KR20200028812A - MANY driving gear UTILIZATION; GENERATING SET - Google Patents

Abstract

The present invention relates to a multi-gear maximization power generating device which can be simply and easily installed at low costs. The multi-gear maximization power generating device of the present invention comprises: a first housing accommodating a generator; second and third housings accommodating upper and lower portions of a driven gear and upper and lower portions of a plurality of driving gears, and upper and lower portions of a fan; a generator stator vertically extending in the first housing; a rotor; and a central axis.

Description

MANY driving gear UTILIZATION; GENERATING SET}

The present invention relates to a plurality of driving gear maximizing power generation devices, and more particularly, between a vertically long generator center axis and a plurality of driving gears on the first and second "fan" circumferences of the horizontally long driven gear central axis. Maximizing the distance away from the device When the power input to the drive gear motor is activated, the drive gear is continuously engaged with the teeth from which the driven gear rotates at the same position, and the mechanical edge of the drive gear is the generator rotor and the driven gear rotor. As a rotating body, the momentum of each part of the rotating body rotating by mechanical energy (the amount multiplied by the mass and the rotational speed) and the distance from the axis of rotation is called the angular momentum.

The energy transfer device between one driven gear pulley and one driven gear pulley is a modern type of machine, without any exception, when the diameter of the centrifugal motion outside the center is doubled, its resistance is increased to 4 times. There are many problems.

1st Republic of Korea Patent Publication No. 10-1112479 (2012.01.30.) 2nd Republic of Korea Patent Publication No. 10-1320601 (2013.10.15.)

The present invention has been devised in order to solve the problems of the prior art, between a vertically elongated generator central axis and a horizontally elongated driven gear central axis with a plurality of drive gears on a circumference of the first and second "fans". Maximizes the distance away When the drive motor power input operation, the drive gear is continuously engaged with the teeth that the driven gear rotates at the same position, and the mechanical edge of the drive gear is the generator rotor and the driven gear rotor rotates once. Multiplying the momentum (mass multiplied by the rotational speed) of each part of the rotating body that rotates with mechanical energy and the distance from the axis of rotation is called the angular momentum. There is this.

The present invention relates to a plurality of gear maximizing power generation device, a first housing for accommodating the generator: an upper part of the driven gear at the upper end of the generator, and a plurality of driving gears at the top: a second housing accommodating the upper part of the 'fan': A lower portion of the driven gear at the lower portion of the generator: a lower portion of a plurality of driving gears: a third housing accommodating the first and second 'fans': a generator stator extending vertically in the first housing. The rotor, including the central axis, is formed to protrude on the upper and lower parts of the central axis of the generator, and the lower rotating axis is configured to be supported and operated by installing the upper and lower shaft bearings in the center of the inner upper and lower molds. do. In the second and third housings, the upper and lower parts of the driven gear upper and lower rotating shafts protruding from the upper and lower central axes are configured to include the upper and lower central axes extended in the horizontal direction, and the upper and lower parts of the driven gears are extended upward and downward. It is configured to be supported and operated by the installation of the upper shaft bearing on the driven gear at the center of the mold. The driven gear upper and lower rotation shafts are configured to rotate integrally with the generator upper and lower rotation shafts in one cylindrical rotation. On the upper and lower inner sides of the driven gear, the first and second 'fan' upper and lower parts are installed, and the upper and lower driven gears having a plurality of teeth are provided on the outer side of the driven gear. On the outer circumference of the driven gear, a plurality of driving gears in the second and third housings, upper and lower driving gears having a plurality of teeth, respectively, upper and lower driving gears, lower motors, upper and lower central axes And, the upper and lower rotation shaft of the drive gear. It is configured to be supported and operated by the installation of the lower shaft bearing on the drive gear. The present invention is an open space of the upper and lower molds of the second and third housings, a fan, upper and lower air inlets, and a plurality of air to discharge air to the upper and lower side surfaces of the second and third housings. Cooling device provided with upper and lower outlets, provided with lower part and driven gear upper and lower parts, when operating with the lower part, the cooling device for heat generation such as rotation of the generator rotor, electricity on the lower surface of the outer phase of the second and third housings An input sphere is provided, and an electrical output sphere is provided on the outer side of the first housing. The vertically extended generator center axis and the distance between the upper and lower driven gears horizontally extended or the driving gear and the first and second 'fans' and lower parts are maximized by each of the upper and lower motor stators. When power is input, the teeth of the driven gear: and the teeth of the upper and lower parts of the drive gear:: When they come into contact with each other, the mechanical energy of the driving gear is collected by strong force according to the maximizing device while rotating while sliding. It is characterized in that the energy according to the angular momentum that rotates is converted from the generator stator to electrical energy.

It also maximizes the distance between the plurality of drive gear units on the circumference of the first and second "fans" on the outside of the central axis of the vertically extended generator and the driven gear horizontally extended. The driving gear is continuously engaged with the teeth that the driven gear rotates at the same position, and the mechanical edge of the driving gear is the generator rotor and the driven gear rotor, the momentum of each part of the rotating body where one rotating body rotates with mechanical energy ( The amount multiplied by the mass multiplied by the rotational speed) and the distance from the axis of rotation is called the angular momentum.

In addition, the upper and lower air inlets of the upper and lower molds of the second and third housings, the upper and lower air inlets of the second and third housings, and the driven gear and the upper and lower air outlets inward. It is desirable to cool the heat in the operating system with.

In addition, the centrifugal force of each of the generator rotors vertically elongated in the first housing, including the center shafts of the upper and lower motors horizontally elongated in the second and third housings, the motor rotors, and the motor rotor: Each of the stator's centripetal force (circumferential → axial movement) interaction large-sized equipment also features safe operation, maximizing electric motor,

As described above, the present invention maximizes the distance between the plurality of drive gear units on the circumference of the vertically long generator center and the driven gears 1 and 2 "fans" that extend horizontally. When the driving gear is continuously engaged with the teeth that the driven gear rotates at the same position, the mechanical edge of the driving gear is the generator rotor and the driven gear rotor, where one rotating body rotates with mechanical energy. The part obtained by multiplying the momentum (mass multiplied by the rotational speed) and the distance from the rotational axis is called angular momentum.In generator energy from generator stator to electrical energy, the amount of driving gear used, the generator central axis and the driven gear central axis Energy generation by maximizing device according to the distance between the drive gear and the fan. In the creation of the existence of surplus energy after offsetting the energy used in fish, the structure is simple and simple, and the installation advantage is effective at low cost.

1 is a front sectional view of a plurality of driving gear maximizing power generation apparatus according to the present invention
Figure 2 is a cross-sectional view showing a cut along the outer inner mold plane of Figure 1 2, 3 housing
FIG. 3 is a cross-sectional plan view showing a top and bottom fan of FIG. 1 cut along a plane.
4 is a cross-sectional plan view showing a driven gear including a fan of FIG. 3 and a cut view on a driving gear engaged plane
FIG. 5 is a cross-sectional plan view showing the generator stator and rotor of FIG. 1 cut along a plane;
FIG. 6 is a front sectional view showing the driven gear of FIG. 1 cut along a plane;
FIG. 7 is a front sectional view showing one of the drive gears of FIG. 1 cut along a plane;
8 is a front sectional view showing a connection between the upper and lower driving gears of FIG. 1 and the outside and the inside.
9 is a front sectional view showing a connection between the lower upper drive gear and the outside and the inside of Figure 1,

The structure and function of the generator 10 and the electric motor 30 are substantially the same as those on the market.

1 is a front sectional view of a plurality of driving gear maximizing power generation apparatus according to the present invention. Generator (10) stator (12), rotor (13), central shaft (14) generator upper and lower rotating shafts (15, 15a), generator upper and lower shaft bearings (16, 16a), outer upper and lower molds (17,17a), inner upper, lower formwork (18,18a), driven gear upper, lower (20,20a), driven gear upper, lower central axis (21,21a), driven gear upper, lower rotating shaft (22, 22a), driven gear upper and lower shaft bearings 23 and 23a, driving gear upper and lower shafts 30 and 30a, driving gear upper and lower shaft bearings 35 and 35a, electric upper and lower input spheres ( 40, 40a), an electric output sphere 41, first and second 'fans' 50, 50a, 51, 51a, first, second, and third housings 60a, 60b, and 60c.

The generator 10 is accommodated in the first housing 60a. The upper end of the generator, the housing (60b), the driven gear upper portion 20, a plurality of driving gear upper portion 30 and the first and second 'fan' upper 50 are respectively installed and accommodated. The lower end of the generator has a third housing 60c, and a driven gear lower portion 20a, a plurality of driving gear lower portions 30a, and first and second 'fan' lower portions 50a and 51a are respectively accommodated. do. First housing (60a): a second housing, the housing (60b) at the upper end of the generator, the third housing (60c) at the lower end of the generator, the first housing (60a) at the middle between the second and third housings It is located. The generator 10 includes a stator 12, a rotor 13, and a middle triaxial 14 in the first housing, and the generator has an elongated shape in the vertical direction as a whole, the second and third housings The first and second 'fans' 50, 50a, 51 and 51a are installed on the outside of the driven gear upper and lower central axes 21 and 21a on the upper and lower parts 20 and 20a of the driven gear. A plurality of driven gear teeth are provided on the upper and lower outer sides of the second 'fan', and on the outer circumference of the teeth of the driven gear, a plurality of driving gear upper, lower (30, 30a) and upper and lower driving gear shafts ( 32,32a), upper and lower rotating shafts 33,33a of the driving gear, and upper and lower shaft bearings 35, 35a of the driving gear, wherein the driven gear teeth: the driving gear teeth: interlock with each other It is configured to operate, and the first and second 'fans' (50,, 50a, 51,51a) on the outside of the driven gear upper and lower center shafts (30,30a) are provided as cooling devices with a plurality of wings. The upper and lower parts of the second and third housings 60b and 60c are provided with electrical input ports 40 and 40a to allow electricity to flow in from the outside. And, the side of the first housing (60a) is provided with an electrical output sphere (41).

The generator 10 is cylindrical and consists of two cylinders: an inner cylinder 12a and an outer cylinder 12b of the generator stator 12 and an inner cylinder 13a and an outer cylinder 13b of the generator rotor 13.

The generator stator outer cylinder 12b is fixedly installed on the inner wall surface of the first housing 60a, and generates electricity while forming a magnetic field by a rotor (electromagnet) in the center of the generator and a stator (iron core) surrounding the outside.

The upper and lower rotating shafts 15 and 15a of the upper and lower protrusions of the central shaft 14 of the generator are installed in the center of the inner upper and lower molds 18.18a, including the upper and lower shaft bearings 16 and 16a. It is configured to be supported and operated by.

The upper and lower rotational shafts 21 and 21a protrudingly formed on the upper and lower central shafts 21 and 21a at the upper and lower portions of the generator 10 are driven at the center of the outer upper and lower molds 17.17a. It is configured to be supported and operated by an installation including gear upper and lower shaft bearings 23 and 23a.

The generator phase, the generator phase of the lower shaft bearing, the lower rotational shaft and the driven gear, and the lower rotational shaft (22,22a) is configured to rotate integrally with one rotating body.

The generator stator 12, the rotor 13, and the central axis 15 include vertically elongated forms, and the driven gear upper and lower parts 20 and 20a include horizontally elongated forms. Maximized power generation between the multiple teeth of the upper and lower gears (20, 20a), the plurality of driving gears (30, 30a) on the driven gear upper and lower outer circumferences, and the maximum space that meshes with each other. To create energy according to the device,

On the outer side of the driven gear upper and lower central axes 21 and 21a, the first and second 'fan' upper and lower parts 50, 50a 51 and 51al are installed, and on the outer side of each of the 'fans', the driven gear upper and lower ( 20, 20a) is provided with a large driven gear for each of the upper and lower teeth with a plurality of teeth, the generator upper and lower rotating shafts (15,15a) and the driven gear upper and lower rotating shafts (21,21a) are each combined one It is configured to operate integrally with a rotating body. .

A plurality of driving gears 30 on the circumference of the driven gear upper and lower parts 20, 20 and a upper and lower motors 31 and 31 a, respectively, and a driving gear having a plurality of teeth, a driving gear upper and lower central axis It is configured to be rotatably supported and operated by the installation of (32, 32a), the upper and lower rotation shafts 33, 33a of the driving gear, and the upper and lower shaft bearings 34, 34a of the driving gear.

The upper and lower air inlets (53,53a) as the open space of the upper and lower molds (17,17a) outside the second and third housings (60b, 60c), and the second and third housing devices The centrifugal force of the upper and lower central axes of the horizontally elongated motors in the second and third housings, the rotor including the motor rotor, and the vertically elongated generator rotors in the first housing: the stator of the motor and the generator Each centripetal force (circumferential-to-axis movement) interaction Large-sized equipment also features safe operation. Maximizes the electric motor. It is equipped with multiple air phases and lower outlets (54, 54a) so that air is discharged inside the upper and lower parts of the generator. This is for cooling against heat generation such as rotation of the generator rotor 13 when operating with the upper and lower parts 30 and 30a of the driven gear such as the former 13

The rotor 13 of the generator supports the field winding with an iron core that becomes a field, and in a cylindrical shape, the inner cylinder 12a and the outer cylinder 12b of the generator stator 12 and the inner cylinder 13a and the outer cylinder of the generator rotor 13 It consists of two cylinders of (13b), and generates electricity while forming a magnetic field by a rotor (electromagnet) in the center of the generator and a stator (iron core) surrounding the outside. The basic principles of generator operation are Ampere's law and Faraday's law of electromagnetic induction.

In the case of the generator 10, since the current of the stator 12 is drawn out, the current of the rotor 13 should not be reduced, so it is made of a structure applied from the outside.

The rotational force of the drive gear (30.30a) is proportional to the number of turns of the coil and the current flowing in the coil, and when a current is passed by winding the fixed coil of the motor, the stator of the operating motor has the same magnetic force as the permanent magnet.

When explaining the operation of the present invention configured as described above are as follows.

In the present invention, when small energy is initially input to the upper and lower electric motors 31 and 31a of the plurality of driving gears, the upper and lower pulleys 30 and 30a of the plurality of driving gears are operated and gears of the driven gears 20 and 20a. The upper and lower rotating shafts 23 of the driven gear upper and lower parts 20 and 20a are rotated by a device that transmits power while the contact surfaces slide between the driving gears, and the generator upper and lower rotors 16 Combined, when simultaneously rotating as one rotating shaft, the distance between the horizontally elongated spaces of the driven gear upper and lower 20, 20a coupled to the generator central shaft 15 and the plurality of driving gears 30 The amount of motion (mass multiplied by the rotational speed) of each rotating body of the rotating object with the force collected on the upper and lower parts (30, 30a) of the driven gear by the force of the lever according to the maximizing device between the distances of 30a) Multiplying the distance from the axis of rotation is the angular momentum. The total mechanical energy of the generator rotor 13 according to is to convert the electrical energy in the generator stator (12).

Centrifugal force of multiple teeth of driven gear upper and lower (20, 20, a) and centripetal force of multiple driven gear teeth of upper and lower driven gear (30, 30 a) and centripetal force: interaction, ie circumferential → axial motion force Multiplied by the distance from the axis of rotation (the amount of mass multiplied by the rotational speed) and the momentum of each rotating body of a rotating object due to the presence of a force that stands on the wall, a force that stands on the floor, or a force that adds several unexpected forces. This part is called angular momentum. As a result, even large equipment safely generates operating energy.

The above contents and the like are presented in the following ten specific examples:

Example 1: Various tools, tools, levers, lifters, steering wheels, hurricane-free typhoons, hurricane black holes, and various astronomical fusion angular angular momentum around our lives. It is a technology to invent a power machine maximizing power generation device using a principle that develops a culture life using physical forces related to angular momentum.

Second embodiment: The angular momentum is very diverse, not only in physics (engineering), but also in various fields of application where various natural phenomena are useful in technology, and the momentum of each part of the rotating body of the rotating object (the amount multiplied by the mass and the rotational speed) The part multiplied by the distance from the axis of rotation is called the angular momentum (if the angular momentum does not have a creative energy, it is impossible for humans to survive, for example, it is impossible to make a machine itself).

Third embodiment: When the rotating body rotates, the greatest power itself at the end of the circumference means the creative energy existence.

: 4th Example: Even if the diameter increases, the speed remains the same, and when the diameter increases, the RPM decreases, and the diameter of the existing windmill heavy wing 3 blades is the smallest when the diameter increases. The ratio of squared proportions of natural winds is completely discarded. However, the rotational energy generation without stopping is because the RPM increase value is small and the diameter (angular momentum) size value is large.

Example 5: 50 m in diameter, 1 hour per second, 10 m / s = linear motion, spatial three-dimensional, first law of thermodynamics, mechanical energy, modern windmill formula, etc. However, when the construction 4D-operated rotating body rotates, the angular momentum diameter 50m radius R 25 × 25 = 625 times, when 50% of friction loss is applied, 312,5 times creative energy is confirmed.

Example 6: If the famous Archimedes gives you a long enough pole and a stand to support the Earth, you can pick up the Earth. The present invention is a circumferential-axis movement (interaction between centrifugal force and centripetal force) without a pedestal of the present invention. It is a force that stands on the wall, a force that stands on the floor, or a number of unexpected forces, which are many times higher than the lever.

Example 7 Comparison table between linear motion and angular motion Check the application according to the formula below.

. In the above formula table-line motion, angular momentum is compared between angular momentum between line motions, and heavier, and linear momentum is a different amount that the linear momentum and angular momentum cannot be added or mixed. What it means: Linear momentum is the integral of force over time. Similarly, each momentum is the integral of torque over time.

Eighth embodiment: 6 types of patent registration documents for the inventor energy creation field Basic research results and application of principles (changing the entire path of existing technology) is a new physically proven concept of energy source invention technology

Ninth embodiment; I am Tae-Yong Kim (Ph.D. in Engineering), Korea Institute of Machinery and Materials, Green Machinery Research Institute. The most fundamental principle of the technique invented by Park Jae-won, and the concept that the output torque is proportional to the radius when the forces are the same, is a physically verified concept. This concept was proposed to maximize the power and efficiency of wind power, hydro power, etc. It is believed that the various embodiments are very interesting and worth considering further.

Embodiment 10: Since the usable energy, power, power, heat, etc. are not fixed in a fixed amount, if a device method that can be utilized by using a mode is utilized, the amount can be adjusted as much as possible.

The present invention has a form that extends vertically as a whole, including the generator stator 12, the rotor 13, and the central axis 15 as described above, and the driven gear upper and lower parts 20 and 20a as a whole. The horizontally elongated shape includes a power gear upper, lower (20, 20a), and a plurality of teeth: a plurality of drive gears, a power input to the lower electric motors (31,31a) on the upper and lower outer circumferences of the driven gear. Maximized by a distance between the plurality of drive gears upper and lower (30,30a) power generation device: the teeth of the drive gear: and the teeth of the driven gear: when in contact with each other slides to each other and the maximizing device according to the rotation A plurality of driven gears, the upper and lower parts 20 and 20a, which are gathered by the strong force according to each other: the generator phase, the lower rotating shafts 15 and 15a, and the driven gear upper and lower rotating sides 22 and 22a as one axis. The generator rotor rotates with total mechanical energy Is referred to as angular momentum that part multiplied by the distance from the rotating body, each portion of the momentum (mass and the amount obtained by multiplying the rotational speed) and the rotational axis of the object. That is, the central axis of the generator: the upper and lower parts of the first and second 'fans' on the outside of the central axis of the driven gear (50,50a, 51,51a) and the upper and lower parts of the driven gear on the outside (20,20a) and the outside. Tooth and: Maximizes the distance between a number of driving gears and a distance from a configuration having multiple teeth, i.e., as the distance increases from the weight of the same weight, the energy increases in proportion to the weight. The energy is generated by the device according to the principle of angular momentum application.

The power machine maximizing power generation device is a first and second fan upper and lower teeth on the outer side of the lower central shaft 21 and 21a on the driven gear and a plurality of upper and lower driving gears on the outer side. Maximized proportionality with the distance between the teeth device (including the generator, the central axis, etc.) Energy generation by the machine maximizing device means creation of surplus energy according to the angular momentum after offsetting the energy used by the drive gear.

The present invention maximizes the distance between the plurality of drive gear units on the circumference of the first and second "fan" driven gears, which are vertically elongated generator center axes: and horizontally elongated driven gears. The gear is continuously engaged with the teeth that the driven gear rotates at the same position, and the mechanical edge of the drive gear is the generator rotor and the driven gear rotor is the momentum of each part of the rotating body with mechanical energy (mass and The amount multiplied by the rotational speed) and the distance from the axis of rotation is called the angular momentum, and it is good to generate energy according to the original invention technology in the field of energy creation.

The present invention is the upper and lower air inlets (53,53a) of the upper and lower airframes (17,17a), the upper and lower side surfaces of the second and third housings. It is preferable to cool the heat in the operating system with the driven gear provided with the upper and lower outlets 54 and 54a.

The centrifugal force of each of the upper and lower central axes of the horizontally elongated motor in the second and third housings, the motor rotor, and the generator rotor vertically elongated in the first housing: the stator of the motor and the generator Each centripetal force (circumferential → axis motion) interaction Large-sized equipment also features safe operation to maximize the electric motor

As described in the above description, the present invention has been described only with respect to specific examples, but, for example, the gear wheels are different according to the specification, and unless specifically specified, it is various within the technical scope of the present invention based on the above specific examples. It is obvious to those skilled in the art that modifications and variations are possible, and it is natural that such modifications and modifications fall within the scope of the appended claims.

10: generator 11: generator body
12: generator stator 12a: generator stator inner cylinder
12b: generator stator cylinder 13: generator rotor
13a: generator rotor inner cylinder 13b: generator rotor outer cylinder
14: generator central axis 15,15a: generator upper and lower rotating shaft
16,16a: generator upper and lower shaft bearings 17,17a: outer upper and lower frame
18, 18a: inner upper and lower mold
20, 20a: Upper and lower gears 21,21a: Upper and lower center shafts
22,22a: driven gear upper and lower shaft 23,23a: driven gear upper and lower shaft bearing
30, 30a: upper and lower driving gears 31, 31a: upper and lower driving gears
32,32a: upper and lower center shaft of driving gear 33,33a: upper and lower rotation shaft of driving gear
34,34a: upper and lower outer shaft bearings of drive gear
40, 40a: electrical upper and lower input ports 41: electrical output ports
50,50a ,: First upper and lower 'fans' 51,51a: Second upper and lower 'fans'
53,53a: air phase, bottom outlet port 54,54a: air phase, bottom outlet port
60a: first housing 60b: second housing
60c: second housing

Claims (4)

The present invention relates to a plurality of driving gear maximizing power generation device,
First housing (60a) for receiving the generator 10:
The driven gear, the plurality of drive gears, and the second housing (60b) for receiving the upper portion of each of the 'fan' (50):
A driven housing, a plurality of drive gears, and a third housing (60b) for receiving the lower portion of each of the 'fan' (50)
A generator stator (12) extending in a vertical direction in the first housing (60a). The rotor 13, including the central shaft 14, the generator upper and lower rotating shafts 15 and 15a protruding from the upper and lower parts of the central shaft 14, the inner upper and lower molds 18.18a It is configured to be supported and operated by the installation including the upper and lower shaft bearings 16 and 16a at the center of the generator.
The second and third housings 60b and 60c include a driven gear extending in a horizontal direction and a lower central axis 21 and 21a, and the upper and lower rotating shafts protruding from the driven gear upper and lower central axes are formed. The upper and lower sides of the 33 and 33a are configured to be supported and operated by installing the upper and lower shaft bearings 23 and 23a on the driven gear in the center of the outer upper and lower molds 17 and 17a.
The driven gear upper and lower rotating shafts 22 and 22a are configured to rotate integrally with the cylindrical upper and lower rotating shafts of the generator.
On the upper and lower inner sides of the driven gear, a first and second 'fan' upper and lower parts (50, 50a, 51, 51a) are installed, and a driven gear having a plurality of teeth on the lower part (20, 20a) of the driven gear on the outside. Upper and lower portions 20 and 20a are provided.
On the outer circumference of the driven gear, a plurality of driving gears in the second and third housings (60b, 60c), upper and lower (30, 30a), respectively, driving gears having a plurality of teeth, upper and lower (30,30a), The upper and lower motors 31 and 31a of the driving gear, the upper and lower central axes 32 and 32a of the driving gear, and the upper and lower rotating shafts 33 and 33a of the driving gear. It is configured to be supported and operated by the installation of the lower shaft bearings 34 and 34a on the drive gear.
The present invention is an open space of the upper and lower molds 17 and 17a of the second and third housings 60b and 60c, the upper and lower air inlets 53 and 53a, and the second and third housings. The upper and lower side surfaces of the housing are provided with a plurality of air phases and lower outlets 54 and 54a so that air is discharged therein, and when operated together with the driven gears top and bottom 30 and 30a, the generator rotor 13 It consists of an air circulation cooling device when heating heat such as rotation is generated.
Electrical input spheres 40 and 40a are provided on the outer upper and lower surfaces of the second and third housings, and an electric output sphere 41 is provided on an outer side of the first housing 60a.
The vertically elongated generator center axis 14 and the horizontally elongated driven gear upper or lower gear and the first and second 'fan' upper and lower parts 20, 20a 50, 50a, 51,51a When the distance maximizing device inputs each power to the upper and lower motor stators 31 and 31a of the driving gear, the teeth of the driven gears 20 and 20a and: the teeth of the lower parts 30 and 30a of the driving gear. And: Mechanical energy of the drive gear is collected with strong force according to the maximizing device as the sliding gears rotate when they come into contact with each other, and the energy according to the angular momentum the generator rotates is converted from the generator stator 12 into electrical energy. A number of driving gear maximizing power generation device, The method of claim 1
The upper and lower air inlets on the outer upper and lower molds of the second and third housings, the lower air inlet, and the upper and lower air inlets on the upper and lower side surfaces of the second and third housings. A number of drive gear maximizing power generation units, characterized by circulating thermal cooling in the operating system with the driven gear, According to claim 1 and 3,
The vertically extended generator center axis and the horizontally extended driven gear maximize the distance between the plurality of driving gears on the circumference of the first and second "fans" on the outside of the central axis of the driven gear. The gear is continuously engaged with the teeth that the driven gear rotates at the same position, and the mechanical edge of the drive gear is the generator rotor and the driven gear rotor is the momentum of each part of the rotating body with mechanical energy (mass and The amount multiplied by the rotational speed) and the distance from the axis of rotation is called the angular momentum. The method of claim 4
The horizontal and long electric motors in the second and third housings include the upper, lower, and motor rotors of the central axes of the lower parts 20 and 20a, and the centrifugal force of each of the vertically long electric generator rotors in the first housing. : Each of the stator of the motor and the generator's centripetal force (circumferential → axial motion) interaction.

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