WO2022257275A1 - Method and apparatus for outputting energy by means of working of gravitational force and centrifugal force - Google Patents

Abstract

Disclosed are a method and apparatus for outputting energy by means of working of gravitational force and centrifugal force. In a water body having a depth of H, bottom input gas work A and bubble buoyancy work Q are expressed with the "law of conservation of energy" as: input gas work A = gas buoyancy work Q. However, one-second input gas power W_input is not equal to one-second gas floating power W_{gas floating}, because gas floating takes longer. When the water body is filled with bubbles from bottom to top by means of continuous gas input, the total one-second floating power of the bubbles in high H is N times the one-second input gas power, and the expression: W_{total gas floating} - W_input, is a method for obtaining new energy. Also discloses is a method for outputting fluid kinetic energy from a condensed fluid potential energy converter as new energy. The present invention provides an output method and apparatus of working with centrifugal force greater than orbiting force. The present invention relates to the technical field of fundamental physics, uses the time accumulation of input work to make buoyancy, gravitational force, and centrifugal force working power greater than input power to output energy, and breaks through the law of conservation of energy.

Description

Gravity and centrifugal force work output energy method and device technical field

The present invention relates to the field of basic physics, relates to a planetary asymmetric gravitational work output method for liquid and gas and a self-circulation device, relates to a method and a device in which buoyancy work is greater than input power after the input gas power is accumulated, and relates to a method for discovering that centrifugal force is greater than orbital force work and output devices.

Background technique

The mainstream power of human beings is accompanied by: fuel-emission-waste-cost, various hydropower stations affect the ecology, wind power and photovoltaics are energy sources during bad times, and humans have not found ideal clean energy.

The previous patents and literatures of this article have never found: "The gas is condensed into a liquid flowing down the gravitational work", "The accumulated superimposed work of the buoyancy in the previous period" and "The centrifugal force is greater than the work done by the orbiting force" The method and device can generate and output power and heat other than the "Law of Conservation of Energy" , and can constitute a self-circulating work system.

Contents of the invention

The present invention discovers and utilizes: after the high-level gas is condensed, the gravity work of the liquid flowing down; the total floating power of the accumulated gas in the liquid can be greater than the input power; the centrifugal force can be greater than the output device of the work method around the force; both can generate power and heat other than the law of energy conservation , the above-mentioned energy can constitute a self-circulating system; specifically, it is realized through the following technical solutions:

1. Gravity and centrifugal force work output energy method and device, including a vertical or inclined gas-liquid pipeline 1, the bottom of the gas-liquid pipeline 1 inputs mechanical energy gas or can generate mechanical work A of bubbles, the height of the gas-liquid pipeline is H, and the height of the gas-liquid pipeline is h Liquid 2, the bubbles generate upward buoyancy f, the liquid is added to the bubbles to form 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 of the gas-liquid pipeline by the buoyancy of the gas:

f bubble buoyancy = f discharge = pvg;

v is the volume of bubbles to discharge liquid;

g is the acceleration;

p is liquid density=m/v;

The mass m of the liquid discharged by the bubble v is actually unchanged, and the static pressure of the bubble input position P=p ₂ h, p ₂ is the total density of the liquid after adding the gas p ₂ =m/V ₂ ; V ₂ is the total volume of the gas-liquid mixture, V ₂ Increase to make the input bubble point pressure P=p ₂ h unchanged, when the input gas work A is a fixed value, the total buoyancy F of the gas does work Q=pvgnh ₂ , n is the total number of gas in the height H, h ₂ is the floating height of the gas per unit time, The pipeline height H determines the total gas volume nv and the gas floating height of h ₂ , and the method of setting the parameters in pvgnh ₂ to achieve the best ratio, using the increase of the gas floating work Q sum to the input gas work or bubble mechanical work A as the energy production method.

2. Including the condensed fluid potential energy converter 3 installed at the highest position of the system. In the cooling environment 4, the condensed fluid potential energy converter 3 is a closed pipeline structure, with an inlet at one end and a fluid power gathering tube extending downwards at the other end 5. When gas or gas-liquid mixture is input at the inlet of the condensing fluid potential energy converter 3, the cooling environment 4 condenses it into a refrigerant liquid 2, and when the height of the hydrodynamic gathering tube 5 connected to the lower outlet is h, its gravitational potential energy = mgh, m is the mass, g is the acceleration of gravity, the height h of the fluid power collecting tube is between 1 meter and tens of thousands of meters, the outlet kinetic energy W=1/2mU2 of the lower end of the fluid power collecting tube 5, U is the flow velocity, kinetic energy or pressure energy W= mg(h-h2), h2 is the height of the liquid at the outlet, so that the gas or gas-liquid mixture is converted into high-grade potential energy and kinetic energy to output energy, and the outlet under the fluid power collecting tube 5 is connected to the power shaft or generator 6, and the fluid The lower end of the power gathering tube 5 can adopt a U-shaped structure.

3. The outlet of the condensed fluid potential energy converter 3 is connected in series with the fluid power gathering tube 5 at a height h, and then connected in series with the power heat converter 7 through a U-shaped structure, and connected upward to the inlet of the condensed fluid potential energy converter 3 through the gas-liquid pipeline 1 , the power heat converter 7 is a pipeline helical coil or an internal turbine structure, the system is sealed and pumped air is filled with a phase-change working medium, and the phase-change working medium includes 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 matches the endothermic temperature and reaches the low-pressure boiling point of water, water can also be used as a phase-change cycle working medium, and the power heat converter 7 can also be used to absorb environmental heat Q _absorption , the fluid power gathering tube 5 produces the fluid kinetic energy work Q _work to promote circulation, so that the condensed fluid potential energy converter 3 releases heat Q _total =absorbs ambient heat Q _suction +fluid kinetic energy work Q _work , that is: the total release heat Q _total −absorbed heat Q Addition of _suction is a method for producing energy, and the fluid power gathering pipe 5 and the gas-liquid pipeline 1 can be equipped with a heat insulation sleeve 8, and the heat insulation sleeve 8 can be heat-insulated by foaming or vacuum layer.

4. Including a condensed fluid potential energy converter 3, which is arranged in the cooling environment 4 at the highest position, and a gas-liquid separator 9 is connected in series between the inlet of the condensed fluid potential energy converter 3 and the upper port of the gas-liquid pipeline 1, and the condensed fluid potential energy converter 3 The fluid power gathering pipe 5 connected to the outlet, the U-shaped outlet at the bottom is connected to the kinetic energy gas input device 10, the gas inlet of the kinetic energy gas input device 10 is connected to the gas-liquid separator 9 through the pipeline, and the gas outlet of the kinetic energy gas input device 10 is connected to the gas-liquid pipeline 1 The lower end inlet, the system is sealed and pumped air to fill the phase change working medium, the phase change working medium includes refrigerant and carbon dioxide; the liquid accounts for 10-90% of the total volume, and the gas space accounts for 90-10% of the total volume. When the pipeline height When the endothermic temperature reaches the low-pressure boiling point of water, water can also be used as a phase-change circulating working medium. The kinetic energy gas input device 10 can use a Venturi jet or a kinetic energy power generation and gas transmission integrated machine. The fluid power gathering tube 5 and gas The liquid pipeline 1 can be externally provided with a thermal insulation sleeve 8, and the thermal insulation sleeve 8 can be thermally insulated by foaming or a vacuum layer.

5. In a water body with a depth of H, the bottom pressure P=pH, p is the liquid density, and H is the liquid height. Overcoming the pressure P, the input gas work A and the bubble buoyancy work Q are expressed as: input gas work A = gas buoyancy work Q, but the input gas power W _input in one second is not equal to the gas buoyancy power W _{air floatation} in one second, because it takes longer time for the gas to float up, when the continuous gas delivery makes the water body full of bubbles from bottom to top The total power of bubbles at different heights floating up in one second will be N times the input gas power in one second. The power is expressed as: W _{total air flotation} = NW _{gas in} , continuous gas buoyancy work W _{total air flotation} - W _{gas in} is obtained Ways to add energy.

6. Including the water container shell 11, the buoyancy screw driver 12 is arranged in the water container shell, and the buoyancy screw driver 12 constitutes a spiral cavity, and a water flow screw drive cavity 13 is provided on the hollow core of the buoyancy screw drive 12 or the outer eaves of the cavity. The spiral force of the water flow is consistent with the direction of rotation of the buoyancy screw driver 12. An overflow hole 14 is provided on the side of the lower screw plate of the buoyancy screw driver 12 to communicate with the water flow screw drive chamber 13. The bottom of the water container shell 11 is provided with an air intake pipe 15 connected to the air pump 16. The screw driver 12 is connected with the air pump 16 and the generator 6 through the power shaft 17, and the static water level in the system is 10-90% higher.

7. Gravity and centrifugal force work output energy method and device, including an open container 19, a mechanical chain 20, a bracket 18 is set in a water body or liquid, and the upper and lower sides of the bracket 18 are respectively provided with a wheel disc 21, between the upper and lower wheel discs 21 The mechanical chain 20 is coiled, and the open containers 19 are equidistantly arranged on the mechanical chain 20. The open containers 19 on the mechanical chain 20 on one side open downward, and the open containers 19 on the mechanical chain on the other side open upward. There is an air outlet pipe 15 connected to the air pump 16, and the wheel 21 or the mechanical chain 20 is connected to the generator 6 and the air pump 16. When the downward open container 19 is fully filled with gas, the n open containers 19 within the height H float together to a height of h ₂ , and the continuous total Buoyancy work Qtotal= _{pnvh 2} −A In order to obtain new energy, the bracket 21 and the open container 19 can also be arranged in the water container 22 .

8. It includes two vertically arranged gas-liquid pipelines 1 with a height of H and U-shaped communication at the bottom of the water pipeline 23. A plurality of open containers 19 are equidistantly arranged inside to form a ring structure connected by a mechanical chain 20. The open containers in the gas-liquid pipeline 1 The opening of 19 is downward, the opening of container 19 in the flow pipe 23 is upward, and the bottom of the gas-liquid pipeline 1 is provided with an air outlet pipe 15 connected to the air pump 16. The air makes the first open container 19 inflated and floated up, the buoyancy work and the input energy work A are conserved, and more open containers 19 are continuously input to inflate and float up, if the input gas v fills an open container 19 in one second, the height of H in the same second has n Two open containers 19 filled with gas v float up h2 at the same time. When the bottom pressure P=ph is constant and the output work A of the air pump 16 is fixed, the output buoyancy work Q sum is proportional to the total number of open containers filled with gas and the floating height h2, and the continuous gas buoyancy work Q Total=pnvh2-A is the way to obtain new energy, and ceramic materials can be used to make pipes and open floats.

9. Including: orbiting axis 24, transmission rod 25, and weight 26. The orbiting axis 24 is circled with diameter d as a circle, and is transmitted to the weight 26 through the transmission line and rod 25 with a length of L. The weight 26 circles The moving diameter D=2L+d, gradually the circumference accelerates to become the parallel plane of the centrifugal force, the work distance of the weight 25 rotation circumference = Dл, the work distance of the rotation circumference 24 around the axis 24 = dл, when the weight 25 rotates and the frequency of the rotation axis 24 When they are consistent or close to each other, the centrifugal force rotation length of the heavy object 25 is far greater than the driving force rotation length of the orbiting axis 24, and the work power of the weight 25 rotating for one second is much greater than the work power of rotating the weight 24 for one second. The centrifugal force is partly transmitted to the orbiting axis 24, realizing the centrifugal force of the weight 25-the driving force of the orbiting axis 24=output energy method.

10. Including a vacuum housing 28, the transmission line, rod 25 and weight 26 are sealed in the vacuum housing 28 to cut off air and mechanical friction, and more than two sets of weights 25 and the orbiting axis 24 can be used to cross transfer and couple Work output energy.

Beneficial effect

The mainstream power of human beings is accompanied by: fuel-emission-waste-cost, various hydropower stations affect the ecology, wind power and photovoltaics are energy sources during bad times, and humans have not found ideal clean energy.

1. The present invention utilizes the different gravitational forces of planets on gas and liquid to accumulate gas within the height H and at the same time, the work done by floating up is greater than the input energy, breaking through the "Law of Conservation of Energy" and inventing new energy sources.

2. Use pipes, containers, and the bottom of the water body to input gas and bubble volume V to bring the liquid level up. The input work is a fixed value when the bottom pressure remains constant, and the output work is proportional to the height to obtain new energy.

3. Utilize high-level gas condensing liquid gravitational potential energy W=mgH to become fluid kinetic energy at the bottom W=1/2mgU2, absorbed heat+fluid work=total heat release, and its fluid work is the increment outside the Law of Conservation of Energy.

4. Using the total power of bubbles at different heights in the water to float up in one second is greater than the input gas power in one second, and the gas buoyancy work W total air flotation - W gas input to obtain new energy method device.

5. It is found that the rotation force is transmitted to the heavy object by using the orbiting axis through the length L transmission line, and the centrifugal force power of the heavy object is greater than the input power of the orbiting axis, so as to realize a new energy output method and device.

6. A centrifugal energy receiver is installed on the outer edge of the heavy object, which is transmitted to the orbiting axis through magnetoelectricity or machinery to drive and output surplus energy as a source of various power and heat for household and industry.

7. Seal the transmission pole and heavy objects in the vacuum shell, accelerate centrifugal energy storage without air friction and mechanical friction, and eventually become the power source of aircraft, vehicles, and ships.

8. The present invention utilizes the cool-season energy of the vast cosmic planets to generate power day and night, overcomes the problem of weak power generation of photovoltaic cells at night and in winter, and brings a bright future of new energy sources for humans to migrate to planets.

9. Install the invention by recovering CO2 and various building height differences to obtain power, electricity, and heat at will, and eliminate coal, oil, and nuclear power waste; increase the income of agriculture and animal husbandry, and human beings enter the era of "carbon-free" energy.

10. Use hydrogen and helium balloons to manufacture condensing fluid power converters, fluid gravity potential energy converters as flying pipes, high-altitude low-temperature cooling environments, and absorb heat from buildings and deserts to realize cycle refrigeration power generation.

Description of drawings

Fig. 1 is a schematic diagram of Embodiment 1 of the present invention;

Fig. 2 is the 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 and Fig. 6c are schematic diagrams of Embodiment 6 of the present invention.

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

In the figure: 1. Gas-liquid pipeline; 2. Liquid; 3. Condensed fluid potential energy converter; 4. Cooling environment; 5. Fluid power gathering tube; 6. Power shaft or generator; 7. Power heat converter; Heat insulation sleeve; 9. Gas-liquid separator; 10. Kinetic energy gas input device; 11. Shell; 12. Buoyancy screw driver; 13. Flowing water drive chamber; 14. Overflow hole; 15. Air outlet pipe; 16. Air pump; 17 , power shaft; 18, bracket; 19, spoon float; 20, mechanical chain; 21, wheel disc; 22, water container; 23, water pipe; 24, orbiting axis; 25, transmission rod; 26, centrifugal weight 27, receiving energy receiver; 28, vacuum shell; height H, bubble mechanical work A, gas total buoyancy work Q, liquid height h, upward buoyancy f, f _drainage =pvg, p is liquid density, v is Bubble volume, g is acceleration, gas power W _input , gas floating power W _{air flotation} ; diameter d around the axis, transmission line L, diameter D around the weight.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

Embodiment 1, the method and device for reducing pressure by using air bubbles to float up, as shown in Figure 1 .

The inner diameter of the vertical pipe 1 is 15mm, the height H=5m, the top is open, the liquid water 2 is injected, the height h=2m, the bottom pressure P=0.2kg, the gas work A is input at the bottom, the buoyancy force f of the bubbles, and the bubbles are added to the liquid to form a gas-liquid mixture. Fill the remaining cavity of the pipeline, the remaining cavity is H-h, and the liquid is continuously pushed to the top of the gas-liquid pipeline by the buoyancy of the bubbles;

f bubble buoyancy = f discharge = pvg;

v is the volume of bubbles to discharge liquid;

g is the acceleration;

p is liquid density=m/v;

The mass m of the liquid discharged from the bubble v is actually unchanged, and the static pressure at the input position of the bubble is P=p ₂ h, p ₂ is the total density of the liquid after adding gas p ₂ =m/V ₂ ; V ₂ is the total volume of the gas-liquid mixture, and V ₂ increases Let the input bubble point pressure P=p ₂ h remain unchanged, make the input gas work A a fixed value, the total gas buoyancy F work Q=pvgnh ₂ , n is the sum of the gas in the height H, h ₂ is the floating height of the gas sum per unit time, _The pipeline height H determines the total gas volume nv and the height of h2, and the parameters in _pvgnh2 are set to achieve the best ratio method, so that the _sum of gas buoyancy and liquid floating work Q is greater than the input mechanical energy gas work or bubble mechanical work A to produce energy.

Embodiment 2, the method and device for obtaining energy by cold energy driving circulation, as shown in Figure 2-a.

Human beings have countless abandoned oil wells and mines with a depth of hundreds to thousands of meters every year. The present invention can be transformed into power generation and three-dimensional agriculture. First, the fluid power gathering pipe 5 is laid out by using the depth h of the shaft, and the U-shaped bottom is connected to the generator 6, which is spirally coiled in series The power heat converter 7 and the gas-liquid pipeline 1 are connected to the condensed fluid potential energy converter 3 above the ground, and the condensed fluid potential energy converter 3 is used as a three-dimensional agricultural heat radiator, and the underground pipeline is equipped with a foam heat insulation sleeve or a vacuum heat insulation layer 8. The system is sealed, pumped air and filled with carbon dioxide or water. The liquid 2 accounts for 60% of the total volume of the fluid power collecting tube 5 and the power heat converter, and the gas accounts for about 50% of the total volume.

Working principle: 1200 meters underground, the outlet pressure of the condensed fluid potential energy converter 3 reaches 120kg, the height of the power heat converter 7 is 50m, the bottom pressure reaches: 120-0.5=119.5kg/cm, and the high pressure difference can generate 20kw to light thousands of A LED lamp and breeding power. After power generation, the fluid depressurizes and enters the power heat converter 7 to evaporate rapidly to produce bubbles, which just absorb 45°C underground heat. The bubbles generated by heat absorption of 10kw are enough to engulf the liquid 2 through foaming and heat insulation. The gas-liquid pipeline 1 of the sleeve or vacuum insulation layer 8 enters the condensed fluid potential energy converter 3 on the ground, which acts as a three-dimensional culture tray to release heat at a temperature of 40-5°C to cool the environment 4, and recondenses into a liquid to form a reciprocating cycle. As a CO2 capture device, the controlled release or micro-leakage of the pipeline just replenishes energy for plants, bringing the most efficient green agriculture.

Emphasis is: generating work is not from absorbing heat, power-to-heat converter 7 absorbs soil heat=condensed fluid potential energy converter 3 releases heat and " law of conservation of energy " coincides, but fluid power gathering tube 5 gravitational potential energy A=mgh (119.5kg/ cm), to the fluid kinetic energy work A2=1/2mU2, that is, the power generation work is the energy outside the "law of energy conservation", and can be greater than the heat absorption power, subverting the theory that energy cannot be produced or disappeared out of thin air. Relying on the discovery and application of planetary cold energy and gravitational self-circulation work, it becomes the second new energy production method of the present invention.

Various literatures before the present invention have patents on endothermic self-circulation, and it has never been found that the gravitational work of condensed liquid can produce heat beyond the "Law of Conservation of Energy". Traditional heat pump technology: absorbed heat + driving power = total heat release COP>1, but the total heat release is still conserved. The discovery and application of the gravitational-buoyancy inequality of the present invention will generate huge economic benefits and completely subvert traditional energy sources.

If the power heat converter 7 is set as the roof of the building, the condensing power converter 3 is made into a hydrogen and helium airship, and the gas-liquid pipeline 1 and the fluid power gathering tube 5 are used to fly to high altitude, and the outlets of the fluid power gathering tube 5 are connected in series The generator 6 completes free heat release for cooling and clean power generation.

Embodiment 3, the structure is shown in accompanying drawing 3.

Replace the power heat converter 7 in the embodiment 2 with the power gas input device 10, set a gas-liquid separator 9 at the inlet of the condensing power converter 3, and its gas pipe outlet is connected to the gas port of the power gas input device 10 through a pipeline, and the power gas The liquid inlet of the input device 10 is connected to the lower outlet of the fluid power gathering pipe 5 or the U-shaped structure outlet. The power gas input device 10 can adopt a Venturi ejector or a power generation gas inhaler.

Working principle: the power gas input device 10 adopts a power generation gas inhaler, and the kinetic energy of the liquid enters the power generation gas inhaler 10 and ejects the gas-liquid separator 9. The gas enters the gas-liquid pipeline 1 to become bubbles, and the buoyancy increases, so that the fluid power gathering tube 5 Increased pressure difference with the gas-liquid pipeline 1 accelerates circulation to perform work and power generation. The power gas input device 10 is smaller than the power heat converter 7, has high efficiency and saves space.

Embodiment 4: A method and device for accumulating work of buoyancy power over time, as shown in FIG. 4 .

In a water body with a depth of H, the bottom pressure P=pH, p is the density of the liquid, overcoming the pressure P=pH, the input gas work A and the bubble buoyancy work Q, the expression of the "Energy Conservation Law" is: input gas work A = air bubbles float up Work Q, but the input gas power W _{gas input in} one second is not equal to the gas floating power W _{air floatation} in one second, because it takes longer for the gas to float up. The total power of the total floating height h in one second will be N times the input gas power in one second, and the power is expressed as: W total air flotation = NW gas input, continuous gas buoyancy work W = pnvh-A is the new energy obtained method, n is the total number of bubbles. The following examples will further illustrate the verification with data.

Embodiment 5: Utilize the underwater air buoyancy to drive the screw device output energy method, as shown in Figure 5

In the water container shell 11 with a vertical height of 13.2m and a diameter of 1.15dm, a spiral cavity is formed by a buoyancy screw driver 12, and a water flow screw drive cavity 13 is provided on the hollow core of the buoyancy screw driver 12 or the outer eaves of the cavity, and the spiral water flow force Consistent with the direction of rotation of the buoyancy screw driver 12, the side of the lower screw plate of the buoyancy screw driver 12 is provided with an overflow hole 14, which communicates with the water flow screw drive chamber 13, the buoyancy screw driver 12 is connected to the generator 6, and the bottom of the water container shell 11 is provided with an air intake pipe 15 Connect air pump 16 (market finished product LP-100), electric power 100W, air output/pressure: 140L/0.42kg.

Working principle: the height of still water in the shell 11 is 4.2m, the bottom pressure: 0.42kg, the cross-sectional area: 1dm2, the upper cavity of the water container 11 is 13.2-4.2=9m, and the volume is 90L. First, use external power to make the air pump work for 40 seconds. The buoyancy of the bubbles makes the buoyant screw driver 12 rotate. When the proportion of the bubbles reaches 9m, the water surface reaches the highest position of 13.2m. , just in line with the buoyancy screw drive 12 gas push rotation direction, the outlet pressure of the air pump is 0.42kg, the gas output is 140L/60 seconds = 2.3L/second, the gas floating speed in the pipeline is: 0.23m/second, the total amount of floating gas per second It is 90L, working power=90dm×1kg×0.23m/sec×9.8=202W, generator 6 generates power twice as much as input power 100W, and supplies air pump 16 with energy output of 102W at the same time, does not include flowing water drive chamber 13 power, in Blades are provided on the buoyancy screw driver 12 to increase power. It has iconic advantages in making generator flagpoles on islands and alien planets.

Embodiment 6, the buoyancy driving method and device of ring-type connection of open container

Accompanying drawing 6a is an open water structure, accompanying drawing 6b is a container structure, and accompanying drawing 6c is a pipeline structure, using the same type of air pump, with an electric power of 132kw, at three different pressures/discharge volumes: 24.5m2/0.7MPa, 20.5m2/1.0 MPa, 17.4m2/1.2MPa, compared with work efficiency and cost, respectively described as:

1. Open work system: including an open container 19, a mechanical chain 20, a bracket 18 is set in rivers, rivers, lakes, and sea waters, the upper and lower sides of the bracket 18 are respectively provided with a wheel 21, and the mechanical chain is coiled between the upper and lower wheels 21 20. Open containers 19 are equidistantly arranged on the mechanical chain 20. The open containers 19 on one side of the mechanical chain 20 open downward, and the open containers 19 on the mechanical chain on the other side open upward. Air pipe 15 is connected with air pump 16, adopts electric air pump 16, and wheel disc 21 is connected with generator 6.

There are 120 openings on one side of the chain with downward scoop-shaped float 19, and 120 openings on the other side of the chain with upward opening container 19. The opening container 19 has a diameter of 1.8m and a height of 0.5m and a volume of 1m3 with a distance of 1m. : 17.4m2/1.2MPa, 60 seconds/17.4m3=3.44 seconds are full of an open container, first work 413 seconds (7 minutes) and 120 open downward open containers are filled with gas, the generator 6 deceleration that wheel disc 21 is connected makes float The speed synchronization is: 1m/3.44 seconds = 0.29m/second, which is consistent with the inflation speed. The simultaneous floating power of 120 open containers is: 120×1000kg×0.29m×9.8=341kw, which is 2.5 times the input power of 132KW, 341kw-132KW It can output 209kw, and the open container that reaches the top will automatically turn to open to discharge air, enter the water body and recirculate-inflate. Using SOLIDWORKS FIow Simulation, and other software can intuitively simulate the work process. Annual power generation: 200kw×24h×360 days=1728000KWH, running speed as slow as 1/3 of pedestrian speed, low noise, low wear, high efficiency, no maintenance, construction cost lower than hydropower, no fuel, no emission is the most stable and high-quality Clean power, high economic benefits, because the aeration greatly increases the oxygen content of the water, the water body can also raise fish with high yield.

2. Working system in the container: the upper and lower mechanical wheels 21, mechanical chain 20 and open container 19 made of stainless steel and plastics are arranged in the container 22, installed on one side of the elevator shaft of the building, and the generator 6 is arranged in the basement to use water to dissipate heat, such as As shown in accompanying drawing 6b, the water surface is 100m high, the bottom pressure P=10kg, the gas volume of the air pump is 20.5m2/1.0MPa, the time to fill a 1m3 open container is 2.92 seconds, and the time to fill 100 floats is 4.8 minutes, and the output is output by the generator 6 The electric deceleration makes the opening container 19 float speed 20.5m2/60=0.34m/second consistent with the filling time, and the buoyancy work power W=100×1000kg×0.34m×9.8=333kw is 2.5 times of the input power 132kw. It can directly transmit power to the elevator without worrying about power outages, and can generate annual power: 1,728,000KWH for 400 households or connected to the power grid. It can also be used as an underground garage exhaust. The heated water can be used for heating in winter, and can be used for residents to bathe in spring, summer and autumn.

3. Work system in the pipeline: a plurality of spoon-shaped floats 19 are connected in series by a mechanical chain 20 to form a ring. The mechanical chain 20 connects the air pump 16 and the generator 6. The spoon-shaped float 19 with the opening downward is arranged in the air-water pipeline 1 with the opening upward The spoon-shaped float 19 is arranged in the water pipeline 23, and the bottom of the two pipelines is connected in an arc shape. The middle height of the air-water pipeline 1 is 100m, and 100 spoon-shaped floats with a volume of 1m3 are set. The lowest opening container 19 is provided with an air inlet 15 connected to the air pump 16 , the water level before inflation in the pipeline is 70m, the pressure is P=7kg, the air pump 16 displacement/pressure: 24.5m2/0.7MPa, 60/24.5=2.45 seconds to inflate an open container, and the rising distance of the inflated open container per second is: 24.5m3 /60sec=0.408m/sec, after 100 downward opening containers are inflated, the water level rises to 100m, but the bottom water pressure P=7kg remains unchanged, the total buoyancy output: 100×1000Kg×0.408m×9.8=400kw, yes The input power is tripled, and the total output power is 400kw-input power 132kw=268kw new power. Ceramic materials are used as pipes and open floats, including sharp tops and arcs, which are anti-corrosion, wear-resistant, cheap, and use less water. They are suitable for various factory power and have excellent economic and social benefits.

Embodiment 7, method and device for asymmetrical power output of centrifugal force and circumrotational force

As shown in Fig. 7a, it includes: the force-applied orbiting diameter of the orbiting axis 24 is d, the length of the transmission line or transmission rod 25 connected to it is L, and the end is connected with a weight 26, and the orbiting diameter of the weight 26 is D=2L +d, with the diameter d of the orbiting axis 24 as a circle with added force, the rotational force is transmitted to the weight 26 through a transmission line or a transmission rod with a length of L, and the weight 25 will gather energy and gradually accelerate on the circumference until it becomes a parallel plane of centrifugal force , the working distance of the rotating circumference of the weight 25 = Dл, the working distance of the rotating circumference of the orbiting axis 24 = dл, and the time for the heavy object 25 to rotate for one revolution is slightly lower than or equal to the time for one revolution of the orbiting line or the orbiting axis 24, based on D =2L+d, the rotation length of the heavy object 25 is far greater than the length of the added force rotation of the orbiting axis 24, the work power of the weight 25 rotating for one second is greater than the work power of the rotating axis 24 for one second, and the centrifugal force of the heavy object 25-orbiting is realized Axis 24 rotational force = output energy method and device.

L length = 1m, the weight 26 is 1kg, the orbital axis force is 2kg, and the orbiting diameter is 0.1m. When the orbiting starts, the weight 26 follows the orbiting force 24 to continuously gather energy and accelerate. When the rotational speed reaches 1 revolution/second, then , the work power of the heavy object 26 for one second=1×3.14×1=3.14kgm, while the work power of the orbiting axis 24 for one second is: 0.1×3.14×2=0.628kgm, the difference between the two is 5 times. The energy receiver 27 is arranged on the edge or up and down, and the centrifugal force of the heavy object 25 is converted into electric or mechanical force output and transmitted to the drive orbiting axis 24, and energy can be output while ensuring the rotation. It can be used as a source of power and heat for household and industrial use.

As shown in Figure 7b, the heavy object 26, the orbiting axis 24, the transmission line or the transmission rod are sealed in the vacuum housing 28 to cut off air friction and mechanical friction to accelerate energy storage, including the use of magnetic levitation to drive the orbiting axis 24, and finally become an aircraft including an aircraft. , Vehicles, ships, power sources of energy. Can also adopt more than two groups of weights 25 centrifugal force and cross transmission around the axis 24, coupled work output energy.

The discovery that the centrifugal force is greater than the orbital force will change the traditional view of the universe, allowing us to discover that whether it is the centrifugal rotation of stars or planets, they generate and gather energy all the time, and continuously create cosmic matter, which makes the universe continue to grow. It also reminds us to deal with the earth and planets. The future consequences of the ever-increasing energy of the planet.

The most important contribution of the present invention to science is to break through the limitations of the "Law of Conservation of Energy". All devices manufactured by breaking through the shackles are within the protection scope of the present invention.

Claims (10)

1. Gravity and centrifugal force work output energy method and device, including vertical or inclined gas-liquid pipeline (1), the bottom of the gas-liquid pipeline (1) is the input mechanical energy gas or mechanical work A capable of generating bubbles, characterized in that the gas-liquid pipeline The height is H, the interior is the height h liquid (2), the upward buoyancy of the bubbles is f, the bubbles add the liquid to form 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 gas-liquid pipeline by the buoyancy of the bubbles top;

   f bubble buoyancy = f discharge = pvg;

   v is the volume of bubbles to discharge liquid;

   g is the acceleration;

   p is liquid density=m/v;

   The mass of the liquid discharged from the bubble v is fixed, the static pressure of the bubble input point P=p ₂ h, p ₂ is the total density of the liquid after adding gas p ₂ =m/V ₂ ; V ₂ is the total volume of the gas-liquid mixture, V ₂ increases to make the input point The pressure P=p ₂ h remains unchanged, so that the input gas work A is a fixed value, the total buoyancy F of the gas works Q=pvgnh ₂ , n is the sum of the gas in the height H, h ₂ is the floating height of the gas per unit time, and the pipeline height H determines the gas The total volume nv and h ₂ float height, set the parameters in pvgnh ₂ to achieve the best ratio method, use the increase of the gas float work Q sum to the input gas work or bubble mechanical work A as the energy production method.
2. The energy output method and device of gravitational force and centrifugal force are characterized in that the condensed fluid potential energy converter (3) at the highest position of the system is arranged in the cooling environment (4) as a closed pipeline structure, and one end is provided with an inlet, and the other end is connected to There is a fluid power gathering tube (5) extending downward. When gas or gas-liquid mixture is input into the inlet of the condensing fluid potential energy converter (3), the cooling environment (4) condenses it into liquid (2). When the fluid power gathering tube (5) When the height is h, its gravitational potential energy=mgh, m is the quality of the liquid (2), g is the acceleration of gravity, and the height h of the hydrodynamic gathering tube (5) is between 1 meter and tens of thousands of meters, and the lower end outlet liquid ( 2) Kinetic energy W=1/2mU ² , U is the flow rate, kinetic energy or pressure energy W=mg(hh ₂ ), h ₂ is the height of the liquid at the outlet, so that the heat energy of the gas or gas-liquid mixture is converted into high-grade potential energy and kinetic energy so that To output energy, connect the power shaft, generator (6) or throttle valve at the lower outlet of the fluid power gathering tube (5), and the lower end of the fluid power gathering tube (5) can adopt a U-shaped structure.
3. The gravitational force and centrifugal force work output energy method and device according to claim 2, comprising a power-to-heat converter (7), characterized in that the outlet of the condensed fluid potential energy converter (3) is connected in series with the fluid power gathering tube (5) downward The height h is connected to the power-to-heat converter (7) in series through the U-shaped structure, and the inlet of the condensed fluid potential energy converter (3) is connected upward through the gas-liquid pipeline (1), and the power-to-heat converter (7) is a tube Helical winding or internal turbine structure, the system is sealed and pumped to fill the phase change working medium, the phase change working medium includes refrigerant and carbon dioxide; the liquid accounts for 10-90% of the total volume, and the gas space accounts for 90-10% of the total volume. When the height of the pipeline matches the endothermic temperature and reaches the low-pressure boiling point of water, water can also be used as a phase-change circulating working fluid, and the power heat converter (7) can also be used to absorb ambient heat Q _absorption , and the fluid power gathering tube (5) Generate fluid kinetic energy work Q _work to promote circulation, so that the condensed fluid potential energy converter (3) releases heat Q _total =absorbs ambient heat Q _suction +fluid kinetic energy work Q _work , that is: the added value of the total released heat Q _total -absorbed heat Q _suction is In the energy production method, the fluid power gathering pipe (5) and the gas-liquid pipeline (1) can be equipped with a heat insulation sleeve (8), and the heat insulation sleeve (8) can adopt foam heat insulation or vacuum layer heat insulation.
4. Gravity according to claim 1, centrifugal force work output energy method and device, comprise condensed fluid potential energy converter (3), be arranged in the highest position cooling environment (4), it is characterized in that, described condensed fluid potential energy converter ( 3) A gas-liquid separator (9) is connected in series between the inlet and the upper port of the gas-liquid pipeline (1), the fluid power gathering pipe (5) connected to the outlet of the condensed fluid potential energy converter (3), and the U-shaped outlet at the bottom is connected The kinetic energy gas input device (10), the gas inlet of the kinetic energy gas input device (10) is connected to the gas outlet of the gas-liquid separator (9) through a pipeline, and the outlet of the kinetic energy gas input device (10) is connected to the lower end inlet of the gas-liquid pipeline (1), and the system Sealed pumping air is filled with phase-change working fluid, which includes refrigerant and carbon dioxide; the liquid accounts for 10-90% of the total volume, and the gas space accounts for 90-10% of the total volume. When the pipeline height matches the heat absorption temperature to reach When the low-pressure boiling point of water is reached, water can also be used as a phase-change circulating working medium. The kinetic energy gas input device (10) can adopt a Venturi jet or a kinetic energy power generation and gas transmission integrated machine. The fluid power gathering tube (5) and gas-liquid The pipeline (1) can be externally provided with a heat insulation sleeve (8), and the heat insulation sleeve (8) can adopt foam heat insulation or vacuum layer heat insulation.
5. The method and device for outputting energy by gravitational force and centrifugal force are characterized in that: in a water body with a depth of H, the bottom pressure P=pH, p is the liquid density, H is the liquid height, and the input gas work A and bubble buoyancy work Q are used to overcome the pressure P The expression of "Energy Conservation Law" is: input gas work A = gas buoyancy work Q, but the input gas power W _input in one second is not equal to the gas floating power _W in one second, because it takes longer time for the gas to float, when When the water body is filled with air bubbles from bottom to top by continuous gas delivery, the total power of bubbles at different heights floating up in one second will be N times the input gas power in one second. The power is expressed as: W _{total air flotation} = NW _gas input, continuous gas The buoyancy work W _{total air flotation} -W _{gas input} increase is the method to obtain new energy.
6. The gravitational force and centrifugal force work output energy method and device according to claim 5, comprising a water container housing (11), characterized in that: a buoyancy screw driver (12) is set in the water container housing (11), and the buoyancy screw driver (12) Constitute a spiral cavity, and a water flow spiral drive cavity (13) is provided at the hollow core of the buoyancy screw driver (12) or the outer eaves of the cavity, and the spiral force of the water flow is consistent with the direction of rotation of the buoyancy screw driver (12), and the buoyancy screw driver (12) The side of the lower spiral plate is provided with an overflow hole (14), which communicates with the water flow spiral drive cavity (13), and the bottom of the water container housing (11) is provided with an air inlet pipe (15) connected to the air pump (16), and the buoyancy screw driver (12 ) is connected to the air pump (16) and the generator (6) through the power shaft (17), and the static water level in the system is 10-90% higher.
7. The gravitational force and centrifugal force work output energy method and device according to claim 5, comprising an open container (19) and a mechanical chain (20), characterized in that: a support (18) is set in the water body or liquid, and the support (18) is up and down Wheel discs (21) are respectively arranged, mechanical chains (20) are coiled between the upper and lower wheel discs (21), open containers (19) are equidistantly arranged on the mechanical chains (20), and the opening containers (19) on one side of the mechanical chains (20) Open container (19) opening is downward, and the open container (19) opening on the mechanical chain on the other side is upward, is provided with outlet pipe (15) to connect air pump (16), wheel disc (21) at the bottom open container (19) position. ) or a mechanical chain (20) to connect the generator (6) and the air pump (16), when the downward open container (19) is fully filled with gas, the n open containers (19) in the height H float together to a height of h ₂ , and the total buoyancy continues Work Qtotal= _{pnvh 2} -A In order to obtain new energy, the bracket (21) and the open container (19) can also be arranged in the water container (22).
8. Gravity according to claim 5, centrifugal force work output energy method and device, comprise open container (19), mechanical chain (20), running water pipeline (23), it is characterized in that, the gas-liquid pipeline (1) of vertical arrangement and The bottom of the flow pipe (23) is connected in a U-shape, and multiple open containers (19) are equidistantly arranged inside to form a ring structure connected by a mechanical chain (20). (23) The opening of the inner opening container (19) is upward, and the bottom of the gas-liquid pipeline (1) is provided with an air outlet pipe (15) to connect the air pump (16), and the mechanical chain (20) is connected to the generator (6) or the air pump (16). The height of the water surface in the liquid pipeline is h, and the pressure is P=ph. Air is input through the outlet pipe (15) to make the first open container (19) inflated and floated. The buoyancy work of the gas and the energy of the input work A are conserved, and more openings are continuously input. The container (19) is inflated and floated up. If the input gas v fills an open container (19) in one _second , there are n open containers (19) filled with gas v in the same second at the same second. When the constant air pump (16) output work A was fixed, the output total buoyancy work Q _sum was proportional to the total number of open containers filled with gas and the floating height h ₂ , and the continuous gas total buoyancy work Q _total =pnvh ₂ -A was to obtain the added energy Method, ceramic materials can be used to make pipes and open floats.
9. Gravitational force and centrifugal force work output energy method and device, including: orbiting axis (24), transmission wire rod (25), weight (26), characterized in that: orbiting axis (24) is driven around with diameter d as a circle, Transmission line rod (25) is transmitted to weight (26) by length L, and weight (26) circles diameter D=2L+d, and gradually the circumference accelerates to become the centrifugal force plane, and weight (26) rotates circumference length acting distance= Dл, work distance of the rotation circumference around the orbiting axis (24) = dл, when the weight (26) is consistent with the rotation frequency of the orbiting axis (24), the centrifugal force rotation length of the weight (26) is greater than that of the orbiting axis (24) Rotation length, the work power of the heavy object (26) rotating for one second is greater than the driving power of rotating the orbiting axis (24) for one second, and the centrifugal force is partially transmitted to the orbiting axis (24) through the energy receiver (27) to realize heavy weight. Object (25) centrifugal force-circling axis (24) driving force=output energy method.
10. The gravitational force and centrifugal force work output energy method and device according to claim 9, comprising a vacuum housing 28, characterized in that: the transmission line, the rod 25 and the weight 26 are sealed in the vacuum housing 28 to cut off air and mechanical friction, and also More than two sets of weights 25 and the orbiting axis 24 can be adopted to cross-transmit and couple the work output energy.

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