CN117480319A

CN117480319A - Method and device for outputting energy by acting through attraction and centrifugal force

Info

Publication number: CN117480319A
Application number: CN202180099497.5A
Authority: CN
Inventors: 奉政一
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-10
Filing date: 2021-08-26
Publication date: 2024-01-30
Also published as: WO2022257275A1

Abstract

The invention discloses a method and a device for outputting energy by acting by attraction and centrifugal force, wherein in a water body with depth H, the bottom input gas work A and bubble buoyancy work Q are expressed as follows by the following expression of the law of conservation of energy: input gas work a=gas buoyancy work Q, but one second input gas power W _{Input device} But is not equal to one second of gas floating power W _{Air floatation} Because the gas floats up and takes longer time, when the bubbles are filled in the water body from bottom to top by continuously conveying the gas, the total floating power of the bubbles in the high H for one second is N times of the input gas power in one second, and the expression is as follows: w (W) _{Total air floatation} ‑W _{Input device} To obtain a new energy method. A method for converting the fluid kinetic energy output by the condensed fluid potential energy converter into new energy is also disclosed. The invention relates to a method and a device for outputting work by using centrifugal force larger than winding force. The invention relates to the technical field of basic physics, which utilizes time accumulation of input work to change buoyancy, attraction and centrifugal force to work power larger than input power and output energy, and breaks through the law of conservation of energy.

Description

Method and device for outputting energy by acting through attraction and centrifugal force

Technical Field

The invention relates to the field of basic physics, in particular to a method and a device for outputting asymmetric gravitation acting of liquid and gas by using a planet and a self-circulation device, and relates to a method and a device for outputting buoyancy acting of the accumulated input gas power to be larger than the input power; relates to a method for applying centrifugal force to apply work and an output device.

Background

The main human power modes are all accompanied with: fuel-discharge-waste-cost, various hydropower stations affect ecology, wind power and photovoltaic are poor energy sources, and people do not find ideal clean energy sources.

None of the patents, literature has been found before: the method and the device for condensing gas into liquid downflow gravity work, buoyancy accumulation superposition work in the previous period and centrifugal force larger than power-winding work can generate power and heat outside of output 'energy conservation law', and can form a self-circulation work system.

Disclosure of Invention

The invention discovers and uses: liquid downward flow gravity work after high-order gas condensation; the total floating power of accumulated gas in the liquid can be larger than the input power; centrifugal force can be larger than the output device of the power-winding acting method; can generate power and heat outside the law of conservation of energy, and the energy can form a self-circulation system; the method is realized by the following technical scheme:

1. the method and the device for outputting energy by acting through attraction and centrifugal force comprise a vertical or inclined gas-liquid pipeline 1, wherein mechanical energy gas is input into the bottom of the gas-liquid pipeline 1 or bubble mechanical work A can be generated, the height of the gas-liquid pipeline is H, the height H of the liquid 2 is the direction part, the bubbles generate upward buoyancy force f, the liquid is added into the bubbles to become a gas-liquid mixture to fill the remaining cavity of the pipeline, the remaining cavity is H-H, and the liquid is continuously pushed to the top end of the gas-liquid pipeline by the gas buoyancy force:

fbubble buoyancy = fdrain = pvg;

v is the bubble volume of the displaced liquid;

g is acceleration;

p is liquid density = m/v;

the bubble v is discharged with a practically constant liquid mass m, and the bubble input position resting pressure p=p ₂ h，p ₂ Total density p after addition of gas to liquid ₂ ＝m/V ₂ ；V ₂ V is the total volume of the gas-liquid mixture ₂ Is increased by an input bubble point pressure p=p ₂ h is unchanged, when the input gas work A is a fixed value, the total buoyancy force F of the gas does work Q=pvgnh ₂ N is the total number of gases in the height H, H ₂ The gas floating height per unit time and the pipeline height H determine the total volumes nv and H of the gas ₂ The gas floating height is set to pvgnh ₂ The medium parameter reaches the optimal proportioning method, and the increment of the sum of the floating work Q of the gas to the input gas work or the mechanical work A of the bubbles is used as the energy production method.

2. The system comprises a condensing fluid potential energy converter 3 arranged at the highest position of the system, wherein in a cooling environment 4, the condensing fluid potential energy converter 3 is of a closed pipeline structure, one end is provided with an inlet, the other end is connected with a downwardly extending fluid power collecting pipe 5, when gas or gas-liquid mixture is input into the inlet of the condensing fluid potential energy converter 3, the cooling environment 4 condenses the gas or gas-liquid mixture into refrigerant liquid 2, when the height of the fluid power collecting pipe 5 connected with the lower outlet is h, the gravitational potential energy= mgh, m is mass, g is gravitational acceleration, the height h of the fluid power collecting pipe is between 1 meter and tens of thousands of meters, the outlet kinetic energy W=1/2 mu2 at the lower end of the fluid power collecting pipe 5 is the flow velocity, the kinetic energy or the pressure energy W=mg (h-h 2), the h2 is the height of the outlet liquid at the lower end, so that the gas or gas-liquid mixture is converted into high-grade potential energy and kinetic energy, and the lower end of the fluid power collecting pipe 5 is connected with a power shaft or a generator 6, and the lower end of the fluid power collecting pipe 5 can adopt a U-shaped structure.

3. Condensed fluid potential energy converter 3 outletThe inlet of the power heat converter 7 is spirally coiled or an internal turbine structure, and the system is sealed, air is pumped, and phase change working media are filled, wherein the phase change working media comprise refrigerants and carbon dioxide; the liquid accounts for 10-90% of the total volume, the gas space accounts for 90-10% of the total volume, when the pipeline height is matched with the heat absorption temperature to reach the low pressure boiling point of water, the water can also be used as a phase change cycle working medium, and the power heat converter 7 can also be used for absorbing the environmental heat Q _{Suction pipe} The hydrodynamic manifold 5 generates a hydrodynamic work Q _{Work (work)} The pushing circulation makes the condensed fluid potential energy converter 3 release heat Q _{Total (S)} =absorb ambient heat Q _{Suction pipe} +fluid kinetic energy work Q _{Work (work)} The method comprises the following steps: total released heat Q _{Total (S)} Absorption of heat Q _{Suction pipe} The hydrodynamic collecting pipe 5 and the gas-liquid pipeline 1 can be externally provided with a heat insulation sleeve 8, and the heat insulation sleeve 8 can adopt foaming heat insulation or vacuum layer heat insulation.

4. The system comprises a condensed fluid potential energy converter 3, a gas-liquid separator 9 is connected in series between an inlet of the condensed fluid potential energy converter 3 and an upper port of a gas-liquid pipeline 1 in the highest cooling environment 4, a fluid power collecting pipe 5 is connected with an outlet of the condensed fluid potential energy converter 3, a U-shaped outlet at the bottom is connected with a kinetic energy gas input device 10, a gas inlet of the kinetic energy gas input device 10 is connected with a gas outlet of the gas-liquid separator 9 through a pipeline, a gas outlet of the kinetic energy gas input device 10 is connected with a lower end inlet of the gas-liquid pipeline 1, and the system is sealed to pump air and charge phase change working media which comprise refrigerants and carbon dioxide; the liquid accounts for 10-90% of the total volume, the gas space accounts for 90-10% of the total volume, when the pipeline height is matched with the heat absorption temperature to reach the low pressure boiling point of water, the water can also be used as a phase change circulating working medium, the kinetic energy gas input device 10 can adopt a Venturi ejector or a kinetic energy power generation and gas transmission integrated machine, the hydrodynamic force collecting pipe 5 and the gas-liquid pipeline 1 can be externally provided with a heat insulation sleeve 8, and the heat insulation sleeve 8 can adopt foaming heat insulation or vacuum layer heat insulation.

5. In a water body with depth of H, the bottomPartial pressure p=ph, P is liquid density, H is liquid height, and overcoming pressure P input gas work a and bubble buoyancy work Q uses the expression "law of conservation of energy" as follows: input gas work a=gas buoyancy work Q, but one second input gas power W _{Input device} But is not equal to one second of gas floating power W _{Air floatation} Because the gas floats up and takes longer time, when bubbles are filled in the water body from bottom to top by continuously conveying the gas, the total power of the air bubbles with different heights for one second floating up height is N times of the power of the input gas in one second, and the power is expressed as: w (W) _{Total air floatation} ＝NW _{Gas inlet} Continuous gas buoyancy work W _{Total air floatation} -W _{Gas inlet} To obtain new energy.

6. The buoyancy type water level automatic control device comprises a water container shell 11, wherein a buoyancy screw driver 12 is arranged in the water container shell, a screw cavity is formed by the buoyancy screw driver 12, a water flow screw driving cavity 13 is formed in the hollow core or the outer eave of the buoyancy screw driver 12, the water flow screw force below the water flow screw driver is consistent with the rotation direction of the buoyancy screw driver 12, an overflow hole 14 is formed in the side of a lower screw plate of the buoyancy screw driver 12 and is communicated with the water flow screw driving cavity 13, an air inlet pipe 15 is arranged at the bottom of the water container shell 11 and is connected with an air pump 16, the buoyancy screw driver 12 is connected with the air pump 16 and a generator 6 through a power shaft 17, and the static water level in the system is 10-90%.

7. The method and device for doing work by attraction and centrifugal force comprises an open container 19 and a mechanical chain 20, wherein a bracket 18 is arranged in a water body or liquid, wheel discs 21 are respectively arranged on the upper part and the lower part of the bracket 18, the mechanical chain 20 is coiled between the upper wheel disc 21 and the lower wheel disc 21, the open containers 19 are equidistantly arranged on the mechanical chain 20, the open containers 19 on one side of the mechanical chain 20 are downward opened, the open containers 19 on the other side of the mechanical chain are upward opened, an air outlet pipe 15 is arranged at the position of the lowest open container 19 and connected with an air pump 16, the wheel discs 21 or the mechanical chain 20 are connected with a generator 6 and the air pump 16, when the downward open containers 19 are fully filled with gas, n open containers 19 in H height share the upward floating height H ₂ Continuous total buoyancy work Q _{Total (S)} ＝pnvh ₂ -a to obtain a new energy method, the support 21 and the open container 19 may also be placed in the water container 22.

8. The method comprises the steps that two gas-liquid pipelines 1 with the height of H and vertically distributed are communicated with the bottom of a water pipeline 23 in a U shape, a plurality of open containers 19 are equidistantly arranged in the U-shaped communication way and are connected into an annular structure through a mechanical chain 20, the open containers 19 in the gas-liquid pipelines 1 are downwards opened, the open containers 19 in the water pipeline 23 are upwards opened, an air outlet pipe 15 is arranged at the bottom of the gas-liquid pipelines 1 and is connected with an air pump 16, the water surface height in the gas-liquid pipelines 1 is H, the pressure is P=ph, air is input through the air outlet pipe 15 to enable the first open container 19 to be inflated and floated, buoyancy work is conserved with input energy work A, more open containers 19 are sequentially input to be inflated and floated, if one second of input gas v is filled with one open container 19, n open containers 19 are simultaneously floated H2 in the same second H height, when the total output buoyancy work Qtotal is full of the open containers and the floating height H2 are in proportion to each other at the bottom pressure P=ph, and the continuous gas buoyancy work Qtotal=pvh 2-A is the obtained new energy increasing method, and the ceramic material and the opening can be adopted.

9. Comprising the following steps: the winding axis 24, the transmission line rod 25 and the weight 26 are wound by taking the diameter D as circumferential force, the winding axis 24 is transmitted to the weight 26 through the transmission line with the length L and the rod 25, the winding diameter D=2L+d of the weight 26 gradually accelerates to form a centrifugal force parallel surface in a circumferential way, the perimeter acting distance=Dpi of the rotation of the weight 25, the perimeter acting distance=dPi of the rotation of the winding axis 24, when the rotation of the weight 25 is consistent with or close to the frequency of the winding axis 24, the centrifugal force rotating length of the weight 25 is far greater than the driving force rotating length of the winding axis 24, the acting power of the rotation of the weight 25 is far greater than the acting power of the rotation of the winding axis 24 for one second, and the centrifugal force part is transmitted to the winding axis 24 through the energy receiver 27, so that the centrifugal force-driving force=output energy method of the weight 25 is realized.

10. The vacuum motor comprises a vacuum shell 28, wherein a transmission line, a rod 25 and a weight 26 are sealed in the vacuum shell 28 to isolate air and mechanical friction, and more than two groups of weights 25 and a winding axis 24 can be adopted to transmit and couple acting output energy in a crossing way.

Advantageous effects

1. The invention utilizes the planet to accumulate gas and liquid with different gravitation in the height H and simultaneously float upwards to apply work larger than input energy, and breaks through the law of conservation of energy to invent an emerging energy source.

2. The liquid level rises due to the gas input from the bottom of the pipeline, the container and the water body and the bubble volume V, the bottom pressure is unchanged, the input work is a fixed value, and the output work is in direct proportion to the height and the like, so that new energy is obtained.

3. The gravitational potential energy W= mgH of the liquid condensed by the high-order gas is used as the fluid kinetic energy of the bottom W=1/2 mgU, the absorbed heat and the fluid work=the total heat release, and the fluid work is an increment outside the energy conservation law.

4. The method and the device for obtaining the new energy by utilizing the gas power input by the gas buoyancy work W total air floatation-W gas input of bubbles with different heights in the water body and the total power of the floating heights in one second is larger than one second.

5. The method and the device for outputting new energy are realized by finding that the rotating force is transmitted to the weight through the length L transmission line by utilizing the winding axis, and the centrifugal force power of the weight is larger than the input power of the winding axis.

6. The centrifugal force energy receiver is arranged at the outer edge of the weight, and is transmitted to the winding axis through magneto-electricity or machinery to drive and output the surplus energy as various power and heat sources for household and industry.

7. The driving wire rod and the weight are sealed in a vacuum shell, acceleration centrifugal energy storage without air friction and mechanical friction is finally realized, and the power energy source including an airplane, a vehicle and a ship is finally formed.

8. The invention utilizes the energy of the vast space planet in cold season to generate electricity day and night, overcomes the problem of weak electricity generation of the photovoltaic cell at night and in winter, and brings good future of new energy of human living planet.

9. The invention is installed by utilizing various building height differences for recovering CO2, and power, electric power and heat are arbitrarily obtained, so that coal, petroleum and nuclear power waste materials are completely eradicated; the income of agriculture and animal husbandry is increased, and human beings enter the carbon-free energy era.

10. The condensing hydrodynamic force converter is manufactured by hydrogen and helium balls, the fluid gravitational potential energy converter is used as a flying pipeline, the high altitude and low temperature are used as cooling environments, and the heat of building groups and deserts is absorbed to realize circulating refrigeration and power generation.

Drawings

FIG. 1 is a schematic diagram of an embodiment 1 of the present invention;

FIG. 2 is a schematic diagram of embodiment 2 of the present invention;

FIG. 3 is a schematic diagram of embodiment 3 of the present invention;

FIG. 4 is a schematic diagram of embodiment 4 of the present invention;

FIG. 5 is a schematic diagram of embodiment 5 of the present invention;

fig. 6a, fig. 6b, fig. 6c are schematic diagrams of embodiment 6 of the present invention.

Fig. 7a and 7b are schematic diagrams of embodiment 7 of the present invention.

In the figure: 1. a gas-liquid pipeline; 2. a liquid; 3. a condensed fluid potential energy converter; 4. cooling the environment; 5. a hydrodynamic manifold; 6. a power shaft or generator; 7. a power heat converter; 8. a heat insulating sleeve; 9. a gas-liquid separator; 10. a kinetic energy gas input device; 11. a housing; 12. a buoyant screw driver; 13. a flow driving chamber; 14. an overflow hole; 15. an air outlet pipe; 16. an air pump; 17. a power shaft; 18. a bracket; 19. spoon-shaped floater; 20. a mechanical chain; 21. a wheel disc; 22. a water container; 23. a water flow pipe; 24. an axis of rotation; 25. a transmission line lever; 26. centrifuging the weight; 27. an energy receiver is connected; 28. a vacuum housing; height H, bubble mechanical work A, gas total floating work Q, liquid height H, upward buoyancy force f, f _{Liquid discharge} = pvg, p is the liquid density, v is the bubble volume, g is the acceleration, gas power W _{Input device} Gas floating power W _{Air floatation} The method comprises the steps of carrying out a first treatment on the surface of the The diameter D of the winding axis, the transmission line L and the surrounding diameter D of the weight.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1 a method and apparatus for reducing pressure using bubble flotation is shown in figure 1.

The inner diameter of the vertical pipeline 1 is 15mm, the top of the vertical pipeline is open at the height H=5m, the liquid injection water is 2, the height h=2m, the bottom pressure P=0.2 kg, the gas work A is input at the bottom, the bubbles are floated on the air, the air bubbles are added with liquid to become a gas-liquid mixture to fill the rest cavity of the pipeline, the rest cavity is H-H, and the liquid is continuously pushed to the top end of the gas-liquid pipeline by the air bubble buoyancy;

fbubble buoyancy = fdrain = pvg;

v is the bubble volume of the displaced liquid;

g is acceleration;

p is liquid density = m/v;

the bubble v is discharged with a practically constant liquid mass m, and the bubble input position resting pressure p=p ₂ h，p ₂ Total density p after addition of gas to liquid ₂ ＝m/V ₂ ；V ₂ V is the total volume of the gas-liquid mixture ₂ Increasing let-in bubble point pressure p=p ₂ h is unchanged, so that the input gas work A is a fixed value, and the total buoyancy force F of the gas does work Q=pvgnh ₂ N is the sum of the gases in the height H, H ₂ The total gas volume nv and H is determined by the pipeline height H as the total gas floating height per unit time ₂ Height, set pvgnh ₂ Method for achieving optimal proportioning of medium parameters and realizing floating work Q of gas buoyancy wrapped liquid _{Total (S)} And greater than the input mechanical energy gas work or bubble mechanical work a to produce energy.

Example 2, method and apparatus for obtaining energy from a cold energy drive cycle, as shown in fig. 2-a.

The invention discloses a method for improving the power generation and three-dimensional agriculture of a plurality of abandoned oil wells and mines with hundreds to thousands of meters deep each year, which comprises the steps of firstly arranging a fluid power collecting pipe 5 by utilizing the depth h of a well, connecting a generator 6 at the bottom in a U-shaped way, connecting a power heat converter 7 and a gas-liquid pipeline 1 which are spirally coiled in series, connecting a condensed fluid potential energy converter 3 above the ground, wherein the condensed fluid potential energy converter 3 is used as a three-dimensional agriculture heat radiator, a foaming heat insulating sleeve or a vacuum heat insulating layer 8 is arranged outside the underground pipeline, the system is sealed, air is pumped, carbon dioxide or water is filled in the system, the liquid 2 accounts for 60 percent of the total volume and the power heat converter of the fluid power collecting pipe 5, and the gas accounts for about 50 percent of the total volume.

Working principle: the outlet pressure of the underground 1200 m condensed fluid potential energy converter 3 reaches 120kg, the height of the power heat converter 7 is 50m, and the bottom pressure reaches: 120-0.5=119.5 kg/cm, the high pressure difference can generate 20kw for lighting thousands of LED lamps and cultivating power, fluid after power generation is decompressed and enters the power heat converter 7 to be quickly evaporated to generate bubbles, the bubbles just absorb underground heat of 45 ℃, the bubbles generated by 10kw absorb heat, the buoyancy power of the bubbles is enough to wrap up the liquid 2 and pass through the gas-liquid pipeline 1 of the foaming heat insulation sleeve or the vacuum heat insulation layer 8, the bubbles enter the above-ground condensed fluid potential energy converter 3, the condensed fluid potential energy converter is used as a cooling environment 4 with the heat release temperature of a three-dimensional cultivating tray of 40-5 ℃ to be re-condensed into liquid to form reciprocating circulation, and the liquid is used as CO2 capturing equipment to controllably release or pipeline micro-leakage to just supplement energy for plants, so that the most efficient green agriculture is brought.

The key points are as follows: the power generation work is not from absorbing heat, the power heat converter 7 absorbs soil heat = the heat released by the condensing fluid potential energy converter 3 is consistent with the energy conservation law, but the fluid power collecting pipe 5 gravitational potential energy A = mgh (119.5 kg/cm) reaches the fluid power energy A2 = 1/2mU2, namely the power generation work is energy outside the energy conservation law and can be larger than the heat absorption power, the subversion energy cannot be generated by empty, and the theory of disappearance of empty cannot be generated by empty. The application is found by means of planet cold energy and gravitation self-circulation work, and the method becomes a second new energy production method.

The invention is characterized in that the heat absorption self-circulation patent in various documents always generates heat outside the 'law of conservation of energy' from the fact that the gravity function of condensed liquid is not found. Traditional heat pump technology: absorbed heat + driven power work = total heat of evolution COP >1, but total heat of evolution is still conserved. The invention discovers the application of the gravity buoyancy inequality, generates great economic benefit and thoroughly overturns the traditional energy.

If the power heat converter 7 is set as a building top cover, the condensing power converter 3 is made into a hydrogen and helium airship, the airship is flown to the high altitude by the gas-liquid pipeline 1 and the fluid power collecting pipe 5, and the outlet of the fluid power collecting pipe 5 is connected with the generator 6 in series, so that free heat release, cold supply and clean power generation are completed.

Example 3 the structure is shown in figure 3.

The power gas input device 10 is used for replacing the power heat converter 7 in the embodiment 2, a gas-liquid separator 9 is arranged at the inlet of the condensing power converter 3, the gas pipe outlet of the gas-liquid separator is connected with the gas port of the power gas input device 10 through a pipeline, and the liquid inlet of the power gas input device 10 is connected with the lower outlet of the fluid power collecting pipe 5 or the U-shaped structure outlet. The motive gas input 10 may employ a venturi jet or a motive power generation gas inhaler.

Working principle: the power gas input device 10 adopts a power generation gas inhaler, liquid kinetic energy enters the power generation gas inhaler 10 to guide gas of the gas-liquid separator 9 into the gas-liquid pipeline 1 to form bubbles, the buoyancy is increased, the pressure difference between the fluid power collecting pipe 5 and the gas-liquid pipeline 1 is increased, the acceleration cycle does work and power generation is performed, the power gas input device 10 has smaller volume than the power heat converter 7, the efficiency is high, and the space is saved.

Example 4: buoyancy power time accumulation work method and apparatus as shown in figure 4.

In a water body with depth of H, the bottom pressure P=pH, P is the density of liquid, the input gas work A and the buoyancy work Q of bubbles are overcome by the pressure P=pH, and the expression of the energy conservation law is as follows: input gas work a=bubble float work Q, but one second input gas power W _{Gas inlet} But is not equal to one second of gas floating power W _{Air floatation} Because the gas floats up for a longer time, when the bubbles are filled in the water from bottom to top by continuously inputting the gas, the total one-second floating height h of the bubbles with different heights is N times of the power of the input gas in one second, and the power is expressed as: total W air floatation = NW air inflow, continuous air floatation work W = pnvh-a is the obtained new energy increasing method, and n is the total number of bubbles. The latter embodiment will use dataVerification is further described.

Example 5: method for driving screw device to output energy by using underwater air buoyancy as shown in figure 5

In a water container shell 11 with a vertical height of 13.2m and a diameter of 1.15dm, a buoyancy screw driver 12 forms a screw cavity, a hollow core or a cavity outer eave of the buoyancy screw driver 12 is provided with a water flow screw driving cavity 13, the screw lower water flow power of the water flow screw driving cavity is consistent with the rotation direction of the buoyancy screw driver 12, the lower screw plate side of the buoyancy screw driver 12 is provided with an overflow hole 14 which is communicated with the water flow screw driving cavity 13, the buoyancy screw driver 12 is connected with a generator 6, the bottom of the water container shell 11 is provided with an air inlet pipe 15 which is connected with an air pump 16 (market finished product LP-100), the electric power is 100W, and the air outlet amount/pressure intensity is that: 140L/0.42kg.

Working principle: the static water height in the shell 11 is 4.2m, and the bottom pressure intensity is as follows: 0.42kg, cross-sectional area: 1dm2, the upper cavity of the water container 11 is 13.2-4.2=9m, the volume is 90L, the air pump is firstly operated for 40 seconds by external power, the buoyancy of the air bubble rotates the buoyancy screw driver 12, when the air bubble accounts for 9m, the air bubble at the highest position of 13.2m on the water surface is discharged from the top end, the water enters the running water driving cavity 13 from the top or overflow hole 14, the internal reverse spiral downflow pushing force is just consistent with the pushing and rotating direction of the air of the buoyancy screw driver 12, the air pump outlet pressure is 0.42kg, the air outlet quantity is 140L/60 seconds=2.3L/second, the floating speed of the air in the pipeline is as follows: the total amount of the floating gas per second is 90L, the working power=90 dm×1kg×0.23m/second×9.8=202W, the power generation of the generator 6 is doubled compared with the input power of 100W, 102W can be output while the power is supplied to the air pump 16, the power of the running water driving cavity 13 is not contained, and the power can be increased by arranging blades on the buoyancy screw driver 12. The method has the characteristic advantage that islands and ectoballs are made into generator flagpoles and the like.

Example 6 buoyancy driven method and apparatus for open vessel ring connection

Fig. 6a is an open water area structure, fig. 6b is a container structure, fig. 6c is a pipeline structure, and the same type of air pump is adopted, the electric power is 132kw, and the air pump has three different pressure intensity/exhaust rates: 24.5m2/0.7MPa,20.5m2/1.0MPa,17.4m2/1.2MPa, the comparative operating efficiency and cost conditions are described as:

1. and (3) opening a working system: the device comprises an open container 19 and a mechanical chain 20, wherein a bracket 18 is arranged in the river, the lake and the sea water, wheel discs 21 are respectively arranged on the upper side and the lower side of the bracket 18, the mechanical chain 20 is coiled between the upper wheel disc 21 and the lower wheel disc 21, the open container 19 is equidistantly arranged on the mechanical chain 20, the open container 19 on one side of the mechanical chain 20 is opened downwards, the open container 19 on the other side of the mechanical chain is opened upwards, an air outlet pipe 15 is arranged at the position of the lowest open container 19 and is connected with an air pump 16, an electric air pump 16 is adopted, and the wheel discs 21 are connected with a generator 6.

120 opening downward spoon-shaped floats 19 on one side chain, 120 opening upward opening containers 19 on the other side chain, wherein the diameter of each opening container 19 is 1.8m, the height of each opening container is 0.5m, the volume is 1m3, the spacing is 1m, and the water depth pressure is as follows: 12kg, gas output/pressure: 17.4m2/1.2mpa,60 seconds/17.4m3=3.44 seconds to fill one open container, first working for 413 seconds (7 minutes) to fill 120 open containers with gas, the wheel 21 is connected to the generator 6 to slow down so that the floating speed is synchronized as follows: 1m/3.44 seconds = 0.29 m/second, consistent with the aeration rate, 120 open vessels were simultaneously floated with a power of: 120×1000kg×0.29m×9.8=341 KW, which is 2.5 times of the input power 132KW, 341KW-132KW can output 209KW, the open container reaching the top automatically turns into open exhaust air, and enters the water body for recirculation-aeration. SOLIDWORKS FIow Simulation, etc. software can intuitively simulate the acting process. Each year, electricity can be generated: 200kw is multiplied by 24h is multiplied by 360 days= 1728000KWH, the running speed is slow to 1/3 of the pedestrian speed, the noise is low, the abrasion is small, the efficiency is high, the maintenance is not needed, the construction cost is lower than that of hydropower, fuel is not needed, no emission is the most stable and high-quality clean power, the economic benefit is extremely high, the oxygen content of water is greatly improved due to inflation, and the water body can also be used for high-yield fish culture.

2. And a work-doing system in the container: the upper and lower mechanical wheels 21, the mechanical chains 20 and the open container 19 which are made of stainless steel and plastic are arranged in the container 22 and are installed on one side of a building elevator shaft, the generator 6 is arranged in a basement to dissipate heat by using water, as shown in fig. 6b, the water surface is 100m, the bottom pressure P=10 kg, and the air pump air quantity is as follows: the time for filling a 1m3 open container is 2.92 seconds, the time for filling 100 floats is 4.8 minutes, the output power of the generator 6 is used for decelerating, the floating speed of the open container 19 is 20.5m 2/60=0.34 m/second and the filling time are consistent, the buoyancy acting power W=100×1000kg×0.34m×9.8=333 kw is 2.5 times of the input power 132 kw. The power can be directly transmitted to the elevator without power failure trouble, and the power can be generated annually: 1728000KWH is used by 400 residents or is integrated into a power grid, and can be used as underground garage exhaust. The working water body can heat in winter and can be used for residents to bath in spring, summer and autumn.

3. Work doing system in pipeline: the spoon-shaped floats 19 are connected in series to form a ring by a mechanical chain 20, the mechanical chain 20 is connected with the air pump 16 and the generator 6, the spoon-shaped floats 19 with downward openings are arranged in the air water pipeline 1, the spoon-shaped floats 19 with upward openings are arranged in the water pipeline 23, the bottoms of the two pipelines are connected in an arc shape, the middle height of the air water pipeline 1 is 100m, 100 spoon-shaped floats with the volume of 1m3 are arranged, the air inlet 15 is arranged at the position of the container 19 with the lowest opening and is connected with the air pump 16, the water level 70m before inflation in the pipeline is realized, the pressure is P=7kg, and the air displacement/pressure of the air pump 16 is as follows: 24.5m2/0.7mpa, 60/24.5=2.45 seconds to inflate an open container, the distance of rise per second of the inflated open container is: 24.5m3/60 seconds = 0.408 m/second, after the 100-port down-port vessel is inflated, the water level rises to 100m, but the bottom water pressure P = 7kg is unchanged, total buoyancy output: 100×1000kg×0.408m×9.8=400 kw, which is 3 times the input power, 400kw for the total output-132 kw=268 kw for the new power. The ceramic material is adopted as the pipeline and the opening floater, such as a sharp top, an arc shape and the like, so that the pipeline and the opening floater are corrosion-resistant, wear-resistant, low in cost and low in water consumption, are suitable for being used as power of various factories, and have excellent economic and social benefits.

Example 7 method and apparatus for asymmetric Power output energy from centrifugal force and winding force

As shown in fig. 7a, includes: the force application and winding diameter of the winding axis 24 is D, the length of a connected transmission line or transmission rod 25 is L, the tail end of the transmission line or transmission rod is connected with the weight 26, the winding diameter D=2L+d of the weight 26 is circumferentially applied and surrounds the winding axis 24, the rotation force is transmitted to the weight 26 through the transmission line or transmission rod with the length of L, the weight 25 gathers energy and gradually accelerates circumferentially until the parallel surface becomes a centrifugal force, the circumferential acting distance=D pi of the weight 25 rotates, the circumferential acting distance=d pi of the winding axis 24, and when the rotation time of the weight 25 is slightly less than or equal to the rotation time of the winding line or the winding axis 24, the rotation length of the weight 25 is far greater than the force application rotation length of the winding axis 24 based on D=2L+d, and the one second acting power of the rotation of the weight 25 is greater than the one second acting power of the winding axis 24, so that the centrifugal force of the weight 25-the winding axis 24 = output energy method and the device are realized.

L length=1m, weight 26 is 1kg, winding axis force 2kg, winding diameter 0.1m, when winding starts, weight 26 continuously gathers energy acceleration along with winding force 24, when the rotation speed reaches 1 circle/second, at this time, weight 26 one second acting power=1×3.14×1=3.14 kgm, and winding axis 24 one second acting power is: 0.1×3.14×2= 0.628kgm, which are 5 times different, and an energy receiver 27 is arranged at the outer edge or upper and lower sides of the weight 25 to convert the centrifugal force of the weight 25 into electric power or mechanical force to be output to the driving winding axis 24, so that the rotation is ensured and the energy can be output. Becomes a source of various power and heat sources for household and industry.

As shown in fig. 7b, the weight 26, the winding axis 24, the transmission line or transmission rod are sealed in the vacuum shell 28 to isolate air friction and mechanical friction for accelerating energy storage, including using magnetic levitation to drive the winding axis 24, and finally the power energy source including an airplane, a vehicle and a ship is formed. Centrifugal force and cross transfer and coupling of work output energy about the axis of motion 24 including more than two sets of weights 25 may also be employed.

The discovery that centrifugal force is larger than winding force changes the traditional universe, so that the centrifugal rotation of stars and planets can be discovered to generate and collect energy at any moment, universe substances are continuously created, universe is continuously increased, and future consequences of continuously increasing energy of the earth and planets are also suggested to be dealt with.

The most important contribution of the invention to science is breaking through the limitation of the law of conservation of energy, and all devices manufactured by breaking through the restriction are within the protection scope of the invention.

Claims

The method and the device for outputting energy by acting through gravitation and centrifugal force comprise a vertical or inclined gas-liquid pipeline (1), wherein the bottom of the gas-liquid pipeline (1) is provided with a mechanical energy gas input or can generate bubble mechanical work A;

fbubble buoyancy = fdrain = pvg;

v is the bubble volume of the displaced liquid;

g is acceleration;

p is liquid density = m/v;

the bubble v is discharged from the liquid with fixed quality, and the static pressure P=p of the bubble input point ₂ h，p ₂ Total density p after addition of gas to liquid ₂ ＝m/V ₂ ；V ₂ V is the total volume of the gas-liquid mixture ₂ Increasing let-in point pressure p=p ₂ h is unchanged, so that the input gas work A is a fixed value, and the total buoyancy force F of the gas does work Q=pvgnh ₂ N is the sum of the gases in the height H, H ₂ The gas floating height per unit time and the pipeline height H determine the total volumes nv and H of the gas ₂ Floating height, set pvgnh ₂ The medium parameter reaches the optimal proportioning method, and the increment of the sum of the floating work Q of the gas to the input gas work or the mechanical work A of the bubbles is used as the energy production method.
The method and device for outputting energy by acting through gravitation and centrifugal force is characterized in that a condensing fluid potential energy converter (3) at the highest position of a system is arranged in a cooling environment (4) and is of a closed pipeline structure, one end of the condensing fluid potential energy converter is provided with an inlet, the other end of the condensing fluid potential energy converter is connected with a downwardly extending fluid power collecting pipe (5), when gas or gas-liquid mixture is input into the inlet of the condensing fluid potential energy converter (3), the condensing fluid potential energy converter is condensed into liquid (2) through the cooling environment (4), when the height of the fluid power collecting pipe (5) is h, the gravitational potential energy= mgh, m is the mass of the liquid (2), g is gravity acceleration, the height h of the fluid power collecting pipe (5) is between 1 meter and tens of thousands of meters, and the kinetic energy W=1/2 mU of the liquid (2) is output at the lower end of the condensing fluid potential energy converter (4) ² U is the flow velocity, kinetic energy or pressure energy w=mg (h-h ₂ ),h ₂ The heat energy of gas or gas-liquid mixture is converted into high-grade potential energy and kinetic energy to output energy for the height of liquid at the outlet end, a power shaft, a generator (6) or a throttle valve is connected to the lower outlet of the fluid power collecting pipe (5), and the lower end of the fluid power collecting pipe (5) can be in a U-shaped structure.
The method and the device for outputting energy by acting through gravitation and centrifugal force according to claim 2, comprising a power heat converter (7), and are characterized in that an outlet of the condensing fluid potential energy converter (3) is connected with a fluid power collecting pipe (5) in series at a downward height h, the condensing fluid potential energy converter is connected with the power heat converter (7) in series through a U-shaped structure in an upward way, the power heat converter (7) is connected with an inlet of the condensing fluid potential energy converter (3) through a gas-liquid pipeline (1), the power heat converter (7) is in a pipeline spiral winding or internal turbine structure, and the system is sealed, pumped with air and filled with a phase change working medium, wherein the phase change working medium comprises a refrigerant and carbon dioxide; the liquid accounts for 10-90% of the total volume, the gas space accounts for 90-10% of the total volume, when the pipeline height is matched with the heat absorption temperature to reach the low pressure boiling point of water, the water can also be used as a phase change cycle working medium, and the power heat converter (7) can also be used for absorbing the environmental heat Q _{Suction pipe} The hydrodynamic collecting pipe (5) generates hydrodynamic work Q _{Work (work)} The circulation is pushed to enable the condensed fluid potential energy converter (3) to release heat Q _{Total (S)} =absorb ambient heat Q _{Suction pipe} +fluid kinetic energy work Q _{Work (work)} The method comprises the following steps: total released heat Q _{Total (S)} Absorption of heat Q _{Suction pipe} The hydrodynamic collecting pipe (5) and the gas-liquid pipeline (1) can be externally provided with a heat insulation sleeve (8), and the heat insulation sleeve (8) can adopt foaming heat insulation or vacuum layer heat insulation.
The gravity and centrifugal force acting energy output method and device according to claim 1, comprising a condensed fluid potential energy converter (3) which is arranged in a cooling environment (4) at the highest position, wherein a gas-liquid separator (9) is connected in series between an inlet of the condensed fluid potential energy converter (3) and an upper port of a gas-liquid pipeline (1), a fluid power collecting pipe (5) connected with an outlet of the condensed fluid potential energy converter (3) is connected with a kinetic energy gas input device (10) at the bottom, a gas inlet of the kinetic energy gas input device (10) is connected with a gas outlet of the gas-liquid separator (9) through a pipeline, an outlet of the kinetic energy gas input device (10) is connected with a lower end inlet of the gas-liquid pipeline (1), and the system is sealed to pump air and charge a phase change working medium which comprises refrigerant and carbon dioxide; the liquid accounts for 10-90% of the total volume, the gas space accounts for 90-10% of the total volume, when the pipeline height is matched with the heat absorption temperature to reach the low pressure boiling point of water, the water can also be used as a phase change circulating working medium, the kinetic energy gas input device (10) can adopt a Venturi ejector or a kinetic energy power generation and gas transmission integrated machine, the hydrodynamic force collecting pipe (5) and the gas-liquid pipeline (1) can be externally provided with a heat insulation sleeve (8), and the heat insulation sleeve (8) can adopt foaming heat insulation or vacuum layer heat insulation.
The method and the device for outputting energy by acting through attraction and centrifugal force are characterized in that: in a water body with depth of H, bottom pressure P=pH, P is liquid density, H is liquid height, and the expression of the energy conservation law for overcoming the pressure P input gas work A and bubble buoyancy work Q is as follows: input gas work a=gas buoyancy work Q, but one second input gas power W _{Input device} But is not equal to one second of gas floating power W _{Air floatation} Because the gas floats up and takes longer time, when bubbles are filled in the water body from bottom to top by continuously conveying the gas, the total power of the air bubbles with different heights for one second floating up height is N times of the power of the input gas in one second, and the power is expressed as: w (W) _{Total air floatation} ＝NW _{Gas inlet} Continuous gas buoyancy work W _{Total air floatation} -W _{Gas inlet} The increment is a method for obtaining new energy.
The gravitational, centrifugal force work-producing and energy-outputting method and apparatus of claim 5, including a water container housing (11), characterized by: the buoyancy screw driver (12) is arranged in the water container shell (11), a screw cavity is formed by the buoyancy screw driver (12), a water flow screw driving cavity (13) is formed in the hollow core or the outer eave of the buoyancy screw driver (12), the flowing screw force of the water flow is consistent with the rotating direction of the buoyancy screw driver (12), an overflow hole (14) is formed in the side of a lower screw plate of the buoyancy screw driver (12), the water flow screw driving cavity (13) is communicated, an air inlet pipe (15) is arranged at the bottom of the water container shell (11) and is connected with an air pump (16), the buoyancy screw driver (12) is connected with the air pump (16) and a generator (6) through a power shaft (17), and the static water level in the system is 10-90%.
The method and apparatus for producing work output energy by attraction and centrifugal force according to claim 5, comprising an open container (19), a mechanical chain (20), characterized in that: the water body or the liquid is provided with a bracket (18), the bracket (18) is respectively provided with a wheel disc (21) up and down, a mechanical chain (20) is coiled between the upper wheel disc (21) and the lower wheel disc (21), the mechanical chain (20) is provided with open containers (19) at equal intervals, the open containers (19) on one side of the mechanical chain (20) are downward opened, the open containers (19) on the other side of the mechanical chain are upward opened, the position of the lowest open container (19) is provided with an air outlet pipe (15) connected with an air pump (16), the wheel disc (21) or the mechanical chain (20) is connected with a generator (6) and the air pump (16), when the downward open containers (19) are fully filled with gas, n open containers (19) in the H height are floated up together by H ₂ Continuous total buoyancy work Q _{Total (S)} ＝pnvh ₂ -a for obtaining a new energy method, the holder (21) and the open container (19) may also be arranged in the water container (22).
The method and device for outputting energy by acting through attraction and centrifugal force according to claim 5, comprising an open container (19), a mechanical chain (20) and a water pipeline (23), wherein the vertically arranged gas-liquid pipeline (1) is communicated with the bottom of the water pipeline (23) in a U-shaped way, a plurality of open containers (19) are equidistantly arranged inside and connected into an annular structure through the mechanical chain (20), the open container (19) in the gas-liquid pipeline (1) is downward in opening, the open container (19) in the water pipeline (23) is upward in opening, an air outlet pipe (15) is arranged at the bottom of the gas-liquid pipeline (1) and connected with an air pump (16), the mechanical chain (20) is connected with a generator (6) or the air pump (16), the water surface height in the gas-liquid pipeline is h, the pressure is P=ph, the air is input through the air outlet pipe (15) to enable the first open container (19) to be inflated and upward, the gas buoyancy work is kept constant with the input power A, and then more open containers (19) are inflated and upward if the input gas is input for one secondThe gas v fills an open container (19), n containers (19) filled with the gas v float up for H at the same time in the same second H ₂ When the output work A of the bottom pressure P=ph invariable air pump (16) is fixed, the total buoyancy work Q is output _{Total (S)} And the total number of the containers filled with the gas and the floating height h ₂ Proportional, total buoyancy work Q of the sustaining gas _{Total (S)} ＝pnvh ₂ -a to obtain new energy, ceramic materials can be used for the pipes and the open floats.
The method and the device for outputting energy by acting through attraction and centrifugal force comprise the following steps: -winding axis (24), -driving wire rod (25), -weight (26), characterized in that: the winding axis (24) is circumferentially driven and encircling by taking the diameter D as a circumference, the winding diameter D=2L+d of the weight (26) is transmitted to the weight (26) through a transmission line rod (25) with the length L, the winding diameter D=2L+d of the weight (26) is gradually and circumferentially accelerated to be a centrifugal force plane, the circumference acting distance=D < pi > of the weight (26) is rotated, the circumference acting distance=d < pi > of the winding axis (24) is rotated, when the rotation frequency of the weight (26) and the winding axis (24) are consistent, the centrifugal force rotating length of the weight (26) is larger than the driving rotating length of the winding axis (24), the acting power of the weight (26) is rotated for one second to be larger than the driving power of the winding axis (24), and the centrifugal force part is transmitted to the winding axis (24) through an energy receiver (27), so that the centrifugal force-driving force=output energy method of the weight (25) is realized.
The gravitational, centrifugal force work-producing and energy-outputting method and apparatus of claim 9, including a vacuum housing 28, characterized by: the transmission line, the rod 25 and the weight 26 are sealed in the vacuum shell 28 to isolate air and mechanical friction, and more than two groups of weights 25 and the winding axis 24 can be used for cross transmission and coupling of acting output energy.