WO2007076719A1 - A power output device and a generating device using the same - Google Patents

Abstract

A power output device includes a liquid container containing liquid therein, an overall supporting frame set in the said liquid container, inner and outer ring loop rails set longitudinally, a plurality of air bags, a driving chain shaped in ring and an output wheel. A wide area is formed between the said inner and outer ring loop rails along the transversal side, and a narrow area is formed along the other side. The plurality of air bags are arranged between the said inner and outer ring loop rails and mated with the said inner and outer ring loop rails. The plurality of air bags are connected by pipes, and are provided with increased volume when passing through the said wide area and decreased volume when passing through the said narrow area, thereby the air bags in the said wide area is subjected more buoyancy in water than those in the said narrow area, thus the air bags run along the said inner and outer ring loop rails. The driving chain connects the said plurality of air bags in order. The output wheel is arranged on the said overall supporting frame, and is connected to the said driving chain in order to provide the rotational power. A generating device includes the said power output device and a generator. The said generator is connected to a gear wheel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an environmentally friendly and pollution-free power output device and a power generating device using the same. BACKGROUND OF THE INVENTION As petrochemical fuel resources are declining, oil reserves are expected to be exhausted within 50 to 100 years, and new energy sources will be a major issue and task for the future development of the world. Nowadays, the world is working hard to develop new energy sources that can be independent and independent. This kind of energy is a non-polluting renewable energy source. At present, most of the world's electricity is generated by petrochemical fuel-fired power plants, such as coal and oil, but they are all non-renewable, and the reserves are very limited. More than 4 countries have no self-produced energy, most of the energy. Need to import from abroad. Countries with energy dependence on imports usually choose 2 to 3 energy sources to develop at the same time to avoid problems in the supply of a specific fuel. For example, if the price is soaring or unavailable, it will have a great impact on national security and industrial production. Another consideration for fuel supply stability is transportation and storage. After the fuel is obtained, some places need to be transported by long-distance to reach the hands of the energy-using country, and the transportation process of the fuel may be affected by the international situation. For example, once a war occurs in some areas, even if a country can buy oil in the Middle East, it cannot return to the country through the war-stricken straits, which will plague its own oil supply, based on national security considerations. A country usually stores a certain amount of fuel. Once the country is blocked or the international situation changes significantly, the supply of energy can be maintained to survive the crisis. A power plant with a capacity of 1,000 megawatts, if coal is used as fuel, requires 200 to 3 million metric tons of coal a year. If oil is used, it needs one to two million metric tons of oil. If natural gas is used as fuel, it will require about 2.3 million metric tons of natural gas. For nuclear power plants of the same size, the fuel required for one year is only about 30 tons, so the cost of nuclear power generation is more stable than other power generation methods. However, the cost of building a nuclear power plant is quite large. On the other hand, once a war occurs, the nuclear power plant must be the target. When it is maliciously damaged or a disaster occurs, the consequences are unimaginable. The accident of the former Soviet Union's Chernob nuclear power plant and the nuclear power plant in San Francisco, Pennsylvania, due to machine failure and human error, caused major accidents in the melting of the atomic furnace. These incidents and nuclear radiation not only threatened the lives of residents. And people are always inexplicably afraid of the invisible nuclear radiation. Therefore, the people are eager to get a more secure life, and they don’t want to build a nuclear near the place where they live and work. Power plant. Some countries with sustained economic growth and high dependence on imported energy regard nuclear power generation as quasi-self-produced energy and actively develop related nuclear power generation technologies. For these countries, the use of nuclear power generation is subject to the risk of accidents in nuclear power plants. Because nuclear power plants have lower thermal efficiency, they emit more waste heat into the environment than general fossil fuel power plants, so the thermal pollution of nuclear power plants is more serious. The investment cost of nuclear power plants is too high, and the financial risks of power companies are high. Because nuclear power generation has these shortcomings, some economic growth has been slow, and developed countries that no longer have urgent demand for electricity have temporarily stopped building nuclear power plants. . Thermal power generation will increase air pollution, worsening the global warming effect, and the climate anomaly will rise to 7 globally. According to a study on the Hong Kong Observatory on June 14, 2004, the sea level water level in Victoria Harbour has risen four times in the past 50 years. It is faster than the global average. Residents in the urban area and the New Territories feel the threat of rising water levels. It is very likely that the earth will have a disaster in the movie plot! Therefore, other environmentally friendly power generation is urgently used to ban firepower. The increase in carbon dioxide emissions from nuclear and thermal power generation has made the greenhouse effect worse. The countries of the world are bound to gather consensus in the near future to set limits on the carbon dioxide emissions of various countries to save the planet. How to balance economic growth without emitting excess carbon dioxide will be a very difficult problem. Currently, there is a slightly viable environmentally friendly power generation method; solar power solar energy is a very clean and pollution-free energy source, and it does not cause global greenhouse effect, but it is used everywhere in the earth, and it is highly practical, but it must be sufficiently stable. The sun and a lot of land, and it is useless at night! High production costs! Wind power generation wind power is the direct use of wind power to drive the wire in the generator to generate electricity. The development of such a power plant requires a large amount of land and stable and strong wind conditions, wind, electricity, no wind and no electricity! The seawater temperature difference power generation in the sea sunlight only shines on the surface of the sea and can not reach the depth, so some temperature difference between the sea surface and the deep sea can be Up to 200 °C, the current research shows that some special gases (such as ammonia) can be used. When flowing through the sea surface, the heat is turned into a gaseous state to drive the gas turbine to generate electricity. The used gas is sent to the deep sea to cool into a liquid and continue to the next cycle. As far as technology is concerned, the laying of deep-sea pipelines cannot be effectively overcome, so there is no commercial seawater temperature difference power plant in the world today. Examples of geothermal power generation; Some areas located in the Pacific Rim volcanic belt have more than 4 geothermal areas, but because of too high acidity or too little steam content, they are ultimately unable to generate electricity due to the attenuation of geothermal production. Hydroelectric power generation is a renewable energy source, but only a few places are suitable for building factories and maintaining high construction costs! Waves, power generation, unstable waves, power generation equipment and power generation equipment need to be fixed on the seabed, suffering from seawater corrosion, wave invasion and destruction, as well as poor efficiency, construction and maintenance costs are relatively high, which limits the current development of wave power generation. The various power generation methods listed above, although these energy sources do not have the disadvantages of carbon dioxide emissions and environmental pollution, but there are still other restrictions: for example; sunshine days, climate, etc. Even if the above problems can be overcome, the scale of their energy needs to be considered, because most of these renewable energy sources cannot be developed on a large scale. Whether it has an impact on landscape and ecology after its development is yet to be explored. Renewable energy technologies such as solar energy and wind energy are difficult to break through. Due to the limited hydropower resources that can be developed, thermal power generation will increase air pollution, which will worsen the global warming of the global warming, and nuclear power generation will be made more difficult due to the obstruction of some anti-nuclears! A number of people have vigorously advocated the development of non-polluting renewable energy such as solar energy and wind power, in order to balance economic development and protect the global environment. Unfortunately, solar energy, wind power generation, etc. all have weaknesses and various problems. Therefore, all kinds of problems; non-polluting environmentally-friendly renewable energy is the main direction of the present and the future. All environmentally-friendly power generation methods will be supported by the world's people, green environmental groups and investors. Our future generations and all the natural ecology of the future world. Need to be guaranteed! protection! We are eager for new inventions of non-polluting renewable energy, and it is also urgently needed! SUMMARY OF THE INVENTION It is an object of the present invention to provide a new power output apparatus that does not require the use of fuel, is small in size, convenient to store and transport, can be built anywhere, and can easily output power. Another object of the present invention is to provide a power generating device which can easily generate electric power, which is low in production cost, environmentally friendly, and can be used from a small generator to a large power plant. In order to achieve the above object, according to an aspect of the present invention, a power output apparatus includes: a liquid container having a liquid therein; an integral support frame disposed in the liquid container; and an inner and outer arrangement a loop track disposed on the integral support frame, and a wide area formed along a lateral side between the inner and outer loop circuit rails, and a narrow area formed on the other side; a plurality of air bags disposed at the inner and outer Between the loop circuits, and at the same time cooperating with the inner and outer loop circuit rails, the plurality of air vents are connected by the pipeline and have an increased volume when passing through the wide zone, and have a reduced volume through the narrow zone a small volume such that the gas enthalpy in the wide zone receives greater buoyancy in the water than in the narrow zone, thereby operating along the inner and outer ring circuit rails; driving the chain, connecting the rings in turn a plurality of air bags; and an output wheel disposed on the integral support frame and coupled to the drive chain to provide rotational power. Accordingly, there is also provided a power generating apparatus including the power output apparatus and having a generator connected to the output wheel. According to another aspect of the present invention, a power output apparatus is provided, comprising: an integral support frame; longitudinally disposed inner and outer ring circuit rails disposed on the integral support frame, and the inner and outer loop circuit rails Forming a wide zone along one side of the lateral direction and forming a narrow zone on the other side; a plurality of water bladders disposed between the inner and outer loop circuit rails and simultaneously cooperating with the inner and outer loop circuit rails A plurality of water rafts are connected by the conduit and have an increased volume as they pass through the wide zone, the reduced volume through the narrow zone, such that the water bladder in the wide zone receives a greater gravity than a water raft in the narrow zone, thereby running along the inner and outer loop circuit rails; driving the chain, connecting the plurality of water bladders in a ring shape; and an output wheel disposed on the integral support frame and connected to the The chain is driven to provide rotational power. Accordingly, there is also provided a power generating apparatus including the power output apparatus, and having a spring power storage stabilizing device and a generator, wherein the wind power storage stabilizing device is disposed at the power output device and the power generating device Between the machines to store energy and drive the generator. According to another aspect of the present invention, a power output apparatus is provided, comprising: a liquid container in which a liquid; a support frame disposed in the liquid container; a shaft center rotatably mounted on the support frame; a rising balloon arranged along the longitudinal circumference, the support is connected to the axis, and the pipes are mutually connected Connected; wherein, when a rising balloon that is offset laterally to one side with respect to the axial center is squeezed, the balloon on the other side receives a greater sum of buoyancy in the water than the balloon on the first side, thereby Driving the heart output power. According to another aspect of the present invention, a power output apparatus is provided, including: a support frame; a shaft center, rotatably mounted on the support frame; and a plurality of water-pumping water balls arranged along a longitudinal circumference, the support is connected to the support The axes are connected to each other through a pipe; wherein, when a Peng-up water ball that is deviated from one side to the other side of the axis is pressed, the sum of the gravity of the balloon on the other side in the water is greater than that of the seat The water ball on the first side drives the shaft to output power. There is also provided a power generating apparatus including the power output apparatus and the generator, the generator being connected to the power output apparatus. The liquid container referred to in the present invention may be artificial or naturally formed in nature, such as a pond, a lake, an ocean, etc., the liquid may be water, and when referring to water, any other suitable liquid is also included. . Specifically, the environmentally-friendly power output and generator device of the present invention includes a water tank, an upright overall support frame, a gear, a drive chain, an outer loop circuit rail, an inner loop circuit rail, a gas cylinder, a gas switch gate, and hardware. Trachea, soft throat, loopback ventilation duct, expansion connector, clockwork power storage stabilizer and generator; the water tank is filled with an appropriate amount of water, the water tank is provided with a water inlet drain, and the water tank is placed with an upright integrity Support frame, gear, drive chain, outer ring circuit track, inner ring circuit track, air enthalpy, hardware air pipe, soft throat, loopback ventilation pipe, etc. The upright integral support frame is responsible for supporting and solidifying the components and the rails and supporting the overall operation of the components. The integral support frame is fixed to the inner layer loop circuit and the outer ring circuit rail support is stable, and the outer rail can be adjusted to be front and rear wide. The narrow outer ring circuit is operated by the inner ring and the outer ring circuit rail, and the air bag is inserted into the inner and outer ring circuit rails, and the air bag is provided with a pressure plate and a rubber wheel to make the air bag inflated. In the whole support frame, the gear and the power output gear having the upper and lower diameters are installed in the whole support frame, and the gear is mounted on the top of the whole support frame, and the top gear function is to push the spring power reserve device to generate electricity. And the expansion connector, and the top of the overall support frame is freely selectable to install a spring power reserve stabilizer and a generator, and the top gear is a fine gear, and the upper part is connected by one or more of the above-mentioned drive chains The large-diameter gear is pushed for power output, and the upper and lower large-diameter gears are driven by one or more belts, and the driving chain is connected. Bottom branch of each airbag At the bottom of the gas cylinder, there is a vent hole and the gas switch gate, and the gas inside the gas cylinder passes through the vent switch to reach the gas or exhaust gas, and the gas switch gate at the bottom of the gas cylinder connects the hardware gas pipe, the hardware The trachea and the hardware trachea are connected by a flexible throat as described in the form of bendable stretch, and are connected in series with a plurality of hardware trachea series to form a loopback ventilation duct capable of withstanding the pressure of water, and the internal gas of the gas cylinder. It is squeezed into the other air cylinders through the loopback ventilation duct to inflate or exhaust. The outer layer and the inner layer loop track are divided into front and rear two zones, and the front zone is a wide zone in which the inner and outer ring circuit rails are parallel apart, and the wide zone is a gas passage for the inflation pendulum, and the rear zone is The inner and outer ring circuit rails are parallel to each other in a narrow narrow area, the narrow area is the gas passage through which the exhaust gas is narrowed, and the inner and outer loop circuit rails in the bottom layer of the narrow section of the rail track start at the bottom of the narrow area. 180 degrees gradually transform into a wide area. At this time, the rails gradually expand to become wide areas in parallel to the wide area. On the contrary, in the inner and outer loops of the highest level of the wide area, the rails start at the top of the wide area. The narrow zone gradually changes to a narrow zone at 180 degrees. At this time, the rail gradually narrows into a narrow zone in parallel to the narrow zone, which is the structure of the front and rear zones of the inner and outer ring circuit. The function of the loop track is gas supply. The Leica is operated in two zones before and after the inner and outer loops. The gas raft is circulated in the front and rear of the inner and outer loops, and the gas in the narrow zone must be operated downwards. The reason is that it is driven by the inflatable airbag with strong floating force and strong floating force. Drive the chain to drive the exhaust airbag back to the bottom of the water, so the air in the narrow zone must be running downwards. When the narrow zone is pulled back to the exhaust gas at the bottom of the water, the exhaust airbag at the bottom of the narrow section of the rail When it began to be pulled into the rail wide area, the pressure plate rubber wheel of the airbag was guided to the outwardly expanding rails of the wide area, pushing the pressure plate outward to gradually expand the air, and at the same time, the road was wide. The top of the high-rise area of the district gradually enters the airbag in the exhaust of the narrow section of the rail. The exhausted gas is injected into the narrow section of the rail through the loop air pipe to gradually enter the wide area, and the airbag is inflated. The principle of buoyancy in the water is like the inflatable life jacket. The principle of generating buoyancy in the water to drive the chain to run, while the other airbags in the higher layers of the railroad widen reach the top and begin to enter the narrow section of the rail. The pressure plate moon-crossing wheel is guided by the rails which are narrowed in parallel and narrowed inward, and the pressure plate is gradually narrowed inward to squeeze the gas, and the exhaust gas is simultaneously squeezed into the bottom through the loopback pipe. Gradually entering the wide area of the railroad, the air-filled air pumped up> into the narrow section of the rail, narrowing the air, and at the same time being driven by the airbag with a strong floating force, the belt is pulled back to the bottom of the water, so the airbag The exchange of gas with the gas is inflated, and the buoyancy is generated by the physical principles of nature. Through the mechanical components of the design, continuous cyclical power is generated to push the chain, and the upper and lower diameter gears are driven as the output wheel. Running, the power output gear from the upper large diameter gear side pushes the top gear through the driving chain to push the spring power reserve stabilizer generator, or connects the expansion connector to another expansion device of the device And power generation. The above device realizes the environmentally friendly generator of the power output and power generation principle of the present invention. Also available in the toy ^ green products industry. In addition, the device of the present invention can operate in reverse. The water tank does not need to be filled with water, and the outer rail only needs to be adjusted in position, and the overall structure is unchanged, but the principle is changed without using the buoyancy principle and the principle of gravity suction is used instead. The air bag is injected into the liquid into a water bag, and the loopback ventilation pipe becomes a loopback water pipe, and the liquid inside the water bag is squeezed into the other water bag through the loop back water pipe to fill the water or drain. The front and rear two zones of the outer loop circuit are adjusted in opposite directions, the front zone is a narrow zone, the narrow zone is a water bag narrowing the water supply and drainage, and the rear zone is a wide zone, and the wide zone is filled with liquid. The water bag is lowered by the water bag. The water bag in the narrow area of the front area must be running upwards. The reason is that it is driven by the liquid-filled water bag with a strong drop force in the rear area of the track, which narrows the drainage. The water bag is pulled back to the top, so the water bag in the narrow area must be running upwards. When the water bag in the narrow area of the current area is pulled back to the top, the water bag at the highest level in the narrow section of the track begins to be gradually pulled into the track wide area. Water bag pressure The rubber wheel is guided by the rails which are gradually expanded outwards in parallel to the wide area, pushing the pressure plate outward to gradually expand the water bag, and at the same time, gradually entering the water bag in the narrow section of the road at the bottom of the rail wide area, and discharging The liquid is injected into the narrow section of the rail through the loop gas pipe to gradually enter the wide area, and the water bag is filled with water. The water bag thus generates a falling force to drive the chain to run. On the contrary, the water bag at the bottom of the rail wide area reaches the bottom and gradually enters the rail. In the narrow zone, the pressure plate rubber wheel of the water bag is guided by the rail which is narrowed in parallel and narrowed inward, and the pressure plate is gradually narrowed inwardly to narrow the liquid discharge of 4 bar, and the liquid is discharged while passing through the loop return pipe. When the pressure is pushed into the top and gradually enters the railroad area, the water bag fills the water and rises. It enters the narrow section of the rail and narrows the air. At the same time, it is pulled back to the top by the water bag that drives the water bag with strong falling force in the railroad area. Therefore, the exchange of liquid between the gas and the gas is increased, and the principle of gravity is used to generate continuous and cyclical power through the design of the machine. a chain that drives the upper and lower large diameter gears to circulate, and the power output gear on the upper large diameter gear side drives the top gear through the driving chain to push the spring power reserve stabilizer generator, or is connected to the expansion connector The other device expands power and power generation. The opposite principle of the present invention is achieved due to the small change in the outer loop track adjustment position of the above apparatus. The device described in the technical solution of the present invention directly utilizes the buoyancy generated by the air bag inflated in the water, and creates a continuous non-stop circulating power through the innovative design of the machine member. A power reserve stabilizer, this slow-winding gearbox device can store the energy of the spring as long as the spring is twisted, and at the same time, a powerful high-speed and stable rotational force is released to drive the wire in the generator motor to generate electricity. Voltage amplification boost technology provides power.

Pressure amplification boosting device, because the power output and power generation technology of the present invention can be installed anywhere, There is no need to set up a high-voltage power network, and it will not affect the health of magnetic field electromagnetic radiation like a high-voltage power network. The power output and power generation technology method of the invention has no shortcomings of carbon dioxide emission and environmental pollution, has no influence on landscape and ecology, and other restrictions, and also solves the energy crisis and global greenhouse effect. The power output and power generation technology of the invention is regenerated. A major breakthrough in energy technology, the power output and power generation technology method of the present invention can be developed on a large scale on the earth. In addition, the present invention has a simple structure, convenient installation and operation, and low production cost. Therefore, the power generation amount can be expanded indefinitely according to needs. The unit can be easily repaired and repaired. Inventors, scientists and researchers in the world will also inject new technologies into the continuous improvement of the power output and power generation technology of the invention, in order to achieve higher efficiency! Great promotion of world applications. The power output device of the present invention can also be used in the field of teaching and research, and is used as a teaching instrument to demonstrate the working principle of the present invention and corresponding scientific theories. Briefly list the advantages of environmentally-friendly power output and power generation technology of the present invention;

• Low production costs and believe it is the cheapest environmentally friendly power generation system in the world.

• High degree of plant flexibility (from open slopes, islands, islands, rooftops of commercial buildings, to the ground or to the sea floor and even to the outer planet).

• Express construction speed, low construction costs (close to convenient electricity locations).

• Highly reliable, safe, and independent, the altitude model expands flexibility and easily expands power generation. '

• Lightweight, lightweight and fast.

• Low operating costs and power generation costs require no fuel.

• Easy maintenance and low maintenance.

• No pollution, no emissions, no waste, low noise.

• Supported by all human and global green groups.

• Power output and power generation technology principles can be used from small generators to large power plants.

• New technology industries can upgrade technology and provide employment and business opportunities.

• Especially used in toy boutiques is also an innovative invention of new technology gadgets and furnishings. The countries in the world that use the power output and power generation technology of the present invention, whether in advanced or backward countries, have a fever. The power output and power generation technology of the present invention is applied to schools, street lamps, street lamps, and even street lamps that are powered by the present invention on a highway, as if a non-polluting power plant was used to supply roads.

The large boost technology device is safe and reliable. Because this power generator can be installed anywhere, there is no need to set up a high-voltage power network, and it will not cause a magnetic field to affect health like a high-voltage power network. Various electrical appliance devices or transportation vehicles in the world will be willing to follow the development of the power generation technology of the present invention! The power generation and power generation technology of the present invention leads a new generation of industrial revolution because of the production of a new generation of electrical appliances, a new generation of electric vehicles, electric vehicles and boats! The home is equipped with the power output and power generation technology of the present invention, and the home can always enjoy the endless free energy, and the electric car can be charged forever forever, how good! The power output and power generation technology of the invention does not need to accommodate the market voltage, and all the electrical appliances in the world will only be accommodating the dominant voltage production! The power output and power generation technology of the present invention will be the mainstream of the world's power supply! Inventors, scientists and researchers in the world will also inject new technologies into the continuous improvement of the power generation technology of the invention, in order to achieve higher efficiency! BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side elevational and front elevational view showing the structure of an environmentally-friendly power generating apparatus of the present invention; FIG. 2 is a side elevational and front elevational view showing the continuous non-stop circulating power unit of the apparatus of the present invention; 4 is a side elevational view of the interior of the unit of the present invention; FIG. 5 is a partial enlarged side elevational view of the inner and outer rails of the apparatus of the present invention; FIG. Structure of internal gears, chain belts, air rafts and air pipes of power generation equipment FIG. 8 is a partially enlarged schematic view showing the gas cylinder in the front wide area in the embodiment of the present invention; FIG. 8 is a driving chain pulling operation of the gas cylinder in the back narrow zone in the embodiment of the present invention. Figure 9 is a partially enlarged schematic view showing the expansion joint, the one-way gear, and the inner rail structure of the apparatus of the present invention; Figure 10 is a schematic view showing the structure of the airbag of the apparatus of the present invention; 12 is a schematic structural view of an air lock of the device of the present invention; FIG. 13 is a schematic structural view of a gas pipe air brake switch for inflating and exhausting an air bag of the present invention; FIG. 14 is a schematic structural view of an expanded power and power generation according to an embodiment of the present invention; Figure 15 is a partially enlarged view of the opposite principle rail of the present invention; Figure 16 is a diagram showing the switchable operation of the front and rear zones in the embodiment of the present invention; Figure 17 is a front and side view of the bottom mounted power generating motor of the present invention; 18 is a schematic structural view of an embodiment of the present invention for expanding power and power generation; FIG. 19 is a schematic diagram of the principle of applying buoyancy according to an embodiment of the present invention; A schematic diagram of the principles of the invention, the use of gravity embodiment; FIG. 21 is a sectional view of the present invention is storage stable power spring means and generators. 22, 23, and 24 are views showing the configuration of a power output apparatus and a power generating apparatus according to a fifth embodiment of the present invention. The figure shows the following: Figure 1: 1. Water tank la. Water tank inlet lb. Water tank drain 2. Overall support frame 2a. Support frame base 2c. Support frame stand 2d. Support frame stand support point 3a. Gear 3b. Motor under the gear 4. Generator drive chain 5. Outer ring circuit track 6. Inner ring circuit track 7. Peng up gas 嚢 8. Hardware air pipe 8a. Loopback ventilation pipe 8b. Soft throat 9. Spring power reserve stable Device and generator 9b. Base fixed point 9a. Generator base 15. Power output gear 16. Top gear 17. Drive chain 26. Front area (wide area) 27. Rear area (narrow area). In Figure 2: 10, 10a. Expansion connector 11. Rotating shaft 12. Water tank internal space. In Figure 4: 13. Upper large diameter gear 14. Lower large diameter gear 15 Power output gear 16. Top gear 17. Drive chain 18. Large diameter gear drive chain 19. Drive chain air filter connector 22. Space. In Figure 5: 23. The inner and outer rails have a groove 5. The outer ring circuit rail 5c. The fixed mounting portion of the adjustable position is mounted on the bracket 6. The inner layer loop rail 6c. The fixed mounting portion is mounted on the support frame On the stand 26. Front area 27. Back area 28. Expansion area (outer loop direction parallel to the outward direction of the outer ring loop) 29. The narrowed area (the backward direction is parallel and gradually narrows inward) The outer loop loop rail). Figure 6: 7. Gas 嚢 8. Hardware air pipe 8b. Soft throat 13. Upper large diameter gear 13a. Upper shaft of large diameter gear 14. Lower large diameter gear 14a. Axis of lower large diameter gear 18. Large diameter The gear drive chain 19. drives the chain airbag connector 22. Space. In Figure 7: 7. The front area of Peng is up, it produces buoyancy in the water. 7c. Airbag pressure plate, it is to open the air or squeeze the exhaust 7d. The outer ring circuit rail rubber wheel, it is buckle In the outer loop circuit, the pneumatic pressure plate is buckled in the outer loop circuit by the rubber tires, and the opening and closing of the pressure plate is used to open or squeeze the airbag 7g. the bottom support of the airbag. It is a stable air and several rubber wheels 7k. The inner layer loop track rubber wheel is buckled in the inner loop circuit. The airbag is operated by these rubber wheels on the inner loop circuit. 8. Hardware The trachea is also the loopback ventilation duct 8b. The soft throat is a flexible throat that can be flexed and contracted. 18. The large diameter gear drives the chain 19. The connector between the chain and the airbag is 7u. Gas 7v. Bottom gas enthalpy in the air intake 7w. Bottom front zone gas swell swells to produce buoyancy rise 7x. Top front zone airbags begin to squeeze exhaust 7y. Top gas squeezing exhaust 7z. Top rear zone gas嚢 Extrusion is completed. Figure 8: 7. Airbag 7d. Outer ring circuit rail rubber wheel 7c. Air pressure plate 8. Hardware air pipe 18. Large diameter gear belt 19. Chain and air port connector 7u. 7v. Bottom air intake air intake 7w. Bottom air bag air intake swells to generate buoyancy rise 7x. Top front zone air sag starts to squeeze exhaust 7y. Top air squeezing exhaust 7z. Top air squeezing exhaust Finished. Figure 9: 2d. Support frame support point 6. Inner layer loop circuit rail 6c. 6d. Rail groove inward 10, 10a. Expansion connector 10b. Screw 10c. Nut 13. Upper large diameter gear 13a. Upper gear Axis 14. Lower large diameter gear 14a. Axis of lower gear 18. Large diameter gear drive chain 16. The top gear is a one-way gear, just like the one-way gear of the tail wheel of a bicycle. In Figure 10: 7. Air enthalpy 7a. Peng up gas 嚢 7b. Exhaust air bag 7c. Air bag pressure plate

7d. Outer ring circuit rail rubber wheel 7e hinge 7f. air hole 7g. air bottom support frame 7h. air bottom plate 7j. mesh or light hard material 7k. inner layer loop track rubber wheel 7m. connector joint 8. Hardware air pipe 24. Air lock switch The 7c air pressure plate in Figure 10 plays an important role. Because the air cylinder squeezes the exhaust gas to inflate or squeeze the liquid, it must counter the pressure and water pressure of other air bags or water bags. Peripheral pressure, etc., so rely on the length of the rubber wheel 7d and the pressure plate 7c, the longer the pressure plate 7c is, the greater the pressure, and all the buoyancy of the pendulum solves this problem. Therefore, the air bag or the water bag can be easily squeezed to inflate or squeeze the liquid. In Figure 10, 7. Peng is angry, the number of airbags is of course as good as possible, because the strength of the assembly is more powerful, for example, the buoyancy of a Peng-up balloon is ten kilograms, and the buoyancy of ten Peng’s ups and downs in the front zone has one. One hundred kilograms, the residual gas of an exhaust gas produces about 0.5 kilograms of buoyancy, and the residual buoyancy of ten exhaust gas in the rear zone is about 5 kilograms. When it is subtracted, there is about 95 kilograms of buoyancy pushing device. As a whole, the number of air bubbles can be matched with the overall structure, because the power output and power generation device of the present invention can be expanded indefinitely. The airing switch 掣 24 in Fig. 10 can be subtracted without having little effect on the overall operation. Figure 11a, l ib: 7. air 嚢 7c. airbag pressure plate 7e. hinge 7f. air vent 7h. airbag bottom plate 7j. mesh or light hard material 7n. air enthalpy can be used any shape 7p. 7s. Rail rubber wheel enlargement diagram 8. Hardware air pipe 24. Air brake switch 掣 Figure 12: 24a. Air brake switch 掣 control board (or control unit, can be fixedly connected or integrated on the inner loopback track, control The action of the contact 24b to close or open the air brake) 24b. Control board contact (off) 24c. Hardware air pipe wall 24d. Air brake 24e. Air pipe channel (open)

24f. Control panel contact (open) 24g. Tracheal channel (closed) Figure 13: 8a. Loopback ventilation duct 24. Air brake switch 掣24e. Tracheal passage (open) 24g. Tracheal passage (closed) 24h. Loopback Ventilation pipe top 24j. Loop back to the bottom of the ventilation pipe Figure 14: 9. Spring power reserve stabilizer and generator 9e. Generator gear coupling 10, 10a. is the expansion connector Figure 15: 5. Outer ring circuit rail 5c. Adjust the fixed installation 6. Inner layer loop track 6c. Fixing part 30. Water bag (air gas is used for water bag use) 26. Front area 27. Rear area 30b. (Light) Water bag 31. Expansion area (parallel to the rear area) The outer ring loop that gradually expands.) 32. The narrowed area (the outer ring is parallel to the outer loop track that starts to narrow inward). Figure 16: 30. Water bag, of course, the more the number of water bags, the better, because the strength of the assembly is more powerful, for example, the penetrating force of a Peng-up water bag is ten kilograms, and the falling force of ten Peng-up water bags in the back zone is One hundred kilograms, the residual liquid of a light water bag 30b produces a drop force of about 0.5 kilograms, and the residual force of the ten light water bags in the front area is about 5 kilograms, which is reduced by about 95 kilograms. As a whole, the number of water bags can be adjusted as long as it fits the whole structure, because the power output device can be expanded indefinitely. Figure 16: A. is buoyancy operation B. is the outer ring loop rail adjustment position changed to gravity suction operation 26. front area 27. rear area Figure 17: 4. generator drive chain 7. water bag 9. Clockwork power storage stability, fixed device and generator 25. Lower power output gear. Figure 18: 9. Spring power reserve stabilizer and generator 10, 10a, is the expansion connector in Figure 19a, 19b: A, B, C. Balloon. D. Air pipe E. Rotating axis F. Water or liquid A, B, C. Balloon C, D. Air tube E. Rotating axis F. Water or liquid Figure 20a, 20b: H. (Intercommunication) Trachea J, K L. Water polo G. Ground I. Axis Figure 21 Medium: a. generator b. clockwork generator casing tail c. clockwork generator casing front d. generator driven gear and power transmission shaft e. spring f. clockwork hook g. power transmission contact point h. Power transmission wheel spring is placed inside i. Gear j. Gear k. Gear 1. Solid flywheel m. Generator connection n. Generator connection o. Clockwork hook p. Clockwork alcove q. Gear recess r. (of gear 1) Alcove and shaft g. Power transmission contact point, function is to transmit power and over-load slip protection gear and components Figure 22-24: 1 1 1. Hollow space 7a. Peng ups and downs 1. Water tank l _a . Water tank inlet 5. Xibo exhibition loop track 2 Front area (wide area) 2" 7. Rear area (narrow area) 29. Narrow compression area 7d. Outer ring circuit rail glue Wheel 7k. Inner layer loop track rubber wheel 8, 8b. gas 28. The lower the minimum area before getting up wide Peng Zone 1 12. Pengsheng airbag 1 14. Outer loop of the airbag of the airbag The rubber axle of the airbag 115. Gear pusher 1 16. Gears DETAILED DESCRIPTION OF THE INVENTION The present invention will be further described in detail below with reference to the accompanying drawings and embodiments; First Embodiment Figs. 1 to 14 show a first embodiment according to the present invention. The power output apparatus according to the present invention has a water tank 1. The water tank 1 has a water inlet la, and functions as water, liquid, and the like in the water inlet and the water tank 1. Water or other liquid is injected from the water inlet la and over the outer loop circuit 5, and the 4 bar gas is subjected to water pressure on the front zone 26. In the present embodiment, the front region 26 is a wide area. The Pengshui raft 7a is in a wide area, and the drainage water sac 7b is in a narrow area. The wide area of the Peng up balloon 7 thus generates buoyancy in the water. By this principle, it is like an inflatable Pengsheng life jacket, using the buoyancy rising force generated in the water, pulling the driving chain 18 through the joint 7m of the pneumatic bottom connector (see Fig. 10) (see Figures 4, 6, and 7) The dashed line in 4 is a side perspective view of the internal structure of the overall bracket). The chain 18 is driven to push the upper and lower diameter gears 13, 14 (see Figs. 4, 6), while the chain 18 is pulled to pull the exhaust air bag 7 in the rear zone 27 back to the bottom of the water. In the front area 26 of the track, the buoyancy of the buoyant force is stronger, and the pull chain 7 (Fig. 6, 7) is operated, and the chain 18 is pulled to pull the contact point 7m of the bottom connector of the exhaust gas port 7b in the rear area 27 ( Figure 10), pull the exhaust gas 嚢 7b back to the bottom of the water. Therefore, the air 7b of the rear zone 27 is set to run downward. When the rear zone is pulled back to the exhaust gas vent 7b at the bottom of the water, the exhaust gas enthalpy 7u (see Fig. 7) at the bottom of the rear region 27 of the rail begins to be gradually pulled into the front region of the rail. During this process, the pressure plate rubber wheels 7d (Fig. 10) of the airbags 7u, 7v, 7w (see Fig. 7) are separated by the outer ring loops 5 which are parallel apart in the forward direction and gradually expand outward (see Fig. 5). Guided by 28), the pressure plates 7d, 7c (see Fig. 10) that push the air are gradually expanded outwardly, see the airbags 7u, 7v, and 7w in Fig. 7. At the same time, in the front area 26 of the rail, the inflatable top 7x (see Figure 7) at the top of the upper level is gradually driven to the chain 18 (Figs. 6, 7) and pulled into the rear area 27 of the rail to vent. The pressure plate rubber wheel 7d (see Fig. 10) of the air bag runs toward the rear region 27 and is guided by the outer ring circuit track 5 (see reference numeral 29 in Fig. 5) which is spaced apart and narrowed inwardly. The rubber wheel 7d pushes the pressure plate 7c gradually inward. At this time, the rubber wheel 7d and the pressure plate 7c play an important role, because the airbag is squeezed and exhausted to withstand the pressure and water pressure of other airbags, so it depends on the pressure plate 7c. Length, pressure The longer the length of the plate 7c, the greater the pressure, and the buoyancy of all the pendulums 7a solves this problem! Therefore, it is possible to easily inflate the air to the air, and the more the air, the better the airbag is, the stronger the assembly power is, but the power output device of the present invention can be expanded indefinitely. of. Narrowing and squeezing the airbag, see the air cylinders 7x, 7y, 7z in Figure 7, the gas passing through the air hole 7f (see Figure 10) and the air brake switch 掣24 (see Figure 10, the air brake is now open, As indicated by the reference numerals 2 ⁴ and 24e in Fig. 13, the gas is squeezed into the bottom through the loop return pipe 8 (see Fig. 8), and is gradually pulled into the gas bubble 7u, 7v > 7w of the front zone. Moreover, the above overall process will be repeated repeatedly, because the above main technical principles produce a strong and powerful running force, which is driven by the driving chain 18 (see Figures 4, 6, and 7). Up and down the large diameter gears 13, 14 (see Figures 4, 6), the power output gear 15 on the side of the large diameter gear 13 (see Fig. 1, Fig. 4) is thus converted into a powerful torque output point, and then drives the chain 17 to drive the top The gear 16 serves as the main torque output point, and then the expansion connector 10 is connected, and the chain 4 is driven by the gear 3a to push the gear 3. Referring to Figures 12 and 13, the air brake switch 掣 24 has a control panel (or control member) 24a that can be fixedly coupled or integrally formed on the inner loopback track to control the action of the contact 24b to close or open the air brake. The control board contact 24b and the air lock 24d are connected by a lever, and the air lock 24d acts at the end of the hardware air pipe wall 24c with the contact 24b and the lever member, and opens or closes the gas in the hardware air pipe (connected with the loopback ventilation pipe). A passage between the tracheal passage 24e. The tracheal passage 24e is connected to the air hole 7f of the airbag 7 to inflate or exhaust the airbag. When the gas cylinder 7 is moved to the upper and lower transition regions of the inner and outer loopback rails (corresponding to the top 24h of the loopback ventilation duct), the control panel 24a guides the contact 24b to operate, opens the airlock 24d, and the tracheal passage opens, see FIG. Reference numeral 24e. When the airbag 7 is moved to the non-transitional region (wide area or narrow area) of the inner and outer loopback rails, the control panel 24a guides the contact 24b to operate, and the airflow 24d is closed, see reference numeral 24g in Fig. 13, and the tracheal passage is closed. Referring to Fig. 21, the power transmission shaft d of the gear twists the spring e to store the power. The power transmission wheel h is pushed by the tail end hook o, and the power transmission contact point g is pressed against the inside of the gear i, the gear i pushes the gear j, accelerates the rotation speed, pushes the gear k, and accelerates the rotation speed. Since the gear k has the solid flywheel 1, a rotational inertial stable rotational speed torque is provided, and the generator a is driven by the connecting portions m, n to generate electricity. The above main technical principle utilizes the physical physics principle to generate buoyancy, and the power output mechanical component of the design generates continuous non-stop circulating power, thus realizing the power output device of the present invention. The device is then used to twist or move the supporting technical devices of other objects, such as generators and toys, and the torque is added as an extension body device. In addition, the top of the overall support frame 2 can be freely selected to install the spring power reserve stabilizer and (and / Or) generator 9. The clockwork power storage stabilizing device and the generator 9 base fixing point 9b are connected to the top 2 of the support frame, and the upper expander 10 is connected (connected), and the power generating device of the present invention is used to push the members 3a, 3b, 34 to drive power generation. Machine 9 provides power. When the power generation amount is to be increased, the main body device can be expanded to increase the torque, and the heavy-duty generator is combined with the heavy-duty generator, as shown in Fig. 14, thereby realizing the environmentally-friendly power generation device of the power generation principle of the present invention by using the above device. Second Embodiment Figs. 15 to 18 show a second embodiment according to the present invention. The outer loop track 5 of the power take-off device according to the present invention may have an attached adjustment position to reverse the front and rear regions, thereby enabling the opposite principle of operation of the present invention. This second embodiment operates on the opposite principle with respect to the aforementioned first embodiment. See Figure 15. Specifically, the water tank 1 in Fig. 1 is not required to be filled with water or liquid, or the water tank can be removed, and the outer rail 5 is adjusted to be fixedly mounted as shown in Fig. 15 to fix the front portion and the rear portion to the opposite side, such as In Fig. 15, reference numerals 26 and 27 indicate that the front region 26 is changed into a narrow region, and the rear region 27 is changed into a wide region, and the overall structure is unchanged, but only; the principle is to use the principle of gravity to inject gas into the liquid. The water bag 30 is turned into a loopback water pipe, and the liquid inside the water bag 30 is squeezed into the other water bag through the loop water return pipe to fill the water or drain. As shown in FIG. 16, the left side A is the embodiment 1, the loop front rail front area 26 is a wide area, the rear area 27 is a narrow area, and the right side B is the second embodiment. After the rail is adjusted, the front region 26 is a narrow region and the rear region 27 is a wide region. In addition, the air bag of the embodiment 1 was injected into the liquid to become the water bag 30 of Fig. 15 . The front region 26 of the outer loop circuit 5 is a narrow region, and the narrow region is a water bag through which the drainage is narrowed, and the rear region 27 is a wide region, and the wide region is a water pocket through which the liquid is filled. When it falls, the water bag in the narrow area of the front area must be running upwards. The reason is that it is driven by the liquid-filled water bag with strong falling force in the wide area of the rear area of the track. Pull the water bag with the narrowed drain back to the top. Therefore, the water bag in the narrow zone must be running upwards. In the rear zone behind the front zone 26, the Pengshui water bag 30 generates a drop force due to the principle of gravity suction, and is pulled by the joint of the bottom connector of the water bag 7m (see Fig. 10). The drive chain 18 (see Figures 4, 6, 7) operates to push the upper and lower diameter gears 13, 14 (see Figures 4, 6), while the drive chain 18 pulls the light water bag 30b in the front section 26 to the top. The reason is that it is pulled by the liquid-filled water bag 30 with a strong lowering force in the rear area 27 of the rail, so that the driving chain 18 is operated, and the chain 18 is driven to pull the bottom connector of the light water bag 30b in the front area 26. Contact 7m, 4 bar light water bag 30 pulled up the top. Therefore, the water bag 30 in the rear zone 27 is determined to be downward. Falling run. In the current zone 26, the water bag 30b is pulled up at the top, and the light water bag 30c at the top of the track front zone 26 is gradually pulled into the rear zone of the rail, and the pressure plate rubber wheel 7d of the water bag (see Fig. 10) Guided by the outer loop track 31 which is gradually expanded outward in the direction of the rearward region, the pressure plates 7d, 7c (Fig. 10) which pushes the water bag gradually expand the water bag 30c outward, and at the rear of the rail. 27 The low-level Peng up water bag 30d is gradually driven to pull into the front area of the rail, and the pressure plate rubber wheel 7d of the water bag is guided by the outer ring circuit track 31 which is narrowed in the forward direction and is narrowed inwardly. The wheel pushes the pressure plates 7d, 7c (see Fig. 10) and gradually narrows inward to squeeze the water bag out of the drain, and the liquid passes through the air holes 7f and the air lock switch 掣24 (see Fig. 10) (the air lock is now open, see figure The reference numerals 24, 24e) in 13 are discharged, and the liquid is gradually pulled into the water bag in the rear area through the loop returning air pipe, and the water is filled up, and the above overall process is repeated repeatedly. Due to the above main technical principles, the cyclically repeated strong and powerful running force is generated. The running force drives the upper and lower diameter gears 13 and 14 by driving the chain 18 (Figs. 4, 6, and 7) (see Figs. 4 and 6). The power output gear 15 on the side of the large diameter gear 13 (see Fig. 1, Fig. 4) is thus converted into a powerful torque output point, and then the top gear 16 is driven as the main torque output point by driving the chain 17 (see Fig. 1). . In the present embodiment, the control of the water circuit loopback pipe and the water gate switch 水 between the water bladders is referred to the gas loopback pipe and the air brake switch 第一 in the first embodiment. The above four main principles of the principle use the natural gravity principle to generate the falling force, and the mechanical components of the design generate a continuous non-stop circulating power device, thus realizing the power output device of the present invention. The device is then used to twist or push other object's supporting technical devices, such as generators and toys, to additionally increase the torque as an extended body device. In addition, the top or bottom of the overall support frame 2 can be freely selected to install the spring power reserve stabilizer and the generator 9 (see Figure 17). The spring power reserve stabilizer and the generator can also be fixed at other suitable positions with the same effect. The power output gear 25 (see Fig. 17) and the expander can also be installed in the lower diameter gear, connected to the upper expander, and the power output device of the present invention is used to push the generator 9 to supply electric power. As shown in Fig. 18, when the power is to be increased, the body device can be expanded to increase the torque to match the heavy-duty generator. With the above power output device, the environmentally-friendly generator of the power output and power generation technology principle of the present invention can be realized. Third embodiment 19a, 19b show the principle of a power output apparatus according to a third embodiment of the present invention. The apparatus of this embodiment mainly utilizes the principle of buoyancy, and the following briefly describes the buoyancy principle embodiment. A simple rotating device is shown in Fig. 19a, mainly a shaft (shaft) E connecting three inter-connected air tubes D, which can be arranged on a support frame (not shown). The three Peng-up balloons A, B, and C are connected at the end of the three interconnected air pipes. The gas in the balloon passes through the three bronchial tubes and is placed in the water F, and the single rotating device is stabilized in the water F. The water level should cover all the balloons, so that the balloon is averaged by the water pressure. Thus, the three Peng-up balloons A, B, and C are averaged, so the three Peng-up balloons A, B, and C will generate buoyancy, but The whole will only produce buoyancy, but it will not turn, as shown in Figure 19a. However, as long as the balloon C is squeezed, the internal gas is squeezed into the other two balloons A, B through the air tube D to cause it to rise, as shown in Fig. 19b. In this way, the buoyancy of the two balloons A and B is enhanced in real time, so the strength of the levitation trachea is also increased. The balloon C is weakened in real time due to the reduction of the body gas, and is raised by the other balloons A and B with strong floating force, and the balloon is ignited. C is pushed downward, as shown in Fig. 19b, by squeezing the balloon C, then squeezing the balloon A, and then squeezing the balloon B, as long as the step of squeezing the balloon is repeated, the simple rotating device in the figure rotates. By combining the natural physical principles with the apparatus described in this embodiment, it is possible to create a continuous non-stop circulating power. The power output device can be connected via a shaft center E such as a generator to form a power generating device, and the power can be continuously outputted. Of course, the power take-off can also be connected to other load devices. Fourth Embodiment Figs. 20a, 20b show the principle of a power output apparatus according to a fourth embodiment of the present invention. The device of this embodiment mainly utilizes the principle of gravity suction. The core suction principle embodiment is briefly described below. The single rotating device of Figs. 20a, 20b is mainly a shaft (shaft) I is connected to three mutually communicating water pipes H, and the shaft (shaft) I can be disposed on a support frame (not shown). The three Peng rising water balls J, K, and L are respectively connected at the end of the three interconnected water pipes. The liquid in the water ball passes through the three water pipes and is placed on the ground. The simple rotating device of 4 bar is stable and solid. On the top, the three Peng rising water balls J, K, L are average Peng, so the three Peng rising water balls A, B, C have a certain weight, but the overall will not rotate, as shown in Figure 20a. However, as long as the water ball L is squeezed, the internal liquid is squeezed into the other two water balls J, K through the water pipe H to cause it to rise, as shown in Fig. 20b. The weights of the two water balls J and K are enhanced in real time, so the strength of the induced air tube drop is also enhanced. Water polo L is reduced in fluids in the body The weight is reduced in real time, and is pushed by the other water balls J and K with strong lowering force to push the water ball L upward, as shown in Figure 20b. By squeezing the water ball L, then squeezing the water ball J, and then squeezing the water ball K, as long as the cycle of squeezing the water ball is repeated, the simple rotating device in the figure rotates. This combination of natural physics and the apparatus of the present invention allows for the creation of continuous, non-stop circulating power. The power output device can be connected via a shaft center E such as a generator to form a power generating device, and the power can be continuously outputted. Of course, the power take-off can also be connected to other load devices. Fifth Embodiment Figs. 22, 23, and 2 show a fifth embodiment according to the present invention. Different from the first embodiment shown in Figs. 1-14, the center of the water tank 1 in this embodiment is a hollow space that does not carry water. As shown in Fig. 22, the center of the water tank 1 is a hollow space 11 1 , so that the overall weight and water pressure of the water tank are greatly reduced, and at the same time, when the air bag 7a rises in the water tank 1, the water pressure is greatly reduced, and The air brake switch 掣24 of the air bag is omitted (see Figure 11). Water or other liquid is injected through the water inlet port to allow the liquid to pass over the outer loop circuit 5, so that the gas is subjected to water pressure in the water tank 1 to be averaged. In the front area 26, the wide area of Peng Shengqi 7a itself has buoyancy in the water due to the principle of buoyancy, just like the principle of inflatable Peng 3⁄4 raw clothes ^:, the gas itself itself produces buoyancy in the water as a rising force The upward push is pushed upward one by one by each of the airbags 7a, and the buoyancy of the exhaust airbag 7b in the rear zone 27 is less than the buoyancy of the airbag 7a in the front zone 26, so the front is Driven by the powerful collective buoyancy of all of Peng’s 7a in Zone 26, it was pushed back to the bottom of the water in the back zone 27. The strong collective buoyancy of all of the Pangoon 7a in the front area of the rail creates a rising force that pushes the top of the top layer of the airbag 1 12 into the narrowed compression zone 29 of the rails 5, 6. Referring to Figure 23, the outer ring circuit rubber wheel 7d and the inner ring circuit rubber wheel 7k of the gas cylinder are gradually narrowed by the guide rails 5, 6 to be compressed, and the exhaust gas is transmitted through the bottom. The inter-connected trachea 8, 8b, while being placed in the lowermost layer of the front zone 28, is beginning to be gradually moved by the rails 5, 6, and the airbags 1 1 3 that lead the pens up. If the above cycle repeats the above physical process, it creates a cyclical driving force, pushing the top of the gear pusher 1 through the outer ring-loop rubber wheel hub 114 of Peng. 15 , the gear 1 16 is operated. The top gear 116 thus provides a powerful power output that is a source of power to the generator assembly. Moreover, the device principle of the technical solution of the present invention does not require the activation of the first or external power, but the power generating device of the present invention can also be used to provide power to the additional electric device to enhance the operating force and speed of the body and improve the present. The efficiency of the invention. In the first embodiment, the power output device and the power generating device according to the technical solution of the present invention directly utilize the buoyancy generated in the water by the inflatable air bag, and create a continuous non-stop through the mechanical components of the innovative design. Cyclic power, which promotes the acceleration of the stability through the spring power reserve stabilizer, and drives the wire coils in the generator to generate electricity. The device of the invention comprises a water tank, an upright integral support frame, a gear, a drive chain, an outer loop circuit rail, an inner loop circuit rail, a gas cylinder, a gas switch gate, a hardware air pipe, a soft throat, a loop ventilation pipe, Expansion connector, clockwork power storage stabilizer and generator; the water tank is provided with an integral support frame, the support frame is equipped with upper and lower diameter gears and power output gears, and the top is also equipped with gears, the top gear is pushed The spring power storage stabilizing device generator and the expansion connector, the top gear is connected to the upper large diameter gear side pinion by the driving chain, and the upper and lower large diameter gears are connected to the driving chain. The driving chain is connected to the bottom fulcrum of each air vent, the vent hole and the air damper at the bottom of the airbag are inflatable or exhausted, and the hardware air pipe is connected at the bottom of the air vent, and the soft throat is connected with a plurality of hardware air pipe links. The cross-connect connection causes a loopback ventilation duct, the integral support frame fixes the inner and outer loop circuit rails, and the outer layer and the inner layer loop loop are divided into front and rear The front area is a wide area with a large inner and outer rails parallel to each other. The wide area is the airbag that passes through the air-filled Peng, and the rear area is a narrow area with narrow inner and outer rails. The narrow area is for the exhaust. The narrow air passage passes through the bottom layer of the narrow section of the rail and begins to gradually change into a wide area from 180 degrees to the wide area. Conversely, the highest level of the wide area of the rail begins to gradually change from a narrow area to a narrow area, and the airbag is stuck in the narrow area. The inner and outer ring loops are circulated in the front and rear of the two zones. The airbag in the narrow zone is driven by the Pengering gas with strong floating force in the wide zone to drive the chain back to the bottom of the water. When the airbag at the bottom of the narrow zone begins to be pulled into the track wide zone The pressure plate rubber wheel of the air bag is gradually expanded to the outer side of the wide area, and the air bag is expanded. When the top air sump starts to enter the narrow area, the pressure plate rubber wheel of the air bag is turned toward The narrow sections are parallel and gradually narrowed inward to guide the gradual extrusion of the gas venting, and the gas is squeezed through the loopback ventilation duct into the airbag in the narrow zone to gradually enter the wide area, and the other airbags in the narrow zone Simultaneously The other airbags with strong floating force in the wide area push the chain to pull into the bottom of the water, so the gas inflated between the air and the airbag is inflated, and the buoyancy is generated by the physical principles of nature, and the mechanical components of the design are continuously produced. The non-circular power pushes the driving chain to push the upper and lower large diameter gears to circulate, and the power output gear of the upper large diameter gear side pushes the top gear through the driving chain to push the spring power reserve stabilizer generator, or The additional expansion device is connected to the expansion connector to expand power and generate energy. The generator of the power output and power generation technology principle of the present invention is realized by the above device. Also available in the toy industry. The clockwork power storage stabilizing device and the generator comprise a casing and an opening shaft connected to the spring on the side wall, and the input shaft connected to the spring is supported on the side wall recess of the casing, and the knob output is fixed at one end thereof a shaft, a gear disposed between the input shaft and the output shaft, and components respectively disposed on the wall of the abutment of the spring housing Fasten the fastening mechanism. In this slow-winding type gearbox device, as long as the spring is twisted, the spring can store energy and at the same time, a powerful high-speed and stable rotational force is released to drive the power generating motor. The invention is a major breakthrough of the renewable energy technology, the environmental protection has no shortcomings of carbon dioxide emission and environmental pollution, has no influence on the landscape and the ecology, and solves the energy crisis and the global greenhouse effect. The invention has the advantages of simple structure, convenient installation and operation, low production cost and unlimited Expanding the amount of power generation, maintenance and repair is simple, so this environmentally-friendly power output and power generation technology can be widely developed on the earth and widely used in the toy industry.

Claims

Claims

A power output device comprising:

 a liquid container having a liquid therein;

 An integral support frame disposed in the liquid container;

 The longitudinally disposed inner and outer loop circuit rails are disposed on the integral support frame, and the inner and outer loop circuit rails form a wide area along a lateral side, and the other side forms a narrow area; a plurality of airbags, Between the inner and outer loop circuit rails, and at the same time cooperating with the inner and outer loop rails, the plurality of airbags are connected by a pipe and have an increased volume when passing through the wide zone. The narrow zone has a reduced volume such that the airbag in the wide zone receives greater buoyancy in the water than in the narrow zone, thereby operating along the inner and outer loop circuits;

 Driving the chain, connecting the plurality of air bubbles in a ring shape; and

 An output wheel is disposed on the integral support frame and coupled to the drive chain to provide rotational power. 2. The power output apparatus according to claim 1, wherein the power output apparatus has a plurality of sets of the liquid container, an integral support frame, a rearward-arranged inner and outer loop circuit, a plurality of airbags, and a driving device. Chains and, each group is connected by an expansion connector.

The power output apparatus according to claim 1, characterized in that the center of the water tank 1 is a hollow space. A power generating apparatus characterized by comprising the power output apparatus according to claim 1 or 2, and having a generator connected to the output wheel.

The power generating apparatus according to claim 4, further comprising a spring power storage stabilization device disposed between the power output device and the generator to store energy and drive the generator. 6. A power output device comprising:

Overall support frame; The longitudinally disposed inner and outer loop circuit rails are disposed on the integral support frame, and the inner and outer loop circuit rails form a wide area along a lateral side, and the other side forms a narrow area;

 a plurality of water rafts disposed between the inner and outer loop circuit rails and simultaneously cooperating with the inner and outer loop circuit rails, the plurality of water bladders being connected by the pipeline and having a passage through the wide zone An increased volume through which the narrow zone has a reduced volume such that the water raft in the wide zone receives greater gravity than the leeches in the narrow zone, thereby along the inner and outer loops Run

 Driving the chain, connecting the plurality of water bottles in a ring shape; and

 An output wheel is disposed on the integral support frame and coupled to the drive chain to provide rotational power. The power output apparatus according to claim 6, wherein said power output apparatus has a plurality of sets of said integral support frame, longitudinally arranged inner and outer loop circuit rails, a plurality of water hammers, a drive chain and an output wheel, Each group is connected by an expansion connector. A power generating device, comprising the power output device according to claim 5 or 6, and having a spring power storage stabilizing device and a generator, wherein the spring power storage stabilizing device is disposed at the power output device Between the generator and the generator to store energy and drive the generator. A power output device includes:

 a liquid container, wherein the liquid; a support frame disposed in the liquid container;

 a shaft, rotatably mounted on the support frame;

 a plurality of rising balloons arranged along the longitudinal circumference, the support being connected to the axis and communicating with each other through the pipe;

Wherein, when a Peng-up balloon that is offset from the axial center to one side in the lateral direction is squeezed, the balloon on the other side receives a greater sum of buoyancy in the water than the balloon located on the first side, thereby driving the The shaft output power.

10. A power output device comprising:

 Support frame

 a shaft, rotatably mounted on the support frame;

 a plurality of Peng rising water balls arranged along the longitudinal circumference, the support is connected to the axis, and communicated with each other through the pipe;

 Wherein, when a Peng rising water ball that is deviated to one side from the axial center is laterally pressed, the balloon on the other side receives a greater sum of gravity in the water than the water ball located on the first side, thereby driving the The shaft output power.

A power generating apparatus comprising the power output apparatus according to claim 9 or 10, and having a generator, said generator being connected to said output wheel.