KR20170124422A - Motor gear engine - Google Patents

Abstract

The present invention relates to a motor gear engine capable of inputting a small force in an initial state to acquire maximum output. According to the present invention, the motor gear engine comprises: a generator including inner and outer vessels of a generator rotor; a driven gear formed with a big driven gear with a lot of teeth formed on a circumference; a plurality of motor gears with a small number of teeth formed on the driven gear at constant intervals; a first housing separately receiving a motor engine from the outer vessel of the generator rotor; a second housing separately receiving the driven gear and the motor gear; a third housing separately installed on a lower side of the second housing; a fourth housing which receives the first to third housings; and a generator fixation central shaft installed for rotating by an upper generator shaft bearing, and fixated and installed in, and rotated on a top surface of the fourth housing as a lower generator fixation shaft is extended.

Description

[0001] MOTOR GEAR ENGINE [0002]

More particularly, the present invention relates to a motor gear engine of the present invention, in which a maximum output is obtained by inputting a small amount of power at the initial stage, a center circumference having a constant height and a distance from the midpoint of the outer periphery of the generator rotor to the outer end, And a plurality of motor gears having a small number of teeth on the outer periphery of the driven gear are engaged with each other to be rotated and transmitted to the driven gear body as mechanical energy to rotate simultaneously with the generator rotor. Energetic - Generator Stator The amount of angular momentum between the axis of the generator and the motor stator shaft in a configuration for electrical energy conversion. And the energy discharge of the positive power obtained by multiplying the mass of the object by the rotation speed and multiplying the distance by the distance from the rotation axis.

Conventionally, there is a problem in that the centrifugal force from the center to the circumference increases radially in the radial direction and increases the resistance by doubling the diameter.

KR Patent Publication No. 10-1112479 (Jan. 30, 2012) 4 KR Patent Publication No. 10-1320601 (Oct. 15, 2013)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to provide a power generator for a power generator, A large one of a large driven gear having a predetermined height and a large number of teeth around the circumference and a plurality of motor gears having a small number of teeth on the outer periphery of the driven gear are meshed with each other and transmitted to the driven gear body as mechanical energy, Simultaneous Rotation Magnet energy of the generator rotor - Angular momentum between the generator center axis and the motor stator shaft in a configuration in which the generator stator electrical energy is converted. The object of the present invention is to provide energy discharge of positive power by multiplying the mass of the object by the rotation speed and multiplying the distance by the distance from the rotation axis.

The present invention relates to a motor gear engine. The motor gear engine includes a generator upper fixing shaft protruding from a top surface of a generator body, and a generator lower fixing shaft protruding from a lower end surface of the generator body. A generator rotor internally provided with a stationary magnet electromagnet coil wound around the generator stator inner cylinder of the stationary center shaft at a certain distance from the generator rotor outer cylinder to which the coil magnet electromagnet is installed; A plurality of motor gears, each having a small number of teeth on the outer periphery of the driven gear, are arranged at regular intervals, and the first housing And the third housing are connected to the bearing A motor housing having a first housing accommodating the motor gear from the generator rotor outer housing separately, a separate second housing separately accommodating the driven gear and the motor gear, And a fourth housing for housing the first, second, and third housings, wherein the fourth housing accommodates first, second, and third housings in the lower portion of the generator main body, The generator lower fixation shaft is fixed to the upper surface of the fourth housing while being extended by the upper shaft bearing. The generator lower fixation shaft is rotatably supported by the generator lower shaft bearing at the lower end of the generator body - a foot fixed to the upper end surface of the fourth housing while the lower fixed shaft of the generator is extended, And an electric output port is provided on the upper surface of the outer end of the fourth housing, and an electric outlet is provided on the outer end surface of the fourth housing, And the input gear is configured such that the motor gear, the driven gear, and the generator are integrally operated.

The first and second motor gears are rotated in one direction integrally with the motor gears so that the first and second motor gears are rotated together with the motor gears of the driven gears and are rotated by the mechanical energy of the driven gear body. It is preferable that the rotating magnetic energy of the generator rotor-generator stator is converted to electric energy.

And the angular momentum between the distance from the generator central axis to the distance of the motor stator outer cylinder. It is preferable that the energy of the positive power obtained by multiplying the mass of the object by the rotation speed and the distance from the rotation axis is discharged.

As described above, the present invention according to the present invention is characterized in that, in detail, at the center of a maximized high-efficiency power generation which can obtain a maximum output by inputting a small amount of power at an initial stage, And a plurality of motor gears having a small number of teeth on the outer periphery of the driven gear are engaged with each other to rotate, and are transmitted to the driven gear body as mechanical energy, and are simultaneously rotated with the generator rotor. Magnetic energy of the generator rotor - Angular momentum between the generator center axis and the motor stator shaft in a configuration that converts the generator stator electrical energy The intensity of the rotational motion of a rotating object. Multiplying the mass of the object by the rotation speed and multiplying the distance by the distance from the axis of rotation.

1 is a front sectional view showing a motor gear engine according to the present invention.
Fig. 2 is a front sectional view showing the motor gear and the fixed shaft of Fig. 1 separated; Fig.
FIG. 3 is a plan sectional view enlargedly showing a half of FIG. 1,

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. The motor and generator of the present invention are generally the same as those in the market.

Fig. 1 is a front sectional view showing a motor gear engine according to the present invention, and Fig. 2 is a front sectional view showing a motor gear and a fixed shaft of Fig. 1 separated from each other.

The present invention relates to an apparatus for a motor gear engine including a generator 100, a generator body 110, a generator fixed center shaft 150, a generator upper shaft bearing 160, a driven gear 200, a driven gear body 210, A motor gear 300, a motor transmission 310, and a fourth housing 430 are accommodated.

A generator upper fixing shaft 160 protruding from an upper end surface of the generator body 110 and a generator lower fixing shaft 161 protruding from a lower end surface of the generator body 110.

A generator rotor inner barrel (140) having a fixed magnet electromagnet coil wound around the generator stator inner cylinder (140) of the generator fixed center shaft (150) and surrounding the generator rotor outer barrel (131) 140 and an outer cylinder 141.

And a driven gear 200 composed of a large driven gear body 210 having a large diameter around a circumference having a predetermined height and a distance from an intermediate point of the generator rotor outer cylinder 141 to an outer end thereof.

A plurality of motor gears 300 having a small number of teeth on the periphery of the driven gear 200 are arranged at regular intervals and a motor between the first housing and the third housing is installed in an axial bearing 370 Motor gear: a first housing 400 separately accommodating a motor motor 310 from the generator rotor outer cylinder 131; and a second housing 400 separately accommodating the driven gear 200 and the motor gear 300, And a third housing 420 separately provided on the lower side of the second housing 420. The first, second and third housings 400, 410 and 420 are connected to the fourth housing 430, Accept.

(Not shown in the figure) installed on the upper end of the generator body 110 and rotatable by the generator upper shaft bearing 170, The shaft 160 is extended and fixed to the upper surface of the fourth housing 430 and the generator lower shaft 160 is rotatable by the generator lower shaft bearing 171 at the lower end of the generator body 110 And a generator fixed center shaft 150 fixedly installed on the upper surface of the fourth housing 430 while the generator lower fixed shaft 160 is extended.

The upper generator shaft fixing shaft 160 is supported and rotated by fixing the upper shaft bearing 170 to the upper end of the generator body 110. The generator upper shaft fixing shaft 160 is extended while the fourth housing 430 And a generator lower fixed shaft 160 is supported and rotated by mounting the lower shaft bearing 170 on the lower end of the generator body 110. The generator lower fixed shaft 160 is extended And is fixed to the lower end surface of the fourth housing 430.

The outer end of the shaft bearing of the generator 100 is coupled to the generator rotor outer cylinder 131 and the inner end of the shaft bearing is rotatably coupled to the generator shaft bearing 170, An electric output port 190 is provided on an upper end surface of the outer end of the motor gear 300 and an electric input port 290 is provided on an outer end surface of the electric motor 300. The driven gear 200 and the generator 100 are integrally operated .

The operation of the present invention configured as described above will be described as follows.

A driven gear 200 of one large driven gear body 210 having a large circumference with a predetermined height and distance from the midpoint to the outer end of the generator rotor outer cylinder 141 and a driven gear 200 of the outer periphery of the driven gear 200 A plurality of motor gears 300 having a small number of teeth are rotatably engaged with the arrayed motor gears 300 at regular intervals and transmitted to the mechanical energy of the driven gear body 210 to rotate simultaneously with the generator rotor 121. [ Magnetic Energy of Rotor 121 - Generator Stator 120 Electrical Energy Conversion The angular momentum between the distance from the generator central axis 250 to the distance of the motor stator outer cylinder 231 The intensity of the rotational movement of a rotating object. The mass of the object is multiplied by the rotational speed, and the energy of both powers is multiplied by the distance from the rotational axis.

The magnitude of the rotational motion of the rotating object is multiplied by the distance of the rotational axis between the generator central axis 250 and the distance of the motor stator outer cylinder 231, the energy of the positive power multiplied by the mass of the object and the rotational speed, It is the composition which means the creation of creative energy existing in the rotational movement.

In this case, the natural motion form is reduced to (1/2) 2 = 1/4 when the inward directional motion from the outside to the center decreases the diameter to 1/2. It depends on the existence of creative energy.

The motor gear 300 is rotated in one direction integrally with a small initial force to rotate the driven gear 200 and the motor gear 100 to rotate with respect to the driven gear body 210, Mechanical energy, and the electrical energy of the magnetic energy-generator stator 120 of the generator rotor 121 is simultaneously converted to the electrical energy of the generator rotor 121.

The intensity of the rotational motion of an object rotating at an angular momentum between the generator fixed center shaft 250 and the motor stator outer cylinder 231. The angular momentum is a very important concept not only in physics but also in various engineering fields, so that the energy of the object is multiplied by the mass and the rotation speed, and the energy is generated by multiplying the distance by the distance from the rotation axis. The reason why the angular momentum is so important is that the angular momentum is preserved if the turning force does not act. Therefore, the conservation of the angular momentum is a source of the invention which is applied not only to engineering but also to describe various natural phenomena.

It will be apparent to those skilled in the art that various modifications and variations can be made in the technical scope of the present invention based on the concrete examples described above, It is obvious that the appended claims are intended to fall within the scope of the appended claims.

100: generator 110: generator body
120: generator stator 121 generator rotor
130: generator stator inner cylinder 131: generator stator outer cylinder
140: Generator rotor inner tube 141: Generator rotor outer tube
150 :: generator fixed center axis
160: Generator upper stationary shaft 161: Generator lower stationary shaft
170: generator shaft bearing 190: electric output port
200: driven gear 210 driven gear body
230: driven gear rotor inner barrel 231: driven gear rotor outer barrel
300: motor gear 310: motor motor
320: motor center shaft 370: motor shaft bearing
390: Electrical input port
400: first housing 410: second housing
420: third housing 430: fourth housing

Claims (3)

The motor gear engine includes a generator upper fixing shaft protruding from an upper end surface of a generator body at a central portion thereof and a lower generator shaft fixing protrusion formed at a lower end surface of the generator body, A generator rotor having a fixed magnet electromagnet coil wound around the generator rotor outer cylinder with a fixed gap therebetween;
A driven gear comprising a large driven gear body having a large circumference with a certain height and distance from an intermediate point to an outer end of the generator rotor outer cylinder;
A motor gear having a plurality of motor gears arranged on the outer circumference of the driven gear at regular intervals and including a first housing and a second motor interposed between the first housing and the second housing,
A second housing for separately accommodating the driven gear and the motor gear; and a third housing separately provided on a lower portion of the second housing, the first housing including a first housing accommodating the motor rotor separately from the generator rotor outer housing, A fourth housing housing a housing;
(Not shown in the figure) is built in the upper end of the generator body and is rotatable by the upper shaft bearing of the generator. The generator upper fixing shaft is extended to the upper end surface of the fourth housing And a generator lower fixed shaft is rotatably supported by the lower shaft bearing of the generator at a lower end of the generator body, and the generator is fixedly installed and rotated on the upper surface of the fourth housing while the generator lower fixing shaft is extended. Fixed center axis:
An outer end is coupled to the generator rotor outer tube, an inner end is rotatably coupled to the generator shaft bearing, and an electrical output port is provided on an upper end surface of the fourth housing and an electrical input port is provided on an outer end surface A motor gear engine configured to operate the motor gear, the driven gear, and the generator integrally, The method of claim 1, wherein
Angular momentum between the generator fixed center axis and the distance of the motor center axis The intensity of the rotational motion of a rotating object. A motor gear engine characterized by an energy discharge of both powers by multiplying the mass of the object by the rotational speed and multiplying the distance by the distance from the rotational axis, The method of claim 1, wherein
The motor gear is rotated in one direction integrally with the plurality of motor gears to transmit the mechanical energy of the driven gear and the motor gear of the driven gear, A motor gear engine configured to convert the magnetic energy of the generator rotor to the generator stator electrical energy,

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