CN110805527A - Three-dimensional power generation system of kinetic energy - Google Patents

Abstract

The invention relates to a flowing energy three-dimensional power generation system; a flow energy three-dimensional power generation device F which utilizes inertial flow energy J generated when a vehicle G runs on a running road surface H to push a near road surface to be installed and fixed on the H to generate electric quantity K; k is changed into standard electric quantity K1 through an electric quantity collection and allocation device, K1 is transmitted to an electric energy distribution and storage device L to be stored and allocated to connected electric equipment facilities, and when surplus electric quantity exists, a storage battery pack in L is stored for standby use or is transmitted to an electric power company; the invention has the characteristics of simple structure, clear arrangement, convenience, practicability, energy conservation, environmental protection and the like; the device can be widely applied to various highways, railways, other running pavements and tracks with large vehicle speed and vehicle flow; the electric quantity generated by pushing the F by the J can provide running electric energy supplement and feedback for various equipment on H, electric vehicles, electric automobiles and other electrically driven motor vehicles, thereby reducing energy consumption and realizing the purposes of energy conservation and environmental protection.

Description

Three-dimensional power generation system of kinetic energy

Technical Field

The invention relates to a flow energy power generation system; in particular to a flow energy three-dimensional power generation system which utilizes inertial flow energy near a running surface generated when a vehicle runs on the running vehicle road surface to drive a flow energy three-dimensional power generator fixed on the road surface (near road surface) close to a running lane to rotate for generating power; the method and the device realize the supplement of the running electric energy on the running lane provided for the electrically driven motor vehicle, and reduce the use of other electric energy.

Background

At present; in the well-known transportation field, vehicles and boats serve as the middle-strength of transportation. The novel transport vehicle realizes portability, quickness, high efficiency and timeliness of transportation in the past years, and promotes high-speed development of transportation. With the rapid development of society, the living standard of people is improved, the living consciousness is improved, and the attention to the ecological environment are paid. Face serious challenges of social survival and deterioration of the ecological environment. (the emission of large amounts of pollutants, which increase the amount of greenhouse gases and toxic gases in the air and thus aggravate the melting of icebergs, and frequent haze weather.) facing such a severe challenge, people started to find a surprise: the pollution source is mainly found in life, industry and transportation, and the mineral combustion energy is largely used for energy supply. In the face of reality, people seek a new energy source which can meet the requirements of life, industry and transportation and can reduce the generation of pollutants. A three-dimensional power generation system of flowing energy utilizes flowing wind energy of the vehicle in the running process to push a three-dimensional power generator of flowing energy installed and fixed on the running road surface of the vehicle running and close to the J road surface to rotate and generate power; can be provided for electric facility equipment on the running road surface and can also provide running electric energy for running electric vehicles, electric vehicles and other electric-driven motor vehicles, reduces the dependence on the traditional energy sources and reduces the pollution of energy consumption in running, thereby realizing the optimization of the environment

Disclosure of Invention

The invention relates to a flowing energy three-dimensional power generation system; a three-dimensional power generation device utilizing flow energy installed on two sides of a one-way lane on a running road surface of a power operator such as a vehicle and on two sides of a lane boundary where two sides of and the inside of a multi-way running road surface run oppositely is used for driving power generation by utilizing inertial flow energy close to the running road surface (near road surface) generated when the power operator runs on the running road surface of the running vehicle.

To achieve the above object: the invention is provided with a three-dimensional rotating shaft A, three-dimensional rotating fan blades B, a transmission device C (the rotating force received by the three-dimensional rotating shaft is transmitted to a generator to push the generator to generate electricity, and the transmission modes such as belt transmission, gear rotation, chain transmission, turbine transmission and the like can be selected), a generator D and a flowing energy three-dimensional generator E which is composed of the generator E shown in figure 1; the surface of a flow energy three-dimensional power generation E is provided with corresponding hollow flow energy three-dimensional power generator E protective covers M, the graph 2 forms a power generation device F in a flow energy three-dimensional power generation system, the power generation device F is shown in the graph 3, the two sides of a one-way road H1 are arranged and fixed along a road close to a running road (near road) according to the specific situation of a running vehicle road H of a power running vehicle G (the vehicle generates inertia flow energy J close to the running surface on the two sides of the one-way road running road in the running process, so the near road is arranged on the two sides of the running road), the flow energy power generation device F forms a one-way flow energy three-dimensional power generation system power generation unit I1, the graph 4A is shown in the graph 4, the two sides of a multi-way n (n >1) are arranged and fixed on the boundary line of opposite running lanes H2 in the n-way, the inertia flow energy close to the running surface (the near road close to the running surface) is generated by the multi-way The relative inertia flow energy action generated by the relative operation of the vehicles and the acting efficiency of the inertia flow on the flow energy three-dimensional power generation device are improved) the flow energy power generation device forms a flow energy three-dimensional power generation system power generation unit I2 of a multi-lane n (n >1) as shown in figure 4B, the I1 of F is fixed on the near road surface of a vehicle power operator, and the I2 generates the near road surface inertia flow J to push the F to generate the nonstandard electric quantity K as shown in figure 4 when the I2 operates on the road surface of the operation lane; the flow kinetic energy three-dimensional power generation units I1 and I2 are provided with a regulating device with an electric quantity collecting and regulating function, and the generated nonstandard K voltage is subjected to frequency modulation a, voltage boosting b, rectification c, filtering d and voltage stabilization e to form certain standardized electric quantity K1 as shown in FIG. 5; the normalized electric energy K1 is transmitted to the electric energy distribution and storage device L for storage, distribution and transmission to the connected electric equipment facility, and when there is surplus electric energy, the electric energy is transmitted to the storage battery L for electric energy storage for standby use or transmission to the electric power company O group as shown in fig. 6.

Drawings

FIG. 1 is a perspective view of a flow energy generator; FIG. 2 is a diagram of a protective cover of a three-dimensional power generation device using kinetic energy; FIG. 3 is a diagram of a power generation device of a three-dimensional power generation system using kinetic energy; FIG. 4A is a diagram of a one-way power generation unit of a three-dimensional power generation system using kinetic energy; FIG. 4B is a diagram of a multi-row to power generation unit of a three-dimensional power generation system using kinetic energy; FIG. 5 is a diagram of power distribution of a three-dimensional power generation system using kinetic energy; fig. 6 is a diagram of the distribution of electricity in the flow energy three-dimensional power generation system.

Detailed Description

1. According to the concrete condition of running vehicle road surface H of power running device vehicle G making correspondent three-dimensional rotating shaft A, three-dimensional rotating fan blade B and transmission device C (the rotating force received by three-dimensional rotating shaft can be transferred into power generator to drive power generator to make power generation, and the transmission modes of belt transmission, gear rotation, chain transmission and turbine transmission can be selected), power generator D, 2, mounting and fixing three-dimensional rotating fan blade B on A, connecting A mounted with B and rotating shaft of power generator D by means of transmission device to form flow energy three-dimensional power generator E, 3, making correspondent hollow flow energy three-dimensional power generator protective cover M according to the size of E, mounting and fixing M on the surface of E to form flow energy three-dimensional power generator F, 4, mounting and fixing F according to the running vehicle road surface condition of G and approaching running road surface, f is arranged on two sides of a one-way road H1 along the road and close to a running road (near road), and a flowing energy three-dimensional power generation device F is arranged on two sides of a multi-way n (n >1) and the boundary line of a relatively running lane road H2 in the interior and close to the running road (near road) to form power generation units I1 and I2 of a flowing energy three-dimensional power generation system; 5. the I1, I2 through G operation produced inertia flow energy to promote the electricity generation device to produce electricity quantity K nonstandard electricity quantity K need to install electricity quantity collection and regulation device in the frequency modulation a, boost b, rectification c, filter d and voltage e after becoming a certain standardized electricity quantity K1 and then to have distribution storage device L of distribution storage function 6 will be standardized electricity quantity K1 to electric energy distribution storage device L to store and distribute and deliver to the connecting electric equipment facility, when there is surplus electricity quantity to deliver to the electric energy storage battery for use or deliver to the electric company; the device has the characteristics of simple structure, clear arrangement, convenience, practicability, energy conservation, environmental protection and the like; the device can be widely applied to driveways and track pavements for running various motor vehicles; the device is particularly applied to various highways, railways, other running pavements and tracks with large vehicle speed and vehicle flow; the electric quantity generated by pushing the power generation device by utilizing the flowing energy generated during the running of the vehicle can provide running electric energy supplement and feedback for various equipment on running lanes and track pavements, electric vehicles, electric automobiles and other electrically driven motor vehicles, thereby reducing the energy consumption and realizing the purposes of energy conservation and environmental protection.

Claims (8)

1. The three-dimensional power generation system using running road surface kinetic energy of claim 1; in particular to an operation surface flow energy three-dimensional power generation system which utilizes the flow energy of an approaching operation surface (near road surface) generated by an operator on the operation surface to push the fan blades of a three-dimensional power generator fan blade structure body to rotate and generate power on the approaching operation surface (near road surface); comprises the following steps: A. the power generating system comprises a power operator, a power generating fan blade structure body, a power generating fan blade structure body and a power generating fan blade, wherein the power generating fan blade structure body is arranged on the running surface of the power operator in a three-dimensional power generating system; C. the fan blade structure body in the flowing energy three-dimensional power generation system which is arranged and fixed on the running surface near the running surface is pushed to rotate by flowing energy generated in running so as to drive the generator to rotate to generate power on various running road surfaces of the automobile; D. the fan blade structure body in the flowing energy three-dimensional power generation system which is arranged and fixed on the running surface near the running surface is pushed to rotate by flowing energy generated in running so as to drive the generator to rotate to generate power on various railway track traffic roads; E. the fan blades of the generating fan blade structure body in the flowing energy three-dimensional generating system which is arranged and fixed on the running surface near the road surface are pushed to rotate by flowing energy generated in running so as to drive the generator to rotate to generate electricity; the flow energy three-dimensional generator is characterized in that the flow energy three-dimensional generator is provided with a flow energy three-dimensional generator; the hollow flowing energy three-dimensional type generator protective cover; the following running road surface is installed and fixed; the device is fixedly arranged on two sides of the road surface of the running one-way lane; the device is fixedly arranged on two sides of the road surface of a running multi-row lane n (n is more than 1) and the boundary line of the relative running lanes in the inside of the running multi-row lane n; the flow energy three-dimensional power generation system electric quantity collecting and allocating device; electric energy distribution storage device.

2. As set forth in claim 1: a running surface flowing energy three-dimensional power generation system is characterized in that a flowing energy three-dimensional power generator is provided; the three-dimensional type kinetic energy generating system is characterized by comprising a three-dimensional type rotating shaft, three-dimensional type rotating fan blades, a rotating transmission device and a generator, wherein the rotating force on the rotating shaft is transmitted to the generator for generating electricity by pushing the three-dimensional type rotating shaft fixed on the rotating fan blades in the three-dimensional type kinetic energy generating system to rotate by utilizing the flowing kinetic energy of an approaching running surface generated when a vehicle is installed and fixed on the approaching running surface and runs on a road surface.

3. As set forth in claim 1: a three-dimensional power generation system of flow energy of running surface is characterized in that the three-dimensional generator protective cover of hollow flow energy utilizes the surface mounting of the three-dimensional generator of flow energy to cover the protective cover of the three-dimensional generator of flow energy, thus avoiding the debris in the flow energy from damaging the fan blades in the three-dimensional generator of flow energy and effectively preventing the damaged fan blades from damaging the vehicles on the road surface of the running vehicle.

4. As set forth in claim 1: a three-dimensional power generation system of flowing energy of a kind of operation surface is characterized by that it is near the ground to install and fix three-dimensionally with the road surface of the vehicle of operation; the near-ground flow energy generated by the running of the vehicle on the running road surface of the lane can be fully utilized to drive the flow energy three-dimensional generator in the flow energy three-dimensional generating system to generate electricity.

5. As set forth in claim 1: a three-dimensional power generation system of flow energy of the running surface is characterized in that the three-dimensional power generator of flow energy is mounted and fixed on both sides of the running surface of a single-way lane in a three-dimensional way close to the running surface; because the two sides of the vehicle body can generate the flow energy close to the running surface when the vehicle runs on the running surface of the lane, the flow energy close to the running surface can be greatly utilized to push the flow energy three-dimensional generator in the flow energy three-dimensional generating system to rotate and generate electricity to improve the generating efficiency when the vehicle runs on the running surface of the lane.

6. As set forth in claim 1: a flow energy three-dimensional power generation system of a running surface is characterized in that a flow energy three-dimensional power generator is arranged close to the running surface and fixed on the running road surface side of an n (n >1) running lane and the relative running lane boundary line in the n interior of a running multi-lane; the running energy three-dimensional generators on the two sides of the n running lanes are driven to rotate to generate power by utilizing the running energy which is generated by running of the vehicles on the running surfaces of the lanes and is close to the running surfaces and arranged on the boundary lines of the running surfaces of the two sides and the inner opposite lanes of the n running lanes, and the running energy three-dimensional generators are driven to rotate to generate power by utilizing the relative running energy generated by the relative running of the vehicles, because the running energy three-dimensional generators close to the running surfaces are arranged on the two sides of the n running lanes and the boundary lines of the running surfaces of the opposite lanes in the n running lanes, the power generation benefit of the running energy is improved.

7. As set forth in claim 1: a running surface flowing energy three-dimensional power generation system is characterized in that a flowing energy three-dimensional power generation system electric quantity collecting and allocating device; nonstandard voltage generated by the flow energy three-dimensional generator is subjected to frequency modulation boosting, rectification filtering and voltage stabilization to form certain standardized electric quantity, and the electric quantity is transmitted to an electric energy distribution and storage device.

8. As set forth in claim 1: a running surface flow energy three-dimensional power generation system is characterized in that an electric energy distribution and storage device transmits allocated electric energy to connected electric equipment facilities according to needs, and when surplus electric quantity exists, the surplus electric energy is transmitted to a storage battery stored by the electric energy distribution and storage device for standby use or transmission to an electric power company.

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