WO2013131204A1 - Non-dissipative water drafting device using cyclic action and system - Google Patents

Abstract

Disclosed is a non-dissipative water drafting device using cyclic action and a system comprising the device. The device has a roller (11), an arcuate groove (12), a seesaw device seat (14), a balancing insert pin (17), a unidirectional water stoppage valve (19), a pump (18), and a hydraulic propulsion unit (25). The device is placed in a pool (24) and is connected to a water tower (23) by means of a water pipe (21), and the water tower is then connected to a water wheel electricity generation set (26) by means of the water pipe (21). Using water fluidity, gravity, the seesaw principle and piston principle, a motive force is generated to drive the whole operation. The device can solve the problem of using up resources due to producing electricity by using a non-regenerative energy source in the prior art.

Description

 Energy-free water pumping action equipment and system

 The present invention relates to a hydroelectric power plant: in particular, it relates to a non-energy-capable water-drawing action device and system. Background technique

 In the past few years, it has witnessed tremendous shocks in the world's energy market, but the task of transforming the global energy system is still very urgent and severe. The world has gone through the worst economic crisis in decades. The world's energy demand has increased with economic recovery. The rate of rebound depends on the speed of global economic recovery. Fossil fuels: oil, coal and natural gas are still the dominant energy sources. . :.

 However, emerging economies, led by China and India, will drive global demand, and global demand for each fuel will continue to rise, with fossil fuels accounting for more than half of total primary energy demand. The pressure on prices in the international market continues to increase, and the price of fossil fuels sold to end users continues to rise. Encouraging energy conservation policies and shifting to low-carbon energy sources will help curb the growth in demand for fossil fuels, but The biggest space for increasing the use of renewable energy is still in the power sector.

 The most effective way to create energy is not to find new energy sources, but to save energy consumption. Under this global trend, it is imperative to develop low-carbon, low-energy, environmentally safe power generation modes, with innovative power generation methods. Energy-saving, low-carbon, environmentally-friendly and safe power generation can meet the public's demand for safe electricity, meet the goal of energy-saving and low-carbon, and greatly alleviate the cost pressure caused by rising energy costs of major power generation companies.

 In the case of mankind having to use energy, and considering the limited use of energy, it is necessary to find alternative energy sources. At present, global energy expertise, solar energy and wind energy are an auxiliary means of power generation, although both continue to develop. At present, there are still development bottlenecks, but to replace conventional power generation and nuclear power, it is not in line with the goal of environmental protection, energy conservation and low carbon.

 Although solar energy is endless, the materials used to convert solar energy are limited, and solar energy converters are inefficient. Secondly, due to the rotation of the earth and the climate, seasons, etc., the power of solar energy changes greatly and is unstable, and it is used continuously for normal use. It creates difficulties and, more importantly, regardless of its current cost and even the conditions of use, if it is too high compared to oil, nuclear energy and other energy sources.

 Wind energy is also a renewable, non-polluting energy source. Wind energy also has the advantages of low investment, high efficiency, economical and durable, and huge reserves. However, wind energy utilization has inherent disadvantages. In addition to being restricted by geographical environment, there is still a time difference in wind power application. Generally, wind power stations are built on the sea, and their wind resources are most abundant at night, and night is just the low peak of power demand. During the time period, these make the development prospects of wind power fall behind too much.

The scale development of wind power and photovoltaic power generation has an increasing impact on the safe and stable operation of power grids. Wind power and photovoltaic power generation have intermittent and random characteristics. Wind power has anti-peak characteristics, system power flow control, auxiliary service calls, and short-circuit current. Control, power quality assurance, etc. all pose new challenges. At present, due to imperfect wind power prediction system, the basic data lacks confirmation. Lack, accuracy is not high, grid companies can not make a plan according to the predicted wind power, there are great uncertainties in the arrangement of operation methods.

 Hydropower development is the forced migration of the aborigines. The dam cut off the water flow, changed the natural state of the river, and cut off the original path. This has an irreversible effect on ecological performance. Land submersion caused changes in land types. There may also be some geological disasters, and its ecological impact is also actual, and is closely related to the construction and operation of large-scale water conservancy projects. :

 Global energy resources are declining, and even if global energy demand does not increase, global oil resources may only be enough for us to use for 50 years.

 Natural gas is not so urgent at present, but how to transport it to ensure supply is a big problem. Although coal resources are still abundant, it can be reused for another 175 years, but its carbon emissions are too high, and it does not meet environmental protection requirements and causes environmental damage. ;

The world's future may still maintain high growth, but only human beings to change the current consumer behavior this context, this includes a greater extent to improve energy efficiency, changes in energy consumption and the proportion of ^j brisk development of carbon capture and storage technologies, and then control the consumption of fossil fuels Negative impact on all humanity.

 When a variety of new energy industry developments begin to take shape, we need to consider the issue of the ratio of various new energy sources to each other, and the limitations of individual new energy development. Wind power, water and electricity are limited by geography and weather. Solar energy will be contaminated by polysilicon waste. The nuclear power industry is also plagued by security problems. No matter how advanced the technology is, it will be threatened by war and natural disasters.

 On the whole, in the current energy crisis and the growing greenhouse effect, the development of green energy has become the theme of the times; a clean and sustainable energy solution, gradually becoming an alternative energy source in the 21st century; We are committed to the promotion and innovation of energy conservation and green energy, and contribute to the improvement of the future living environment of λ.

 In view of this, the present invention provides a non-energy-capable water-discharging action device and system, which utilizes the fluidity, horizontality and self-weight of the water in the roller body to roll and impact the seesaw, and the water circulation action pumps the water to a high point. The way to drive the overall operational power, not only can convert the kinetic energy of water into mechanical energy to drive the hydroelectric generating unit to generate electricity, but also because the circulation of water supply is continuous, there is no dilemma of interruption and water shortage during operation, and there is no natural ecology. The destruction and the occurrence of geological disasters to solve the above problems.

 The non-energy-consuming water-discharging action device and system of the invention is a non-renewable precious mineral resource such as coal, oil and uranium which can be used for renewable energy and can save thermal power and nuclear power consumption. It is a kind of electric power production with environmental protection, energy saving and low carbon recyclability. It does not emit harmful gases, smoke and ash, has no nuclear radiation pollution, and can be widely used in various geographical environments. Summary of the invention:

The main object of the present invention is to provide a non-energy-capable water circulation action device and system, which utilizes liquid liquidity, liquid level and self-weight, and then uses a circular center of gravity eccentric principle, a seesaw principle, and a piston principle as Drive overall The hydro-power generating device designed to consume water and circulate the action equipment, and more precisely, the energy required to push the hydro-generator set, to supply without energy consumption and continuous circulation, so that the production power does not need to rely on other Energy and purchase of raw materials can automatically realize the cycle power generation function.

 Another main object of the present invention is that it is not necessary to construct a large dam water conservancy project in various places, resulting in a highly controversial environmental problem, the use area is small, and it can be constructed in any geological manner by a steel bone structure, or the closest distance to the electricity use area. The water-free operation device with no energy consumption of the invention cooperates with the hydro-generator unit to form a non-energy-consuming water-discharging action device, and is used as an energy-saving low-carbon and environmentally-friendly power generation device and system.

 Another main object of the present invention is to construct a non-energy-capable water-drawing action device by the river, to draw water to a high point according to the required distance, and to slant to the destination. When the drought is over, it can solve the livelihood of the people's livelihood, the irrigation of the farmland, the regeneration of the deserted land, or the adjustment of the ecological environment.

 The scope of the present invention is to provide a non-energy consuming water circulation action device and system. In order to achieve the above object, the non-energy-consuming water circulation action device mainly comprises a rolling body, and has an inlet and outlet water hole. During operation, the amount of water injected inside, the liquid fluidity of the water, the level of the liquid surface and the self-weight are used to drive the rolling. An arcuate groove having a wear-resistant track and a position corresponding to the roller for positioning the roller on the wear-resistant track and reducing the friction coefficient; the seesaw device seat plate having a bearing a central position for connecting and fixing the arc groove, the opposite sides are respectively provided with corresponding connecting rods and holes; a plurality of balance bolts are inserted into the holes of the chassis of the seesaw device for making The seesaw device seat plate is stopped and fixed; a plurality of one-way water stop valves are used to control the direction of the inflow and outflow; a plurality of pumps are provided with inlet and outlet ports, and the one-way water stop valves are provided at the inlet and outlet ports In order to push the direction of water flow, a pressure plate is arranged inside thereof; a plurality of hydraulic propulsion devices are combined with the pumps to push the roller by the water pressure of the water flow.

 When operating, the connecting rods are connected to the pumps; in order to push the power of the water flow, and through the water pressure of the water pipes, the water pressure propelling devices are driven by the pumps to push the rolling bodies, Used to keep the roller rolling.

 Among them, the application of the circular center of gravity eccentricity principle inject 60%~80% of water into the roller body, placing the roller body in the center of the arc groove, and the bottom of the arc groove groove is based on the principle of the seesaw plate, the chassis of the seesaw device is A tiltable seat plate is coupled to the arcuate slot. When the operation is in operation, the balance plugs at both ends are taken out, and the non-energy-capable water circulation action device starts to lose balance, and the roller tends to roll to one side, starts to roll in the arc groove according to the wear-resistant track, and utilizes the roll body. The liquidity of the liquid, the level of the liquid level and the self-weight, drive the roller, and then rebound to the other side. The cycle is operated by the principle of the rod, and the pump is pumped to the high point or the water tower as the driving force for the overall operation.

 At the same time, the repeated synchronous equalization drives the pump to draw water to the high place or the water tower, and at each inlet and outlet end of the water pipe of the pumping water, a one-way water stop valve is set, and when the water bears at the height or the water tower use the water level difference to convert into When kinetic energy and kinetic energy are converted into mechanical energy, and then the hydroelectric generating unit is driven to generate electricity, the water will return to the underground reservoir or pool.

When the operation is carried out, when the connecting rods in the pumps and the Zhuangli disk are in a difference, the water in the underground reservoir or pool will be continuously supplied with inertia, and the one will make the water tower have the actual effect and power generation benefit of self-reliance and high water storage. The innovative design, in addition, enables the sustainable recycling of water resources for power generation into an underground reservoir or pool for re-use. In order to make the non-energy-capable water circulation action device and system more stable and stable, more than two sets of non-energy-consuming water-discharging action devices can be connected in parallel to more effectively increase the stability of energy.

 However, a water pressure pushing device can be added under the arc groove, and the water pumping device can be pumped from the pumping external water pipe of the other device to the hydraulic pressure pushing device, and the thrust can be reversed and the thrust can be pushed. The roller is used to maintain the roller continuously and has a stable rolling force.

 As described above, the non-energy-consuming water-discharging action device and system of the present invention breaks through the problem that the power source existing in the existing power generation device is difficult to be exhausted and cannot be recycled and reused, thereby achieving recyclable power generation. The novelty, advancement and industrial utilization of energy consumption.

 In order to have a deeper understanding and understanding of the technical means, structure, characteristics and use efficiency of the energy-free water-drawing action device and system of the present invention, the advantages and spirit of the present invention can be achieved by the following embodiments and The drawings are further understood. DRAWINGS

 The detailed description of the preferred embodiments of the present invention and the accompanying drawings will be further understood,

 1A is a representative view of a roller of a non-energy-consuming water-discharging action device of the present invention;

 1B is a schematic view of a roller body of the energy-free pumping water circulation action device of the present invention;

 2A is a front elevational view of the energy-free pumping water circulation action device of the present invention;

 2B is a schematic view showing the use of the energy-free pumping water circulation action device of the present invention;

 2C is an operation diagram of the energy-free water-drawing action device of the present invention;

 2D is another operational diagram of the energy-free water intake cycle apparatus of the present invention;

 3A is a view showing an embodiment of a non-energy consuming water circulation device according to the present invention;

 3B is a view showing another embodiment of the energy-free pumping water circulation action device of the present invention;

 4A is a schematic view showing the operation of the energy-free pumping water circulation action device of the present invention;

 FIG. 4B is another schematic diagram of the non-energy consuming water circulation cloud j] of the present invention;

 4C is a block diagram showing the operation of the energy-free water pumping action device of the present invention;

 FIG. 5A is a unilateral front view of the device without energy consuming water circulation cloud];

 FIG. 5B is a schematic diagram of the unilateral use of the device without energy consumption in the water circulation cloud; FIG.

 Figure 5C is a unilateral operation diagram of the non-energy consuming water circulation device of the present invention;

 FIG. 5D is another unilateral operation diagram of the non-energy consuming water circulation device of the present invention; FIG.

 Figure 6 is a schematic view showing the control structure of the energy-free pumping water circulation device of the present invention;

 7A is a front view of the water in the non-energy consuming water circulation cloud Jr device of the present invention;

7B is a schematic view showing the use of water in the non-energy-consuming water-drawing action device of the present invention; 7C is a water operation diagram of the energy-free water-drawing action device of the present invention;

 7D is another water operation diagram of the energy-free pumping water circulation action device of the present invention;

 Figure 8 is a schematic view showing an arc groove used in the energy-free pumping water circulation action device of the present invention;

 Figure 9 is a view showing the operation of the roller used in the non-energy-consuming water-discharging action device of the present invention;

 10A is a view showing an embodiment of a balance plug of the energy-free pumping water circulation action device of the present invention;

 Figure 10B is a view showing another embodiment of the balance plug of the energy-free pumping water circulation device of the present invention;

 LIST OF REFERENCE NUMERALS 10: no energy consuming water circulation action device; 11: roller; 12: curved groove; 121: curved top cover; 13: wear resistant track; 14: seesaw device seat plate; Bearing; 16: connecting rod; 17: balancing bolt; 171: elastic cushion; 18: pumping; 19: one-way water stop valve; 20: water pipe; 21: water pipe; 22: drain pipe; 23: water tower; : Pool; 25: Hydraulic propulsion unit; 26: Hydrogenerator unit; 27: Pressure plate; 28: Hole; 30: Transformer; 40: Transmission and distribution tower; 50: Control device; 51: Inlet and outlet; Inlet and outlet holes; a2: Inlet and outlet holes; bl: Inlet and outlet holes; b2: Inlet and outlet holes; c: In and out of K holes; ώ In and out of water holes; A1: Inlet and out of water; Α2: In and out of water; B1: In and out water埠; Β 2: In and out of the water. detailed description

 The invention discloses a non-energy consuming water circulation action device and system. The non-energy-consuming water circulation action equipment and system have extremely low energy consumption and inertia circulation mode, can produce electricity by self-contained water circulation mode, and automatically generate functions of inertial water circulation to solve the problem of energy crisis and increasingly strict greenhouse effect.

 The non-energy-consuming water-discharging action device and system of the present invention is invented to solve the problem of depletion of resources caused by non-renewable energy in the prior art.

1A and 2B, FIG. 1A is a representative view of a roller body of a non-energy-consuming water-drawing operation device according to the present invention. 2A is a front elevational view of the non-energy consuming water circulation action device of the present invention. As shown in FIG. 1A and FIG. 2A, the energy-free pumping water circulation action device 10 of the present invention mainly comprises a roller body 11, and is provided with an inlet and outlet water hole. The inside of the roller body 11 is filled with water, and the liquid fluidity and liquid of the water are utilized. The surface level and the self-weight are used to drive the rolling body 11; the curved groove 12 has a wear-resistant rail 13 and is disposed at a position corresponding to the roller body 11 for positioning the roller body 11 The wear-resistant rail 13 rolls and reduces the friction coefficient between the two, and the swinging of the arc slot 12 also drives the connected connecting rod 16; the seesaw device seat plate 14 has a bearing 15 for The arcuate groove 12 is connected and fixed to the center position of the two, and the opposite sides are respectively provided with corresponding connecting rods 16 and holes 28; a plurality of balance bolts 17 are inserted into the seesaw device chassis 14 and the curved groove The corresponding hole 28 is configured to stop the seesaw device seat plate 14 and the arcuate groove 12 from being fixed to each other; a plurality of one-way water stop valves 19 for controlling the inflow and outflow _{; the} direction; the plurality of pumps Pu 18, with water inlets and outlets, and these one-way inlets are provided at the inlets and outlets Valve 19, to push the water flow direction 27 inside a pressure plate; a plurality of hydraulic propulsion device 25, in combination with the plurality of pump 18, water flow through the pressure member 11 pushes the roller.

The pumps 18 are connected to each other through a water pipe 21, and some of the connecting rods 16 are connected to the pressure plates 27, Driving the power of the water flow, and through the water pressure of the water pipes, some of the connecting rods 16 are connected to the pumps 18, and the pumps 18 are driven to drive the water. The pusher 25 is pushed, and then the roller 11 is pushed to maintain the roller 11 in rolling. '

 Referring to FIG. 3A and FIG. 3B, FIG. 3A is a view showing an embodiment of the energy-free pumping water circulation action device of the present invention. FIG. 3B is a view showing another embodiment of the energy-free pumping water circulation action device of the present invention. As shown in FIG. 3A and FIG. 3B, the shape of the roller 11 can be a drum shape or a spherical shape, and the inside of the i-roller 11 can inject 60%~80% of water through the inlet and outlet.

 Referring to FIG. 1B, FIG. 1B is a schematic diagram of a roller body of the energy-free pumping water circulation action device of the present invention. As shown in FIG. 1B, the roller 11 can also be a spherical or ellipsoidal sphere, and the actual operation requirements of the garment are adjusted, but not limited thereto. The preferred embodiment of the present invention is 70% injection. The shape of the drum.

 However, the roller body 11 and the arcuate groove 12 may all be based on a perfect circle and cooperate with the wear-resistant rail 13 , and the corresponding arrangement is used for positioning and reducing the friction coefficient caused by the rolling of the two. .

 In addition, the seesaw device seat plate 14 is for placing and joining the fixed arcuate grooves 12, and is provided with a bearing 15 at the center of the bottom for rotation.

 15 further, the one-way water stop valve 19 may also be disposed at the water inlet and outlet of the water pipes 21 for controlling the water flow direction.

 Referring to FIG. 4A to FIG. 4C, FIG. 4A is a schematic diagram of the energy-free water intake cycle operation system of the present invention. Fig. 4B is another schematic view of the energy-free pumping water circulation action system of the present invention. Figure 4C is a block diagram of the non-energy consuming water circulation action system of the present invention. As shown in FIG. 4A to FIG. 4C, the energy-free pumping water circulation action system of the present invention mainly includes a zero-power-capable water-drawing action device 10, and has a rolling body li, an arc groove 12, and a seesaw device seat plate. 14. The balance bolt 17, the one-way water stop valve 19, the pump 18, and the hydraulic propulsion device 25 are placed in the water tank 24, and are connected to the water tower 23 through the water tubes 21. Using water mobility, liquid level and self-weight, and then using the circular center of gravity eccentricity principle, the seesaw principle, the piston principle, driving the overall operation of the power; a water pipe 21, used to connect and consolidate the water flow; 23, for supplying and storing water amount, connecting the water turbine generator set 26 through the water pipes 21, and using the water level difference as kinetic energy 5 for the hydroelectric generating set 26 to generate electricity; the water wheel sending E unit 26, accepting the The water of the water tower 23 generates electricity by using the kinetic energy of the water level difference, and flows the water to the water pool 24; the water pool is used for supplying and storing the water, and the water discharged from the water turbine generator set 26 passes through the energy-free water collecting and circulating operation device. Water is connected to the water tower 23 through the water tubes 21.

 The energy-free pumping water circulation action system as described above, wherein the water turbine generator set 26 electrically connects the electric energy to the transformer 30, and then electrically connects the power transmission tower 40.

In addition, the water pipes 21 may further include a water pipe 20 through which the water of the pumps 18 is connected.

„ sent to the water tower 23; the drain pipe 22, when the water tower 23 is full of water level, the water is returned to the water pool 24 through the drain pipe 22.

Wherein, when the water tower 23 is full of water, water is returned to the water tank 24 or the water pipe 21 of the water turbine generator set 26. Referring to FIG. 5A to FIG. 5D, FIG. 5A is a unilateral front view of the energy-free pumping water circulation action device of the present invention. Figure 5Β It is a schematic diagram of the unilateral use of the energy-free water-discharging action device of the present invention. FIG. 5C is a unilateral operation diagram of the energy-free pumping water circulation action device of the present invention. FIG. 5D is another unilateral operation diagram of the energy-free pumping water circulation action device of the present invention. As shown in FIG. 5A to FIG. 5D, the pumps 18 can also be operated unidirectionally in one direction, and the water pressure propulsion device 25 is connected through the water pipe 21, and then the water pressure propelling device 25 pushes the roller body 11 to roll and roll.

 The energy-free pumping water circulation action system of the present invention, wherein the water tower is a reservoir provided with reflux water.

 Please refer to FIG. 4B. FIG. 4B is another schematic diagram of the energy-free pumping water circulation action system of the present invention. As shown in FIG. 4B, the energy-free pumping water circulation action system of the present invention may further include a plurality of the energy-free pumping water circulation action device 10, a plurality of water turbine generator sets 26 or a plurality of water towers 23, and the energy-free extraction. The water circulation action device 10 can operate in parallel with each other.

 Referring to Figures 7A through 7D, Figure 7A is a front elevational view of the water-free operation of the energy-free pumping water circulation device of the present invention. Fig. 7B is a schematic view showing the use of water in the non-energy-consuming water-discharging action device of the present invention. Fig. 7C is a diagram showing the operation of the water in the water-free circulation action device of the present invention. Fig. 7D is another water operation diagram of the non-energy consuming water circulation action device of the present invention. As shown in FIG. 7A to FIG. 7D, the energy-free pumping water circulation action device 10 is placed in the water, and is rocked and rolled by the roller 11, and the pumps 18 drive the links 16 to generate a difference from the pressure plate 27. At the time, the water in the pool 24 will naturally continue to be supplied.

 Please refer to FIG. 6, FIG. 6 is a schematic diagram of the control structure of the energy-free pumping water circulation action system of the present invention. As shown in FIG. 6, the pump 18 has a plurality of inlet and outlet water holes, wherein the water pipes 21 connect the inlet and outlet water holes a1 to the inlet and outlet water holes a2, and the water is passed through the one-way water stop valve 19 The hydraulic propulsion device 25 is driven by the inlet and outlet holes a2 to the inlet and outlet holes a2. The other water pipe 21 connects the inlet and outlet holes to the inlet and outlet port b2, and the water is pushed from the inlet and outlet port b1 to the inlet and outlet port b2 through the one-way water stop valve 19 to carry the hydraulic propulsion device 25.

 The water inlet and outlet holes c and the water inlet and outlet holes d are connected to each other, so that the pumps 18 send water to the water tower or the high water storage area via the water pipes.

 Further, the non-energy-consuming water-discharging action device of the present invention may further include a control device 50 for controlling the amount of water in and out of each water pipe, and having an inlet and outlet port 51. As shown in FIG. 6, the water inlet and outlet hole a1 is connected to the water inlet and outlet port A1 through a water pipe 21; the water inlet and outlet hole a2^ is connected to the water inlet and outlet port A2 through a water pipe 21; the inlet and outlet water hole bl and the The inlet and outlet ports B1 are connected by a water pipe 21; the inlet and outlet water holes b2 are connected to the water inlet and outlet ports B2 through water pipes 21, and the two ends of the water pipes 21 are connected to the inlet and outlet ports and the inlet and outlet ports, and then pass through the control device. The 50 adjustment adjusts the amount of water that is not consumed by the water circulation action device 10.

 The energy-free pumping water circulation action system of the invention; mainly adopting the circular center of gravity eccentricity principle, injecting 60%~80% of water into the roller body 11 through the inlet and outlet, placing the roller body il in the center of the arc groove 12 And engaging with the wear-resistant rail 13 , the bottom of the curved groove 12 is connected to the rocker plate chassis 14 by the principle of a seesaw, and is a tiltable swinging seat plate.

Please refer to FIG. 2B to FIG. 2D. FIG. 2B is a schematic diagram of the use of the non-energy-consuming water-drawing action device of the present invention. 2C is a view showing the operation of the non-energy-consuming water-drawing action device of the present invention. 2D is a non-energy consuming water circulation action setting of the present invention .

 o Another operational diagram of the preparation. As shown in FIG. 2B to FIG. 2D, when i is operating, the balance pins 17 at both ends are extracted first, so that the roller 11 is out of balance, and when starting to roll according to the wear-resistant track 13, it is bound to roll to one side, and then roll obliquely. The side of the arcuate groove 12 is struck, and the fluidity of the water, the level of the liquid surface and the self-weight are used in the roller 11, and the roller 11 is driven to rebound to the other side. ;

 Then, when the arc groove 12 is swayed by the roller body 11, the connecting rod 16 connected to the arcuate groove 12 is further driven, and the connecting rods 16 continuously push the connected pump 18 and automatically circulate by inertia. The pumps 18 are continuously linked to the high water tower 23 as a driving force for the overall operation of the drive.

 At the same time, the repeated synchronous equalization priming pump 18 draws water to the water tower 23, and a one-way water stop valve 19 can be provided at the inlet and outlet ends of each of the pumping water pipes 21.

 Please refer to FIG. 9, FIG. 9 is a view showing the operation of the rolling body of the energy-free pumping water circulation action system of the present invention. As shown in Fig. 9, when the roller body 11 is oscillated, the water inside the roller body 11 is also driven along with the rocking direction of the roller body 11, thereby forming an assist force for the roller body 11 to continuously swing and swing. :

 When the water in the water tower 23 is converted by the potential energy of the water level difference; the kinetic energy, the kinetic energy is converted into mechanical energy, and then the hydroelectric generating unit 26 is driven to generate electricity, and the water is again returned to the underground storage reservoir or pool 24 . When the connecting rod 16 in the pump 18 and the pressure plate 27 are out of position, the water in the underground reservoir or pool 24 will naturally continue to be supplied into the pumps 18, one of which makes the high water tower 23 self-reliant. The innovative design of the actual effectiveness of high-level water storage and power generation benefits, and the sustainable recovery of water resources for power generation into the underground reservoir or pool 3⁄44 for re-use.

 In actual operation, in order to make the water-free operation device more stable and stable, more than two sets of non-energy-consuming water circulation action devices can be connected in parallel. A hydraulic propulsion device may be added below the curved crucible, and water is pumped from the pump external water pipe of the other device to the hydraulic propulsion device, and at the same time, the water supply device may be reversely supplied to push the hydraulic propulsion device. , and then push the roller. ;

No energy is drawn circulation operation of the present invention ^apparatus: may be placed in the river, the sea, reservoirs, ponds or underground storage reservoirs operated operation.

 Please refer to FIG. 8. FIG. 8 is a schematic diagram of the arcuate groove of the energy-free pumping water circulation action system of the present invention. As shown in FIG. 8 , the arcuate groove 12 can be a semicircular, elliptical or circular angled structure, or can further include a curved top cover 121, so that the curved groove 12 can be Elliptical or round structure.

 In actual operation, the connecting rod of the non-energy-capable water-discharging action device of the present invention drives the pumps, wherein the pressure plates generate a difference, and the guiding water naturally flows into the pumps, and the connecting When the rod continues to drive the pressure plates, the pressure plates continue to move the water.

Referring to FIG. 10A and FIG. 10B, FIG. 10A is a view showing an embodiment of a balance plug of the invention for a non-energy-consuming water-drawing operation device. Fig. 10B is a view showing another embodiment of the balance plug of the energy-free pumping water circulation action device of the present invention. As shown in FIG. 10A and FIG. 10B, the balance plugs 17 are covered by the elastic cushion 171, so that the arcuate slots 12 have a buffering effect when they are impacted downward, and the elastic cushion 171 also has a The upward reaction of the curved groove 12 makes the energy-free 汲 The operation of the water circulation action device is more smooth and effective.

 The non-energy-consuming water-discharging action device of the present invention is a device that can be directly connected to the ground by means of direct steel welding, and directly fixes the device on the ground floor.

 The energy-free pumping water circulation action system I of the present invention can be operated in a building, a building, a reinforced concrete building or a steel structure.

 In addition, the water tower may have a flow of water or the like therein, and a drain pipe for discharging water, and a water pipe flowing into the water supply may be provided with a one-way water stop valve at the water outlet for facilitating the push. Flow direction.

 In the embodiment, the underground storage reservoir or the water tank has a fluid for accommodating water, and the non-energy consuming water circulation action device is disposed therein, and a water for automatically flowing in water is provided, and water is correspondingly provided. Wheel generator set.

 Moreover, one end of the water pipe of the water tower is connected with the water turbine generator set, and the water is automatically returned to the pump of the non-energy-capable water circulation action device in the water pool during operation.

 At the same time, the water-free action device in the pool draws water and pushes the water to the water tower through the water pipe. The features and spirit of the present invention are more clearly described in the detailed description of the preferred embodiments of the invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, it is intended to cover various modifications and equivalents within the scope of the invention as claimed.

Claims

Rights request

1. A non-energy consuming water circulation action device, characterized in that: mainly comprising:

 Roller, with inlet and outlet holes, internal injection of water;

 An arc-shaped groove having a wear-resistant track disposed at a position corresponding to the roller for positioning the roller to be worn on the wear-resistant track, wherein the arc-shaped groove is provided with a phase on each of the two sides of the symmetrical groove Corresponding connecting rods, and the arc groove is also oscillated to drive the connecting rods connected with the shafts at both ends;

 a seesaw device seat disk having a bearing for connecting to the arcuate groove and fixing a central position of both, and having a hole;

 a plurality of balance bolts inserted into the holes of the chassis of the seesaw device for stopping the mounting of the seesaw device seat; a plurality of one-way water stop valves for controlling the direction of water flow;

 a plurality of pumps having inlet and outlet ports, and the one-way water stop valves are provided at the inlet and outlet to push the water flow direction, and a pressure plate is arranged inside the inlet and outlet;

 a plurality of hydraulic propulsion devices, in combination with the pumps, propelling the roller by water;

 The pump is connected to each other through a water pipe, and some of the connecting rods are connected to the pressure plates, the power for pushing the water flow forward, and the water pressure of the water pipes; part of the connecting rods and the The pump is connected, and the plurality of connecting rods are driven by the pumps to push the hydraulic propulsion devices, and then the roller is pushed to maintain the rolling body.

2. The energy-free pumping water circulation action device according to claim 1, wherein the balance plug is an angle for adjusting a swinging swing of the arcuate groove.

3. The energy-free pumping water circulation action device according to claim 1, wherein the device is mainly placed in a river, a sea, a reservoir, a pool or an underground reservoir for operation.

4. The energy-free pumping cycle action device according to claim 1, wherein the arcuate groove is an arcuate, semi-circular, elliptical or circular angled structure.

5. The energy-free pumping water circulation action device according to claim 1, wherein the arcuate groove further comprises an arc-shaped top cover for making the arcuate groove have an elliptical or circular structure.

6. The energy-free 水3⁄4 water circulation action device according to claim 1, wherein the rolling system injects 60% to 80% of water.

7. The energy-consuming pumping water circulation operation device according to claim 1, wherein the shape of the roller body is a barrel shape or a sphere shape.

8. The energy-consuming extraction cycle device of claim 1 wherein said roller body and said arcuate groove, They are all based on a perfect circle, and with the wear-resistant track, the corresponding setting is used to locate and reduce the friction coefficient caused by the two rolling. ;

9. The energy-free pumping water circulation action device according to claim 1, wherein the seesaw device seat plate is placed and coupled to the fixed arc groove, and a bearing is disposed at a bottom center position for Turn.

10. The energy-free pumping device of claim 1, wherein the one-way water stop valves are disposed at the water inlet and outlet of the water pipes.

11. The energy-consuming extraction cycle device of claim 1, wherein when the connecting rod drives the pump, the pressure plate generates a level difference, and water naturally flows into the pump. The pressure plate continues to push the water.

12. The energy-free pumping water circulation action device according to claim 1, wherein the device is connected to the ground in a direct steel splicing manner.

13. The energy-free pumping cycle action device of claim 1, further comprising: a control structure having an inlet and outlet port and connected to the pumped water pipes for controlling the adjustment of the inlet and outlet The amount of water pumped.

The energy-free pumping water circulation action device according to claim 13, wherein the control device is connected to the pumps, and the water inlet holes and the inlet and outlet water pipes pass through the water pipes. The water flow direction is controlled by the one-way water stop valve, and the control device adjusts the water flow size.

15. A non-energy-capable water-discharging action system, using the energy-free pumping water circulation action device according to claim 1, wherein the method further comprises:

 a plurality of water pipes for connecting and collecting water flow;

 a water tower for supplying and storing water, connecting the water turbine generator set through the water pipe, and using the water level difference as kinetic energy to generate power for the water turbine generator set;

 The water turbine generator set, which receives the water of the water tower, generates potential energy from the water level difference, and returns water to the water pool; the water pool is used for supplying and storing water, and the water discharged by the water turbine generator set passes through the energy-free source. The water circulation action device connects water to the water tower through the water pipes. :

16. The energy-free pumping water circulation action system according to claim 15, wherein the water turbine generator electrically connects the electric energy to the transformer, and then electrically connects the electric power to the power transmission and distribution tower.

The energy-saving water circulation system according to claim 15, wherein the water pipe further comprises: a water pipe, wherein the water is connected to the pipeline of the K tower through the pumps;

 Drain pipe, which is full of water and returns water to the pipe of the 1⁄2 pool.

18. The energy-free pumping water circulation action system according to claim 15, wherein said water tower is full of water level, The water pipes direct water back to the pool or the water turbine generator set.

The energy-free pumping water circulation operation system according to claim 15, wherein the water tower is a reservoir provided with return water.

20. The energy-free draining water circulation action system of claim 15, further comprising a plurality of the energy-free pumping water circulation action device or a plurality of water towers.

21. The energy-free pumping ice cycle motion system of claim 15 further comprising a plurality of water wheel generators.

The energy-free pumping water circulation action system according to claim 15, wherein the pump of the energy-free pumping water circulation action device drives the links, and when the pressure plate generates a difference, the pool Water will continue to supply naturally.

23. The energy-free 水3⁄4 water circulation action system of claim 15 wherein the pool is an underground reservoir, river or sea.

24. The energy-intensive pumping water circulation action system of claim 15, wherein the operation is performed in a building, a building, a reinforced concrete building, or a steel structure.

25. The energy-free extraction i-water circulation action system according to claim 1, wherein the balance plug is a structure covered with an elastic cushion.

The non-energy consuming water circulation action system according to claim 25, wherein the elastic cushions are rubber or elastic materials.