. As the sixth purpose.

[0012]

SUMMARY OF THE INVENTION In order to achieve the above-mentioned object, the present invention is to obtain energy by gravity, which is completely different from the conventional method using nuclear and fossil resources as energy.

The gravity as the energy source of the present invention exists widely on the ground surface, underground, in the sea, and in celestial bodies, and there is no means for permeating and blocking the material. It can be easily used and used under the feet, and it can be used immediately without the need for combustion heat conversion or reaction heat conversion, and it has been difficult to search for nuclear and fossil fuel resources, exploration, mining, mining, Oil collection, storage, pipeline oil transfer, ship transportation,
Since there is no need for storage, refining, storage tanks, transportation, power transmission and distribution routes, the economic effect will be extremely large in the future.

According to the present invention, the above-mentioned gravitational energy source is converted, and new energy is generated, supplied and used. The gravitational energy source does not decrease at all. In addition, gravitational energy is completely harmless energy, and its use eliminates all of the fatal and toxic effects of nuclear and fossil fuels, and uses or uses gravity to solve various problems. Means.

Prior to the description of the present invention, the purpose of repeatedly conducting a number of experiments of the most important part which determines the feasibility of the present invention was as follows. 1. The problem of whether a large amount of water stored in the lower part of the water tank can be raised and returned and filled with internal energy generated by lowering the weight of the float below the upper limit in the empty tank. 2. The problem of whether floating buoyancy can be generated by the buoyancy of the buoyant, and the remaining buoyancy can generate upward buoyant energy corresponding to the falling energy of the previous buoyant weight. 3. Is it possible to generate output? Regarding the above important items, the experimental apparatus used is described in detail as follows with drawings.

As shown in the drawing of the experimental apparatus of FIG. 7, a float is placed at the bottom of an empty tank and filled with water to generate buoyancy increasing energy. 7 shows a state in which the water tank is emptied and the water tank is emptied. The float 5 is emptied, the space in the tank is dropped, and the weight of the float is pushed to the push rod 9 to push the left end of the lever 13. When the rod 12 connected to the right end of the lowering lever is pushed up to push up the right moving tank 4 which is full of water, the right moving tank 4 reaches the upper limit with a slight force as described below. The right tank with full water is lifted upward by a spring 8 having a pulling force corresponding to the weight of the right tank with water, and the downward movement of the weight of the right tank with water and the upward movement due to the decrease of the weight are performed during operation. The striking force is always balanced and the forces cancel each other out, and the moving tank moves up and down with a small force. Therefore, when a force equal to or greater than the static friction force is applied to one of the equilibriums via the pulley, the equilibrium is broken and the water-filled right moving tank 4 easily moves up and down. In addition, when the spring is fixed to the vertically upper frame except for the above-mentioned pulley during equilibrium, the water-incoming right tank 4 is connected to the lower end of the sprung, and the frictional force is not generated when the pulley is removed. When the water tank 4 is full, the amount of water gradually decreases when it rises, and when it descends, the amount of water gradually increases. When the amount of water gradually decreases, the force of generation gradually decreases. Has confirmed that it always works equally well, and as described above, made it possible to push up the right tank with large water weight with the force of small floating weight. The first purpose of the experiment is achieved by accurately confirming the effect that the right moving tank 4 has risen to allow the right tank to be filled through the communication pipe due to the difference in water level. Then, the float 6 falls to the bottom of the tank by its own weight, and then the water is poured to submerge the float to fill it with water. The buoyancy of the float in the water is the buoyancy by the drainage volume of the float 6, and the buoyancy is the float weight. And more than twice. For floating, the floating weight is used as the falling energy when floating and the floating buoyancy is raised, and the floating buoyancy is set to more than twice the weight at the time of falling to generate effective buoyancy and balance the vertical force. Achieve the second objective of the experiment. Next, as for the output, it is possible to easily increase the size of the water tank and the float and to set a large lift stroke. As described above, according to the present invention, the equilibrium spike corresponding to the gradual increase and decrease of the water weight generated in the process of water supply and drainage of the aquarium is installed, and the water which has been once discharged by the most important internal energy is raised again and the water level is increased. In the result of an experiment of flowing water into a water tank and filling it with water,
The operation of the easily practicable method and apparatus has been correctly confirmed.

The dimensions of FIG. 7 in which the experiment was performed are as follows. Aquarium diameter 12,4 cm 〃 height 32, cm 容積 volume 3862.5 cm ³ 〃 water volume 1557. cm ³ float diameter 11,3 cm 〃 height 23, cm 容積 volume 2305, 5 cm ³重量 weight 1000, g 〃 stroke 9, cm water volume of square moving tank 4 1557, cm ³縦 vertical 22,8 cm 横 horizontal 22, 8cm 〃 depth 3, cm ， volume 1557, cm 〃 stroke 36, cm fulcrum of lever 13 14.5cm 〃 right 58. cm 〃 Left end open 9, cm 〃 Right end open 36, cm Lever 14 Cantilever fulcrum left open 9, cm 〃 Left end open 36, cm Spring force reduced 0, g 伸 び Extended attraction 1557, g Measured static friction force under extended load 45, g Static friction coefficient 0,029 Required power to overcome static friction force 180, g Effective force to push and pull crank 820, g Energy source during operation is Floating weight 1000, g

A description will be given below with reference to the actual numerical values applied to the experimental apparatus of FIG. Float 5 of empty water tank 1 shown in FIG.
Weight of 1000. g is dropped 9 cm from the space of the water tank, and the lifting push-pull rod 9 is connected to 180 cm of the downward force of 180 g and is connected to the left end of the lever 13 that connects 180 cm of the downward force to the left end of 59 cm, and the rod 12 linked to the right end is raised upward by 45.7 g. To overcome the static friction force of 45 g, push the right dynamic tank 4 up from the lower limit, flow 1557 g of water in the right dynamic tank 4 through the communication pipe 26 according to the water level difference, pour the water into the water tank 2 and submerge the floating 6. Transfer 1557g to fill the water, right tank 4 is 1557g as shown in FIG.
When the water is full, the water is pulled up and offset by a force of the drawing force of 1557 g which is equal to the weight of the water, and the water is equilibrated. FIG. 7 illustrates this state. If the right tank 4 gradually decreases the water weight upward, the drawing force gradually decreases and balances, and if the right tank 4 gradually decreases the water weight, the drawing force gradually increases and balances, and the right movement. The tank 4 is always empty without water at the upper limit, and is filled with water at the lower limit to 1557 g.
g, and the lower limit is 1557 g. Next, the water tank 1 is filled with water and the buoyant 6 is buoyant 2305 with a force of 5 g and its own weight of 1000.
Then, the user pushes up the push-pull rod 12 with the actual buoyancy 1305, 5 g. Then, the lever 14 connected to the push-pull rod 12 is pulled up with a force of 180 g and overcomes the same frictional resistance as described above, and is filled with water of 1557 g. The left moving tank is pulled up and the water tank 1 is filled with the communicating pipe and the bottom of the tank is filled. Float 5 is submerged to give actual buoyancy 1305,5 g, and Float 5 rises in buoyancy and pulls down right moving tank 4 with a force of 180 g via lever, and water 155 in water tank 2.
By transferring 7 g, the water tank 2 was emptied to create a field of falling energy, and the experimental apparatus was operated and confirmed by the above values. Based on this experiment, the present invention provides a method for producing new energy, a power generation device for generating new energy, and a device for producing new energy.

According to the method of the present invention for obtaining novel energy, the weight of a buoy at a height and having a weight is dropped in a space to generate energy, and the dropped buoy is immediately submerged to increase buoyancy in water. In order to generate energy by carrying the weight of the float and raising it to the upper limit position, the left and right tanks are fixed side by side at the center of the horizontal frame. Is placed, the float falls from above the space inside the left tank, and while supplying energy to the outside, pushes up the right tank with water and transfers water from the communication pipe to the right tank, submerges the float and fills up the water to increase buoyancy. Gives energy, raises the buoyancy of the float in the right tank while supplying energy to the outside, pushes up the left moving tank with water, communicates with the left tank, transfers water, submerges the float, fills the water and rises with buoyant energy, Increase in buoyancy of left tank float While supplying more energy to the outside, pull down the right tank and communicate with the right tank, transfer water to the right tank, create an empty fall energy field, drop the float in the right tank, and transfer energy to the outside. Pull down the left cistern while supplying water, transfer water to the left cistern in communication with the left cistern, create a floating energy field, repeat the above four steps continuously and generate new energy A new energy production method.

The present invention will be described below with respect to the configuration of a power generation device for generating new energy as an apparatus for implementing a method for producing new energy. A left push rod having a bottom tank with a bottom and a right tank fixed side by side in the center of the horizontal frame of the apparatus of the present invention, and fixed by penetrating the inner wall pipe at the center of the bottom of each tank, and having a float fixed to each inner wall pipe hole. The right push-pull rod is easily vertically moved in a dry manner, the left end of the lever is connected below the left push-pull rod, the right end of the lever is connected to the fixed rod of the right moving tank, and the right end below the right push-pull rod. The left end of the lever is connected to the left side of the lever, the left end is connected to the fixed rod of the left moving tank, the small end of each connecting rod is connected to the lower end of the left and right push-pull rod, and the large end is the crankshaft crank. Each intermediate gear is meshed between a fixed gear and an output gear via an on-off roller with a crankshaft connected to the pin, and the output shaft is rotated. With the left and right moving tanks at the lower limit, each tank is fully filled, the left tank float is set at the upper limit position, the right tank float is set at the lower limit position, and the lift is raised with a spring against the weight of the full tank with full water. , And a small lifting force of power spring against the weight of Doso to the pulling force of the power spring force upper limit position the weight of the Doso own weight, the lower limit position smell lateral movement bath

According to the method of the present invention for obtaining novel energy, the weight of a buoy at a height and having a weight is dropped in a space to generate energy, and the dropped buoy is immediately submerged to increase buoyancy in water. In order to generate energy by carrying the weight of the float and raising it to the upper limit position, the left and right tanks are fixed side by side at the center of the horizontal frame. Is placed, the float falls from above the space inside the left tank, and while supplying energy to the outside, pushes up the right tank with water and transfers water from the communication pipe to the right tank, submerges the float and fills up the water to increase buoyancy. Gives energy, raises the buoyancy of the float in the right tank while supplying energy to the outside, pushes up the left moving tank with water, communicates with the left tank, transfers water, submerges the float, fills the water and rises with buoyant energy, Increase in buoyancy of left tank float While supplying more energy to the outside, pull down the right tank and communicate with the right tank, transfer water to the right tank, create an empty fall energy field, drop the float in the right tank, and transfer energy to the outside. Pull down the left cistern while supplying water, transfer water to the left cistern in communication with the left cistern, create a floating energy field, repeat the above four steps continuously and generate new energy A new energy production method.

The present invention will be described below with respect to the configuration of a power generation device for generating new energy as an apparatus for implementing a method for producing new energy. A left push rod having a bottom tank with a bottom and a right tank fixed side by side in the center of the horizontal frame of the apparatus of the present invention, and fixed by penetrating the inner wall pipe at the center of the bottom of each tank, and having a float fixed to each inner wall pipe hole. The right push-pull rod is easily vertically moved in a dry manner, the left end of the lever is connected below the left push-pull rod, the right end of the lever is connected to the fixed rod of the right moving tank, and the right end below the right push-pull rod. The left end of the lever is connected to the left side of the lever, the left end is connected to the fixed rod of the left moving tank, the small end of each connecting rod is connected to the lower end of the left and right push-pull rod, and the large end is the crankshaft crank. Each intermediate gear is meshed between a fixed gear and an output gear via an on-off roller with a crankshaft connected to the pin, and the output shaft is rotated. With the left and right moving tanks at the lower limit, each tank is fully filled, the left tank float is set at the upper limit position, the right tank float is set at the lower limit position, and the lift is raised with a spring against the weight of the full tank with full water. The lifting force of the sprung force at the upper limit position is reduced by the lifting force of the sprout against the weight of the moving tank so that the lifting force of the sprung force becomes the weight of the moving tank's own weight. An activation device that generates new energy, which is equipped with a pull-up spike corresponding to a change in the temperature.

Regarding the novel energy producing apparatus of the present invention. Conventionally, coal and heavy oil are burned and water is heated by the heat of nuclear reaction to convert it to high-pressure steam, which is converted to the rotation of a steam turbine. A fossil fuel that obtains energy is completely different from the conventional energy production equipment that produces energy, and an electric energy converter is attached to the power generation axis of the power generator of the power generator that generates newly created new energy. A device that produces energy and supplies new electrical energy according to various demands, and a fluid pressure converter is mounted on the power shaft of an actuator that generates new energy and rotates to generate new fluid energy, Production and supply will be used as new energy production equipment.

[0022]

The operation of the apparatus according to the present invention having the above-mentioned configuration will be described in detail with reference to the drawings. Prior to the description, one example of the numerical values of the components will be shown and the unit will be m, which will be described in a simplified and clear manner. The specifications of another example are newly defined as follows, and 1 m of water is 1 t. The weight of each of the floats 5 and 6 10 × 10 × 1/2 = 50 m ³ 50 t The buoyancy of each of the floats 7 and 8 10 × 10 × 1 = 100 m ³ 100 t The amount of water of each of the left and right tanks 12 ² × 3-100 = 332m ³ 332t Water weight of left and right moving tanks 3 and 4 0t to 332t Up and down strokes of left and right moving tanks 4m Up and down stroke of floating 2m Each variable pulling force of multiple striations 7, 8 0t to 332t Starting point of start of action Then, float 5 of left tank 1 is the upper limit position,
The float 6 of the right tank 2 is set to the lower limit position, and the left and right moving tanks 3 and 4 are filled with 332 t of water to make them full, and the parts operate as follows as shown in the overall view of FIG. 1 Each 332t of the water tank with left and right water is 33
Pull up with 2t force to equilibrate. (2) The two hydraulic systems of the floats 5 and 6 are simultaneously turned on and off by the hydraulic switching valve V at the upper limit position and the lower limit position. 3 Left float 5 falls with a weight of 50t and crank angle 18
The right float is sunk to the bottom of the tank while supplying energy to the outside by giving a weight of 44 t at 0 degree and replenishing energy during rotation of the crank angle by 180 degrees. 4. The submerged right float 6 generates a buoyancy of 100 tons at an angle of 180 degrees, and the buoyancy rises at an actual buoyancy of 50 tons minus the weight of the float 50 to sink the float at the bottom of the left tank to replenish the energy and replenish the energy by 180 degrees of the crankshaft. Energy is supplied to the outside by giving a weight of 44 t to the rotation angle. 5 Regarding the frictional resistance, the actually measured static friction coefficient of 0.009 was obtained, the water weight 332t of the moving tank was hung on the left rope wound around the pulley of the same method, and the pulling force 332 was applied on the right rope.
The static friction force when a force of t is given is 2,9 depending on the coefficient.
Since it is 98t, this is taken as 3t of frictional resistance.

As described above, the operation of the present invention will be described by dividing it into four strokes from one stroke. One process begins with FIG. 1 and ends with FIG. The 50t of the float 5 in the left tub 1 having only one potential energy in FIG. 1 is dropped from the upper limit to 2m lower than the upper limit, and the push-pull bar 9 is given a force of 50t to give 6t to the left end of the lever 13 through the lever. The rod 12 to which the right moving tank 4 is fixed is pressed against the friction with the force of 3t to push the right moving tank 4 up against the friction, and 332 m of water flows into the right tank 2 from the long hole of the communication pipe 26 at a difference in water level to the bottom of the tank. Float 6
The push-pull bar 9 is submerged and filled with water to give the buoy 6 a 100 t buoyancy to increase the internal energy, and the push-pull bar 9 is pushed through the connecting rod 15 shown in FIG. Rotate the crankshaft with a force of 44t and supply new energy to the outside by the output shaft 20.
To complete the first step. At this time, as shown in the figure, the right moving tank 4 reaches the upper limit and loses water and becomes empty, and the equilibrium sprung 8 shrinks and balances with the weight of the moving tank and loses the pulling force, resulting in an attraction of 0 t.

The two strokes begin in FIG. 2a and end at b. Right tank 2 full as shown in FIG. 2b
The buoyant 6 submerged in the buoyancy rises by the force of the effective real buoyancy 50t with its own weight 50t with the buoyancy of 100t.
While pushing up the fixed rod 11 of the left moving tank 3 to the upper limit with the force of 3 t through the lever 14 with the force of t, the water weight 332 t of the left moving tank 3 is caused to flow from the communication pipe 25 as shown in FIG. While the left tank 1 is filled with water and increasing its own energy, a downward force of 44t is applied to the lower end of the push-pull rod 10 as shown in FIG.
5R is pulled up on the crankshaft 16R by a force of 44t, the respective gears are meshed, the output shaft 20 is rotated to supply new energy to the outside, and the operation of the second stroke is completed to constitute FIG. 2B.

The three strokes begin in FIG. 2b and end in FIG. 3a. The float 5 submerged in the left tank 1 shown in FIG. 2B carries its own weight of 50 t with a buoyancy of 100 t, and the buoyancy rises as shown in FIG. The right end of the pull-up lever pulls down the rod 12 with the force of 6t, flows the water 332t of the right tub, fills the right tub 4 and empties the right tub 2, creates a place for a 50t drop of the float 6, and increases the energy. Then, the lower end of the push-pull rod 9 is pulled up by a force of 44 t to pull up the connecting rod 15, rotate the crankshaft 16R, mesh the respective gears, rotate the output shaft 20, supply new energy to the outside, and complete the third stroke. FIG.

The four strokes begin in FIG. 3a, end in FIG. 3b their final action, return to one stroke and repeat this action. FIG. 3b and FIG. 1 show the starting point of the stroke because they are identical.
The float 6 in the right tank 2 shown in FIG. 3a is dropped with a force of 50t in weight and the push / pull rod 10 fixed to the float 6 is dropped with a force of 50t, and the lever 14 is pressed down with a force of 6t to be connected to the left end of the lever. The rod 11 to which the left moving tank 3 is fixed is pulled down by a force of 3 t, and the water in the left tank 1 flows through the communicating pipe 25 for 332 t due to a difference in water level to fill the left moving tank 3 to create a falling space for the float 5. The self-energy is increased, and at the same time, the push-pull rod 10 is pressed down by a force of 44t, the crankshaft 16R is rotated by a force of 44t via the connecting rod 15R, the gears are meshed, and the output shaft 20 is rotated. The present invention works more than the energy is supplied to the outside to complete the fourth stroke and return to FIG. What made it possible to solve an important problem in the previous experiment and make it work? Weight 1000 with less lifting than the empty tank space
Link the lever with the force that reduced g. Experimental results in which a 1557 g water tank was pushed up by 36 cm with a force of 180 g and the upper tank was filled with water. While increasing its internal energy with 180g of force, the crankshaft is rotated via the connecting rod with a weight of 820g, which is 180g less than the lifting weight of 1000g given to the push-pull rod, and the output energy is increased. A method and a device for producing new energy to be supplied to the outside, and a production device.

[0027]

BEST MODE FOR CARRYING OUT THE INVENTION The method for obtaining new energy according to the present invention is described below. The weight of the float in the upper space in the water tank is dropped to the tank bottom as energy and locked. Pour water and fill the water tank, give the submerged float a buoyancy volume larger than the floating weight, raise the buoyancy with the weight of the float and lock it to the upper limit position, and once locked, transfer the water in the water tank to the moving tank immediately Create a place to generate floating energy. The water in the aquarium is drained to reduce the floating weight and increase the energy of its own, thereby supplying a large amount of new energy to the outside. Water is poured into the dropped aquarium and the buoyancy is submerged to increase buoyancy and increase its own internal energy while supplying new energy to the outside. 1. Drop the float from above in the empty left tank, pull it up by leverage and push up the right dynamic tank with water, and submerge the float in the empty right tank from the communication pipe to fill the tank. 2. Raise the buoyancy of the submerged float in the right tank and push up the left moving tank pulled up by leverage through the lever, and submerge the float in the left tank by the communication pipe to fill it. 3. Raise the buoyancy of the submerged float in the left tank, pull down the empty right tank with leverage by leverage, and transfer the water in the right tank to the right tank by the communication pipe to make it full. 4. Drop the suspension suspended above the empty right tank, pull down the left tank with the lever by lever, and transfer all the water in the left tank to the left tank with the communication pipe to make it full.

Next, an embodiment of a power generating device for generating new energy according to the present invention will be described with reference to the drawings based on examples. As shown in FIG. 1, a left tank 1 and a right tank 2 are fixed side by side at the center of a horizontal frame which is a component of the apparatus of the present invention, and left and right tanks 1 and 2 are filled with left ridges 7L on both sides thereof. The moving tub 3 is pulled up, the right moving tub 4 filled with the right ridge 8R is pulled up, and the left and right rods 11 and 12 to which the left and right moving tubs are fixed are easily longitudinally supported. Then, a fixed pipe with a flange is formed in the perforated portion of the left moving tank 3, and the fixed pipes 27 and 28 connected to the communication pipes 25 and 26 are slid into the fixed pipes 27 and 28 having a plurality of long holes as shown in FIG. Then, the sleeve tube 29 fixed to the left moving tank 3 which moves up and down is inserted. In addition, a fixed tube 28 with a flange is fixed to the perforated portion of the right moving tank 4, and a plurality of long holes are provided in the fixed tube 28 connected to the communication tube 26 as shown in FIG. The sleeve shaft 30 of the right moving tank 4 which moves up and down is slid. Then, the left and right tanks 3 and 4 are alternately pushed up by the respective levers by connecting the levers 13 and 14 below the left push / pull bar 9 and the right push / pull bar 10 to which the float 5 is fixed. Connect the connecting rod 15 and connect the large end of the connecting rod 15 to the crankshaft 1
No. 6 is connected to the crank pin and the output shaft 20 is rotated via an on / off clutch to generate new energy. Similarly, the lower end of the connecting rod 15R is connected to the crankshaft 16R and the output shaft 20 is rotated to generate new energy. And by the output device by the crank shown in FIG. The output shaft 20 generates new energy. This output device is shown in FIG.
6R is turned on / off, the intermediate gears 18 and 18R are meshed between the output gear 19 and each gear fixed to the inner race of the clutch and fixed to the outer race via a roller, and the output gear 19 is output as the output shaft 20. The output device shown in FIG. 7b has an on / off state, in which the crank wheels 17, 17R are fixed to the outer race of the clutch, and the crankshafts 16, 16R are fixed to the inner race. The output shaft 20 is disposed between the two crankshafts, and the chain wheels 21 and 22, and the chain wheels 23 and 24 are wound around a chain belt, and the output shaft 20 is rotated to generate new energy. is there.

Next, the novel energy producing apparatus of the present invention will be described. Conventionally, the mainstream for obtaining energy is burning fuel resources such as fossil fuels, hydropower, etc.,
Alternatively, they are reacted and stored in water to be converted into various types of energy to supply converted energy according to demand. The above-mentioned hydroelectric power generation using water as an energy source generates power energy by storing water at high places and forming a place where potential energy is obtained for a fee, and then rotating the turbine using water falling by gravity, An energy converter that rotates a fluid pump, an AC generator, a DC generator, or the like, which is an energy converter, generates energy to be supplied and produces energy. In the case of hydroelectric power, the use of gravity becomes impossible if the stored water in the high places is lost, and if the components of the stored water, which is the main source of hydroelectric power, are excluded, hydroelectric power will exist densely A power generator that does not function perfectly even in the gravitational line, this invention uses the same gravitational force, but has a completely different configuration, where gravity exists anywhere below the dense gravitational line. It uses buoyancy alternately to generate completely new energy and generate power, so drop the weight that received the dense gravitational line, change the dropped weight to float and raise the buoyancy, and This is a new energy production apparatus that generates and produces new energy by alternately repeating floating.

Next, the sprung members 7 and 8 for raising the left and right moving tanks 3 and 4 which are a part of the apparatus of the present invention are suitable for medium-sized and small-sized apparatuses. In FIG. 4, abcd in FIG. 4 shows a weight increasing / decreasing device having the same function as an alternative to the firing because the weight of the firing increases. a) A weight is chained in a chain, and the weight is gradually decreased and increased by lifting and lowering the chain. b Separating the laminate and increasing the weight as the weight increases or decreases. c Fill the water tank with water and submerge the water tank to have no weight, and raise or lower the weight of the water pulled up on the water surface to increase or decrease the weight. d Raise the water tank to increase the water weight, pull up the left moving tank and equilibrate with the water weight of the left moving tank.

Since the left and right configurations are the same, the left portion will be described.
The same applies to the description of the right part. As shown in FIG. 3A, the left tank 1 is filled with water, the float 5 is set to the upper limit position, the left left tank 3 is set to the upper limit, and the water is emptied. The right end is connected to the upper end d of the rod 11 and the left and right hanging lower end e is connected to an increasing / decreasing weight 7W. The increasing / decreasing weight 7W is formed by stacking a plurality of weights on a device, and instantaneously adding the total weight of the increasing / decreasing weight 7W. At the same time, the load on the cable a is set to zero, and at the same time, the left moving tank 3 becomes empty without water, the rod 11 has no force to pull down the cable a, and the weight 7W stops and operates instantaneously on the frame. .

When the rod 11 of the left tub 3 is pulled down by the lever 14, the water level is lowered and the water in the left tub 1 is transferred to the left tub 3 as shown in FIG. Each of the divided portions of the increase / decrease weight 7W which increases the weight is equal to the increase amount, is sequentially pulled up from the rack by the rope a, and the increase / decrease weight 7W equal to the weight of the increase water amount of the left tub 3 is divided and searched. a is pulled up, the water in the left tank 1 is emptied according to the water level difference, and the water is transferred to the left moving tank 3 to fill it with water. When the rod 11 of the left moving tank 3 is pushed up next, the left moving tank 3 rises and the water in the left moving tank 3 moves to the left tank 1 according to the water level difference. The weight of the increasing and decreasing weight 7W which is gradually reduced and balanced is also gradually reduced, and the left and right tubs 3 reach the upper limit and equally increase and decrease the weight 7W. Supported by rack reaches the lower limit and no load of the weight of the rope a by.

When the apparatus of the present invention is installed in a lake or a sea area, the weight 7N of a completely different water column is connected to the lower end e of the cable a instead of the weight 7W as shown in FIG. 3c. Then, as shown in FIG. 3c, when the water column is submerged and the upper end of the water column coincides with the water surface, the weight of the water column becomes zero, and as the left moving tank 3 descends via the cable a, the water weight of the left moving tank 3 decreases. The left moving tank 3 gradually increases and the weight 3
N raises the weight of the water column equal to the gradually increasing water weight of the left moving tank 3. When the left moving tank 3 rises, the water column falls via the cable a while decreasing the water weight of the left moving tank 3 gradually. Weight 3N
Equilibrate with the weight of the left moving tank 3 while gradually decreasing the water weight of the left moving tank 3. The left moving tank 3 has no water at the upper limit, and the weight 7N reaches the lower limit and becomes submerged and has no weight. I do.

According to the present invention, as shown in FIG. 1, the flanges are fixed on flanged fixed tubes 27 and 28, and the communication tubes 25 and 26 are connected to the flanged fixed tubes and fixed to the left and right moving tanks 3 and 4. The sleeve tubes 29, 30 thus formed are easily slidably penetrated, and a plurality of vertical grooves are formed in the upward fixed tubes 27, 28 in a sliding section where the left and right moving tanks 3, 4 move up and down to form a fluid passage. Due to the difference in water level, the water in the left tank 1 is transferred to the left moving tank 3 to empty the left tank 1, and when the left moving tank 3 shown in FIG. 26 fills the left tank 1 with water. When the sleeve of the communication pipe is fixed to the frame for communication, the weight of water in the communication pipe is received by the frame and does not reach each tub, so it is easy to use a large-diameter communication pipe and transfer water. The large size of the present invention is required to speed up the operation speed to increase the amount of new energy generated, and to reduce the water load on the left and right moving tanks and improve the function.

When the float 5 falls from the upper limit of the left tank, it falls to the lower limit of the left tank with a weight of, for example, 42 t of the float to perform work, and the left moving tank rises, water is poured into the left tank, and the bottom of the tank is filled. When the buoy 5 is submerged and full of water, the buoyancy 42t is lifted by the buoyancy of 84t to lift the buoyancy, and the rod 11 is pulled up by the force of the actual buoyancy 42t, and the buoy 5 to be attached is vertically elongated cube or horizontally long. The ratio of the stroke of the float 5 to the stroke of the moving tank is set to be a cube and the output is increased by increasing the pushing and pulling force of each moving tank by leverage. And the right tank works exactly the same.

The output power is increased by lengthening the up-and-down operation stroke of the floats 5 and 6 of the left and right tanks 3 and 4 accompanying the above. Alternatively, the up and down operation stroke is shortened to increase the rotation and increase the output of the small device. In addition, the left and right tanks 1 and 2 are also vertically long tanks or horizontally long tanks so as to increase the output and reduce the volume of the power generating device for generating the novel energy of the present invention. Crankshaft 16,
16R rotates an output wheel 19 via an on / off clutch, and generates an output on an output shaft 20. In addition, it is structurally easy to arrange a plurality of power generating devices that generate new energy shown in FIG. 1 in series.

The push-pull rods 9 of the floats 5 and 6 of the device of the present invention
In place of the levers 13 and 14 connected to 10, rack rods having rack teeth carved on large and small arc gears having a ratio equal to the lever ratio are mounted instead of the rods 11 and 12 fixed to the left and right moving tanks, and the lever ends. The shift and the discrepancy are eliminated, and the curved operation of the lever is smoothly engaged with the rack teeth of the fixed rods 11 and 12 of the left and right moving tanks 3 and 4 which linearly move.

The left and right tanks of the apparatus according to the present invention will be described. The left and right tanks 1 and 2 are provided with push-pull rods 9 and 10 through the bottom of the tank and provided with a water stop ring. A steel pipe longer than the tank is fixed to the bottom of the tank, and the hollow steel pipe is dry and the water area is defined as a waterless space. There is an advantage that the bearings of the push-pull rods 9 and 10 are shut off and the lubrication is best, so that a water leakage device having a large frictional resistance is eliminated.
In addition, since the occupation hole of the steel pipe is provided at the center of the float, the buoyancy loss volume is small, but a benefit much greater than the loss can be obtained.

FIG. 3 shows the output device of the device of the present invention.
This will be described with reference to FIG. The small ends of the connecting rods 15.15R are connected to the lower ends of the push rods 9 and 10 of the left tank 1 and the right tank, and the large ends are connected to the crankpins of the crankshafts 16 and 16R. Gear 1 with the inner race of the on-off clutch fixed and mounted on the outer race via the on-off roller
7, 17R and the intermediate gear 18, 18R between the output gear 19
The output gear 19 is rotated by rotating the output gear 19 to generate an output and supply energy to the outside.

FIG. 3F shows another output device.
And will be described. The lower ends of the connecting rods 15 and 15R connected to the lower ends of the push / pull rods 9 and 10 in the left and right tanks are slid into the crankpins fixed to the outer race of the on / off clutch, and output between the crankshafts fixed to the left and right inner races. A sprocket 21 of the left crankshaft bearing the shaft 20 and a sprocket 22 fixed to the output shaft 20
Chain 2 wrapped around the chain to make it conductive and fixed to the right crankshaft 2
The chain is wound around the wheel 4 and the chain wheel 23 fixed to the output shaft 20 and the chain wheel 24 fixed to the output shaft 20 to conduct the chain. The output shaft 20 is rotated by the energy of the falling and floating of the floats 5 and 6 of the left and right tanks 1 and 2 to supply energy to the outside.

[0041]

The present invention achieves the initial object and has the following effects.

The use of harmful resource fuels currently in use can be abolished, new energy can be abundantly supplied to society at a low price, and the diffusion of harmful pollutants can be cut off to obtain a healthy fining space.

Since the energy source of the power generating device of the present invention uses the immediate gravity, the energy source can be supplied at all, and the power supply path is completely unnecessary. And easily generate new energy.

It is possible to start the operation by returning to the land, sea and air transportation equipment without fuel at the time of operation departure without fuel and continue to receive the gravitational energy of the area during operation.

In a wartime or emergency situation, a very large facility such as a nuclear power plant becomes an enemy's target and becomes difficult to operate. Since the target cannot be set, the safety operation rate increases.

According to the present invention, it is possible to easily increase the upper and lower travel distances of the floating body, which is the source for generating the output, and to easily increase the generated output.

The weight of each floating body serving as an output source according to the present invention can be easily set to a large value per ton, and the output can be easily increased.

The energy source for the operation of the power generating device of the present invention and the operation of the device for producing the new energy is not interrupted at all, and is extremely safe because it is controlled externally and does not interfere.

[Brief description of the drawings]

FIG. 1 is a front cross-sectional view of a power generating device that generates new energy.

FIG. 2 is an operation diagram of an activation device. a Operation diagram showing the first stroke b Operation diagram showing the second stroke

FIG. 3 is an operation diagram of an activation device. a Operation diagram showing the third stroke b Operation diagram showing the fourth stroke

FIG. 4 is a front sectional view showing a portion of an increasing and decreasing weight of the activation device. a Equilibrium diagram when the chain weights 7W and 8W are placed on the gantry with the empty tank without water b. Equilibrium diagram when the chain weights 7W and 8W leave the gantry with the full tank and c Water with the empty tank water Equilibrium diagram with weights 7N and 8N submerged and no water weight d Equilibrium diagram with water tank full and water weights 7N and 8N pulled up and balanced

FIG. 5 is a front cross-sectional view showing the installation of the draining bulkhead pipes at the portions of the increase / decrease weights 7A and 8A and the center of each of the left and right tanks of the activation device. a Equilibrium diagram in which the moving tank is empty and the air tank has no buoyancy above the water. b An equilibrium chart in which the moving tank is full and the air tank is submerged to balance the buoyancy. c Longitudinal sectional view showing a dry vertical bearing of push-pull rods 9 and 10 in the drainage bulkhead pipe with the drainage bulkhead pipe installed in the center of the left and right tanks. d The system of the hydraulic lock device at the vertical dead center of the floating operation Sectional view.

FIG. 6 is a perspective view showing a structure of an output generation device of the activation device. a Diagram of the crankshaft fixed to the inner race of the on-off clutch b Diagram of crankshaft fixed to the outer race of the on-off clutch

FIG. 7 is a front cross-sectional view of an experimental device in which the operation of the activation device was actually tested and confirmed.

[Explanation of symbols]

Reference Signs List 1 left tank 2 right tank 3 left moving tank 4 right moving tank 5, 6 float 7L, 8R firing 7W, 8W, 7N, 8N, 7A, 8A increase / decrease weight 9,10 push / pull rod 11,12 rod 13,14 lever 15 , 15R connecting rod 16, 16R crankshaft 17, 17R on / off clutch 18, 18R intermediate gear 19, output gear 20 output shaft 21, 22, 23, 24 chain wheel 25, 26 communication pipe 27, 28 fixed pipe 29, 30 sleeve pipe 31 Water area 32, 32R Inner wall pipe a, rope b, c Pulley I, II Hydraulic lock cylinder III, IV Lock piston VI, VII Servo valve VIII Electromagnetic switching solenoid

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[Procedure amendment]

[Submission Date] December 13, 1999 (1999.12.
13)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction details] Full text of the specification

Claims (3)

[Claims] 1. A method for producing new energy in which energy is supplied to the outside while increasing its own internal energy by repeatedly generating new energy by the following method. 1. Drop the float from the upper part of the left tank and link the link to push up the right dynamic tank that has been pulled up by the spring and submerge the float in the right tank with the communication pipe to fill the tank. 2. Raise the buoyancy of the submerged float in the right tank and link the links to push up the left dynamic tank pulled up by the splicer, and submerge the float in the left tank by the communication pipe to fill it with water. 3. Raise the buoyancy of the submerged float in the left tank, link the link and pull down the right moving tank from the empty space where the spring is attached. 4 Drop the float suspended on the right tank from the empty tank, link the links, pull down the left moving tank, move all the water in the left tank by the communication pipe, reach the lower limit, empty the left tank, and repeat immediately. And repeat steps 1 to 4. 2. A bottomed left tank 1 and a right tank 2 are fixed side by side in the center of a horizontal frame, inner wall pipes 32 and 32R are fixed through the center of each tank bottom, and push-pull rods 9 and 10 are dry bearings in the pipe inner wall. Then left push rod 9
Is a push-pull rod that connects the lever 13 and connects the right end of the lever to the lower end of the rod 12 of the right moving tank 4, and the push-pull rod 10 connects the lever 14 and connects the lower end of the rod 11 of the left moving tank 3 to the left end. Connecting connecting rods 15, 15R between the lower ends of 9, 10 and the crankshafts 16, 16R,
Turns on / off the crankshafts 16 and 16R, clutches 17 and 1
7R is fixed to the inner race, and the output gear 19 is meshed with the gears 18 and 18R meshed with the fixed gear of the outer race.
The left and right moving tanks 3 filled with water
A power generating device for generating new energy, characterized in that 4 is pulled up by the firing lines 7 and 8 and is constantly increased / decreased and balanced. 3. An apparatus for producing new energy, wherein various types of energy converters are connected to an output shaft for generating new motive energy of the power generator according to claim 2, and are rotated to produce and supply new energy.