CN216894710U - Energy-saving power generation system - Google Patents

Energy-saving power generation system Download PDF

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Publication number
CN216894710U
CN216894710U CN202123105943.5U CN202123105943U CN216894710U CN 216894710 U CN216894710 U CN 216894710U CN 202123105943 U CN202123105943 U CN 202123105943U CN 216894710 U CN216894710 U CN 216894710U
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inertia wheel
motor
wheel
power grid
generator
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CN202123105943.5U
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Chinese (zh)
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汤正云
汤博智
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Wangcang Kemei Shockproof Technology Co ltd
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Wangcang Kemei Shockproof Technology Co ltd
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    • 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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Abstract

The utility model discloses an energy-saving power generation system, which comprises an inertia wheel, wherein the inertia wheel is provided with a wheel shaft, and the inertia wheel is connected with and drives a generator through the wheel shaft; the wheel shaft is connected with a motor through chain transmission; the inertia wheel is provided with fan blades and is arranged on the fluid channel, and the inertia wheel is driven to rotate by the impact of the fluid on the fan blades on the inertia wheel; the motor and the generator are electrically connected with a bidirectional switch, the bidirectional switch is also electrically connected with a power grid, the bidirectional switch is used for switching the connection of the generator and the power grid or the connection of the generator and the motor, a switch circuit is arranged between the motor and the power grid, and the switch circuit is used for controlling the power grid to supply power to the motor. When the power generation is not needed, the inertia wheel can be maintained by the power generation of the generator and the electric energy of the power grid without fluid; water flow or air flow can be saved; thereby the energy saving accomplishes output and the utilization to the electric wire netting electric energy and adjusts, helps solve electric energy output adjustment and recycle's problem.

Description

Energy-saving power generation system
Technical Field
The utility model belongs to the technical field of generators, and particularly relates to an energy-saving power generation system.
Background
With the continuous enlargement of the modern production scale and the continuous improvement of the living standard of people, the contradiction between the supply and the demand of electric energy is increasingly prominent, and the electricity-saving call sound is increasingly rising. At present, devices for improving energy conversion efficiency exist in various industries, but in the prior art, the utilization rate of equipment is improved, and the effect of recycling energy or energy cannot be achieved. The electric energy of electric wire netting is under unnecessary the condition, because can't retrieve unnecessary electric energy, generally reduces power generation facility's electric energy output, forms dynamic adjustment, and electric wire netting electric energy retrieves and adjusts the problem that becomes the key.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide an energy-saving power generation system which can adjust the output and the utilization of electric energy of a power grid and help solve the problems of electric energy output adjustment and recycling.
In order to achieve the purpose, the utility model adopts the following technical scheme:
the utility model provides an energy-saving power generation system, which comprises an inertia wheel, wherein the inertia wheel is provided with a wheel shaft and is connected with a generator through the wheel shaft and drives the generator; the movable flywheel is arranged on the wheel shaft, a transmission chain is arranged on the movable flywheel in a matching manner, and the wheel shaft is connected with a motor through the chain in a transmission manner; a plurality of fan blades are uniformly distributed on the inertia wheel in the circumferential direction, the inertia wheel is arranged on the fluid channel, and the inertia wheel is driven to rotate by the impact of fluid on the fan blades on the inertia wheel; the motor and the generator are electrically connected with a bidirectional switch, the bidirectional switch is also electrically connected with a power grid, the bidirectional switch is used for switching the generator to be connected with the power grid or the motor, the motor is connected with the power grid, a switch circuit is arranged between the motor and the power grid, and the switch circuit is used for controlling the power grid to supply power to the motor.
According to the technology, the power generation system generates power by the rotation of the inertia wheel through the arranged inertia wheel; generally, the weight of the inertia wheel is much heavier than that of a traditional generator rotating wheel, when the inertia wheel is started at first, the motor drives the inertia wheel to rotate at a high speed and generate consistency, and then the motor drives the generator to operate at a high speed to generate electric energy to continuously generate electricity; when the electric energy of the power grid is excessive, the electric motor is switched to be connected with the power grid through the switching circuit, the supply of fluid energy is stopped, the electric energy of the power grid is used for driving the electric motor, the electric motor is connected to a movable flywheel on an inertia wheel shaft through a shaft tooth through a chain to drive an inertia wheel to rotate at a high speed, the electric generator is connected with the electric motor through a bidirectional switch, a power source sent by the electric generator is transmitted to the electric motor, the electric motor continuously operates to drive the inertia wheel to operate at a high speed, and thus the inertia wheel operating at a high speed drives the electric generator to operate at a high speed to continuously generate electricity; when the load of the power grid needs to use electricity, the generator is connected with the power grid through the two-way switch to supply power to the power grid and then supply fluid energy, the fluid channel is communicated with water flow or air flow, and the fluid impacts the fan blades on the inertia wheel to continuously rotate to generate electric energy; therefore, when the electric quantity of the power grid is too much, partial electric energy can be recycled, the inertia wheel is maintained to continuously rotate at a high speed, and when the power grid needs to use electricity, a large amount of fluid is not needed to start the inertia wheel, so that when the electricity does not need to be generated, the generator generates electricity and the electric energy of the power grid can maintain the inertia wheel without the fluid; water flow or air flow can be saved; thereby the energy saving accomplishes to adjust the output and the utilization of electric wire netting electric energy, helps solving electric energy output adjustment and recycle's problem.
In one possible embodiment, the fan blades are fixedly arranged on the flywheel surface, and the fan blades are arranged obliquely relative to the flywheel surface. By arranging the fan blades to have an inclined arrangement relative to the surface of the flywheel, the impact force of the fluid can be better absorbed.
In one possible design, the fluid passage is a water or air flow. Electricity can be generated by a gas flow or a water flow.
In one possible design, the flywheel is located half way along the fluid path. Half of the inertia wheel is arranged on the fluid channel, so that the impact force of the fluid can be absorbed, and the other half of the inertia wheel is arranged in the air, so that the resistance of the inertia wheel is reduced.
In one possible design, a flow guide device is arranged on the fluid channel close to the inertia wheel. By arranging the flow guide device, the overflow of fluid is avoided, and the fan blade can be better impacted after flow guide.
In one possible embodiment, the fluid channel is arranged obliquely, and the flow guide device is arranged above the interior of the fluid channel.
In one possible design, the fluid passages are arranged vertically. The fluid channel is vertically arranged, so that the impact effect is better under the condition of water flow.
Has the advantages that:
1. according to the energy-saving power generation system provided by the utility model, the power generation system generates power by the rotation of the inertia wheel through the arranged inertia wheel; generally, the weight of the inertia wheel is larger than that of a traditional generator rotating wheel, when the inertia wheel is started at first, the motor drives the inertia wheel to rotate at a high speed and generate consistency, and then the motor drives the generator to operate at a high speed to generate electric energy for continuous power generation; when the electric energy of the power grid is excessive, the electric motor is switched to be connected with the power grid through the switching circuit, the supply of fluid energy is stopped, the electric energy of the power grid is used for driving the electric motor, the electric motor is connected to a movable flywheel on an inertia wheel shaft through a shaft tooth through a chain to drive an inertia wheel to rotate at a high speed, the electric generator is connected with the electric motor through a bidirectional switch, a power source sent by the electric generator is transmitted to the electric motor, the electric motor continuously operates to drive the inertia wheel to operate at a high speed, and thus the inertia wheel operating at a high speed drives the electric generator to operate at a high speed to continuously generate electricity; when the load of the power grid needs to use electricity, the generator is connected with the power grid through the bidirectional switch to supply power to the power grid and then supply fluid energy, the fluid channel is introduced with water flow or air flow, and the fluid impacts the fan blades on the inertia wheel to continuously rotate to generate electric energy; therefore, when the electric quantity of the power grid is too much, partial electric energy can be recycled, the inertia wheel is maintained to continuously rotate at a high speed, and when the power grid needs to use electricity, a large amount of fluid is not needed to start the inertia wheel, so that when the electricity does not need to be generated, the generator generates electricity and the electric energy of the power grid can maintain the inertia wheel without the fluid; water flow or air flow can be saved; therefore, energy is saved, the output and the utilization of the electric energy of the power grid are adjusted, and the problems of electric energy output adjustment and recycling are solved;
2. according to the energy-saving power generation system provided by the utility model, the fan blades are arranged in an inclined manner relative to the surface of the inertia wheel, so that the impact force of fluid can be better absorbed; half of the inertia wheel is arranged on the fluid channel, so that the impact force of the fluid can be absorbed, and the other half of the inertia wheel is arranged in the air, so that the resistance of the inertia wheel is reduced; by arranging the flow guide device, the overflow of fluid is avoided, and the fan blade can be better impacted after flow guide.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.
FIG. 1 is a schematic structural diagram of an inertia wheel and a fluid channel in an energy-saving power generation system provided by the present invention;
FIG. 2 is a schematic view of a connection relationship between an inertia wheel, a generator and a motor in the energy-saving power generation system provided by the utility model;
fig. 3 is a schematic diagram of electrical connection of an energy-saving power generation system provided by the utility model.
The reference numbers in the figures are:
1-inertia wheel, 2-fan blade, 3-generator, 4-motor, 5-wheel shaft, 6-movable flywheel, 7-chain, 8-fluid channel, 9-flow guiding device and 10-bidirectional switch.
Detailed Description
The utility model is further described with reference to the following figures and specific embodiments. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.
As shown in fig. 1, 2 and 3, the energy-saving power generation system provided by the utility model in the first embodiment comprises an inertia wheel 1, wherein the inertia wheel 1 is provided with a wheel shaft 5, and the inertia wheel 1 is connected with and drives a generator 3 through the wheel shaft 5; a movable flywheel 6 is arranged on the wheel shaft 5, a transmission chain 7 is arranged on the movable flywheel 6 in a matching manner, and the wheel shaft 5 is in transmission connection with a motor 4 through the chain 7; the movable flywheel 6 is used for driving the wheel pump 5, so that the wheel shaft 5 can rotate freely when the motor 4 does not rotate; a plurality of fan blades 2 are uniformly distributed on the inertia wheel 1 in the circumferential direction, the inertia wheel 1 is arranged on the fluid channel 8, and the inertia wheel 1 is driven to rotate by the impact of fluid on the fan blades 2 on the inertia wheel 1; the motor 4 and the generator 3 are electrically connected with a bidirectional switch 10, the bidirectional switch 10 is also electrically connected with a power grid, the bidirectional switch 10 is used for switching the connection between the generator 3 and the power grid or between the generator 3 and the motor 4, the motor 4 is connected with the power grid, a switch circuit is arranged between the motor 4 and the power grid, and the switch circuit is used for controlling the power grid to supply power to the motor 4. Specifically, the switch circuit controls the power grid to supply power to the motor in a single direction.
Specifically, the power generation system generates power by the rotation of an inertia wheel through the inertia wheel; generally, the weight of the inertia wheel is larger than that of a traditional generator rotating wheel, when the inertia wheel is started at first, the motor drives the inertia wheel to rotate at a high speed and generate consistency, and then the motor drives the generator to operate at a high speed to generate electric energy for continuous power generation; when the electric energy of the power grid is excessive, the electric motor is switched to be connected with the power grid through the switching circuit, the supply of fluid energy is stopped, the electric energy of the power grid is used for driving the electric motor, the electric motor is connected to a movable flywheel on an inertia wheel shaft through a shaft tooth through a chain to drive an inertia wheel to rotate at a high speed, the electric generator is connected with the electric motor through a bidirectional switch, a power source sent by the electric generator is transmitted to the electric motor, the electric motor continuously operates to drive the inertia wheel to operate at a high speed, and thus the inertia wheel operating at a high speed drives the electric generator to operate at a high speed to continuously generate electricity; when the load of the power grid needs to use electricity, the generator is connected with the power grid through the two-way switch to supply power to the power grid and then supply fluid energy, the fluid channel is communicated with water flow or air flow, and the fluid impacts the fan blades on the inertia wheel to continuously rotate to generate electric energy; therefore, when the electric quantity of the power grid is too much, partial electric energy can be recycled, the inertia wheel is maintained to continuously rotate at a high speed, and when the power grid needs to use electricity, a large amount of fluid is not needed to start the inertia wheel, so that when the electricity does not need to be generated, the generator generates electricity and the electric energy of the power grid can maintain the inertia wheel without the fluid; water flow or air flow can be saved; thereby the energy saving accomplishes output and the utilization to the electric wire netting electric energy and adjusts, helps solve electric energy output adjustment and recycle's problem.
In a second embodiment, the energy-saving power generation system is provided, which comprises an inertia wheel 1, wherein the inertia wheel 1 is provided with a wheel shaft 5, and the inertia wheel 1 is connected with and drives a power generator 3 through the wheel shaft 5; a movable flywheel 6 is arranged on the wheel shaft 5, a transmission chain 7 is arranged on the movable flywheel 6 in a matching way, and the wheel shaft 5 is connected with a motor 4 through the transmission of the chain 7; a plurality of fan blades 2 are uniformly distributed on the inertia wheel 1 in the circumferential direction, the inertia wheel 1 is arranged on the fluid channel 8, and the inertia wheel 1 is driven to rotate by the impact of fluid on the fan blades 2 on the inertia wheel 1; the motor 4 and the generator 3 are electrically connected with a bidirectional switch 10, the bidirectional switch 10 is also electrically connected with a power grid, the bidirectional switch 10 is used for switching the connection between the generator 3 and the power grid or the connection between the generator 3 and the motor 4, the motor 4 is connected with the power grid, a switch circuit is arranged between the motor 4 and the power grid and used for controlling the power grid to supply power to the motor 4; the fan blade 2 is fixedly arranged on the surface of the inertia wheel 1, and the fan blade 2 is obliquely arranged relative to the surface of the inertia wheel 1.
Specifically, the fan blade 2 is inclined by 30 degrees toward the direction of the fluid.
In a possible embodiment, the fluid channel 8 is a water or air flow.
In a possible embodiment, the flywheel 1 is located half way on the fluid channel 8. A
Therefore, the fan blades are arranged in an inclined mode relative to the surface of the inertia wheel, so that the impact force of the fluid can be better absorbed; half of the inertia wheel is arranged on the fluid channel, so that the impact force of the fluid can be absorbed, and the other half of the inertia wheel is arranged in the air, so that the resistance of the inertia wheel is reduced.
The energy-saving power generation system provided in the third embodiment comprises an inertia wheel 1, wherein the inertia wheel 1 is provided with a wheel shaft 5, and the inertia wheel 1 is connected with and drives a power generator 3 through the wheel shaft 5; a movable flywheel 6 is arranged on the wheel shaft 5, a transmission chain 7 is arranged on the movable flywheel 6 in a matching way, and the wheel shaft 5 is connected with a motor 4 through the transmission of the chain 7; a plurality of fan blades 2 are uniformly distributed on the inertia wheel 1 in the circumferential direction, the inertia wheel 1 is arranged on the fluid channel 8, and the inertia wheel 1 is driven to rotate by the impact of fluid on the fan blades 2 on the inertia wheel 1; the motor 4 and the generator 3 are electrically connected with a bidirectional switch 10, the bidirectional switch 10 is also electrically connected with a power grid, the bidirectional switch 10 is used for switching the connection between the generator 3 and the power grid or between the generator 3 and the motor 4, the motor 4 is connected with the power grid, a switch circuit is arranged between the motor 4 and the power grid, and the switch circuit is used for controlling the power grid to supply power to the motor 4; and a flow guide device 9 is arranged on the fluid channel 8 and close to the inertia wheel 1.
In a possible embodiment, the fluid channel 8 is arranged obliquely, and the flow guide device 9 is arranged above the inside of the fluid channel 8. By arranging the flow guide device, the overflow of fluid is avoided, and the fan blade can be better impacted after flow guide.
Of course, in specific implementation, the fluid channel 8 may be vertically disposed.
Finally, it should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The energy-saving power generation system is characterized by comprising an inertia wheel (1), wherein a wheel shaft (5) is connected to the central shaft of the inertia wheel (1), and the inertia wheel (1) is connected with and drives a generator (3) through the wheel shaft (5); a movable flywheel (6) is arranged on the wheel shaft (5), a transmission chain (7) is arranged on the movable flywheel (6) in a matching manner, and the wheel shaft (5) is in transmission connection with a motor (4) through the chain (7); a plurality of fan blades (2) are uniformly distributed on the inertia wheel (1) in the circumferential direction, the inertia wheel (1) is arranged on the fluid channel (8), and the inertia wheel (1) is driven to rotate by the impact of fluid on the fan blades (2) on the inertia wheel (1); the motor (4) and the generator (3) are electrically connected with a bidirectional switch (10), the bidirectional switch (10) is also electrically connected with a power grid, and the bidirectional switch (10) is used for switching the connection of the generator (3) and the power grid or the motor (4); the motor (4) is connected with a power grid, a switch circuit is arranged between the motor (4) and the power grid, and the switch circuit is used for controlling the power grid to supply power to the motor (4).
2. The energy-saving power generation system according to claim 1, characterized in that the fan blade (2) is fixedly arranged on the surface of the inertia wheel (1), and the fan blade (2) is obliquely arranged relative to the surface of the inertia wheel (1).
3. Energy saving power generation system according to claim 1, characterized in that in the fluid channel (8) is a water or air flow.
4. Energy saving power generation system according to claim 1, characterized in that half of the inertia wheel (1) is located on the fluid channel (8).
5. Energy-saving power generation system according to claim 4, characterized in that a flow guiding device (9) is arranged on the fluid channel (8) near the inertia wheel (1).
6. Energy saving and power generation system according to claim 5, characterized in that the fluid channel (8) is arranged obliquely and the flow guiding device (9) is arranged above the inside of the fluid channel (8).
7. Energy saving and power generation system according to claim 4, characterized in that said fluid channel (8) is arranged vertically.
CN202123105943.5U 2021-12-07 2021-12-07 Energy-saving power generation system Active CN216894710U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123105943.5U CN216894710U (en) 2021-12-07 2021-12-07 Energy-saving power generation system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123105943.5U CN216894710U (en) 2021-12-07 2021-12-07 Energy-saving power generation system

Publications (1)

Publication Number Publication Date
CN216894710U true CN216894710U (en) 2022-07-05

Family

ID=82205046

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123105943.5U Active CN216894710U (en) 2021-12-07 2021-12-07 Energy-saving power generation system

Country Status (1)

Country Link
CN (1) CN216894710U (en)

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