KR20200092254A - MANY driving gear UTILIZATION; GENERATING SET - Google Patents

Abstract

The present invention relates to a generation device for maximizing an energy output using a plurality of drive gears and, more specifically, to a generation device for maximizing an energy output using a plurality of drive gears, which can be installed at low costs. According to the present invention, the generation device for maximizing an energy output using a plurality of drive gears comprises: a first housing; a second housing for accommodating a first ′fan′ driven gear and a plurality of first drive gears; a third housing for accommodating a second ′fan′ driven gear and a plurality of second drive gears; and a power generator.

Description

MANY driving gear UTILIZATION; GENERATING SET}

The present invention relates to a plurality of driving gear maximizing power generation devices that enable high-efficiency power generation by allowing a small force to be input to obtain the maximum output, and more specifically, the momentum and inertia of an inertial moment object in rotational motion. Distance multiplied by the distance between the object and the axis of rotation, i.e., the center axis of the first and second'fan' driven gears, and the centrifugal force of the central axis of the generator rotor: and the distance between the centrifugal forces of the first and second drive gears: The maximizing device (ie unit m) total mechanical energy relates to the creation of a conversion from the generator stator to electrical energy.

The energy transmission device between one driven gear and one drive gear is a modern general machine without any exception. If the diameter of the centrifugal force from the center to the outside is doubled, the resistance is increased to 4 times. there is a problem.

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, and is a value obtained by multiplying the distance between the moment of inertia and the moment of inertia in the rotational motion and the distance between the inertial object and the axis of rotation. Shaft: Centrifugal force of the generator rotor's central axis, and: 1,2 Multiple drive gear centripetal forces: Maximized device (i.e. unit m) distant from the distance between the total mechanical energy provided by the generator stator to electrical energy There is a purpose.

The present invention relates to a plurality of driving gear maximizing power generation device, the first housing to accommodate the generator: the first'fan' driven gear and the plurality of first, the second housing to accommodate the drive gear: the second'fan' driven A third housing accommodating a gear and a plurality of second and drive gears: a generator body extended in a vertical direction, an upper rotational shaft protrudes on the upper surface of the body, and a lower rotational shaft protrudes on the lower surface, and an upper and lower rotational shaft of the generator It is configured to include, the upper axis of rotation is rotatably supported by the installation of the first frame inner shaft bearing between the first housing and the second housing, the lower axis of rotation is the second frame inner shaft between the first housing and the third housing The generator is rotatably supported by the installation of a bearing, and the generator stator outer cylinder is fixedly installed on the inner wall surface of the first housing. The structure and principle of the generator is a generator that converts the dynamic energy of the turbine into electrical energy, the central rotor. (Electromagnet) and the stator (iron core) surrounding the outside form a magnetic field to produce electricity. The basic principle of generator operation is configured to operate in accordance with Ampere's law and Faraday's law of electromagnetic induction. The first and second'fans' driven gears extending in the horizontal direction at the upper and lower ends of the generator include upper and lower parts of the central axis of the cylindrical rotating body, and the first and second'fans' driven gears are formed to protrude by including the upper and lower rotating shafts, and the first'fan' driven The upper shaft of the gear is rotatably supported by the installation of the first frame outer shaft bearing on the upper surface of the first housing, the lower shaft of rotation is coupled to the upper shaft of the generator between the first housing and the second housing, and Rotationally supported by the installation of the installed first formwork inner shaft bearing, the second'fan' driven gear upper axis of rotation is coupled to the lower axis of the generator between the first housing and the third housing, and the second formwork installed on the lower axis of rotation. The inner shaft bearing is rotatably supported by the installation, and the lower rotation shaft is rotatably supported by the installation of the outer shaft bearing of the first mold on the lower surface of the third housing, and the central axis of the first and second'fan' driven gears The first and second'fan' driven gear cylindrical rotating bodies provided in the form of a number of teeth on one side of the outer circumference expanded from the upper and lower parts to the first and second'fan' driven gear body. The driven gears are disposed at regular intervals on the circumference of the second and third housings having cylindrical rotating teeth. The first and second driving gears are each provided with a plurality of teeth, and the first and second driving gears include a central axis. 1,2 The drive gear is provided including upper and lower rotation shafts, and the first and second drive gears are rotatably supported by the installation of shaft bearings on the upper and lower sections of the second and third housings. The first and second fasteners are fixedly coupled to the inner wall surfaces of the second and third housings. When electric power is input to a plurality of the first and second drive gears, a magnetic field is induced around a conductor through which an electric current flows in an electric motor that converts electrical energy into rotational energy. When an external magnetic field is applied, an induced magnetic field and an external magnetic field Forces are generated by the interaction of. It is composed of a device that converts electrical energy into rotational motion using this relationship. The first and second electrical input ports are provided to allow electricity to come in from the outside of the upper and lower ends of the second and third housings, and an electrical output port is provided on the upper side of the first housing so that electricity can be output to the outside. The outer end is coupled to each of the first, second, and third housings, and the inner end is the first to the outside of the first and second formwork outer axial bearings and the first and second formwork inner axial bearings. ,2,3 each closed between the housings, and provided with a first'fan' air inlet between the second formwork outside (inside) and opened to the outside space of the axial bearing, outside the first formwork ( Inner) first and second generator'fans' provided with a second'fan' air outlet between the open spaces of the shaft bearing and the upper and lower rotating shafts including the central axis of the generator and the upper and lower ends of the generator The centrifugal force of the teeth of the first and second'fan' driven gear cylindrical rotating bodies combined with the upper and lower rotating shafts of the first and second'fan' driven gears that are horizontally elongated and combined with the central and lower rotating shafts: the first ,2 Multiple drive gears The centripetal force of each of the multiple teeth: When they come into contact with each other, they slide together and rotate integrally, that is, the centrifugal force: the centripetal force: the distance away from the distance (in m) ratio. When transmitted to a generator rotor that converts to motion, the total mechanical energy of a value that has a different value according to its distribution even if the mass of an inertial moment object in the rotational motion is the same is characterized by creating a conversion from the generator stator to electrical energy.

In addition, the outer end of the generator unit in the first housing in the middle of the first and second'fan driven gear cylindrical rotation bodies in the first and second housings is respectively coupled between the first and second housings, and the inner end Is coupled between the first, second, and third housings, the outer and inner shaft bearings of the first and second molds, respectively, including the central axis of the generator rotor and the upper and lower parts of the central axis of the first and second'fan' driven gears. Centrifugal force of one rotating body: centripetal force (circumferential→axial motion) of the upper and lower rotating shafts of the first and second plural driving gears on the outside: interaction Stable operation is desirable even when a large machine rotates at high speed.

In addition, the space opened outside the outer axial bearing of the second mold is opened at a space outside the axial bearing outside the first mold by applying air from the first'fan' air inlet to the intake generator stator and the rotor. A first and second generator cooling device that draws in and out of the gin with a second'fan' air outlet is preferred.

Also coupled with an outer end between each of the first, second and third housings: an inner end between each of the first, second and third housings outside the first and second outer axial bearings and the first and second inner axial bearings. Combination, the space between the generator stator and the rotor suctioning air from the first'fan' air inlet between the opened spaces on the outside of the second formwork outer axial bearing space on the outside of the first formwork outer axial bearing It is preferred that the generator cooling device discharges the opened space with a second'fan' air outlet.

In addition, the centrifugal force of one rotating body coupled with the central axis of the generator and the central axis of the first and second'fans' and: a plurality of centripetal forces of each of the first and second driving gears: interaction, that is, centrifugal force And: centripetal force and: distance (distance in m) to the distance) Maximizing device Total of the first and second driving gear motors when the electric energy is transmitted to the generator rotation, which converts the electrical energy into rotational motion. Mechanical energy is converted from stator to electrical energy. It is desirable to generate surplus energy after offsetting the energy used in a large number of drive gears.

As above, the momentum of the inertia moment object in the rotational motion multiplied by the distance between the inertial object and the rotational axis, i.e., the first and second'fan' driven gear central axis and: the number of teeth of the outer circumference of the generator rotor central axis. Centrifugal force to be performed: centripetal force with multiple teeth of each of the first and second drive gears: interaction, ie circumference → axial motion, safe operation of large devices, first and second'fan' driven gear central axis, and generator center Axis included: 1st, 2nd drive gears Multiple central axes: Maximized by a distance between each Maximizing device Rotating momentum of each rotating part (mass multiplied by speed) multiplied by distance from rotating axis One, the total mechanical energy of the generator rotor according to the angular momentum value is converted from the generator stator to the electrical energy. After offsetting the energy used in the plurality of drive gears, the structure is simple in generating surplus energy, and has the advantage of installation at low cost.

1 is a front sectional view of a plurality of driving gear maximizing power generation apparatus according to the present invention
FIG. 2 is a front sectional view showing a first and second'fan' driven gear cylindrical rotating body and generator rotor of FIG. 1;
FIG. 3 is a cross-sectional plan view showing the first and second'fan' driven gears of FIG. 1 and a plurality of drive gears cut in a plane.
Figure 4 is a cross-sectional view showing the cut of the first and second'fans' of Figure 3, driven gear plane
FIG. 5 is a cross-sectional plan view of a plurality of drive gears of FIG. 4 cut in one plane.
6 is a front sectional view showing a front of one of the first driving gears of FIG. 1;
7 is a front sectional view showing the front of one of the second driving gear of FIG. 1;
Figure 8 is a cross-sectional plan view showing the generator stator rotor of Figure 1 cut along the plane
FIG. 9 is a cross-sectional plan view showing the plane shape of the inner and outer axial bearings of the first and second molds of FIG.

The structure and function of the generator and electric motor of the present invention are the same as those on the market.

1 is a front sectional view of a rotating body first and second'fan' driven gear cylindrical rotating body and a plurality of driving gear maximizing power generation apparatus according to the present invention. Generator (10), generator body (11), stator (12), rotor (13), center shaft (14) generator upper and lower rotating shafts (15a, 15b), first and second mold inner shaft bearings (16,16a), Outer shaft bearings of the first and second molds (17,17a), first and second generator'fan' cooling devices (18a, 18b) First and second generator'fan' air inlets/outlets (19a, 19b), first ,2'fan' driven gear (20,20a), 1st, 2nd'fan' driven gear body (21,21a), 1st'fan' driven gear upper and lower rotating shaft (22.22a), 2nd'fan' driven gear Upper and lower rotating shafts 23 and 23a, first and second'fan' driven gear central shafts 24 and 24a, first and second driving gears 30 and 30a, and first and second driving gear motors 31 and 31a, First drive gear upper and lower rotation shafts 32 and 32a, second drive gear upper and lower rotation shafts 33 and 33a, first and second drive gear central axes 34 and 34a First drive gear upper and lower shaft bearings 35 and 35a, Second drive gear upper and lower shaft bearings (36,36a), first and second electrical input spheres (40,40), and electrical output sphere (41), first, second and third housings (50a, 50b, 50c), etc. It is provided including.

The generator 10 is installed inside the first housing 50a. Second, the first'fan' driven gear 20 and the first plurality of driving gears 30 are installed inside the housing 50b, and the second'fan' driven gear (in the third housing 50C) ( 20a) and a second plurality of drive gears 30a are installed. The second housing 50b is installed at the upper end of the generator 10 device of the first housing 50a, and the third housing 50C is installed at the lower end. The first housing 50a is positioned between the second housing 50b and the third housing 50c. The generator body 11 has a shape extended in the vertical direction as a whole. The first and second'fan' driven gears 20 and 20a and the first and second plurality of driving gears 30 and 30a have a shape extending in a horizontal direction, and the upper and lower sides of the second and third housings 50b.50c The first and second electrical input ports 40 and 40a are provided on the lower side to allow electricity to flow in from the outside, and the electrical output port 41 to allow electricity to be output on the upper outer side of the first housing 50a. Is provided. The outer space of the second mold outer shaft bearing 17a is provided with a generator'fan' air inlet 19a and the outer space of the first mold outer shaft bearing 17 is provided with a generator'fan' air outlet 19b ), first and second generator cooling devices 18a and 18b are provided.

The body 11 of the generator rotor 13 includes an upper rotating shaft 15a and a lower rotating shaft 15b.

Consisting of the upper and lower parts 14 of the central axis of the generator rotor 13 extended in the vertical direction, the upper rotational axis 15a protrudes on the upper surface, and the lower rotational axis 15b protrudes on the lower surface, and upper The rotating shaft 15a is coupled to the first'fan' driven gear lower rotating shaft 22a between the first housing 50a and the second housing 50b, and the lower rotating shaft 15b is the first housing 50a and the third The second'fan' driven gear between the housing 50C is coupled to the upper rotation shaft 23 and is rotatably supported by the second mold inner shaft bearing 16a installed on the lower rotation shaft 15b of the generator.

The generator 10 and the body 11 are made of two cylinders with a fixed distance between the stator 12 and the rotor 13, and the generator stator outer cylinder 12b is fixed to the inner wall surface of the first housing 50a. Is installed.

The first'fan' driven gear cylindrical rotating body 20 extending in a horizontal direction in the upper part of the generator includes the upper and lower parts of the central axis 24, and the upper rotational axis 22 protrudes on the upper surface, and the upper rotational axis 22a The upper housing of the second housing 50b is rotatably supported by installation on the outer frame bearing 17 of the first mold, and the lower rotary shaft 23 protrudes on the lower surface, and the lower rotary shaft 22a is the first The housing 50a and the second housing 50b are coupled to the generator upper rotating shaft 15a between them, and are rotatably supported by installation on the first mold inner shaft bearing 16 installed on the upper rotating side 15a. .

In the lower part of the generator, the second'fan' driven gear cylindrical rotation body 20a extending in the vertical direction includes the upper and lower parts of the central axis, and the upper axis of rotation 23 protrudes on the upper surface and the lower axis of rotation 23a on the lower surface. Protrudingly formed, the upper rotating shaft 23 is coupled to the lower rotating shaft 15b of the generator between the first housing 50a and the third housing 50c, and the second inner shaft bearing installed on the lower rotating shaft 15b It is rotatably supported by (16a), the lower rotation shaft (23a) is rotatably supported by a second mold outer shaft bearing (17a) on the lower surface of the third housing (50c).

First and second'fans' driven gear bodies 21 and 21a with first and second generator'fans' cooling devices 18.18a outside the central axes 24 and 24a of the first and second'fans' driven gears The outer circumference enlarged to ie, the first and second molds are provided with a plurality of teeth of the first and second'fan' driven gears 20.20a at the adjacent edges of the inner shaft bearings 16 and 16a.

First and second'fan' driven gears 20.20a are provided with a plurality of teeth, each of which is arranged at regular intervals with a plurality of first and second driving gears 30 and 30a on the outside having a plurality of teeth. 2 Includes upper and lower parts (24, 24a) of the central axis of the drive gear, and includes each rotating shaft (32, 32a, 33,, 33a) of upper and lower parts of the first and second drive gears, and is provided on the upper and lower sections of the second and third housings (50b, 50c). 1,2 The first and second drive gear holders 27 are rotatably supported by the installation of the upper and lower shaft bearings 35, 35a, 36, and 36a, and the inner wall surfaces of the second and third housings 50b and 50c. ,27a).

The first and second electrical input ports 40 and 40a are provided to allow electricity to come in from outside the upper and lower ends of the second and third housings 50b and 50c, and the upper and lower ends of the first housing 50a are external to the outside. Electrical output port 41 is provided.

The outer ends between the first, second, and third housings 50a, 50b, and 50c are respectively closed, and the first and second outer axial bearings 17 and 17a and the first and second inner axial bearings 16 and 16a ), the inner ends of the first, second, and third housings 50a, 50b, and 50c are closed to each other, and the'fan' air opened to the outer space of the second frame outer shaft bearings 17 and 17a The first and second generator'fans' cooling devices provided with an inlet port 19a and opened to the outer space of the first frame outer axial bearing 17a with an'outlet' air outlet port 19b: (18a, 18b).

1,2 Centrifugal force including generator'fan' cooling device (18a, 18b), first and second'fan' driven gear center shaft upper and lower parts (24,24a), generator central axis upper and lower parts (15a, 15b): 1,2 Multiple drive gears (30,30a) with central axis upper and lower parts (34,34a) with centripetal force (circumferential→axial motion): combined force of interaction forces Force against the wall or force against the floor or several unprecedented forces However, it is a configuration for safe operation in high-speed rotation even when large devices exist.

Centrifugal force to be combined into one rotating body including the generator central shaft 14 and the first and second'fan' driven gear center shaft upper and lower parts 24 and 24a: and the first and second plurality of drive gears 30, 30a), the central axis upper and lower parts (34,34) and each of a number of centripetal forces: interaction, that is, centrifugal force: centripetal force: distance between (distance m) ratio (maximum) maximizing device driving the first and second multiples When the initial power is input to the first I2 driving gear motors 31 and 31a in the gears 30 and 30a, when the first and second driving gear motors are transferred to the generator rotor 13 that converts electrical energy into rotational motion, rotational motion In this case, the total mechanical energy according to the angular momentum of inertia is generated to convert energy from stator to electrical energy.

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

The generator body 11 extended in the vertical direction and the body includes a central shaft upper and lower parts 14, and a generator 10 including upper and lower rotating shafts 15 and 15a includes a stator 12 and a rotor 13 and two others. It has a cylindrical shape. The first'fan' driven gear cylindrical rotating body 20 includes a central shaft upper and lower portions 24 and 24a, and an upper rotating shaft 22 has a first mold outer shaft bearing 17 on the upper surface of the second housing 50b. Supported to be rotatable on the lower rotating shaft 22a is rotated by installation on a first mold inner shaft bearing 16 installed on the upper rotating shaft 15a of the generator between the first housing 50a and the second housing 50b. The second'fan' driven gear cylindrical rotating body 20a of the central shaft 24a, the upper rotating shaft 23 of the first housing 50a and the third housing 50c of the first housing Supported rotatably by a second mold inner shaft bearing 16a installed on the lower shaft 15b, the lower shaft 23a is a second mold outer shaft bearing 17a on the lower surface of the third housing 50c. Rotationally supported by a single rotating body, a plurality of teeth of the first and second'fan driven gears 20 and 20a and: a plurality of teeth of the first and second plurality of drive gears 30 and 30a and each other When engaged, with the first and second'fan' driven gear center shaft upper and lower parts (24, 24a) included. The centrifugal force including the upper and lower parts of the central axis of the generator 14: the centripetal force of the first and second plural driving gears 30 and 30a: the distance between the distance (unit m), and the total mechanical energy according to the maximizing device, that is, the structure of the generator The principle is that a generator that converts the dynamic energy of a turbine into electrical energy produces electricity while forming a magnetic field by a central rotor (electromagnet) and a stator (iron core) surrounding the outside. The basic principle of generator operation is operated according to the Ampere law and Faraday's law of electromagnetic induction. It is converted into electrical energy.

The first and second driving gears 30 and 30a on the outside having a plurality of teeth of the first and second'fan' driven gears 20.20a, each with a plurality of teeth at regular intervals: when in contact with each other When slipping and transmitting to the rotating generator central axis including the upper and lower parts 14, the first and second'fan' driven gears include the central axis upper and lower parts 23 and 23a and the first and second driving gears 30 and 30a. It is the distance between the distances (that is, the unit m) and indicates the maximizing device, that is, the momentum of the angular momentum rotating object. It is a vector quantity expressed by multiplying the momentum of the object and the distance between the inertial object and the axis of rotation. It can be said that the moment of inertia in the rotational motion has a different value depending on the distribution even if the mass of the object is the same. It is called inertia efficiency. It is an invention technology that converts and generates electric energy from a generator stator having an angular momentum value.

Generator upper and lower rotating shafts (15a, 15b) and: First and second'fan' driven gears Upper and lower rotating shafts (22, 22a, 23, 23a) are included and combined with one rotating body to operate simultaneously.

The central shaft 14 of the generator rotor 13, the stator outer cylinder 12a and the generator stator outer cylinder 12b are coupled between the outer ends of the first, second, and third housings 50a, 50b.60c, respectively. The 2nd mold is coupled between the 2nd mold outer shaft bearings (17,17a) and the 1st and 2nd mold inner shaft bearings (16,16a) between the inner ends of the 1st, 2nd and 3rd housings (50a, 50b, 50C). The generator stator 12 and the rotor 13 that suck air from the first generator'fan' air inlet 29a having an air inlet 19a between the open spaces on the outside of the outer axial bearing 17a ), the first and second generators' fans responsible for the flow of air to the outside through the air outlet (19b) between the open spaces on the outside of the first shaft outside the first shaft bearing (17b) '' Air ventilation and cooling are performed through the cooling devices 18a and 18b.

The centrifugal force to be combined into one rotating body, including the first and second'fan driven gear central axis upper and lower parts (24,24a) extended horizontally at the upper and lower ends of the vertically extended generator central axis (14): The centripetal force (circumferential → axial motion) of a large number of drive gears (30, 30a): the combined force of the interaction force, the force against the wall, the force against the floor, the unprecedented force, existence even when a large machine rotates at high speed It works and creates energy.

When the initial small power is input to the input spheres 40 and 40a of the first and second driving gear motors 31 and 31a, an electric machine that converts electrical energy into rotational energy is around the conductor through which the electric current flows in the motor. Because a magnetic field is induced in the, when an external magnetic field is applied, a force is generated due to the interaction between the induced magnetic field and the external magnetic field. A motor that converts electrical energy into rotational motion using this relationship is an electric motor. At this time, the first and second'fan' driven gears including upper and lower rotation shafts 22, 22a, 23, and 23a include first and second frame outer shaft bearings on the upper and lower sections of the second and third housings 50b and 50c ( 17,17a) and the first and second mold inner shaft bearings 17 and 17a are rotatably supported, and between the 1.2th housing 50a and 50b: the 1.3th housing 50a and 50c: and the upper and lower rotating shafts of the generator 15a ,15b) to form a single rotating body to form a single rotating body, a plurality of teeth of the first and second'fan' driven gear cylindrical rotating bodies 20 and 20a and: first and second multiple driving gears 30 and 30a ) And a plurality of teeth of each: When the mesh is in contact with each other, the first and second'fans' driven gear central shafts 24, 24a and 1,2 are transmitted to the rotating generator central shaft 14 as they slide together. It is a maximizing device that is separated by a distance (i.e., unit m) between a distance from a plurality of driving gears 30 and 30a, i.e., a vector quantity expressed by multiplying the distance between the moment of inertia and the inertia and the axis of rotation. Even if the mass of the object is the same, the moment of inertia in the rotational motion is converted into electrical energy with a different value according to its distribution.

Examples of various embodiments of the present invention in the vicinity of our life, such as the space nature law maximizing power generation device: Prove the superiority of the present invention.

Example I: Example: Now, 4D machine intelligence is the inventor's basic invention energy maximizing power generation device, the traditional energy technology department of six patent documents: ICT technology convergence Turning tools, tools, and steering wheel around life (if the handle is small, it is impossible to change direction From the moment of inertia in rotational motion, such as typhoon, hurricane, tornado, black hole, various astronauts, nuclear fusion energy, etc., without a heavy lifting axis, the momentum of the rotating body of the rotating object (the amount of mass multiplied by the rotational speed) and the axis of rotation The value multiplied by the distance is called the angular momentum. It is a power machine maximizing power generation device technology that uses principle applied power.

Example II Example: Construction Four-dimensional operation When the rotating body rotates, the greatest effect of the circumferential blade tip is the creation energy itself.

Implementation III: Diameter 100m 1 hour per second 10m/s Modern windmill 3 blades The area of the circumference of the tip and the part with the greatest effect is the smallest width of the wind (modern windmill formula, density*area*speed m /sV ³ Efficiency 100% (approximately 1/2 of the circumferential tip from the central axis in the case of a windmill) Square ratio 2% Non-maximization The remaining 98% means that there is more energy to be discarded, and is a representative wing of the modern horizontal axis Three windmills, nuclear turbines, etc., and the first and second driving gears 30 and 30a are compared and configured with numerous blades to accommodate or maximize the value of energy at each location.

Example IV Example: Orthogonal motion, first law of thermodynamics, mechanical energy, space 3D (modern windmill formula density*area*speed m/sV ^3, etc., eventually applying 100% efficiency) diameter 100m super speed 10m/s=8000 number only. However, for example: in the case of a large number of driving gears around the circumference, i.e. 100 m, R 50×50=2500 times Mechanics Numerical Physics Physics Test Concepts Application of the principle of angular momentum The total mechanical energy is generated from the generator stator to electrical energy.

Example V Example: The speed does not fluctuate even when the diameter increases. Daming RPM becomes smaller. This is because the value generated by the wind is 100% in diameter, and the operation energy generation without stopping is accepted by about 1%.

Example VI Example: Points to the momentum of a rotating object. It is a vector quantity expressed by multiplying the momentum of the object and the distance between the inertial object and the axis of rotation. It can be said that the moment of inertia in the rotational motion has a different value depending on the distribution even if the mass of the object is the same. It is called inertia efficiency. In other words, the momentum of each part of the rotating body multiplied by the distance from the axis of rotation is called the angular momentum of the part. This property indicates the persistence or resistance to change of rotational motion. For example, when a stone of mass m is suspended at the end of a thread of length I and rotated at a speed of v, the angular momentum of the stone is equal to the amount multiplied by mvl (Basics of Science Bible Physics Science) side)

Implementation example: If the famous Archimedes gives you a long enough pole and a stand to support the Earth, you can lift it.' The present invention, rather than a member's principle, is the circumference of the circumference → shaft motion, the force of rotational motion, the force against the wall, the force against the floor, or the unexpected force and rotational motion. It is the original invention technology in the field of applied energy creation.

Example IX: Comparison table between preliminary and angular exercises.

Formula Table-In the linear motion, the angular momentum is compared and compared to the angular momentum between the linear movements. The linear momentum is a different amount that the linear momentum and the angular momentum cannot be added or mixed. What it means: Linear momentum is the integral of force over time. Similarly, momentum is the integral of torque over time.

Example X: Possible energy, power, power, heat, etc. are not fixed in a fixed amount, so if you use a device method that can be utilized by Jeokje, you can use it by adjusting the amount as much as possible (by creating live energy korumkotsu) Yu Sang-gu moved)

The power machine maximizing power generation device is a principle applied to the principle of the Universal Natural Law. Examples: etc. Nowadays, there are many machines in which circumference→axis motion is operated by physical force, but there is almost no circumference→axis motion power mechanization. ,2 Drive gear When electric power is input to a plurality of electric motors 31 and 31a, a magnetic field is generated around a conductor through which electric current flows from the first and second drive gear electric motors 31 and 31a to convert electric energy into rotational energy. Because this is induced, when an external magnetic field is applied, a force is generated due to the interaction between the induced magnetic field and the external magnetic field. Using this relationship as a device that converts electrical energy into rotational motion, the central axis of the generator 14 and the centrifugal force of one rotating body combined with the first and second'fan driven gear central axes 24 and 24a are: 1,2 The centripetal force (circumferential → axial motion) of a number of drive gears (30, 30a): the sum of the interaction forces, i.e., the amount of vector multiplied by the distance between the moment of inertia and the inertial object and the axis of rotation, i.e., centrifugal force And: centripetal force and: the distance between the distances (in m). Maximizing device When the electric energy is transferred to the generator rotor 13 that converts electrical energy into rotational motion, the momentum angular momentum (mass of each part of the rotating body of the object in rotational motion) And multiplied by the rotational speed) and the distance multiplied by the distance from the rotation, that is, the energy used in the initial power machine maximizing generator is the generator's structure and principle. Electromagnet) and the stator (iron core) surrounding the outside to form a magnetic field to produce electricity. The basic principle of the generator operation is the original invention technology that generates surplus energy after offsetting the energy used in the initial motor at this time.

A plurality of driving gear maximizing power generation devices of the present invention can also be installed vertically and horizontally.

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 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 tube
12b: generator stator cylinder 13: generator rotor
13a: generator rotor inner cylinder 13b: generator rotor outer cylinder
14: generator central axis 15a: generator upper rotation axis
15b: lower shaft of the generator 16,16a: inner shaft of the first and second frames
17,17a: 1st, 2nd frame outer shaft bearings 18a, 18b: generator'fan' cooling stationary
29a: first generator air inlet 29b: first generator air inlet
20,20a: 1st, 2nd'fan' driven gear Cylindrical rotating body 21,21a: 1st, 2nd'fan' driven gear
Body
22,22a,: First'fan' driven gear upper and lower rotating shaft 23,23a: Second'fan' driven gear upper
Lower axis of rotation
24,24a: 1st, 2nd'fan' driven gear central axis
30,30a: First and second plural driving gears 31,31a: First and second driving gear motors
32,32a: First driving gear upper and lower rotating shaft 33,33a: Second driving gear upper and lower rotating shaft
34,34a: first drive gear center shaft 35,35a: first drive gear upper and lower shaft bearings
36,36a: 2nd drive gear upper and lower shaft bearing 37,37a: 2nd drive gear holder
40,40a: 1st, 2nd electrical input sphere 41: Electrical output sphere
50a: first housing 50b: second housing
50c: third housing

Claims (4)

First housing (50a) for receiving the generator:
A second housing 50b accommodating the first'fan' driven gear and the plurality of first and drive gears:
A third housing 50c accommodating the second'fan' driven gear and the plurality of second and drive gears:
Generator body 11 extended in the vertical direction, the upper surface of the body, the upper rotation shaft 15a is formed to protrude, and the lower surface is formed to protrude the lower rotation shaft 15b, including the generator upper and lower rotation shafts 15a, 15b. It is configured, the upper rotating shaft 15a is rotatably supported by the installation of the first mold inner shaft bearing 16 between the first housing 50a and the second housing 50b, and the lower rotating shaft 15b is made of The first housing 50a and the third housing 50c are rotatably supported by the installation of the second mold inner shaft bearing 16a, and the generator stator outer cylinder 12b is attached to the inner wall surface of the first housing 50a. Generator(10) fixedly installed:
The structure and principle of the generator is that the generator that converts the dynamic energy of the turbine into electrical energy generates electricity while forming a magnetic field by a central rotor (electromagnet) and a stator (iron core) surrounding the outside. The basic principle of generator operation is configured to operate in accordance with Ampere's law and Faraday's law of electromagnetic induction.
The first and second'fans' driven gears extending in the horizontal direction at the upper and lower ends of the generator include a central rotating body (20, 20a) upper and lower parts (24, 24a), and a first and second'fan' driven gear upper and lower rotating shafts (22 ,22a,23,23a), and the first'fan' driven gear upper rotation shaft 22 is installed on the upper surface of the first housing 50a by installing the first frame outer shaft bearing 17. Supported rotatably, the lower rotating shaft 22a is coupled to the upper rotating shaft 15a of the generator between the first housing 50a and the second housing 50b, and the first mold inner shaft bearing installed on the upper rotating shaft 15a It is rotatably supported by the installation of (16), the second'fan' driven gear upper rotation shaft 23 is coupled to the generator lower rotation shaft (15b) between the first housing (50a) and the third housing (50c) , Rotatingly supported by the installation of the second mold inner shaft bearing 16 installed on the lower rotating shaft 15b, the lower rotating shaft 23a is the lower surface of the third housing 50c, the first mold outer shaft bearing ( 17) rotatably supported by the installation, and the first and second'fan' driven gears from the upper and lower parts (24,24a) to the first and second'fan' driven gear bodies 21 and 21a First and second'fan' driven gear cylindrical rotation bodies 20 and 20a provided in a form having a number of teeth on one side of the circumference:
The first and second'fan' driven gears are arranged at regular intervals on the circumference of the second and third housings 50a and 50c having cylindrical rotor teeth. A plurality of first and second drive gears 30 and 30a are respectively disposed. It is provided with teeth, includes the first and second drive gear center shafts (34,34a), and includes the first and second drive gear upper and lower rotation shafts (32,32a,33,33a), and includes the second and third housings. The first and second driving gears are rotatably supported by the installation of shaft bearings 35, 35a, 36, and 36a on the upper and lower sections, and the first and second driving gears are of the second and third housings 50b and 50c. It is fixedly coupled to the inner wall by first and second anchors (37, 37a).
When electric power is input to the plurality of electric motors 31 and 31a of the first and second driving gears, when an external magnetic field is applied because a magnetic field is induced around a conductor through which an electric current flows in an electric motor that converts electrical energy into rotational energy, Forces are generated by the interaction of the induced and external magnetic fields. It is composed of a device that converts electrical energy into rotational motion using this relationship.
The first and second electrical input ports 40 and 40a are provided to allow electricity to enter from outside the upper and lower ends of the second and third housings, and electricity may be output to the outside of the upper and lower sides of the first housing. So that the electrical output sphere (41,41a) is provided
The outer ends of the first, second and third housings are respectively closed, and the inner ends are the first and second mold outer shaft bearings 17 and 17a and the first and second mold inner shaft bearings (16.16a). ) Closed between each of the first, second, and third housings on the outside, and the first'fan' air inlet 19a between the openings in the outer space of the outer (inner) axial bearing of the second mold The first and second generator'fan' cooling device (18a, which is provided with, and is provided with a second'fan' air outlet 29b between the first molded outer (inner) axial bearings opened to the outer space) 18b):
A first rotating body coupled with the upper and lower rotating shafts including the generator central axis extending vertically and the first and second'fan' driven gears horizontally extending at the upper and lower ends of the generator, and the upper and lower rotating shafts of the central rotating shaft. 2 The centrifugal force of the teeth of the'fan' driven gear cylindrical rotating body 20, 20a: and the centripetal force of the multiple teeth of each of the first and second drive gears: when they are in contact with each other, they slide together and rotate integrally, i.e. , Centrifugal force: centripetal force: When the distance between (maximum unit) distance is transferred to the generator rotor 13 that converts electrical energy into rotational motion, even if the mass of the inertial moment object in the rotational motion is the same, depending on the distribution A number of driving gear maximizing power generation device characterized in that the total mechanical energy of a value having a different value is converted into electrical energy from the generator stator (12), The method according to claim 1 or 2,
The outer end of the first and second'fan driven gear cylindrical rotating bodies and the first and second drive gears are respectively coupled between the first and second housings at the upper and lower ends of the generator 10, and the inner ends are Between the first, second and third housings, the outer and inner shaft bearings 17, 17a, 16 and 16a of the first and second molds are respectively coupled, and the generator central axis and the first and second'fan' driven Interaction with centrifugal force of one rotating body coupled with the central axis of the gear: centripetal force (circumferential → axial motion) interaction of the central axes of the first and second driving gears on the outside. In the overall configuration, the large machine is characterized by stable operation even at high speed rotation. A number of driving gear maximizing power generation equipment, The method of claim 1 or 3,
Atmospheric pressure between the generator stator 12 and the rotor 13 that draws air from the first'fan' air inlet 29a between the spaces opened to the outside of the second mold outer shaft bearing. A plurality of drive gear maximizing power generation devices, characterized by first and second generator cooling devices (18a.18b) that draw the spaces open to the outside of the axial bearing into the second'fan' air outlet (29b), According to claim 1 or 4,
The centrifugal force of one rotating body coupled with the central axis of the generator and the central axis of the first and second'fan' driven gears: and a plurality of centripetal force of each of the first and second drive gears: interaction, that is, centrifugal force And: centripetal force: maximizing device at a distance (unit m) between the first and second driving gears. When the electric energy is transferred to a generator rotor that converts electrical energy into rotational motion, the total mechanical force according to the angular moment of inertia moment in rotational motion Energy is converted from stator to electrical energy Initially, the energy used in the plurality of drive gears is canceled, and a number of drive gears maximizing power generation device characterized by generating surplus energy,

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