CN211008972U - Power generation device based on gravity action and inertia action - Google Patents

Abstract

The utility model relates to a power generation facility based on earth's gravity effect and inertial action, including the pendulum, the pendulum passes through the bearing and links to each other with the pendulum mount, and the pendulum can rotate with the pendulum mount transmission is installed to pendulum light one side partially, transmission drives generator rotor and rotates. By adopting the scheme, the device adopts the gear to drive the generator to generate electricity, so that the electricity generation is reliable and the performance is good. The device with the inertia power generation function can be mounted on a vehicle or a ship, can store and use electricity at ordinary times, is convenient to modify, and can be used for charging other electrical appliances, such as a vehicle lamp, an automobile engine electronic igniter and the like. In addition, this device need not the people and provides external force deliberately, and the dress is on rocking the object, and is unconsciously, can realize electricity generation and charge, and although the generated energy is very little sometimes, nevertheless through calculating, long-time accumulation gets off, can realize very big electric quantity and store.

Description

Power generation device based on gravity action and inertia action

Technical Field

The utility model belongs to the electron field especially relates to a power generation facility based on earth's gravity effect and inertial action.

Background

With the progress of the twenty-first century, the environmental pollution of the earth is serious. Green, efficient and convenient energy becomes the object that people pursue and seek. In recent years, new energy sources such as solar energy, wind energy, tidal energy, nuclear energy and the like are developed and utilized, but the energy sources are not strict and are dangerous. The use in large area, all-round and various severe conditions can not be realized. People are urgently required to find new power sources.

Most of the use in the existing market are traditional rotor generators: the principle is that the electromagnetic coil cuts the magnetic induction line to generate induction potential so as to generate electricity; however, the rotor generator needs external force: pneumatic, thermal, mechanical, etc. can generate energy to drive the rotor to rotate. The power generation effect has the characteristics of short, fast and strong, but the power generation effect has larger dependence degree on external power and higher requirement on output frequency. On the other hand, the traditional rotor generator is less utilized in the gravity, most of the traditional rotor generator obtains electric power by means of the consumption of non-renewable energy, and the environment is polluted, and the resource utilization rate still has a rising space.

Disclosure of Invention

An object of the utility model is to provide a power generation facility based on earth's gravity effect and inertial action, focus on the cooperation of earth's gravity and object inertial action, collect and utilize the object to rock the energy that produces and generate electricity because of inertia and earth's gravity effect influence when speed variation. The utility model utilizes the method of the rotor generator to generate electricity, and reduces the dependence on the non-renewable energy when the generator operates; the utilization rate of the generator to the gravity is improved when the generator is under the help of external force, the pollution is reduced, and the green power generation is realized.

The technical implementation scheme of the utility model is: power generation facility based on earth's gravity effect and inertial action, including pendulum and pendulum mount, the pendulum passes through the bearing and links to each other with the pendulum mount, and the pendulum can rotate relatively the pendulum mount, installs transmission on pendulum light one side, and transmission drives the rotation of generator rotor.

Based on the above-mentioned purpose, the utility model discloses a further improvement scheme is: the transmission device is a pendulum gear, a rotor gear is arranged on a rotor of the generator, and the rotor gear is meshed with the pendulum gear.

Based on the above-mentioned purpose, the utility model discloses a further improvement scheme is: the generator rotor comprises a first generator rotor and a second generator rotor, a first gear is arranged on the first generator rotor, a second gear is arranged on the second generator rotor, and the first gear and the second gear are respectively meshed with the front side and the rear side of the pendulum bob gear.

Based on the above-mentioned purpose, the utility model discloses a further improvement scheme is: the generator rotor comprises a generator rotor, a bridge rectifier circuit and a rechargeable battery, the current output end of the generator rotor is connected to the input end and the output end of the bridge rectifier circuit respectively, the output end of the bridge rectifier circuit is connected to the input end of the rechargeable battery through a first resistor, the output end of the rechargeable battery is connected to the input end of the bridge rectifier circuit through a second resistor, and a diode is further connected to an output loop of the bridge rectifier circuit.

Based on the above-mentioned purpose, the utility model discloses a further improvement scheme is: the power supply system also comprises a first bridge rectifier circuit, a second bridge rectifier circuit and a rechargeable battery, wherein the current output and input ends of the rotor of the first generator are respectively connected to the input and output ends of the first bridge rectifier circuit, the output end of the first bridge rectifier circuit is connected to the input end of the rechargeable battery through a first resistor, and the output end of the rechargeable battery is connected to the input end of the first bridge rectifier circuit through a second resistor; the current output input end of the second generator rotor is respectively connected to the input end and the output end of the second bridge rectifier circuit, the output end of the second bridge rectifier circuit is connected to the input end of the rechargeable battery through a third resistor, the output end of the rechargeable battery is connected to the input end of the second bridge rectifier circuit through a fourth resistor, and diodes are connected to the output loops of the first bridge rectifier circuit and the second bridge rectifier circuit.

Advantageous effects

The device adopts the gear to drive the generator to generate electricity, and has reliable electricity generation and good performance. The device with the inertia power generation function can be mounted on a vehicle or a ship, can store and use electricity at ordinary times, is convenient to modify, and can be used for charging other electrical appliances, such as a vehicle lamp, an automobile engine electronic igniter and the like. In addition, this device need not the people and provides external force deliberately, and the dress is on rocking the object, and is unconsciously, can realize electricity generation and charge, and although the generated energy is very little sometimes, nevertheless through calculating, long-time accumulation gets off, can realize very big electric quantity and store.

Drawings

Fig. 1 shows a power generation device based on the gravity effect and the inertia effect according to an embodiment of the present invention.

Fig. 2 is a schematic circuit diagram of a power generation device based on the gravity effect and the inertia effect according to an embodiment of the present invention.

Detailed Description

In order to make the principle and advantages of the present invention become clearer, the following description will proceed with further detailed description in conjunction with the accompanying drawings and specific embodiments. In the present embodiment, the specific embodiments described are only for explaining the present invention, and are not used to limit the present invention.

Example one

As shown in fig. 1 and 2, the power generation device based on the gravitational attraction effect and the inertia effect includes a pendulum bob 1 and a pendulum bob fixing frame 4, the pendulum bob 1 is connected with the pendulum bob fixing frame 4 through a bearing 3, the pendulum bob 1 can rotate relative to the pendulum bob fixing frame 4, a transmission device is installed on the lighter side of the pendulum bob 1, and the transmission device drives a generator rotor 5 to rotate. The transmission device is a pendulum gear 2, a rotor gear 6 is arranged on a generator rotor 5, and the rotor gear 6 is meshed with the pendulum gear 2. The generator rotor comprises a first generator rotor and a second generator rotor, a first gear is arranged on the first generator rotor, a second gear is arranged on the second generator rotor, and the first gear and the second gear are respectively meshed with the front side and the rear side of the pendulum bob gear 2. The power generator further comprises a first bridge rectifier circuit, a second bridge rectifier circuit and a rechargeable battery, wherein the current output and input ends of the rotor of the first power generator are respectively connected to the input and output ends of the first bridge rectifier circuit, the output end of the first bridge rectifier circuit is connected to the input end of the rechargeable battery through a first resistor R1, and the output end of the rechargeable battery is connected to the input end of the first bridge rectifier circuit through a second resistor R2; the current output input end of the second generator rotor is respectively connected to the input end and the output end of the second bridge rectifier circuit, the output end of the second bridge rectifier circuit is connected to the input end of the rechargeable battery through a third resistor R3, the output end of the rechargeable battery is connected to the input end of the second bridge rectifier circuit through a fourth resistor R4, and the output loops of the first bridge rectifier circuit and the second bridge rectifier circuit are connected with a diode VD 1.

Example two

The difference from the first embodiment is that: power generation facility based on earth's gravity effect and inertial action, including pendulum 1 pendulum gear 2 is installed to pendulum 1 lighter one side, and pendulum 1 links to each other with pendulum mount 4 through bearing 3, and pendulum 1 can rotate relative to pendulum mount 4, there is rotor gear 6 on the generator rotor 5, rotor gear 6 and pendulum gear 2 mesh mutually. Still include bridge rectifier circuit and rechargeable battery, the current output input of generator rotor connects to bridge rectifier circuit's input/output end respectively, and bridge rectifier circuit's output connects to rechargeable battery's input through first resistance R1, and rechargeable battery's output connects to bridge rectifier circuit's input through second resistance R2, still is connected with diode VD1 on bridge rectifier circuit's output circuit.

EXAMPLE III

The difference from the first embodiment is that: the current output input ends of the first generator rotor and the second generator rotor are respectively connected to the input end and the output end of the bridge rectifier circuit, the output end of the bridge rectifier circuit is connected to the input end of the rechargeable battery through a first resistor R1, the output end of the rechargeable battery is connected to the input end of the bridge rectifier circuit through a second resistor R2, and a diode VD1 is connected to an output loop of the rectifier circuit.

First, the outline of this application main points:

1. structural aspects of the generator

The center of a pendulum bob (objects with similar functions can be used) which plays a role of a counterweight is fixed by using long bearings fixed at two ends of the object, so that the whole pendulum bob is suspended and can easily complete the swinging motion in a straight line direction; and when the pendulum bob is in rest, the heavy side of the pendulum bob is naturally fixed vertical to the horizontal plane, and the light side of the pendulum bob is positioned opposite to the point of symmetry of the bearing (namely, a gear part serving as the pendulum bob).

The gear is arranged on the light side, when the pendulum bob swings, the center of the pendulum bob is fixed on the bearing, so that the pendulum bob can swing back and forth, and the gear at the other end swings along with the swing of the pendulum bob. At the moment, the direct current generator with the gear on the rotor is meshed with the gear on the pendulum bob, so that the pendulum bob swings, and the gear on the pendulum bob drives the rotor gear to rotate so as to drive the generator to generate electricity (note that at the moment, electricity generated by the generator is different in current direction due to the fact that the pendulum bob reciprocates in different directions, namely the directions of the gears rotating, and therefore a section of bridge type rectifying circuit is needed for rectifying). And connecting the rectified direct current with a section of resistor (preventing the current from burning through the battery due to overlarge current), and then connecting a rechargeable battery to complete the assembly and construction of the power generation device.

2. Generator application method and field

The device can be placed on a ship, an automobile, various easily-shaken articles or tools to generate electricity. For example, the device is placed on a taxi (the device is directly fixed in the taxi after being connected with a circuit; note that the swinging direction of a pendulum bob is consistent with the advancing direction of the taxi), and because the taxi can do acceleration, deceleration, starting, braking and other motions for countless times a day in business hours, the device pendulum bob in the taxi can swing to drive a generator to rotate to generate electricity according to the acceleration change of the taxi known by physics related knowledge, and the principle and the method are also used on ships and automobiles. The object is suitable for all objects which are easy to shake.

But the device has less generating capacity by single shaking and needs to be externally connected with a rechargeable battery, thereby storing the small electric quantity generated each time, accumulating more and finally reaching considerable electric quantity.

3. Device usage instruction method:

only the circuit of the device needs to be connected, so that the pendulum bob can freely swing back and forth; and then fixing the cable on an object which is easy to shake such as an automobile, a ship and the like. (installation must ensure that the pendulum swinging direction coincides with the car's forward direction, as does a ship).

4. The device has the following application range:

the device is suitable for vehicles (particularly taxies, buses and other vehicles which frequently do acceleration and deceleration movement), ships (which shake along with sea waves or shake during operation and the like), and a plurality of objects and equipment which are easy to shake.

5. The implementation steps are as follows:

the device is installed on a taxi in a certain urban area, and is connected with a rechargeable battery (or indirectly leads current to a storage battery of the taxi). And operating to calculate the power generation effect and the power generation amount.

6. The experimental effect is implemented:

around 5 hours, a 11360 milliamp hour (mAh) rechargeable battery connected to a single 36V dc generator was fully charged.

Secondly, the application distinguishes the improvement of the prior art:

1. the pendulum bob is driven to rotate by reciprocating motion caused by the action of inertia after receiving the gravity to enable the rotor of the generator to rotate for generating electricity, and generated current is subjected to bridge rectification and then stored for use. The utilization rate of the gravity and the inertia of an object is improved, and compared with the traditional rotor generator, the rotor generator is more energy-saving, environment-friendly, miniaturized, easy to modify and easy to popularize, for example, the rotor generator is installed in an automobile to charge an automobile storage battery, installed on a ship to charge a ship, installed on a sea surface signal buoy (a radio signal transmission device which is used as the offshore sea surface in a large quantity) to charge the buoy, and the like.

2. Excellent performance:

the device adopts the gear to drive the generator to generate electricity, and has reliable electricity generation and good performance. The existing market urgently needs new energy equipment, the power generation device can be portable and large-sized (adopts a three-phase generator), is suitable for personal small-sized and large-sized power generation equipment, the small-sized generators popular in the existing market are all diesel generators or small-sized hand-turning generators, are not easy to popularize and utilize on a large scale (have the defects of polluting environment, higher noise, lower efficiency and the like … …), the device with more inertial power generation can be arranged on a vehicle and a ship, can store electricity and use electricity at ordinary times, is also convenient to modify by a driver, and charges other electrical appliances, such as charging vehicle lamps, supplying power to an electronic igniter (commonly called a sparking plug) of a vehicle engine, and the like. In addition, this device need not the people and provides external force deliberately, adorns on rocking the object, and unconsciously can realize electricity generation and charge (although sometimes the generated energy is very little, through calculating, long-time accumulation gets off, can realize very big electric quantity and store).

Claims (5)

1. Power generation facility based on earth's gravity effect and inertial action, its characterized in that: including pendulum and pendulum mount, the pendulum passes through the bearing and links to each other with the pendulum mount, and the pendulum can rotate relative to the pendulum mount, installs transmission on pendulum light one side, and transmission drives generator rotor and rotates.

2. The gravitational force and inertial force based power generation device according to claim 1, wherein: the transmission device is a pendulum gear, a rotor gear is arranged on a rotor of the generator, and the rotor gear is meshed with the pendulum gear.

3. The gravitational force and inertial force based power generation device according to claim 2, wherein: the generator rotor comprises a first generator rotor and a second generator rotor, a first gear is arranged on the first generator rotor, a second gear is arranged on the second generator rotor, and the first gear and the second gear are respectively meshed with the front side and the rear side of the pendulum bob gear.

4. The gravitational force and inertial force based power generation device according to any one of claims 1 to 3, wherein: the generator rotor comprises a generator rotor, a bridge rectifier circuit and a rechargeable battery, the current output end of the generator rotor is connected to the input end and the output end of the bridge rectifier circuit respectively, the output end of the bridge rectifier circuit is connected to the input end of the rechargeable battery through a first resistor, the output end of the rechargeable battery is connected to the input end of the bridge rectifier circuit through a second resistor, and a diode is further connected to an output loop of the bridge rectifier circuit.

5. The gravitational force and inertial force based power generation device according to claim 3, wherein: the power supply system also comprises a first bridge rectifier circuit, a second bridge rectifier circuit and a rechargeable battery, wherein the current output and input ends of the rotor of the first generator are respectively connected to the input and output ends of the first bridge rectifier circuit, the output end of the first bridge rectifier circuit is connected to the input end of the rechargeable battery through a first resistor, and the output end of the rechargeable battery is connected to the input end of the first bridge rectifier circuit through a second resistor; the current output input end of the second generator rotor is respectively connected to the input end and the output end of the second bridge rectifier circuit, the output end of the second bridge rectifier circuit is connected to the input end of the rechargeable battery through a third resistor, the output end of the rechargeable battery is connected to the input end of the second bridge rectifier circuit through a fourth resistor, and diodes are connected to the output loops of the first bridge rectifier circuit and the second bridge rectifier circuit.

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