TWM635447U - Self-powered generator device - Google Patents

Abstract

This creation relates to a self-supporting generator device, which includes a battery, a motor, an oil hydraulic power unit, at least one flywheel, at least one magnetic energy auxiliary unit, and a power generating device, wherein the oil hydraulic power unit includes an oil pump and an oil tank And the hydraulic motor, the flywheel and the magnetic energy auxiliary unit are arranged on a main drive shaft, the power generation device is arranged at one end of the main drive shaft, and a speed changer is provided between the hydraulic motor and the main drive shaft, Power is supplied to the motor through the battery, so that the motor drives the oil pump to output the hydraulic oil in the oil tank to the hydraulic motor to rotate the hydraulic motor, and through the speed changer between the hydraulic motor and the main drive shaft, the oil generated by the hydraulic motor Large torque and low speed are converted into higher speed, and then the flywheel and magnetic energy auxiliary unit installed on the main drive shaft generate higher speed rotation, so that the flywheel generates inertial kinetic energy, and the kinetic energy is assisted by the magnetic force of the magnetic energy auxiliary unit , so that the main drive shaft produces continuous rotation to drive the power generation device to generate electricity, so as to generate electricity without external power supply, and provide a generator device that is environmentally friendly, easy to maintain, and low in maintenance costs.

Description

Device for self-contained generator

This creation is related to a self-supporting generator device, especially a kind of kinetic energy driven by a large torque hydraulic power unit to drive at least one flywheel to rotate inertially, and driven by the power assist of a magnetic energy auxiliary unit to drive the generator to generate electricity.

According to, there are many types of generators known, such as wind power, water power and thermal power, while wind power generators need to be professionally evaluated and must be located in areas with sufficient wind throughout the year. When the wind is insufficient, its power generation efficiency is quite poor, and its equipment and maintenance costs are expensive, and a large number of installations also destroys the scenery and habitats, and the demand for land is large, and hydropower uses the potential energy of water to drive generators to generate electricity. Therefore, most of them need to be located in places with a large amount of water, such as reservoirs. However, hydropower generation cannot generate electricity during dry seasons or when the water is insufficient. After long-term research, it has been found that hydropower generation in reservoirs will produce a large amount of greenhouse gas methane, which will cause environmental damage to the reservoir. destroy.

Thermal power generation is generated by burning fossil fuels, such as coal, natural gas or oil, but thermal power generation will emit a large amount of carbon dioxide. According to relevant data, for every kilowatt-hour of thermal power generation, lignite emits three times as much carbon dioxide as natural gas. The massive emission of this kind of greenhouse gas has led to global warming and the rise of sea water, not to mention that it still contains harmful substances that have a great impact on human health.

Others, such as solar power and geothermal power generation, have high construction costs and high maintenance costs, but the efficiency of generating electricity is quite limited, especially the efficiency of solar power generation, which depends on sunlight. When the sunlight is too strong or too weak, it will affect the power generation efficiency, and Solar panels have a certain lifespan. A large number of solar panels are used to generate electricity. As mentioned above, a large amount of land space is required, and the cost is high. Wasted solar panels will also cause pollution.

Furthermore, the known design of using a motor to drive a generator to generate electricity is because the power required by the motor is higher than the power generated by the generator. Therefore, the known design of using a motor to drive a generator to generate electricity can generate electricity, but The generated power is not enough to supply the motor, so the motor needs to be connected to the mains or other power to continuously drive the generator to generate electricity. Therefore, the conventional design of using a motor to drive the generator cannot supply the motor with power. I want to provide it again Effective extra power is limited.

＜Technical problems to be solved＞ In view of the practical difficulties and deficiencies that need to be improved in the above-mentioned conventional power generation devices, the creator hopes to provide a breakthrough design to enhance the practical effect. He has devoted himself to research, design and assembly, and has integrated his years of experience in related product design. The professional technical knowledge and practical experience of production and sales, as well as the results of research and design, finally researched and created a self-contained generator device to provide users.

＜Technical means to solve problems＞ This creation relates to a self-supporting generator device, which includes a battery, a motor, an oil hydraulic power unit, at least one flywheel, at least one magnetic energy auxiliary unit, and a power generating device, wherein the oil hydraulic power unit includes an oil pump and an oil tank And the hydraulic motor, the flywheel and the magnetic energy auxiliary unit are arranged on a main drive shaft, the power generation device is arranged at one end of the main drive shaft, and a speed changer is provided between the hydraulic motor and the main drive shaft, When the motor drives the oil pump to output the hydraulic oil in the oil tank to the hydraulic motor to make the hydraulic motor rotate, and through the speed changer installed between the hydraulic motor and the main drive shaft, the high torque and low speed generated by the hydraulic motor are converted to The conversion makes the main drive shaft produce a higher speed, so that the flywheel and the magnetic energy auxiliary unit installed on the main drive shaft produce a higher speed rotation, and make the flywheel generate inertial kinetic energy, and through the magnetic auxiliary kinetic energy of the magnetic energy auxiliary unit, And make the main drive shaft generate continuous and sufficient rotational kinetic energy to drive the generator to generate electricity.

At the initial start, the motor is powered by the battery first, and when the power generation device generates power after the start, the power generated by the power generation device is fed back to the motor for power consumption and the battery is charged at the same time.

The magnetic energy auxiliary unit includes an inner rotating wheel and an outer fixed frame, and a plurality of permanent magnets whose magnetic poles are arranged in a positive and negative staggered order are installed equidistantly on the wheel surface of the inner rotating wheel. A permanent magnet corresponding to the permanent magnet set on the inner rotating wheel surface is respectively provided on the inner surface of the side inner edge, and the magnetic pole of the permanent magnet on one side of the outer fixed frame is positive, and the magnetic pole of the permanent magnet on the other side of the outer fixed frame is positive. is negative.

When the main drive shaft rotates and the inertial kinetic energy generated by the set flywheel rotates, it also synchronously drives the inner rotating wheel of the magnetic energy auxiliary unit to rotate, so that the plural magnetic poles set equidistantly on the inner rotating wheel surface are sequentially one positive and one negative The staggered permanent magnets and the magnetic poles set on the inner edge surfaces on both sides of the external fixation frame have a positive and a negative permanent magnet to generate synchronous suction (pull) on one side and repulsion (push) on the other side to generate another driving force. Auxiliary power for the drive shaft, thereby improving the power generation efficiency of the power generation device.

The invention further includes a thumping power auxiliary unit, the thumping power auxiliary unit includes a rotating element and at least one pendulum body arranged on the periphery of the rotating element, the rotating element is arranged on a base, and is connected with the belt through a belt. The belt pulley located on the rotating element and the main driving shaft is connected with the main driving shaft to generate synchronous rotation, wherein a plurality of pendulum bodies are pivoted on the periphery of the rotating element, and each pivoting element is connected to the rotating element. The same corresponding side of the pendulum body is formed with an open area for the thumping preparation space for the pendulum body to swing. The rotating element and the other corresponding side of each articulated pendulum body are provided with a thumping part. When the press motor drives the main drive shaft to rotate through the speed changer, it is connected to the main drive shaft through the belt and the pulleys respectively arranged on the rotating element and the main driving shaft, so that the rotating element can rotate synchronously, and is equidistantly pivoted on the When the pendulum body on the periphery of the rotating element is in different rotation positions, part of the pendulum body will swing outwards in the hammering preparation space in the open area of the rotating element, and is ready to be struck, while part of the pendulum body will swing to the side of the rotating element. The thumping state of the thumping part generates auxiliary rotational thrust for the rotating element, and furthermore, by installing at least one thumping power auxiliary unit, the efficiency of the power generation device can be greatly improved.

＜Efficacy compared with previous technology＞ The main purpose of this creation is to use a low-power motor to drive the hydraulic power unit to drive the main drive shaft to rotate, so that at least one flywheel on the main drive shaft can generate enough inertial kinetic energy to drive the generator device to generate electricity, and feed back the small power to the low-power The use of motors can generate large power without external power supply, and provide a generator device that is environmentally friendly, easy to maintain, and low in maintenance costs.

The second purpose of this creation is to use the low speed and high torque hydraulic motor to effectively drive the main drive shaft to rotate and increase the speed through the speed changer, and to make at least one flywheel on the main drive shaft generate enough inertial kinetic energy, and cooperate with the The power assistance of the magnetic energy auxiliary unit can improve the power generation efficiency of the power generation device.

Another purpose of this creation is mainly to use the motor to drive the oil pump to supply hydraulic oil circulation to drive the hydraulic motor as power. The hydraulic motor does not use power, and the motor to drive the oil pump uses a motor with low power and low power consumption. The battery can supply power to the motor, and a low-power motor can drive a high-torque hydraulic motor. Because the motor has low power and low power consumption, only a small power supply needs to be returned by the power generation device through the power line, which is enough for the motor. and charge the battery.

Another purpose of this creation is to greatly improve the efficiency of the generator by arranging at least one thumping power auxiliary unit to generate auxiliary rotational thrust to the main drive shaft.

The device of the self-contained generator of this creation has been implemented and tested, and the effect it produces is as described in this new specification.

In order to enable your review committee to better understand the structural features and functions of this creation, it is accompanied by diagrams and detailed descriptions below.

Please refer to the first figure, this invention is related to a self-supporting generator device, which includes a battery 1, a motor 2, an oil pressure power unit 3, at least one flywheel 6, at least one magnetic energy auxiliary unit 7 and A generator 8, wherein the hydraulic power unit 3 includes an oil pump 31, an oil tank 32 and a hydraulic motor 33, the flywheel 6 and the magnetic energy auxiliary unit 7 are arranged on a main drive shaft 5, and the generator 8 is arranged on the One end of the main drive shaft 5 is provided with a transmission 4 between the hydraulic motor 33 and the main drive shaft 5, which supplies power to the motor 2 through the battery 1, so that the motor 2 drives the oil pump 31 to output the hydraulic oil in the oil tank 32 to the oil The hydraulic motor 33 rotates the hydraulic motor 33, and through the speed changer 4 between the hydraulic motor 33 and the main drive shaft 5, the high torque and low rotational speed generated by the hydraulic motor 33 are converted to make the main drive shaft 5 generate The higher speed makes the flywheel 6 and the magnetic energy auxiliary unit 7 on the main drive shaft 5 rotate at a higher speed, and the flywheel 6 generates inertial kinetic energy, and the magnetic force of the magnetic auxiliary unit 7 assists the kinetic energy. Make the main drive shaft 5 generate continuous and sufficient rotational kinetic energy to drive the power generating device 8 to generate electricity.

When initially starting, the battery 1 is used to supply power to the motor 2, and when the generator 8 generates power after startup, the power generated by the generator 8 is fed back to the motor 2, and the battery 1 is charged at the same time.

Please refer to the second figure again, the magnetic energy auxiliary unit 7 includes an inner rotating wheel 71 and an outer fixed frame 72, the inner rotating wheel 71 is arranged on the main drive shaft 5, driven by the main drive shaft 5 Rotate synchronously, equidistantly install a plurality of magnetic poles on the wheel surface of the inner rotating wheel 71. The permanent magnets 711 are arranged in a positive and negative staggered order. On the inner edge surfaces of the two sides of the outer fixing frame 72, a pair of permanent magnets is respectively provided. The permanent magnet 711 set on the wheel surface of the inner rotating wheel 71 is a corresponding permanent magnet 721, and the magnetic pole of the permanent magnet 721 on one side of the outer fixed frame 72 is positive, and the magnetic pole of the permanent magnet 721 on the other side of the outer fixed frame 72 is negative.

When the main drive shaft 5 rotates and the inertial kinetic energy generated by the set flywheel 6 rotates, it also synchronously drives the inner rotating wheel 71 of the magnetic energy auxiliary unit 7 to rotate, and then makes the inner rotating wheel 71 equidistantly set multiple magnetic poles in sequence A positive and a negative staggered permanent magnet 711 and a positive and a negative permanent magnet 721 are provided with a positive and a negative permanent magnet 721 to generate a synchronous one side suction (pull) and the other side repulsion (thrust) function to generate another auxiliary power for driving the main drive shaft 5, thereby improving the power generation efficiency of the power generating device 8.

The invention further includes a hammering power auxiliary unit 9, the hammering power auxiliary unit 9 includes a rotating element 91 and at least one pendulum body 92 arranged on the periphery of the rotating element 91, and the rotating element 91 is arranged on a base 93 and is connected with the main drive shaft 5 through the belt 96 and the pulleys 94, 95 respectively arranged on the rotating element 91 and the main driving shaft 5 to generate synchronous rotation. A plurality of pendulum bodies 92 are pivotally arranged, and an open area is provided on the same corresponding side of the rotating element 91 and each pivoting pendulum body 92 to provide a thumping preparation space 911 for the pendulum body 92 to swing. The other corresponding side of each pivoting pendulum body 92 is formed with a thumping portion 912. When the hydraulic motor 33 drives the main drive shaft 5 to rotate through the speed changer 4, the belt 96 and the rotating element 91 respectively are connected to each other. And the pulleys 94, 95 of the main drive shaft 5 are connected with the main drive shaft 5, so that the rotating element 91 rotates synchronously, and the pendulum body 92 pivotally connected to the periphery of the rotating element 91 is at different rotational positions. , part of the pendulum body 92 will produce a thumping preparation space 911 that swings outward in the open area of the rotating element 91 to prepare for thumping, and part of the pendulum body 92 will produce a thumping state that swings to the thumping portion 912 of the rotating element 91 , to generate auxiliary rotational thrust to the rotating element 91, and increase the rotational kinetic energy of the main drive shaft 5, and then by arranging at least one thumping power auxiliary unit 9, the power generation efficiency of the power generation device 8 can be greatly improved (as shown in the third figure and shown in Figure 4).

In this creation, the hydraulic motor 33 with low rotating speed and large torque effectively drives the main drive shaft 5 to rotate through the speed changer 4, and at least one flywheel 6 set on the main drive shaft 5 produces enough inertial kinetic energy, and cooperates with the described The power assist of the magnetic energy auxiliary unit 7 and the thumping power auxiliary unit 9 can improve the power generation efficiency of the power generation device 8 .

And the oil pressure motor 33 of the present invention uses the oil pump 31 to supply hydraulic oil circulation as power, the oil pressure motor 33 does not need power consumption, the used motor 2 drives the oil pump 31 to drive the oil pressure motor 33, and the motor 2 The power used is small and the power consumption is low, so it is only necessary to supply power from the battery 1 to the motor 2, and the low power motor 2 can drive the hydraulic motor 33 with high torque, and because the motor 2 has low power and low power consumption Low, only a small power supply needs to be returned by the power generation device 8 through the power line for use by the motor 2 and to charge the battery 1 .

According to the aforementioned characteristics, this invention can use more than one set of generator devices side by side to generate higher power generation (as shown in the fifth figure).

The device of the self-contained generator of this creation has been tested, and the power generation efficiency obtained after the test is 200 kw power generated by the power generation device 8 as an example, and the power consumption of the motor 2 is about 5% of the 200 kw power To 10% of the power, that is, the power consumption of the motor 2 is about 10 kw-20 kw, so there is still 190 kw-180 kw of extra power available for use.

To sum up, this invention provides a generator device that can generate electricity without external power, and provides an environmentally friendly, simple and low-maintenance generator device. It is a very novel, progressive and industrially applicable creation. It has actually met the requirements for granting a new patent, and I have filed a patent application in accordance with the law. I hope that the review committee can review it in detail and grant the patent of this case as soon as possible. It is really convenient.

Only the above mentioned are only the preferred embodiments of this creation, and should not be used to limit the scope of this creation. For example, all equal changes and modifications made according to the patent scope of this creation should still belong to this creation patent. within the scope covered.

1: battery 2: motor 3: Hydraulic power unit 31: oil pump 32: fuel tank 33:Hydraulic motor 4: Speed changer 5: Main drive shaft 6: Flywheel 7: Magnetic auxiliary unit 71: inner rotating wheel 711,721: Permanent magnets 72: External fixator 8: Power generation device 9: Thump Power Assist Unit 91: rotating element 911: Pounding the Preparatory Space 912: Thump Department 92: pendulum body 921:pivot 93: base 94,95: Pulley 96: belt

The first figure is a plan view of one of the preferred embodiments of this creation. The second figure is a partial cross-sectional view of the magnetic energy auxiliary unit of this creation. The third picture is a top view of this creation which also has a thumping power auxiliary unit. The fourth picture is the front view of the hammering power auxiliary unit of this creation. The fifth figure is an embodiment diagram of using more than one engine device side by side in this creation.

1: battery

2: motor

3: Hydraulic power unit

31: oil pump

32: fuel tank

33:Hydraulic motor

4: Speed changer

5: Main drive shaft

6: Flywheel

7: Magnetic auxiliary unit

71: inner rotating wheel

711,721: Permanent magnets

72: External fixator

8: Power generation device

Claims (10)

A device for a self-contained generator, which includes a battery, a motor, an oil hydraulic power unit, at least one flywheel and a power generating device, and its main features are: wherein the oil hydraulic power unit includes an oil pump, an oil tank and an oil pressure Motor, the flywheel is set on a main drive shaft, and the power generation device is set at one end of the main drive shaft, and a speed changer is provided between the oil pressure motor and the main drive shaft, and the motor is powered by a battery so that The motor drives the oil pump to output the hydraulic oil in the oil tank to the hydraulic motor to make the hydraulic motor rotate, and through the transmission between the hydraulic motor and the main drive shaft, the high torque and low speed generated by the hydraulic motor are converted. Make the main drive shaft produce a higher speed, so that the flywheel installed on the main drive shaft can rotate at a higher speed, and make the flywheel generate inertial kinetic energy, so that the main drive shaft can generate continuous and sufficient rotational kinetic energy to drive power generation The device generates electricity. The device of the self-contained generator as described in claim 1, which further includes a magnetic energy auxiliary unit, the magnetic energy auxiliary unit includes an inner rotating wheel and an outer fixed frame, the inner rotating wheel is arranged on the main drive shaft, and is subjected to Driven by the main drive shaft to rotate synchronously, a plurality of permanent magnets with a positive pole and a negative staggered pole are installed equidistantly on the wheel surface of the inner rotating wheel. There is a permanent magnet corresponding to the permanent magnet set on the surface of the inner rotating wheel, and the magnetic pole of the permanent magnet on one side of the outer fixed frame is positive, and the magnetic pole of the permanent magnet on the other side of the outer fixed frame is negative. The self-contained generator device as described in claim 1, which further includes a thumping power auxiliary unit, the thumping power auxiliary unit includes a rotating element and at least one pendulum body arranged on the periphery of the rotating element, the rotating The element is arranged on a base, and is connected with the main drive shaft through a belt and the pulleys respectively arranged on the rotating element and the main driving shaft to generate synchronous rotation, wherein a plurality of pivots are pivoted on the periphery of the rotating element The pendulum body has an open area on the corresponding side of the rotating element and each pivoting pendulum body, which is used for the pendulum body to generate swinging hammer preparation space, and the rotating element and each pivoting pendulum body are on the other side. On the corresponding side, there is a thumping part formed. When the hydraulic motor drives the main drive shaft to rotate through the transmission When moving, it is connected with the main drive shaft through the belt and the pulley respectively arranged on the rotating element and the main driving shaft, so that the rotating element can rotate synchronously, and the pendulum that is equidistantly pivoted on the periphery of the rotating element is in the At different rotation positions, part of the pendulum body will produce a thumping preparation space that swings out in the open area of the rotating element to prepare for thumping, while part of the pendulum body will produce a thumping state that swings to the thumping part of the rotating element, so as to Generate auxiliary rotational thrust to the rotating element and increase the rotational kinetic energy of the main drive shaft. The self-contained generator device as described in claim 1, wherein when the motor is initially started, it is powered by the battery first, and when the power generation device generates power after the motor is started, the power generated by the power generation device is fed back for the motor, and at the same time, the battery to charge. The self-contained generator device as described in claim 1, wherein more than one generator device of the present invention can be used side by side to generate higher power generation. A device for a self-contained generator, which includes a battery, a motor, an oil hydraulic power unit, at least one flywheel, at least one magnetic energy auxiliary unit, and a power generating device, the main features of which are: wherein the oil hydraulic power unit includes Oil pump, fuel tank and hydraulic motor, the flywheel and magnetic energy auxiliary unit are arranged on a main drive shaft, and the power generation device is arranged on one end of the main drive shaft. Between the hydraulic motor and the main drive shaft, a The speed changer supplies power to the motor through the battery, so that the motor drives the oil pump to output the hydraulic oil in the oil tank to the hydraulic motor to rotate the hydraulic motor, and through the speed changer between the hydraulic motor and the main drive shaft, the oil pressure The large torque generated by the motor and the conversion of the low speed make the main drive shaft generate a higher speed, which makes the flywheel and the magnetic energy auxiliary unit installed on the main drive shaft rotate at a higher speed, and makes the flywheel generate inertial kinetic energy, and The kinetic energy is assisted by the magnetic force of the magnetic energy auxiliary unit, so that the main drive shaft generates continuous and sufficient rotational kinetic energy to drive the power generation device to generate electricity. The device of the self-contained generator as described in claim 6, wherein the magnetic energy auxiliary unit includes an inner rotating wheel and an outer fixed frame, and the inner rotating wheel is arranged on the main drive shaft, and is driven by the main drive shaft to be synchronized To rotate, a plurality of permanent magnets with a positive pole and a negative staggered arrangement are installed equidistantly on the wheel surface of the inner rotating wheel, and a corresponding inner rotating wheel is arranged on the inner edge surface of both sides of the outer fixing frame. wheel surface The set permanent magnets are corresponding permanent magnets, and the magnetic pole of the permanent magnet set on one side of the external fixation frame is positive, and the magnetic pole of the permanent magnet set on the other side of the external fixation frame is negative. The self-contained generator device as described in Claim 6, which further includes a thumping power auxiliary unit, the thumping power auxiliary unit includes a rotating element and at least one pendulum body arranged on the periphery of the rotating element, the rotating The element is arranged on a base, and is connected with the main drive shaft through a belt and the pulleys respectively arranged on the rotating element and the main driving shaft to generate synchronous rotation, wherein a plurality of pivots are pivoted on the periphery of the rotating element The pendulum body has an open area on the corresponding side of the rotating element and each pivoting pendulum body, which is used for the pendulum body to generate swinging hammer preparation space, and the rotating element and each pivoting pendulum body are on the other side. On the corresponding side, a thumping part is formed. When the hydraulic motor drives the main drive shaft to rotate through the speed changer, it is connected with the main drive shaft through a belt and the pulleys respectively arranged on the rotating element and the main drive shaft, so that The rotating element produces synchronous rotation, and when the pendulum body pivotally connected to the periphery of the rotating element is at different rotational positions, part of the pendulum body will swing out in the opening area of the rotating element to create a thumping preparation space, ready to thump, And part of the pendulum body will produce the thumping state of swinging to the thumping portion of the rotating element, so as to generate auxiliary rotational thrust to the rotating element, and increase the rotational kinetic energy of the main drive shaft. The self-contained generator device as described in claim 6, wherein when the motor is initially started, it is powered by the battery first, and when the power generation device generates power after the motor is started, the power generated by the power generation device is fed back to the motor, and at the same time, the battery to charge. The self-contained generator device as described in claim 6, wherein more than one generator device of the present invention can be used side by side to generate higher power generation.

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