WO2016011610A1 - Power generator using gravitational force - Google Patents

Abstract

Disclosed is a power generator using gravitational force, comprising: a starting motor (21), the starting motor (21) being connected to a drive wheel (212) via a first transmission member (211); a flywheel (22), the flywheel (22) being connected to a shaft portion of the drive wheel (212) via a rotating shaft (221) for linkage, and the flywheel (22) being connected to a second transmission structure (222); and a power generator body (23) which is connected to the second transmission structure (222) via a rotating shaft. The flywheel (22) comprises a flywheel body (220), wherein a plurality of counterweight blocks (24) are circularly arranged on an outer edge of the flywheel body (220), and each counterweight block (24) of the plurality of counterweight blocks (24) is configured to have a weight gradually reduced in the direction of rotation. Due to the gradually reduced weight distribution, the flywheel body may generate fast kinetic energy when rotating to a downward position, that is, the flywheel body is driven to generate better rotation kinetic energy by virtue of the gravitational force (gravity) and the characteristic that the flywheel has inertia kinetic energy.

Description

 Geocentric gravitational generator

 The present invention relates to a generator, and more particularly to a generator that utilizes a flywheel as an auxiliary power.

Background technique

 The flywheel characteristic is a kind of moment of inertia, which is often used on the machine's return shaft. It can increase the kinetic energy of the flywheel when the machine speed is increased, but it can store the kinetic energy. It can also release the energy properly when the machine speed drops. Therefore, it is often used in machines or vehicles.

 However, since the flywheel characteristics of the front opening are also applicable to the shaft of the generator, and the current petrochemical energy is gradually depleted, the use of the flywheel as the power for power generation has also received increasing attention.

 Referring to FIG. 1 , the operation of the generator 1 is generally driven by a starter motor 12 to drive a drive wheel 14 with a belt 13 or a transmission member, and then the flywheel 11 is driven by the drive wheel 14 coaxial with a flywheel 11 . After operation, the flywheel 11 is used to interlock a belt 15 to drive a generator body 16.

 The flywheel 11 of the prior art can certainly achieve a certain effect, however, the start of the starter motor 12 must provide power, and the energy consumption of the power generation must not be greater than the power generated by it. The prior art is because the flywheel 11 is the starter motor 12 Providing rotational kinetic energy, no other external force provides additional kinetic energy, so the kinetic energy that can be generated has its limits. Therefore, how to use the flywheel 11 to generate greater power generation efficiency with less kinetic energy by means of external power is also the direction that the industry is striving to develop.

Summary of the invention

 In view of the problems of the prior art, the inventors believe that there should be an improved system for which a geocentric gravitational generator is designed, including.

 A starter motor: a drive wheel is coupled to a first transmission member.

 a flywheel: coupled to the drive axle portion for coupling with a rotating shaft; and the flywheel is coupled to a second transmission coupling. The generator body is coupled to the second transmission structure by a rotating shaft.

The invention is characterized in that the flywheel comprises a flywheel body, the outer ring edge of the flywheel body is provided with a plurality of weights, and the weights of the respective unit weights of the plurality of weights are arranged to be first and then lightly distributed in the direction of rotation. . Since it is light and heavy, it will exhibit a rapid kinetic energy when rotated to the downward direction, that is, by the gravity of the earth (gravity) and the characteristics of the flywheel itself with inertial kinetic energy, driving the flywheel body to produce better Rotational kinetic energy.

DRAWINGS

 Figure 1 is a perspective view of a prior art.

 Figure 2 is a perspective exploded view of the present invention.

 Figure 3 is a plan view of the present invention.

 Figure 4-1 is a perspective view of a first embodiment of the unit weight of the present invention.

 4-2 is a perspective view of a second embodiment of the unit weight according to the present invention.

 Figure 4-la is a diagram of the plane of the unit weight of the present invention.

 Figure 4-lb is a plan view of the unit weight block plane of the present invention.

 Figure 5 is a perspective view of two sets of flywheels of the present invention.

 Figure 6 is a perspective view showing the liquid inlet motor and the liquid discharge motor of the present invention.

 Figure 7-1 is a schematic plan view showing the liquid inlet motor and the liquid discharge motor of the present invention. Figure 7-2 is another schematic plan view showing the liquid inlet motor and the liquid discharge motor of the present invention. Description of the figure:

 1 generator

 11 flywheel

 12 starter motor

 13 belt

 14 drive wheel

 15 linkage belt

 16 generator body

 2 generator

 20 points oil pan

 21 starter motor

 211 first transmission member

 212 drive wheel

 22 flywheel

 220 flywheel body

221 shaft 222 second transmission structure

 226 cover slip

 227 frame side

 23 generator body

 231 shaft

 24 weights

 24A inner edge

 24B outer edge

 24C hypotenuse

 24D inner edge

 24E outer edge

 24F hypotenuse

 25 inlet motor

 26 liquid discharge motor

 27 pipeline

 28 flywheel

 29 oil tank

 L1 imaginary connection

 L2 edge

 L3 imaginary connection

 L4 edge

 241 inlet

 242 outlet

 A weight area

 B weight zone

detailed description

 The contents, features, and embodiments of the present invention are described below, so that the reviewer will have a better understanding of the present invention. Referring to Figure 2, in conjunction with Figure 7-2, the present invention is directed to a gravity gravitational generator.

A generator 2 comprises: a starter motor 21: contacting a first transmission member 2 U (preferably a belt) A drive wheel 212.

 a flywheel 22: for convenience of display, the side frame 227 of the flywheel 22 is separated from the cover piece 226, the flywheel 22 is coupled to the shaft portion of the drive wheel 212 by a rotating shaft 221; and the flywheel 22 is connected A second transmission structure 222 (preferably a belt). In particular, the flywheel 22 includes a flywheel body 220, and a plurality of weights 24 are disposed on the outer edge of the flywheel body 220, and the weights of the respective unit weights 24 of the plurality of weights 24 are arranged to be oriented in the direction of rotation. Heavy after light distribution.

 A generator body 23 is coupled to the second transmission structure 222 by a rotating shaft 231. Since the outer edge of the flywheel body 220 is provided with a plurality of weights 24, and the weights of the respective unit weights 24 of the plurality of weights 24 are arranged to present a first heavy and light distribution in the direction of rotation. Therefore, when rotated to the down direction, a rapid kinetic energy is exhibited, that is, the gravitational force (gravity) and the flywheel 22 itself have the characteristics of inertial kinetic energy, which drives the flywheel body 220 to generate better rotational kinetic energy.

 Referring to FIG. 3, a preferred embodiment of the present invention is shown in FIG. 4-2, wherein each of the weights 24 has an inner edge 24A and an outer edge 24B along the outer edge of the flywheel body 220 at the same arc. The weight outer edge 24B is longer than the weight inner edge 24A, and the weight outer edge 24B is in contact with the weight inner edge 24A by a beveled edge 24C. Since a beveled edge 24C is formed by the addition of a beveled edge 24C, an imaginary line L1 formed by the same length as the outer edge 24B of the weight and the inner edge 24A of the weight is more than the outer edge 24B of the weight. The edge line L2 formed by the difference in length of the inner edge 24A of the weight is divided into a volume and a weight of the weight area A, and the weight area A is oriented in the direction of rotation, and is first and then light in the direction of rotation. The distribution, therefore, when rotated down, presents a rapid kinetic energy, that is, the gravitational force (gravity) and the flywheel 22 itself have the characteristics of inertial kinetic energy, which drives the flywheel body 220 to produce better rotational kinetic energy.

Referring to FIG. 4-1, in the preferred embodiment of the present invention, each of the weights 24 may have an inner edge 24D and an outer edge 24E along the outer edge of the flywheel body 220 in the same arc. The outer edge 24E is shorter than the inner edge 24D of the weight, and the outer edge 24E of the weight and the inner edge 24D of the weight are connected by a bevel 24F. Since a beveled edge 24F is generated to generate a beveled edge 24F, an imaginary connection L3 formed by the same length of the counterweight inner edge 24D and the outer edge of the counterweight 24E is more than the inner edge 24D of the counterweight The edge line L4 formed by the difference in length of the outer edge 24E of the weight is divided into a volume and a weight of the weight zone B, and the weight zone B is in the direction of rotation, so that the weight is first and then lighter in the direction of rotation. The distribution, therefore, when rotated down, exhibits a rapid kinetic energy, that is, the gravitational force (gravity) and the flywheel 22 itself have the characteristics of inertial kinetic energy, which drives the flywheel body 220 to produce better rotational kinetic energy. Referring to FIG. 4-la, and FIG. 4-lb, as shown in FIG. 6, according to the foregoing embodiments, the present invention can be used as a hollow body, and each of the weights 24 is separately provided. There is a liquid inlet 241 and a liquid outlet 242, and the flywheel body 220 is connected to a liquid inlet motor 25 and an liquid discharge motor 26, and the liquid inlet motor 25 and the liquid outlet motor 26 are driven by a oil separator 20 To the flywheel body 220, the spokes between the central hub of the flywheel body 220 and the respective weights 24 are conduits 27, and the liquid inlets 241 of the respective weights 24 are respectively connected to the liquid outlet 242, By controlling when the liquid inlet motor 25 汲 liquid enters the weight block 24, since the weight area A faces upward, the liquid will be undercut based on the gravity of the earth, and when the weight area A starts to rotate downward, As shown in FIG. 6 and FIG. 7-1, the liquid is ejected to the oil groove 29 by the liquid discharge motor 26 in an instant, so that the upward resistance is lowered.

 Referring to FIG. 5, the flywheel 22 of the present invention can be additionally provided with a flywheel 28 in series to achieve greater performance.

Claims

Claim

 1. A gravity gravitational generator, comprising:

 a starter motor: contacting a drive wheel with a first transmission member;

 a flywheel: connected to the drive axle portion by a rotating shaft for linkage; and the flywheel is coupled to a second transmission structure;

 a generator body: connected to the second transmission structure by a rotating shaft;

 The flywheel includes a flywheel body, and the outer ring of the flywheel is provided with a plurality of weights, and the weights of the respective weights of the plurality of weights are arranged to be first and then lightly distributed in the direction of rotation.

 2. The gravity gravitational generator according to claim 1, wherein each of the weights has an inner edge and an outer edge along the outer edge of the flywheel at the same arc, and the outer edge of the weight is matched with the outer edge of the weight. The inner edge of the weight is long, and the outer edge of the weight is connected with the inner edge of the weight with a hypotenuse.

 The gravitational generator according to claim 2, wherein each of the weights is a hollow body, and each of the weights is respectively provided with a liquid inlet and a liquid outlet, and the flywheel The body connection is provided with a liquid inlet motor and a liquid discharge motor, and the liquid inlet motor and the liquid discharge motor are connected by the spokes between the central hub of the flywheel body and the respective weights, respectively, and the respective weights The liquid inlet is in communication with the liquid outlet.

 4. The gravity gravitational generator according to claim 1, wherein each of the weights has an inner edge and an outer edge along the outer edge of the flywheel at the same arc, and the outer edge of the weight is matched with the outer edge of the weight. The inner edge of the weight is short, and the outer edge of the weight and the inner edge of the weight are connected by a hypotenuse.

 The gravitational generator according to claim 4, wherein each of the weights is a hollow body, and each of the weights is respectively provided with a liquid inlet and a liquid outlet, and the flywheel The body connection is provided with a liquid inlet motor and a liquid discharge motor, and the liquid inlet motor and the liquid discharge motor are connected by the spokes between the central hub of the flywheel body and the respective weights, respectively, and the respective weights The liquid inlet is in communication with the liquid outlet.