KR20170124421A - Motor engine - Google Patents

Abstract

The present invention provides a high-efficiency electric motor engine capable of obtaining a maximum output with a small amount of force input. The electric motor engine according to the present invention comprises: a housing accommodating a generator; the generator installed at a center of the housing with a generator fixing center shaft, and including an inner cylinder and an outer cylinder of a generator stator, an inner cylinder and an outer cylinder of a generator rotor, the generator stator, and the generator rotor; a motor including a motor rotor, and a motor stator, an inner cylinder and an outer cylinder of the motor rotor, and inner cylinder and an outer cylinder of the motor stator; and a rotating body in which the motor rotor and the generator rotor rotate at the same time. The rotating body is installed on a boundary line between the outer cylinder of the generator rotor and the inner cylinder of the motor rotor, and has an outer side end coupled to the outer cylinder of the motor rotor and an inner side end coupled to a shaft bearing of the generator to be able to rotate.

Description

Motor engine {MOTOR ENGINE}

[0001] The present invention relates to a motor engine, and more particularly, to an internal combustion engine in which a small amount of force is input at the initial stage to maximize the efficiency, and a generator is built inside the motor at a maximum output. Century of. 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.

[Conventional machine technology]

The force which moves away from the center axis without exception in the conventional machine field) has a problem such as generation of small energy due to the action of increasing the resistance four times when the diameter is doubled.

KR Patent Publication No. 10-1112479 (Jan. 30, 2012) Page 4 1 line to 7 lines KR Patent Publication No. 10-1320601 (Oct. 13, 2013) Claim 2

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a motor generator having a high- The intensity of the rotational motion of an object. 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.

In order to achieve the above-mentioned object, in order to achieve the maximum output of maximizing induction efficiency by inputting a small amount of force at the beginning of the present invention, a housing accommodating the generator in the motor is disposed at the center of the housing, A generator magnet fixed to the generator stator through the generator stator inner cylinder and surrounding the generator stator shaft; a generator magnet fixed to the generator stator shaft; A generator magnet coil which is wound around the generator stator and has an inner passage of the generator stator, and a fixed magnet electromagnet coil wound around the outer periphery of the generator stator coil, From the outer tube to the boundary And a motor rotor having a coil magnet magnet installed from the inner cylinder and including an inner passage outer tube enclosing the outer periphery of the motor rotor from the boundary line. Wherein the motor stator outer casing is fixed to an inner wall surface of the housing, and the generator upper fixing shaft is fixed to the upper surface of the housing while being extended, A motor lower portion of the housing is rotatably supported by a shaft bearing, the lower portion fixing shaft of the generator is fixed to a lower end surface of the housing and is rotatably supported by a lower shaft bearing of the generator, , The upper end of the housing (not shown in the figure) Characterized by an output port configured.

Also, the intensity of the rotational motion of an object rotating at an angular momentum between the generator central axis 250 and the distance of the motor stator outer cylinder 231. It is preferable to multiply the mass of the object by the rotation speed and discharge the energy of the positive power obtained by multiplying the distance by the distance from the rotation axis.

And a rotating body 250 having a boundary line 110 between the motor rotor inner cylinder 240 and the generator rotor outer cylinder 331 as shown in FIG.

As described above, in detail, according to the present invention, by inputting a small amount of force at the initial stage, a generator is built in the inside of the motor for maximizing the output of the high efficiency and high efficiency. Century of exercise. The structure of the energy discharge induction device 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 is simple and effective.

1 is a front sectional view showing a motor engine according to the present invention;
Fig. 2 shows the generator rotor and motor rotor of Fig. ≪ RTI ID = 0.0 > 1 &
Fig. 3 is a plan view showing a motor and a generator of Fig. 1 split in half; Fig.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention is the same as the structure and general principle of a motor and a generator. FIG. 1 is a front sectional view showing a motor engine according to the present invention. FIG. 2 is a front sectional view of a generator rotor and a motor rotor of FIG. 1, A motor 200, a rotating body 250, a generator 300, a generator upper shaft bearing 370, and a generator lower shaft bearing 371.

The housing 100 houses the motor 200 and the generator 300. A generator upper fixing shaft 260 protruding from an upper end surface of the generator body 310 and a protrusion 260 protruding from a lower end surface of the generator body 310, And a generator lower rotating shaft 361 formed therein.

And an outer cylinder 331 and an inner cylinder 330 of the generator stator 320 in which a fixed magnet electromagnet coil surrounding the generator stator outer cylinder 331 from the generator stator inner cylinder 330 is wound.

And a generator 300 including a generator rotor inner barrel 340 and an outer barrel 341 in which a stationary magnet electromagnet coil is wound around the generator stator outer barrel 331 with a certain interval therebetween.

And includes an inner cylinder 240 and an outer cylinder 241 enclosed by the inner rotor inner cylinder 240 and the outer cylinder 241 from the boundary line 110 installed from the generator rotor outer cylinder 341 to the boundary line 110.

And a motor rotor 221 in which a coil magnet electromagnet is installed from the motor rotor inner cylinder 240 and a fixed magnet electromagnet coil wound around the motor rotor outer cylinder 241 to surround the motor rotor outer cylinder 241 And a motor 200 including a stator inner cylinder 240 and an outer cylinder 241.

The motor stator outer cylinder 231 is fixed to the inner wall surface of the housing 100 and the generator upper stationary shaft 360 is extended and fixed to the upper surface of the housing 100, The generator lower fixation shaft 360 is fixed to the lower end surface of the housing 100 while being extended, and is rotatably supported by the generator lower shaft bearing 371, and the lower end portion of the housing A motor electric input port 280 is provided, and an electric output port 380 is formed in the upper end (not shown in the figure) of the housing.

The outer end of the generator shaft is coupled to the outer rotor shaft 141 of the motor and the inner end of the generator shaft is coupled to the generator shaft bearing 370 The motor gear 300 and the driven gear 200, which are rotatably supported on the housing 100 in such a manner as to be rotatable in an assembled manner, are provided with an electric output port 380 on the upper end surface of the housing 100, ) And the generator 100 operate integrally.

The motor engine is constituted to convert the electric motor into an electric energy, magnetic energy, mechanical energy, and convert the generator mechanical energy into magnetic energy electrical energy.

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

An initial small amount of force is applied to the rotor coil by the electromagnetic induction phenomenon by the current flowing from the input motor stator 220 to the coil to the stator through the motor stator outer cylinder 331 as the electric input port 280, The mechanical energy is transmitted from the inner rotor 240 and the outer rotor 241 from the boundary line 110 to the inner rotor 240 so as to be mechanically energized in the boundary line 110 from the mechanical energy. An external current is applied to the generator rotor from the generator stator outer cylinder 331 in the magnetic energy between the outer cylinder 241 and the motor stator outer cylinder 231 in the structure in which the current of the stator is taken out from the generator stator outer cylinder 331, The intensity of the rotational motion of a rotating object. The mass of the object is multiplied by the rotation speed, and the energy of both powers is multiplied by the distance from the rotation axis.

A motor body 210 is installed in the housing 100 and a motor rotor 221 and a motor stator 220 are installed in the motor body 210. The motor 200 as a whole has a diameter twice as large as the diameter of the generator rotor outer cylinder 331.

In the generator stator 320, the generator upper rotary shaft 250 is preferably provided with the electrical output port 250 in which the in-pipe generator 300 is installed with electric wiring (not shown).

The generator upper fixation shaft 360 is connected to the upper end of the generator body 310 of the boundary line 110 between the generator rotor outer cylinder 240 and the motor rotor inner cylinder 241, The generator lower fixing shaft 360 is fixed to the upper surface of the housing 100 while being extended and fixed to the upper surface of the housing 100 while the generator upper fixing shaft 360 is extended. And is fixed to the lower end surface of the housing 100 while the generator lower fixing shaft 360 is extended.

The outer end of the generator shaft is coupled to the outer rotor shaft 141 of the motor and the inner end of the generator shaft is coupled to the generator shaft bearing 370 The motor gear 300 and the driven gear 200, which are rotatably supported on the housing 100 in such a manner as to be rotatable in an assembled manner, are provided with an electric output port 380 on the upper end surface of the housing 100, The generator 100 operates integrally to generate energy between the generator center axis 250 and the distance of the motor stator outer cylinder 231.

An initial small amount of force is input to the motor 250 so that the electric energy becomes magnetic energy in the motor rotor 221 and becomes mechanical energy in the boundary line 110 between the motor rotor 221 and the generator rotor, The mechanical energy-magnetic energy-generator stator 320 receives the electrical energy conversion generated by the synchronous rotation transfer.

The intensity of the rotational motion of an object rotating at an angular momentum between the generator central axis 250 and the distance of 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 rotation is not applied. The conservation of the angular momentum is a source of the invention, which is applied to the principles used not only in engineering but also in describing various natural phenomena.

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. And the existence of creative energy that is a phenomenon happening everyday in our daily life.

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: housing 110:
200: motor 210: motor body
220: motor stator 221: motor rotor
230: Motor stator inner cylinder 231: Motor stator outer cylinder
240: Motor rotor inner tube 241: Motor driven outer tube
250: Rotating body 280: Motor electric input port
300: generator 310: generator body
320: generator stator 321 generator rotor
330: generator stator inner cylinder 331: generator stator outer cylinder
340: Generator rotor inner tube 341: Generator rotor outer tube
350 :: Generator fixed center shaft
360: generator upper fixed shaft 361: generator lower fixed shaft
370: Generator upper shaft bearing 371: Generator lower shaft bearing
380: Electrical output port

Claims (3)

In the motor engine of the present invention, a small amount of force is initially input to obtain the maximum output of maximized induction efficiency,
A housing for receiving the in-motor generator;
A generator lower fixation shaft provided at a center of the housing as a generator fixed center axis and protruding from an upper end surface of a generator body and a lower end surface of a generator body; A generator magnet rotor coil wound around a fixed magnet electromagnet coil wound around a stator shaft and wound around a generator magnet stator coil wound around the generator stator shaft; Generators comprising an outer tube:
And a motor rotor in which a coil magnet electromagnet is provided from the inner cylinder to an inner passage outer circumference enclosing the outer periphery of the generator rotor from the installation boundary line to a motor rotor inner passage outer wall, And a motor stator through-hole outer tube wound around the fixed stator magnet coil surrounding the stator magnet coil at a predetermined distance from the outer periphery of the stator magnet coil.
The motor stator outer tube is fixed to the inner wall surface of the housing, and the generator upper fixed shaft is fixed to the upper surface of the housing while being extended, and is rotatably supported by the generator upper shaft bearing. A rotating body fixed to the lower end face and rotatably supported by the generator lower shaft bearing and rotated simultaneously with the motor rotor and the generator rotor,
Wherein the rotating body is installed as a boundary line between the generator rotor outer cylinder and the motor rotor inner cylinder, the outer end is coupled to the motor rotor outer cylinder, the inner end is rotatably supported on the generator shaft bearing mount, The motor gear, the driven gear, and the motor gear engine, in which the electric generator is integrally operated, is provided with an electric output port (not shown in the drawing) The method according to claim 1,
Angular momentum between the axis of the generator and the distance of the motor stator outer tube The intensity of the rotating motion of the rotating object. Characterized in that the mass of the object is multiplied by the rotational speed and is multiplied by the distance away from the rotational axis, The method of claim 1, wherein
An initial small amount of force is input to the motor. In Fig. 2, the motor gear engine is composed of one rotor between the motor rotor inner rotor generator outer rotor and the motor rotor,

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