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CN111197550A - Atmospheric pressure, water gravity, water buoyancy and gravity power generation system - Google Patents

Atmospheric pressure, water gravity, water buoyancy and gravity power generation system Download PDF

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Publication number
CN111197550A
CN111197550A CN202010023582.0A CN202010023582A CN111197550A CN 111197550 A CN111197550 A CN 111197550A CN 202010023582 A CN202010023582 A CN 202010023582A CN 111197550 A CN111197550 A CN 111197550A
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China
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water
gravity
main reservoir
reservoir
main
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CN202010023582.0A
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Chinese (zh)
Inventor
王子信
王珏人
王梅芳
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Priority to CN202010023582.0A priority Critical patent/CN111197550A/en
Publication of CN111197550A publication Critical patent/CN111197550A/en
Priority to TW109212697U priority patent/TWM612485U/en
Priority to TW109133356A priority patent/TW202129151A/en
Pending legal-status Critical Current

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B13/00Adaptations of machines or engines for special use; Combinations of machines or engines with driving or driven apparatus; Power stations or aggregates
    • F03B13/06Stations or aggregates of water-storage type, e.g. comprising a turbine and a pump
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F03MACHINES OR ENGINES FOR LIQUIDS; WIND, SPRING, OR WEIGHT MOTORS; PRODUCING MECHANICAL POWER OR A REACTIVE PROPULSIVE THRUST, NOT OTHERWISE PROVIDED FOR
    • F03BMACHINES OR ENGINES FOR LIQUIDS
    • F03B17/00Other machines or engines
    • F03B17/02Other machines or engines using hydrostatic thrust
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04FPUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
    • F04F10/00Siphons
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/20Hydro energy
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/30Energy from the sea, e.g. using wave energy or salinity gradient
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/16Mechanical energy storage, e.g. flywheels or pressurised fluids

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Other Liquid Machine Or Engine Such As Wave Power Use (AREA)

Abstract

The invention discloses a power generation system by atmospheric pressure, water gravity, water buoyancy and gravity, comprising: the system comprises a main reservoir, an auxiliary reservoir, a heavy floating body, a main fixing mechanism, at least one auxiliary fixing mechanism, at least one group of transmission mechanisms, at least one group of speed change mechanisms, at least one group of high-power generator devices, at least one electric gate mechanism and at least one siphon mechanism, wherein the power required by the speed change mechanisms and the transmission mechanisms, the displacement and the gravity of the heavy floating body and the lifting distance and the lifting speed of the main reservoir are obtained by reverse thrust according to the rotating torque and the rotating speed required by the high-power generator devices; the gravity of the heavy floating body is used for capturing the buoyancy and the gravity, and the transmission mechanism, the speed change mechanism and the high-power generator device are driven to operate to generate huge electric power with fixed voltage, current and generated energy, so that the heavy floating body can be used as a national baseload power plant and incorporated into a national power grid power transmission and distribution system.

Description

Atmospheric pressure, water gravity, water buoyancy and gravity power generation system
Technical Field
The invention relates to a power generation system based on atmospheric pressure, water gravity, water buoyancy and gravity, which applies relevant laws and principles of physical mechanics such as fluid statics, buoyancy law, universal gravitation law, atmospheric pressure, siphonage and the like.
Background
With respect to the statics, buoyancy law, universal gravitation law, atmospheric pressure, siphon action and the like in the nature, the laws and principles related to physical mechanics can be easily found out that the following three facts can be established:
1. the fluid contains gas and liquid, the side with high pressure P will automatically flow to the side with low pressure P, when the fluid pressure is balanced, the flow is stopped to keep horizontal static state.
2. The application of hydrostatic principles can also produce a siphoning action: at present, human beings only think of using the principle of atmospheric pressure to generate siphoning, so the pressure difference of the pressure P at two ends of the siphon can only be limited to 1 atmospheric pressure P generated by the atmospheric pressure0=100,000N/m2Cannot exceed the limit, the application space is narrow, and the application range cannot be expanded. In fact, the siphon action can be applied to hydrostatic principle, and two natural energy sources of "atmospheric pressure" and "gravity of water" are simultaneously captured and used together, so that the unbalanced pressure difference of the pressure P at two ends of the siphon pipe is multiplied, and the pressure P is increased to 3 atmospheric pressure P which is 300,000N/m2The application range of the method is expanded so as to solve various problems of energy and the like. Hydrostatic principle: the pressure P in the liquid increases with the liquid depth h and the liquid density d, and the pressure P in all directions of the liquid is equal under the same depth. That is, the liquid pressure P is related to the water depth h and the density d only, and is proportional to each other, regardless of the volume of the reservoir and the total weight of the reservoir water. Therefore, a main reservoir is arranged to extend 20 m deep into the ground, an auxiliary reservoir is arranged on the ground beside the upper part of the main reservoir, the height of the auxiliary reservoir is 5 m, and a long-arm siphon is arranged from the main reservoirThe bottom of the long-arm siphon pipe extends upwards to reach the top end of the wall of the auxiliary reservoir and then turns over the wall, the short-arm siphon pipe continues to extend downwards to reach the bottom of the auxiliary reservoir to form an inverted U-shaped siphon pipe, the bottom end of the long-arm siphon pipe is provided with a submerged pump, water in the main reservoir is pumped into the auxiliary reservoir by the submerged pump, the siphon pipe is filled with water, the siphoning effect is established, the submerged pump is closed immediately, at the moment, the pressure P (F/A) at the two ends of the siphon pipe is Ahd/A (hd/a), A is the sectional area of the siphon pipe, F is the liquid pressure in the siphon pipe, the water depth is 20 m, and the liquid pressure P (total pressure) is water gravity (hd) + large air pressure P0=200,000N/m2+100,000N/m2=300,000N/m2Because the auxiliary reservoir is not filled with water and the water depth is 0, the pressure P at the bottom end of the short-arm siphon tube is equal to the water gravity (hd)0+ the atmospheric pressure P0100,000N/m2=100,000N/m2The pressure difference of the pressure P at two ends of the siphon pipe is 300,000N/m2-100,000N/m2=200,000N/m 22 atm P0The difference is great, the siphon action is strong, the flow speed is very fast, and the submerged pump cannot stop flowing when being turned off; after the auxiliary reservoir is filled with water, the water depth is 5 m, and the pressure P at the bottom of the short-arm siphon tube is 50,000N/m as water gravity (hd)2+ atmospheric pressure P0100,000N/m2=150,000N/m2The pressure difference of the pressure P at two ends of the siphon pipe is 300,000N/m2-150,000N/m2=150,000N/m21.5 atm P0The difference is still very large, and the water in the siphon tube still automatically flows from the side with high pressure P to the side with low pressure P and does not stop flowing.
3. The floating body is in a state of vertically fluctuating at a fixed point, and the gravity of the floating body is buoyancy and gravity.
The four energy sources of atmospheric pressure, water gravity, water buoyancy and gravity are clean, pollution-free, inexhaustible and 24-hour free energy sources in the nature, are available everywhere and are unfortunately not well utilized and effectively developed.
With the development of science and technology, one of the most important issues affecting mankind is the lack of clean energy. The electric power is the basic element of modern life of human beings, and the basic power of industrialization cannot or is not available. At present, various countries in the world develop various power generation systems through thermal power generation (coal/oil/natural gas), nuclear power generation, hydroelectric power generation, wind power generation, solar power generation and the like, so that the basic power requirement of modern life is solved, and the kinetic energy developed in the industry is provided.
As for thermal power generation: in recent years, too much fire coal and petroleum are used, so that the emission of carbon dioxide is greatly increased, the environment is polluted, and the serious greenhouse warming effect is produced, which is a problem in various fields.
For nuclear power generation: even if nuclear disasters happen occasionally, nuclear waste is difficult to store and destroy, and the ecological environment is permanently destroyed by nuclear pollution, so that the damage is questioned by environmental protection people, and nuclear sound waves are reflected and never interrupted.
For hydroelectric power generation: the construction of large dams with suitable water sources requires time consuming and relatively high cost, and needs to store enough water, and the water level fall reaches a considerable height, so that the dam can generate electricity at all, and is not accessible to all people.
For wind power generation: the method is characterized in that areas with ultra-strong wind power need to be found, a plurality of high-rise iron towers are constructed, large blade wheels are erected and rotate along with wind, but the noise is quite large, the occupied area is large, and the home environment is influenced. And the wind direction is unstable, wind energy cannot be concentrated, the wind energy is dispersed and weak, the wind energy is occasionally unavailable, the generated energy fluctuates and unstable, the wind energy cannot be merged into a national power grid power transmission and distribution system for converging operation, the investment cost is high, the benefit is poor, and the popularization is difficult.
For solar power generation: as in wind power generation, collecting solar energy requires a large amount of land, and a solar cell must use a semiconductor having a very high purity, consumes a large amount of energy in the production process, and causes environmental pollution. In other words, although the solar cell does not cause environmental pollution when capturing solar energy, the solar cell causes environmental pollution in the production process, and the actual power generation benefit is poor, and the solar energy capture rate is only about 25-30%. Moreover, the energy source is unstable, and the energy source cannot be used in rainy days, cloudy days and nights, so that the method is difficult to popularize and popularize effectively.
In summary, the existing energy has high cost and serious pollution, and is urgently required to be replaced by another clean energy. The four energy sources of atmospheric pressure, water gravity, water buoyancy and gravity are inexhaustible in source, free in 24 hours, available everywhere and the best clean, pollution-free and best alternative energy source.
The four energy sources of atmospheric pressure, water gravity, water buoyancy and gravity cannot be effectively developed and widely used so far, and the development of the four energy sources has to have the following five major elements, namely, the four energy sources are inexorable and can generate fixed output rotating torque and rotating speed to drive a high-power generator device to operate efficiently in a large scale to generate huge electric power with fixed voltage, current and generated energy according to energy sources such as nuclear energy, natural gas, petroleum, coal and the like:
firstly, when the 'buoyancy of water' is captured: must be based on the law of buoyancy invented by archimedes: the buoyancy is equal to the weight of the volume of liquid displaced by the object. The buoyancy generated by the gravity of the heavy floating body can lift the heavy floating body and drive the transmission mechanism to rotate the speed change mechanism, so that the speed change mechanism generates output rotary torque and rotary speed which are enough to drive the heavy power generator device to stably operate and generate huge and fixed electric power.
Secondly, when capturing the gravity: must be based on newton's law of universal gravitation: the greater the mass, the greater the attraction force; the larger the spacing, the smaller the attractive force. The gravity of the heavy float can pull the heavy float down and drive the transmission mechanism to rotate the speed change mechanism, so that the speed change mechanism produces output rotation moment and rotation speed sufficient to drive the heavy power generator to stably operate and produce large and fixed electric power.
Thirdly, when capturing the buoyancy of water and the gravity: if the buoyancy of the captured water is only noticed and the gravity of the earth is not noticed, the heavy floating body is powerful in lifting and weak in pulling down, the energy is intermittent, and the high-power generator device can generate huge and fixed power due to the difficult effective and stable operation.
Fourthly, the buoyancy of water and the gravity are captured, and attention needs to be paid: the floating body must be fixed at a fixed point to do up-and-down vertical fluctuation movement, the energy sources are concentrated, and two energy sources of buoyancy and gravitation can be simultaneously and effectively and completely captured in a large scale so as to drive the high-power generator device to stably operate to generate huge and fixed electric power.
Fifthly, when capturing the atmospheric pressure and the gravity of water: the principle of fluid statics, atmospheric pressure and siphon action must be applied, a main reservoir and an auxiliary reservoir are provided, a row of siphon pipes is arranged in the main reservoir, water in the main reservoir is pumped and flows into the auxiliary reservoir, an electric gate is arranged in the auxiliary reservoir, water is discharged back into the main reservoir and repeatedly returns back and forth, so that the water level of the main reservoir can be set to a fixed lifting interval and fixed lifting speed to drive the heavy float to move up and down vertically at a fixed interval and fixed speed, the gravity of the float is gravity, the gravity of the heavy float is ten thousand tons, the buoyancy and gravity of one thousand tons as well as the fixed lifting interval and lifting speed are acquired to drive the transmission mechanism, so that the transmission mechanism can be driven by one thousand tons of fixed push-pull power and fixed push-pull interval, the fixed push-pull speed drives the speed change mechanism, so that the speed change mechanism can generate fixed rotating torque and rotating speed required by outputting the high-power generator device according to energy sources such as nuclear energy, natural gas, petroleum, coal and the like to drive the high-power generator device to operate efficiently in a large scale to generate huge electric power with fixed voltage, current and generated energy, and the high-power generator device can be used as a national base load power plant (base load power plant) and incorporated into a national power grid power transmission and distribution system to be used so as to replace the existing energy sources to find out a clean living space of human beings.
Disclosure of Invention
The invention effectively meets the four energy sources of atmospheric pressure, water gravity, water buoyancy and gravity, and simultaneously, the five major elements are all captured together, thereby solving all the problems of the existing energy source power generation.
The technical scheme is as follows: to achieve the above objects and effects, the present invention discloses a power generation system using atmospheric pressure, water gravity, water buoyancy and gravity, comprising: a main reservoir, a vice cistern, a heavy float, a main fixed establishment, at least one vice fixed establishment, at least one group drive mechanism, at least one group speed change mechanism, at least one group high power generator device, and at least one electronic gate mechanism, at least one siphon mechanism, wherein:
the main water reservoir and the auxiliary water reservoir: the device comprises a main reservoir and at least one auxiliary reservoir, wherein the main reservoir extends 20 meters deep underground and has a length and a width which are enough to accommodate a heavy floating body, a set of main fixing mechanism and at least one row of siphon pipe mechanisms, so that the heavy floating body can vertically move up and down at a fixed point on a fixed rod of the main fixing mechanism; the auxiliary reservoir is arranged on the ground at the left side and/or the right side above the main reservoir, and the height of the auxiliary reservoir is set to be 5 meters, so that the total water storage capacity of the auxiliary reservoir is enough to accommodate the water storage capacity at a fixed interval arranged on the main reservoir;
the siphon mechanism is characterized in that: the water pump is arranged on the left side and/or the right side of the main reservoir and can pump the water in the main reservoir into the auxiliary reservoir at fixed time and fixed interval;
the electric gate mechanism: the auxiliary reservoir is arranged at the bottom of the wall of the main reservoir, is opened immediately, begins to drain a large amount of water, and drains water back into the main reservoir at the same time of water delivery of the siphon pipe mechanism, so that the water level of the main reservoir is lifted up and down at a fixed time and a fixed distance;
the distance between the water level of the main reservoir and the lifting speed are reversely deduced according to the fixed rotating torque and rotating speed required to be input by the high-power generator device, the push-pull rotating torque and rotating speed required to be input by the speed change mechanism are calculated, and the push-pull power, the push-pull distance and the push-pull speed required to be input by the transmission mechanism are reversely deduced according to the data;
that is, according to the standard operation program SOP manufactured by the system, the specifications of the mechanisms are obtained by reverse deduction one by one:
if the push-pull power required to be obtained by the transmission mechanism is one ten thousand tons, the push-pull interval is 6 meters, the push-pull speed is once per minute, and the gravity of the floating body is equal to buoyancy and gravitation, the displacement and the gravitation of the heavy floating body must be set to one ten thousand tons, so that the buoyancy and the gravitation of one ten thousand tons can be captured by the gravity of the heavy floating body, and the heavy floating body can be lifted and pulled down by fixing the fluctuation once per minute at the interval of 6 meters; the water level lifting interval of the main reservoir must be fixed to be 6 meters, the lifting speed must be fixed to be once per minute, so that the heavy floating body can be vertically fluctuated at a fixed point on a fixed rod of the main fixing mechanism of the main reservoir and fixed to the speed of once per minute along with the fixing of the main reservoir at the interval of 6 meters, the transmission mechanism is driven to generate ten thousand tons of fixed push-pull power, the fixed push-pull distance is 6 meters, and the push-pull speed of one time per minute is fixed, so that a starting gear of the speed change mechanism is pushed and pulled to rotate, the speed change mechanism can generate fixed rotating torque and rotating speed required by the high-power generator device according to nuclear energy, natural gas, petroleum, coal and other energy sources, the high-power generator device is driven to operate to generate huge electric power with fixed voltage, current and generated energy, and the huge electric power can be used as a national base load power plant and incorporated into a national power grid power transmission and distribution system.
Furthermore, the main reservoir and the auxiliary reservoir comprise a main reservoir and two auxiliary reservoirs, and the two auxiliary reservoirs are arranged on the ground on the left side and the right side above the main reservoir.
Furthermore, the heavy floating body is a large sealed floating vessel with a pointed bottom, the floating vessel is provided with a deck and an air chamber, and two ends or/and two sides of the deck are/is provided with at least one group of bearing holes capable of sliding up and down, and a bearing is arranged in the bearing holes.
Further, the primary securing mechanism: the device comprises at least two fixed rods, at least two groups of auxiliary fixed rods are respectively arranged at the left side and the right side of the two fixed rods, at least two groups of connecting cross rods are arranged at the fixed rods and the upper end and the lower end of the auxiliary fixed rods and are transversely and firmly connected with each other, so that the structure of the main fixing mechanism is consolidated; the two fixing rods penetrate through the bearing hole and the bearing arranged on the deck of the heavy floating body and then are directly communicated with the bottom of the main water storage tank, and the two fixing rods are fixedly arranged on the basis of the bottom of the main water storage tank by virtue of a fixing base, so that the heavy floating body can stably and smoothly move on the two fixing rods of the main fixing mechanism to perform fixed point vertical fluctuation movement; the two groups of auxiliary fixing rods are fixedly arranged on the foundation at the bottom of the main water storage pool by a fixing base in comparison with the two fixing rods; in order to ensure that the structure of the main fixing mechanism can be more safely consolidated, the two groups of auxiliary fixing rods are fixed on a reinforced cement wall at two sides of the main reservoir by a fixing seat and transversely and firmly nailed.
Further, the sub-fixing mechanism: the supporting and fixing mechanism is used as a floor which is arranged on the two auxiliary reservoirs, so that the speed change mechanism and the high-power generator device can be arranged on the floor to operate and generate electricity on the floor; in order to safely consolidate the two floor boards on the two auxiliary water reservoirs, four pillars are arranged below the floor boards, two pillars at the back are arranged on a second foundation at the bottom of the two auxiliary water reservoirs by a second fixing base, two pillars at the front are arranged on the foundation at the bottom of the main water reservoir by a second fixing base, and the two pillars at the front are also the same as the supplementary fixing rod of the main fixing mechanism.
Further, the transmission mechanism: a bearing seat is arranged on the deck of the major floating body, the bearing seat is fixedly arranged on a movable sliding block, and the movable sliding block is arranged in a fixed sliding seat of the deck, so that the bearing seat can slide left and right in a sliding channel rail of the fixed sliding seat along with the movable sliding block; a transmission rod is arranged on the bearing seat, one end of the transmission rod is arranged on the bearing seat, and the other end of the transmission rod is arranged on a bearing column at the edge of a starting gear of the speed change mechanism; the bearing seat is arranged right below the starting gear of the speed change mechanism, so that the bearing seat can slide left and right along with the rotating position of the bearing column of the starting gear, the transmission rod on the bearing seat can be kept in the position right below the bearing column along with the rotating position of the bearing column all the time, the bearing column which vertically pushes and pulls the edge of the starting gear up and down drives the starting gear to rotate, and the action of the bearing column is similar to the action of grinding rice cakes of Chinese people; the diameter of the rotation of the bearing column at the edge of the starting gear is matched with the lifting interval of the main reservoir and is set to be 6 meters, so that the main reservoir is lifted once per minute at the lifting interval of 6 meters, the heavy floating body is also lifted once per minute at the lifting interval of 6 meters, and rises and falls once per minute, because the gravity of the floating body is buoyancy which is gravitation, one million tons of buoyancy and gravitation can be generated by the gravity of the heavy floating body, the transmission rod of the push-pull transmission mechanism generates one million tons of push-pull power, and at the push-pull interval of 6 meters, one push-pull per minute is used for driving the bearing column to rotate, and the starting gear rotates one circle per minute.
Furthermore, the speed change mechanism has a plurality of speed change modes, only one of which is taken as an explanation, the speed change mechanism is provided with a group of speed change gear systems, a flywheel with proper weight is arranged in the speed change gear systems, and the flywheel can store rotational kinetic energy by utilizing the law of inertia, so that the rotational motion is more stable, and the high-power generator device is driven to stably operate and generate power.
Furthermore, the axis of the starting gear in the group of speed change gear systems of the speed change mechanism is provided with a ratchet wheel for preventing reversion; the axis of the flywheel is also provided with a second ratchet wheel for preventing reverse rotation when the system fluctuates up and down.
Further, the siphon mechanism: a row of siphon pipes are respectively arranged at the left side and the right side of the main reservoir, the two rows of siphon pipes extend upwards from the bottom of the main reservoir to reach the top ends of the walls of the two auxiliary reservoirs, then turn over the walls and then extend downwards to reach the bottoms of the two auxiliary reservoirs, so that the two rows of siphon pipes form inverted U-shaped siphon pipes, one side of each siphon pipe is long and the other side of each siphon pipe is short, a submerged pump and a small electric gate are arranged at the bottom of each siphon pipe of the main reservoir, and the submerged pump is used for pumping water in the main reservoir into the two auxiliary reservoirs respectively and then is turned off. At this time, "the siphon tube is filled with water", and the siphon action is established, the long-arm siphon tube is 20 m deep, and the tube bottom pressure P is 200,000N/m water gravity (hd)2+ atmospheric pressure P0100,000N/m2=300,000N/m2The water depth of the short-arm siphon pipe is 0 because the two secondary reservoirs are not filled with water, and the pipe bottom pressure P is equal to water gravity (hd)0+ atmospheric pressure P0100,000N/m2=100,000N/m2The pressure difference of the two ends of the two rows of siphon pipes is 300,000N/m2-100,000N/m2=200,000N/m 22 atm P0The difference is great, the siphon action is strong, the flow speed is very fast, and the submerged pump cannot stop flowing when being turned off; after the two water reservoirs are filled with water, the water depth is 5 m, and the pipe bottom pressure P is 50,000N/m of water gravity (hd)2+ atmospheric pressure P0100,000N/m2=150,000N/m2The pressure difference of the pressure P at two ends of the siphon pipe is 300,000N/m2-150,000N/m2=150,000N/m21.5 atm P0The difference is still very large, and the pressure P is still automatically highThe flow is directed to the side with low pressure P and the flow is not stopped; the water delivery amount of the two rows of siphon pipes can pump the water in the main reservoir to flow into the two auxiliary reservoirs within 30 seconds, so that the water in the main reservoir is reduced by 6 meters to reach the expected standard.
The electric gate mechanism: two sub water reservoirs are respectively provided with a large electric gate at the bottom of the wall of the main water reservoir, and then are opened to start draining a large amount of water; at this time, the two rows of siphon pipes still flow into the two sub reservoirs, so that the two large electric gates must discharge the water in the two sub reservoirs into the main reservoir at twice the flow rate of the water delivered by the two rows of siphon pipes, also within 30 seconds, and then close the electric gates, so that the water level of the main reservoir is fixed at an interval of 6 meters, and the major floating body is lifted and pulled down by fixed lifting/lowering once per minute in cycles.
If the flow rate of the two rows of siphon pipe mechanisms is too high, the problem can be solved only by closing a plurality of siphon pipes by virtue of the electric gate below the siphon pipes; if the flow rate of the two rows of siphon pipes is insufficient and needs to be accelerated, the problem can be solved only by opening a plurality of siphon pipes; if the siphon pipe with the two rows of closed siphon pipes needs to be reopened, the siphon pipe is used and the water in the pipe is filled with water, so that the siphon effect is established, and the water can continuously flow as long as the electric gate below the siphon pipe is opened; if the power generation system needs maintenance, the water delivery can be stopped for maintenance as long as all the electric gates under the siphon are completely closed; when the machine is restarted, the siphon action is established because all the siphon pipes are filled with water, and the electric gate switch under the siphon pipes is opened, so that the water starts to flow; in other words, the number of siphon tubes in the two rows is arranged in advance for adjustment.
If the electric gate mechanism is used, the water draining speed is too high, water can be drained in less than 30 seconds, and the problem can be solved only by slightly reducing the opening amplitude of the electric gate; if the speed of the electric gate for draining water is too slow, the problem can be solved only by opening the electric gate a little bit more; in other words, the large electric gate is designed to reserve an adjustment space.
After the water delivery quantity and the water discharge quantity of the siphon mechanism and the electric gate mechanism are regulated to be normally operated stably, all the electric gates below the two rows of siphons are immediately closed, and the operation is stopped. At the moment, the transmission rod of the transmission mechanism can be installed, then the machine is restarted, all siphon pipes are filled with water, the siphon action is established, and the machine is restarted, so that the water flows again and can be formally operated and used; in other words, the water delivery quantity of the main reservoir and the water discharge quantity of the two auxiliary reservoirs cannot be installed in the adjusting process, and the transmission rod of the transmission mechanism can be installed and started after the adjustment is normally stable, otherwise, the water level lifting distance and the lifting speed of the main reservoir are unstable, and once the water level lifting distance and the lifting speed of the main reservoir are used, the structural safety of the system is damaged.
Furthermore, the large floating body can be replaced by a floating ship with a U-shaped bottom, such as a rectangle, an ellipse, a polygonal rectangle, an inverted trapezoid and the like, and the same effect can be achieved.
In order to further understand and appreciate the technical features and effects achieved by the present invention, the present invention shall be described in detail with reference to the accompanying drawings, which illustrate preferred embodiments of the present invention:
drawings
FIG. 1 is a schematic perspective view of an overall system of the present invention;
FIG. 2 is a schematic top view of the overall system of the present invention in a horizontal position;
FIG. 3 is a schematic view of the siphon mechanism and the electric gate mechanism of the present invention;
FIG. 4A is a schematic cross-sectional view of a portion of the front of the drive mechanism of the present invention;
FIG. 4B is a schematic diagram of the operation of the transmission mechanism of the present invention;
FIG. 4C is a schematic diagram of the operation of the transmission mechanism of the present invention;
FIG. 4D is a schematic diagram of the operation of the transmission mechanism of the present invention;
FIG. 5 is a side view of the shifting gear system of the shifting mechanism of the present invention.
Wherein:
Figure BDA0002361659230000111
Figure BDA0002361659230000121
Detailed Description
Referring to fig. 1 to 5, the embodiment of the atmospheric pressure, water gravity, water buoyancy and gravity power generation system disclosed in the present invention includes a main reservoir 1, an auxiliary reservoir 1, a heavy floating body 2, a main fixing mechanism 3, at least one auxiliary fixing mechanism 4, at least one set of transmission mechanism 5, at least one set of speed change mechanism 6, at least one set of high power generator 7, at least one electric gate mechanism 8, and at least one siphon mechanism 9, wherein:
the main reservoir and the auxiliary reservoir are 1: as shown in fig. 1 and 2, the water storage device comprises a main water reservoir 11 and at least one auxiliary water reservoir 12, wherein:
the length, width and height of the main reservoir 11 are enough to accommodate a heavy floating body 2, a set of the main fixing mechanism 3 and at least one row of the siphon mechanisms 9, so that the heavy floating body 2 can vertically move up and down at a fixed point on a fixed rod 31 of the main fixing mechanism 3;
the auxiliary reservoir 12 is arranged on the ground on the left side and/or the right side above the main reservoir 11, the length, the width and the height are enough to accommodate the water amount discharged by the water level lifting interval of the main reservoir 11, and the total water storage amount of the auxiliary reservoir 12 is set;
the siphon mechanism 9: as shown in fig. 1 and 3, the water pump is installed at the left and/or right side of the main reservoir 11, and can pump the water in the main reservoir 11 into the auxiliary reservoir 12 at a fixed time and a fixed interval;
the electric gate mechanism 8: as shown in fig. 1 and 3, the auxiliary reservoir 12 is installed near the bottom of the main reservoir 11, and then opened to start draining a large amount of water, and the water is drained back into the main reservoir 11 at the same time as the siphon mechanism 9 delivers water, so that the water level of the main reservoir 11 can rise and fall at a fixed time and a fixed interval;
the lifting distance and the lifting speed of the water level of the main reservoir 11 are reversely deduced according to the rotating torque and the rotating speed which are required to be input by the high-power generator device 7, the push-pull rotating torque and the push-pull speed which are required to be input by the speed change mechanism 6 are calculated, the push-pull power, the push-pull distance and the push-pull speed which are required to be input by the transmission mechanism 5 are reversely deduced according to the data, the displacement and the gravity of the heavy floating body 2 and the fluctuating distance and the fluctuating speed are reversely deduced according to the data because the gravity of the floating body is buoyancy which is the gravitation, and the lifting distance and the lifting speed of the water level of the main reservoir 11 are reversely deduced according to the data;
that is, according to the standard operation program SOP manufactured by the system, the specifications of the mechanisms are obtained by reverse deduction one by one:
if the push-pull power required to be obtained by the transmission mechanism 5 is ten thousand tons, the push-pull interval is 6 meters, and the push-pull speed is once per minute, because the gravity of the floating body is equal to buoyancy force and equal to gravitational force, the displacement and the gravity of the heavy floating body 2 must be set to ten thousand tons, so that the buoyancy force and the gravitational force of one thousand tons can be obtained by means of the gravity of the heavy floating body 2, and the heavy floating body 2 is lifted and pulled down by means of fixed fluctuation once per minute at the interval of 6 meters; the lifting distance of the water level of the main reservoir 11 must be set to 6 meters, the lifting speed must be set to once per minute, so that the heavy floating body 2 can be vertically moved up and down at a fixed point on a fixed rod 31 of the main fixing mechanism 3 of the main reservoir 11 along with the fixing of the main reservoir 11 at the distance of 6 meters and the fixed speed of lifting once per minute, so as to drive the transmission mechanism 5 to generate a ten thousand tons of fixed push-pull power, which is fixed at the push-pull distance of 6 meters and the fixed push-pull speed of once per minute, so as to push and pull a starting gear G1 of the speed change mechanism 6 to rotate, so that the speed change mechanism 6 can generate a fixed rotation moment and rotation speed according to the energy sources such as nuclear energy, natural gas, petroleum, coal and the like, so as to drive the high-power generator 7 to operate and generate huge electric power with fixed voltage, current and generated energy, the power generation system can be used as a national base load power plant and incorporated into a national power grid power transmission and distribution system.
The main reservoir and the auxiliary reservoir 1 comprise a main reservoir 11, two auxiliary reservoirs 12 and two auxiliary reservoirs 12, which are arranged on the ground at the left side and the right side above the main reservoir 11.
The heavy floating body 2: as shown in fig. 1 and 2, the large sealed floating vessel with a pointed bottom is a large sealed floating vessel with a deck 21, an air chamber 22, and at least one set of bearing holes 23 capable of sliding up and down and provided with a bearing 24 therein, at two ends or/and two sides of the deck 21.
The main fixing mechanism 3: as shown in fig. 1 and 2, the water reservoir includes at least two fixing rods 31 disposed in the middle of the main water reservoir 11, at least two auxiliary fixing rods 33 disposed on the left and right sides of the two fixing rods 31, and at least two groups of connecting cross rods 32 disposed on the upper and lower ends of the fixing rods 31 and the auxiliary fixing rods 33 and transversely and firmly connected to each other, so that the structure of the main fixing mechanism 3 is consolidated; the two fixing rods 31 penetrate through the bearing holes 23 and the bearings 24 arranged on the deck 21 of the heavy floating body 2 and then are directly communicated with the bottom of the main reservoir 11, and the two fixing rods 31 are fixedly arranged on a foundation 13 at the bottom of the main reservoir 11 by virtue of a fixing base 35, so that the heavy floating body 2 can stably and smoothly move up and down at fixed points on the two fixing rods 31 of the main fixing mechanism 3; the two auxiliary fixing rods 33 are fixedly arranged on the foundation 13 at the bottom of the main reservoir 11 by a fixing base 35 according to the two fixing rods 31; in order to make the structure of the main fixing mechanism 3 more secure, the two rows of auxiliary fixing rods 33 are fixed by a fixing base 36, and the two auxiliary fixing rods 33 are fixed on a reinforced cement wall 37 at two sides of the main reservoir 11.
The auxiliary fixing mechanism 4: as shown in fig. 1 and 2, as a fixing mechanism for the floor 41 above the two sub reservoirs 12, the transmission mechanism 6 and the high-power generator 7 are mounted on the floor 41 to operate and generate electricity on the floor 41; in order to secure the structure of the two floor boards 41, four pillars 42 are provided under the floor boards 41, the two pillars 42 behind the four pillars 42 are installed on a second foundation 44 at the bottom of the two sub reservoirs 12 by a second fixing base 43, the two pillars 42 in front are installed on the foundation 13 at the bottom of the main reservoir 11 by a second fixing base 43, the two pillars 42 in front are also installed on the foundation 13 at the bottom of the main reservoir 11 by a fixing base 43, and the two pillars 42 in front are laterally nailed on the reinforced concrete wall 37 of the main reservoir 11 by a fixing base 36, so that the structure of the sub fixing mechanism 4 is secured, and the speed change mechanism 6 and the generator device 7 can stably operate on the floor boards 41 to generate electricity.
The transmission mechanism 5: as shown in fig. 1, fig. 2, fig. 4A, fig. 4B, fig. 4C, and fig. 4D, a bearing seat 51 is respectively disposed on the left and right sides of the deck 21 of the heavy floating body 2 facing each other, the bearing seat 51 is fixedly mounted on a movable slider 52, the movable slider 52 is mounted in a fixed slide seat 53 of the deck 21, so that the bearing seat 51 can slide left and right along with the movable slider 52 in the slide channel rail of the fixed slide seat 53; a transmission rod 54 is disposed on the bearing seat 51, one end of the transmission rod 54 is mounted on the bearing seat 51, and the other end is mounted on a bearing column 55 along the edge of a start gear G1 of the speed change mechanism 6; because the bearing seat 51 on the deck 21 of the heavy floating body 2 is installed under the starting gear G1 of the transmission gear G1, the transmission rod 54 on the bearing seat 51 can be matched with the rotating position of the bearing column 55 of the starting gear G1, and can slide left and right to keep the transmission rod 54 always under the rotating position of the bearing column 55, so that the bearing column 55 which vertically pushes and pulls the edge of the starting gear G1 up and down is formed to drive the starting gear G1 to rotate, and the operation is similar to that of a Chinese person who grinds rice cakes;
the diameter of the rotation of the bearing column 55 along the edge of the start gear G1 is matched with the lifting distance of the water level of the main reservoir 11, so that the lifting distance and the lifting speed of the water level of the main reservoir 11 drive the heavy floating body 2 to move along with the same distance and the same speed, when the water level is lifted up and down, because the gravity of the floating body is buoyancy and gravity, one million tons of buoyancy and gravity are generated by the gravity of one million tons of the heavy floating body 2, the transmission rod 54 of the transmission mechanism 5 is pushed and pulled to generate one million tons of push-pull power, and the bearing column 55 is pushed and pulled to rotate the start gear G1 to rotate one circle at the same distance and the same speed.
There is enough space above the deck 21 of the heavy floating body 2, two sets of the transmission mechanisms 5 can be simultaneously installed on each of the left and right sides of the deck 21, and there is also enough space above the floor 41 of the auxiliary fixing mechanism 4, and two sets of the speed change mechanisms 6 and the high-power generator devices 7 can be simultaneously installed on the floor 41 to generate four times of electric quantity.
The speed change mechanism 6 has a plurality of speed change methods, which cannot be listed, and the system is described by only omitting a speed change gear system:
the speed change mechanism 6: as shown in fig. 5, a set of speed-changing gear system is provided, which comprises a starting gear G1, a driven gear G2 meshed with the starting gear G1, a first transmission gear G3 coaxial with the driven gear G2, a first linkage gear G4 meshed with the first transmission gear G3, a second transmission gear G5 coaxial with the first linkage gear G4, a second linkage gear G6 meshed with the second transmission gear G5, a first pulley G7 and a flywheel G8 of appropriate weight coaxial with the second linkage gear G6, a second pulley G9 driven by the first pulley G7, and a second pulley G9 coaxial with a rotating shaft G10 of the high-power generator device 7, so as to drive the high-power generator device 7 to operate and generate electricity;
the diameter of the starting gear G1 is 10 times that of the driven gear G2, so that the starting gear G1 makes one turn, and the driven gear G2 makes 10 turns; the diameter of the first transmission gear G3 coaxial with the driven gear G2 is 10 times of the diameter of the first linkage gear G4, so that the first transmission gear G3 makes one turn, and the first linkage gear G4 makes 10 turns; the diameter of the second transmission gear G5 which is coaxial with the first linkage gear G4 is 10 times of the diameter of the second linkage gear G6, so that the second transmission gear G5 makes one turn, and the second linkage gear G6 makes 10 turns; the diameter of the first belt pulley G7 coaxial with the second linkage gear G6 is 10 times of the diameter of the second belt pulley G9, so that the first belt pulley G7 makes one turn, and the second belt pulley G9 makes 10 turns; and the second pulley G9 is coaxial with the rotating shaft G10 of the high power generator device 7, so that the starting gear G1 makes one rotation, and the rotating shaft G10 of the high power generator device 7 makes 10,000 rotations. The requirement of the rotating speed is determined according to the actual requirement of the high-power generator device 7, and the set of speed change gear system of the speed change mechanism 6 can be adjusted and matched at will according to the actual requirement of the high-power generator device 7.
The speed change gear system of the speed change mechanism 6 is internally provided with a flywheel G8 with proper weight, and can store the rotational kinetic energy by utilizing the law of inertia, so that the rotational motion is more stable, and the high-power generator device 7 is driven to stably operate and generate power.
The axis of the starting gear G1 in the group of speed change gear systems of the speed change mechanism 6 is provided with a ratchet wheel G11 for preventing reverse rotation; the flywheel G8 is also provided with a second ratchet wheel G81 for preventing reverse rotation when the system swings up and down.
The high-power generator device 7 is a general existing device (not shown in the figure), and is not described in detail. In the embodiment of the invention, two sets of transmission mechanisms 5, two sets of speed change mechanisms 6 and two sets of high-power generator devices 7 are assembled at the same time, and the two sets of high-power generator devices 7 can be started to run at the same time to generate double electric quantity.
The siphon mechanism 9: as shown in fig. 1 and 3, a row of siphon tubes 91 are respectively arranged on the left side and the right side of the main reservoir 11, the two rows of siphon tubes 91 extend upwards from the bottom of the main reservoir 11 to reach the upper edges of the two auxiliary reservoirs 12, turn and penetrate through the wall to form inverted U-shaped tubes, and then extend downwards to reach the bottoms of the two auxiliary reservoirs 12, so that one side of each siphon tube 91 is long and the other side is short; if the main reservoir 11 is deep into the ground for 20 m, the two auxiliary reservoirs 12 are 5 m high, the small electric gate 92 and the submerged pump 93 are arranged at the bottom of the long-arm siphon tube 91, and after the complete equipment construction of the power generation system is completed, the main reservoir 11 is filled with water, and when the switch of the small electric gate 92 at the bottom of the long-arm siphon tube 91 is opened, the water rushes into the hollow long-arm siphon tube 91, and the water quickly rushes upwards from the bottom of the long-arm siphon tube 91After 20 m reaches the height of the main reservoir 11, the water inside and outside the long arm siphon 91 is balanced and the flow should be stopped, but the two sub reservoirs 12 are still empty and water is not fed, therefore, the pressure P at the bottom end of the long arm siphon 91 is 200,000N/m water gravity (hd)2+ atmospheric pressure P0100,000N/m2=300,000N/m2The pressure P at the bottom of the short-arm siphon 91 is equal to the water gravity 0 (due to no water intake) + the atmospheric pressure P0100,000N/m2=100,000N/m2The pressure difference between the two siphon lines 91 is 300,000N/m2–100,000N/m2=200,000N/m22 atm P0The difference is very large, and the water is rapidly flushed for 20 meters upwards, and 2 atmospheric pressure P is added due to the inertia law factor0The water will not stop flowing and will still flow upward into the two sub reservoirs 12, at this time, the whole siphon tube 91 is filled with water, the siphon effect is established, the water will not stop flowing, and will still flow from the end with higher pressure P of the long arm siphon tube 91 to the end with lower pressure P of the short arm siphon tube 91, after the two sub reservoirs 12 are filled with water, the water depth is 5 meters, the bottom pressure P of the short arm siphon tube 91 is 50,000N/m water gravity (hd)50,000N/m2+ atmospheric pressure P0100,000N/m2=150,000N/m2The pressure difference between the two siphon lines 91 is 300,000N/m2–150,000N/m2=150,000N/m21.5 atm P0The difference is still very large, so that the water does not stop flowing, and the water in the main reservoir 11 is pumped to flow into the auxiliary reservoir 12 at a fixed time and a fixed interval to reach a preset standard;
the electric gate mechanism 8: as shown in fig. 1 and 3, a large electric gate 81 is respectively arranged at the bottom of the two sub reservoirs 12 near the main reservoir 11, and a motor 82 is used to rotate a gear 83, so that the large electric gate 81 is opened to start large amount of water drainage; at this time, the two rows of siphon tubes 91 still continue to flow into the two sub reservoirs 12, so that the large electric gate 81 must drain the water in the two sub reservoirs 12 back to the main reservoir 11 at twice the flow rate of the water transported by the two rows of siphon tubes 91 in the same time, and then close the electric gate 81, and so on, and the water level of the main reservoir 11 is raised and lowered at fixed time and fixed interval.
If the flow rate of the siphon mechanism 9 is too fast, it can be solved by closing several siphon tubes 91 by the small electric gate 92 at the bottom of the two rows of siphon tubes 91; if the flow rate of the siphon mechanism 9 is insufficient and needs to be increased, the problem can be solved by opening a plurality of siphon pipes 91; if the siphon tube 91 with the two rows of siphon tubes 91 closed needs to be opened again, the siphon tube 91 is opened and the siphon tube 91 is filled with water, so that the siphon action is established, and the water can flow continuously as long as the small electric gate 92 at the bottom of the siphon tube 91 is opened; if the diameter of the siphon tube 91 is too large, the small electric gate 92 at the bottom of the siphon tube 91 is opened, the water with too large gravity cannot rush to high, and flows into the two sub reservoirs 12, and the submerged pump 93 at the bottom of the siphon tube 91 is opened to pump the water into the two sub reservoirs 12, and then the submerged pump 93 is turned off, so that the siphon effect is established because the siphon tube 91 is filled with water, and the water starts to flow; if the power generation system needs maintenance, the water delivery can be stopped and the maintenance can be carried out as long as all the small electric gates 92 at the bottom of the siphon 91 are closed; when the machine is restarted, the siphon action is established because all the siphon pipes 91 are filled with water, and the water starts to flow as long as the small electric gate 92 at the bottom of the siphon pipe 91 is opened; in other words, the number of the siphon tubes 91 is set up to be several in advance for the adjustment deficiency;
if the electric gate mechanism 8 drains water too fast, the water can be drained in less than 30 seconds, and the problem can be solved only by closing the opening range of the electric gate 81 a little; if the electric gate mechanism 8 is too slow in draining, the problem can be solved by only opening the electric gate 81 a little bit more; in other words, the large electric lock gate 81 is designed to reserve a space for adjustment;
the water delivery and discharge of the siphon mechanism 9 and the electric gate mechanism 8 are adjusted to operate normally, and the electric gates 92 at the bottoms of the two rows of siphons 91 are closed immediately to stop operation after the heavy floating body 2 can move up and down in fixed time and fixed distance; at this time, the transmission rod 54 of the transmission mechanism 5 can be installed, and then the machine is restarted, and the machine can be formally operated to generate electricity; in other words, during the adjustment of the water supply amount of the main reservoir 11 and the water discharge amount of the auxiliary reservoir 12, the driving rod 54 of the driving mechanism 5 cannot be installed, and the formal operation power generation can be installed after the adjustment is normally stable, otherwise, the system structure safety will be damaged.
The major floating body 2 is a large sealed floating vessel with a pointed bottom, for example, it is needless to say that a floating vessel with a U-shaped bottom, such as a rectangular, oval, polygonal rectangular, or inverted trapezoid, may be used instead, and the same effect can be achieved.
The invention discloses an atmospheric pressure, water gravity, water buoyancy and gravity power generation system, which utilizes atmospheric pressure, water gravity, water buoyancy and gravity, four natural clean energy sources are simultaneously captured and used together, and a power generation system of a new idea can really solve all the problems of atmospheric pressure, water gravity, water buoyancy and gravity, large scale, high efficiency and infinite capture, and can replace the existing energy sources for power generation.
The above description is only a preferred embodiment of the present invention, and all changes that can be made by the technical means of the present invention should be included in the scope of the claims of the present invention, so as to be able to bring out the description.

Claims (10)

1. Atmospheric pressure, water gravity, water buoyancy and gravity power generation system, its characterized in that includes, a main, vice cistern (1), a major floating body (2), a main fixed establishment (3), at least one pair of fixed establishment (4), at least a set of drive mechanism (5), at least a set of speed change mechanism (6), at least a set of high-power generator device (7), and at least an electronic gate mechanism (8), at least a siphon mechanism (9), wherein:
the main water reservoir and the auxiliary water reservoir (1): comprising a main reservoir (11), at least one secondary reservoir (12), wherein:
the length, the width and the height of the main reservoir (11) are enough to accommodate the heavy floating body (2), a set of the main fixing mechanism (3) and at least one row of the siphon mechanisms (9), so that the heavy floating body (2) can vertically move up and down at a fixed point on a fixed rod (31) of the main fixing mechanism (3);
the auxiliary reservoir (12) is arranged on the ground at the left side and/or the right side above the main reservoir (11), the length, the width and the height of the auxiliary reservoir are enough to accommodate the water amount discharged by the water level lifting interval of the main reservoir (11), and the total water amount of the auxiliary reservoir (12) is set;
the siphon mechanism (9): is arranged at the left side and/or the right side of the main reservoir (11), and pumps the water in the main reservoir (11) to flow into the auxiliary reservoir (12) at fixed time and fixed intervals;
the electric gate mechanism (8): the auxiliary reservoir (12) is arranged at the wall bottom of the main reservoir (11) and is opened immediately to start draining a large amount of water, and the water is drained back into the main reservoir (11) at the same time of water delivery of the siphon mechanism (9), so that the water level of the main reservoir (11) is lifted up and down at a fixed time and a fixed interval;
the lifting distance and the lifting speed of the water level of the main reservoir (11) are reversely deduced according to the rotating moment and the rotating speed which are required to be input by the high-power generator device (7), the push-pull rotating moment and the push-pull speed which are required to be input by the speed change mechanism (6) are calculated, the push-pull power, the push-pull distance and the push-pull speed which are required to be input by the transmission mechanism (5) are reversely deduced according to the data, the displacement and the gravity of the heavy floating body (2) and the interval and the speed of fluctuation are reversely deduced according to the data, and the lifting distance and the lifting speed of the water level of the main reservoir (11) are reversely deduced according to the data.
2. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 1, wherein the main and auxiliary reservoirs (1) comprise a main reservoir (11), two auxiliary reservoirs (12), and two auxiliary reservoirs (12) disposed on the ground on the left and right sides above the main reservoir (11).
3. Atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 1, characterized in that the heavy floating body (2) is a large sealed floating vessel with a pointed bottom, the floating vessel having a deck (21), an air chamber (22), and at least one set of bearing holes (23) capable of sliding up and down and arranged in the deck (21) at two ends and/or two sides, and a bearing (24) is arranged in the bearing holes.
4. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 3, wherein the main fixing mechanism (3) comprises at least two fixing rods (31), at least two auxiliary fixing rods (33) are respectively arranged at the left side and the right side of the two fixing rods (31), at least two groups of connecting cross rods (32) are arranged at the upper end and the lower end of the fixing rods (31) and the auxiliary fixing rods (33) and are transversely and firmly connected with each other, so that the structure of the main fixing mechanism (3) is consolidated; the two fixing rods (31) penetrate through a bearing hole (23) and a bearing (24) arranged on a deck (21) of the heavy floating body (2) and then directly penetrate through the bottom of the main reservoir (11), and the two fixing rods (31) are fixedly arranged on a foundation (13) at the bottom of the main reservoir (11) by virtue of a fixing base (35), so that the heavy floating body (2) can stably and smoothly move on the two fixing rods (31) of the main fixing mechanism (3) to vertically move up and down at a fixed point; the two auxiliary fixing rods (33) are fixedly arranged on the foundation (13) at the bottom of the main reservoir (11) by a fixing base (35) according to the two fixing rods (31); in order to ensure that the structure of the main fixing mechanism (3) is more safely consolidated, the two rows of auxiliary fixing rods (33) are fixedly nailed on a reinforced cement wall (37) at two sides of the main reservoir (11) by a fixing seat (36) in a transverse mode.
5. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 2, wherein the secondary fixing mechanism (4) is used as a fixing mechanism for the floor (41) above the two secondary reservoirs (12), so that the speed change mechanism (6) and the high-power generator device (7) can be mounted on the floor (41) to operate and generate power on the floor (41); in order to safely consolidate the structure of the two floor boards (41), four supporting columns (42) are arranged below the floor boards (41), the two supporting columns (42) at the back of the four supporting columns (42) are arranged on a second foundation (44) at the bottom of the two auxiliary reservoirs (12) by a second fixing base (43), the two supporting columns (42) at the front are arranged on the foundation (13) at the bottom of the main reservoir (11) by a second fixing base (43), the two supporting columns (42) at the front are also arranged on the foundation (13) at the bottom of the main reservoir (11) by a fixing base (36) and the two supporting columns (42) at the front are transversely and firmly nailed on the reinforced cement wall (37) of the main reservoir (11) compared with the auxiliary fixing rod (33) of the main fixing mechanism (3), so that the structure of the auxiliary fixing mechanism (4) can be consolidated, the speed change mechanism (6) and the generator device (7) can operate on the floor (41) to generate electricity.
6. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 3, wherein the transmission mechanism (5) comprises a bearing seat (51) respectively provided on the left and right sides of a deck (21) of the heavy floating body (2), the bearing seat (51) is fixedly installed on a movable slide block (52), the movable slide block (52) is installed in a fixed slide seat (53) of the deck (21), so that the bearing seat (51) can slide left and right along with the movable slide block (52) in a slide groove rail of the fixed slide seat (53);
a transmission rod (54) is arranged on the bearing seat (51), one end of the transmission rod (54) is arranged on the bearing seat (51), and the other end is arranged on a bearing column (55) at the edge of a starting gear (G1) of the speed change mechanism (6); because the bearing seat (51) on the deck (21) of the heavy floating body (2) is arranged right below the starting gear (G1) of the speed changer (6), the transmission rod (54) on the bearing seat (51) can be matched with the position where the bearing column (55) at the edge of the starting gear (G1) rotates, and slides left and right to keep the transmission rod (54) always right below the position where the transmission rod rotates along with the rotating position of the bearing column (55), so that the bearing column (55) which vertically pushes and pulls the edge of the starting gear (G1) up and down is formed to drive the starting gear (G1) to rotate;
the diameter of the bearing column (55) at the edge of the starting gear (G1) is matched with the lifting distance of the water level of the main reservoir (11), so that the lifting distance and the lifting speed of the water level of the main reservoir (11) drive the heavy floating body (2) to rotate at the same distance, the same speed and rise and fall, the gravity of the floating body is equal to the buoyancy force and the gravity of one million tons by the gravity of the heavy floating body (2), the transmission rod (54) for pushing and pulling the transmission mechanism (5) generates one million tons of pushing and pulling power, and the bearing column (55) is pushed and pulled to rotate the starting gear (G1) at the same distance and the same speed to rotate for one circle.
7. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 3, wherein there is enough space above a deck (21) of the heavy floating body (2), two sets of the transmission mechanisms (5) can be installed on each of the left and right sides of the deck (21) at the same time, and there is enough space above a floor (41) of the secondary fixing mechanism (4) above the heavy floating body (2), and two sets of the speed change mechanisms (6) and the high-power generator devices (7) can be installed on the floor (41) at the same time to generate four times of electric quantity.
8. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system as claimed in claim 1, wherein said speed change mechanism (6) is provided with a set of speed change gear system, which is provided with a flywheel (G8) with proper weight, and can store the rotational kinetic energy by using the law of inertia to make the rotational motion more stable, so as to drive the high power generator device (7) to operate stably for power generation.
9. The atmospheric pressure, water gravity, water buoyancy and gravity power generation system according to claim 1, wherein the siphon mechanism (9) is provided with a row of siphon pipes (91) on each of the left and right sides of the main reservoir (11), the two rows of siphon pipes (91) extend from the bottom of the main reservoir (11) upwards to the upper edges of the two auxiliary reservoirs (12) and then turn to form inverted U-shaped siphon pipes, and extend downwards to the bottom of the two auxiliary reservoirs (12) to make one side of the two rows of siphon pipes (91) longer and one side shorter, and the water in the main reservoir (11) is pumped to flow to the auxiliary reservoirs (12) at a fixed time and a fixed interval to reach a preset standard; the electric gate mechanism (8) is respectively provided with a large electric gate (81) at the bottom of the two auxiliary reservoirs (12) close to the main reservoir (11), and a motor (82) is used for rotating a gear (83) and then opening the large electric gate (81) to start large amount of water drainage; at the moment, the two rows of siphon pipes (91) still continuously convey water to the two auxiliary reservoirs (12), so that the large electric gate (81) discharges the water of the two auxiliary reservoirs (12) into the main reservoir (11) at twice the flow rate of the water conveyed by the two rows of siphon pipes (91) in the same time, and then the electric gate (81) is closed, and the process is repeated in such a way that the water level of the main reservoir (11) rises and falls at fixed time and fixed distance.
10. Atmospheric pressure, water gravity, water buoyancy and gravitational force power generation system according to claim 1, characterized in that said massive float (2): the large sealed floating vessel is a sealed floating vessel with a pointed bottom, or a rectangular sealed floating vessel with a U-shaped bottom, or an oval sealed floating vessel with a U-shaped bottom, or an inverted trapezoidal sealed floating vessel with a U-shaped bottom.
CN202010023582.0A 2020-01-09 2020-01-09 Atmospheric pressure, water gravity, water buoyancy and gravity power generation system Pending CN111197550A (en)

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TW109212697U TWM612485U (en) 2020-01-09 2020-09-25 The atmospheric pressure, water gravity, water buoyancy, and gravity power generation systems
TW109133356A TW202129151A (en) 2020-01-09 2020-09-25 The atmospheric pressure, water gravity, water buoyancy, and gravity power generation systems

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114753325A (en) * 2021-04-08 2022-07-15 王子信 Reciprocating Circulation Hydroelectric Power Generation System of Reservoir

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114753325A (en) * 2021-04-08 2022-07-15 王子信 Reciprocating Circulation Hydroelectric Power Generation System of Reservoir

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