KR20180130444A - THE OTOR MAXIMIZATION APPLICATiON GENERATING SET - Google Patents

Abstract

The present invention relates to a power generating device maximizing and applying a motor. According to the present invention, a generator stator and a motor stator are accommodated in a housing and formed to produce electric power by each function. A boundary line is connected by a noncombustible material between the generator stator and the motor stator, and the power generating device is operated as a single cylindrical rotor. Also, the power generating device generates energy. An outer end is connected to the outside of the cylindrical rotor, and an inner end is connected and fixed to an outer circumference of a shaft bearing of the cylindrical rotor. The cylindrical rotor is formed to operate and rotate an outer wheel of a fixing shaft bearing on the inner circumference of the shaft bearing of the generator stator. An electricity input unit is installed on the right of the outside of the housing, and a part of an upper shaft pipe is connected to a hollow power line in the upper part of the generator stator. Also, the part of the upper shaft pipe is extended to the upper surface of the outside of the housing and is installed in a generator electricity output unit (28). When the electric power is input in the electricity input unit, the motor changes (synergy) the electric energy into mechanical energy of the single cylindrical rotor by a motor rotor and a generator rotor using the power which the conductor in which the current flows receives in a magnetic field. The motor generates a predetermined amount of electric energy in accordance with a device for applying an angular momentum principle while forming the magnetic field by the stator (steel wire) enclosing the outside of the generator rotor (electromagnet) changing the power into the electric energy. In other words, the angular momentum is that distance from a rotation axis is multiplied with momentum (mass multiplied with rotation speed) of each part of the cylindrical rotor. The power generating device generates the energy using the device for maximizing a principle-applied motor machine.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric motor,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a power generation device for maximizing an electric motor, and more particularly, to an amount of angular momentum of a rotating object. The angular momentum is the momentum of each part of the rotor (multiplied by mass and rotational speed) multiplied by the distance from the axis of rotation. Principle Applicable to the generation of energy according to the device for maximizing the power machine.

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.

(Document 1) KR Patent Laid-Open No. 10-1112479 (Jan. 30, 2012) Page 4 1 line ~ (Document 2) KR Patent Publication No. 10-1320601 (Oct. 20, 2013) Claim 2

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and the angular momentum indicates the momentum of a rotating object. The angular momentum is the momentum of each part of the rotor (multiplied by mass and rotational speed) multiplied by the distance from the axis of rotation. The principle is to provide energy related to the maximization device of the application power machine.

In order to achieve the above-mentioned object, a single housing for accommodating a generator and an electric motor includes a generator body at the center of the housing, a generator upper pipe fixing shaft protruding from an upper surface of the generator electromagnetic fixing shaft, A stator (iron core) is wound around a generator fixed magnet (electromagnet) coil surrounding a generator stator inner cylinder around a circumference of the generator electromagnetic shaft, and a stator And a through-hole inside the generator stator to be installed. (Electromagnet) coil wound around a generator rotor (outer circumferential surface) of the generator stator at a predetermined distance from the outer periphery of the generator stator, and a generator rotor inner tube outer tube wound around the generator rotor (Electromagnet) coil wound around the motor rotor and surrounding the motor rotor. The generator rotor is composed of a cylindrical rotor and a motor rotor coupled to the generator rotor. (Electromagnet) coil surrounding the outside of the installation of the motor stator which surrounds the cylindrical rotating body with a predetermined interval therebetween. The motor stator includes an inner barrel 23a and an outer barrel 23b. The motor stator is fixed to the inner wall surface of the housing. The outer end is coupled to the cylindrical rotating body outer tube, the inner end is fixed to the outer diameter of the shaft bearing, and the generator upper and lower pipe fixing shaft is fixed to the inner diameter of the shaft bearing, and the shaft bearing is rotated by the shaft bearing outer ring. An electrical input port is provided on the outer right side of the housing, and a generator electric power output port is connected to a power line extending to an outer upper surface of the housing by connecting a power line built in an upper portion of the generator stator. When an electric power is input to the electric motor input port, the electric current is applied to the motor rotor coils by the electromagnetic induction phenomenon of the current flowing in the coils of the motor stator so that a current is generated in the rotor coils. A single cylindrical rotating body is cooperated with mechanical energy to form a magnetic field by a stator (iron core) surrounding the outside of the generator stator in the generator rotor (electromagnet) And the magnetic energy of the generator is applied to the generator rotor coils so that the electric energy of the generator is applied to maximize the electric energy conversion motor according to the application of the principle of "angular momentum" principle.

In addition, it is preferable that the single rotor rotator of the generator rotor and the rotor of the motor be provided with mechanical energy to produce a cooperative working electrical energy between the generator stator and the motor stator.

The outer end of the cylindrical rotating body is coupled to the outer cylinder of the cylindrical rotor, the inner end of the cylindrical rotor is coupled to the outer diameter of the shaft bearing, the generator vertical shaft is fixed to the inner diameter of the shaft bearing, desirable.

A power received in the magnetic field by a conductor through which a current flows in the coil in the motor stator when the power is input to the electric motor input port; the generator rotor and the motor rotor function as one cylindrical rotor mechanical energy; (Electromagnet) is preferably formed by forming a magnetic field by a stator (iron core) which surrounds the outside.

The angular momentum is obtained by multiplying the momentum (the mass multiplied by the rotational speed) of each portion of the rotating body in which the cylindrical rotating body rotates by the distance from the rotational axis. Principle It is desirable to construct an energy generation system based on the application power machinery maximization device.

As described above, according to the present invention, in detail, the generator stator is installed on the armature shaft of the central portion of the housing, and the motor stator is installed in the intermediate space provided on the inner wall surface of the housing, The cylindrical rotating body multiplies the momentum (the amount multiplied by the mass and the rotational speed) of each part of the rotating body in which the cylindrical rotating body rotates the angular momentum body by mechanical energy (synergistic) It is called angular momentum. Principle Application The structure of the energy generating structure according to the mechanical power maximizing device is simple and simple.

Fig. 1 is a front sectional view showing a power generating apparatus to which an electric motor is maximized according to the present invention.
Fig. 2 is a front section view of the generator stator and the motor stator of Fig.
FIG. 3 is a schematic cross-sectional view of the power opportunity electron and the electric potential opportunity electron of FIG. 1,
Fig. 4 is a plan view showing a state in which the generator and the motor of Fig. 1 are split in half; Fig.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the present invention, the principle and structure of generators and motors in the market are generally the same, and as the types of generators, there are dynamo generators, alternators, induction generator MHD generators, single-pole generators, etc. When there are solenoid switches and power transmission mechanisms, Is proportional to the number and the intensity of the current flowing through the coil. There is a fixed magnet (electromagnet) outside the rotor, and a brush that connects the current to the rotor. The main components of the electric motor are electric motor, armature, commutator, field iron core, field coil, bearing (= bushing) and so on. A pinion / engagement mechanism, a drive pinion, a pinion engagement method, and an overrunning clutch.

In the production of various standard products from a small number of KW / h to a large number of millions of KW / h or more, the following description will be made with reference to the following reference numerals for different types of generators, motor types or components.

The generator 10 includes a non-combustible boundary line 11, a generator 20, a generator stator 22a, a generator rotor 22b, a generator electromagnetic axis 25, a generator upper pipe fixed shaft 26a, A generator shaft bearing inner diameter 27a, an outer diameter 27b of the generator shaft bearing 27b, a shaft bearing outer race 27c, an electric motor 30, an electric motor stator 32a, an electric motor shaft 26b, a generator shaft bearing 27, An electron 32b, a prime mover rotating body 35, a cylindrical rotating body inner tube 35a, a cylindrical rotating body outer tube 35b, and the like.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generating device for maximizing an electric motor, and includes a housing (10), a generator (20), and an electric motor (30). The generator upper pipe fixing claw 26a vertically installed at the central portion of the generator body 21 constituting the main body of the generator and fixed to the generator electromagnetic fixing shaft 25 and protruding from the upper surface of the generator body, And an upper pipe fixing shaft 26b protruding from a lower end surface of the generator body is fixed to an inner lower end surface of the housing.

A generator fixed magnet (electromagnet) coil surrounding the generator stator inner cylinder 23a is wound around a circumference of the generator electromagnetic shaft 25 and a stator (iron core) is installed outside the generator fixed magnet (electromagnet) coil , The generator stator inner cylinder 23a and the outer cylinder 23b.

And a generator rotor inner barrel 24a and an outer barrel 24b in which a generator rotor (electromagnet) coil is wound around the generator stator outer bar 23b with a certain distance therebetween.

And an electric motor rotor inner casing (34a) coupled to the generator rotor outer casing (24b) by a deadline boundary line (11) and provided with an electric motor (electromagnet) coil wound around the electric motor inner casing (34a) And an outer cylinder 34b.

The generator rotor and the motor rotor, which are non-combustively bounded by the deadline 11, are configured to operate as mechanical energy as one cylindrical rotor 35 in the generator rotor outer cylinder 24b. The generator rotor and the motor rotor have the same functions as the generator rotor and the motor rotor principle in the market.

An electric motor stator inner cylinder 23a and an outer cylinder 23b which are installed with the electric motor stator (iron core) which surrounds the cylindrical rotating body with a predetermined gap therebetween and in which an electric motor fixed magnet (electromagnet) The motor stator is fixed to a wall surface of the housing.

The outer end of the cylindrical rotating body is coupled to the cylindrical rotating body outer casing 35a and the inner end of the cylindrical rotating body is fixedly coupled to the outer diameter 27b of the shaft bearing. The upper and lower pipe fixing shafts 26a, And the shaft bearing 27 is rotatably operated by the shaft bearing outer wheel 27c.

An electric power input port 38 is provided on the outer right side of the housing and a power line 29 is connected to the upper portion of the generator stator 22a to extend to the outer upper surface of the housing, do.

When an electric power is input to the electric motor input port, the electric current is applied to the motor rotor coils by the electromagnetic induction phenomenon of the current flowing in the coils of the motor stator so that a current is generated in the rotor coils, Wherein a rotor of the rotor rotates together with mechanical energy to form a magnetic field by a stator (iron core) surrounding the outside of the generator stator in the generator rotor (electromagnet) Is constructed as an electric power generating device applied to the generator rotor coils so that the magnetic energy of the generator is characterized by electrical energy conversion according to the electric energy "angular momentum" principle application device.

A generator stator inner barrel 23a and an outer barrel 23b in which a stator (iron core) is provided on the outer side of a generator fixed magnet (electromagnet) coil surrounding the generator stator inner barrel 23a around the circumference of the generator electromagnetic shaft 25, .

A generator upper pipe fixing shaft 26a protruding from the upper end surface of the generator body 21 of the generator electromagnetic fixing shaft 25 installed vertically to the body; And a generator lower pipe fixing shaft 26b protruded and formed.

A generator stator inner barrel 23a and an outer barrel 23b in which a stator (iron core) is provided on the outer side of a generator fixed magnet (electromagnet) coil surrounding the generator stator inner barrel 23a around the circumference of the generator electromagnetic shaft 25, .

A generator rotor inner barrel 24a and an outer barrel 24b around which a generator rotor (electromagnet) coil wound around the generator stator outer barrel 23b with a predetermined distance therebetween is wound. The outer barrel 24b is made of non- (Electromagnet) coil wound around the inner rotor shaft 34a of the electric motor and coupled to the outer rotor shaft 34a by a boundary line 11 and an outer rotor 34b and an outer rotor 34b. And a single cylindrical rotating body (35) coupled to the rotor and the motor rotor.

(Electromagnet) coil surrounding the outside of the installation of the motor stator which surrounds the cylindrical rotating body with a predetermined interval therebetween. The motor stator includes an inner barrel 23a and an outer barrel 23b. The motor stator is fixed to the inner wall surface of the housing.

The outer end of the cylindrical rotating body is coupled to the cylindrical rotating body outer casing 35a and the inner end of the cylindrical rotating body is fixedly coupled to the outer diameter 27b of the shaft bearing. The generator upper and lower pipe fixing shafts 26a, And fixed to the inner diameter 27a so as to be rotationally operated on the outer ring 27c of the shaft bearing.

And the upper and lower pipe fixing shafts 26a and 26b are fixed to the inner diameter 27a of the shaft bearing and the upper and lower pipe fixing shafts 26a and 26b are fixed to the outer diameter 27b of the shaft bearing. And the shaft bearing 27 is configured to be rotationally operated by the shaft bearing outer wheel 27c.

An electric input port 38 is provided on the outer right side of the upper portion of the housing and connected to the generator stator coil by a power line 29 on the upper surface of the generator stator 22a and extending to the outer upper surface of the housing, And an output port 28.

When an electric power is input to the electric motor input port, the electric current is applied to the motor rotor coils by the electromagnetic induction phenomenon of the current flowing in the coils of the motor stator so that a current is generated in the rotor coils, Wherein a rotor of the rotor rotates together with mechanical energy to form a magnetic field by a stator (iron core) surrounding the outside of the generator stator in the generator rotor (electromagnet) Which is applied to the generator rotor coils so that the magnetic energy of the generator is converted into electrical energy according to the "angular momentum" principle application device of the electric energy.

The diameter or angular momentum of the motor, which is twice or more the diameter of the motor from the generator stator central axis 25 in the housing, is the distance from the rotational axis to the momentum (amount multiplied by the mass and the rotational speed) of each part of the rotating body of the cylindrical rotating body 35 The part that is multiplied is called angular momentum. Principle Application It is the constitution which creates energy according to diameter in the maximization device of power machine.

The application of the angular momentum principle of the present invention constructed as described above will be described as follows.

[0001] The present invention relates to a power generating device for maximizing the use of a motor, in which a generator and an electric motor are accommodated in the housing, and a generator rotor and a motor rotor cooperate with mechanical energy of one cylindrical rotor (35) And the stator is installed between the stator so that the electric energy is produced by the respective roles. And document the creation of creative energy.

1, Example; The invention is based on our life around tools, tools, and crane leverage laws. If the steering wheel is small, it can not change direction. There are many kinds of creative energies such as typhoon, hurricane, tornado and black hole.

축)잡아주며 벽에 버티는 힘 미처 생각 못한 힘 존재 등 본 발명은 지렛대 원리 보다 한 차원 높은 에너지창출분야 원천발명 기술이다.2, Embodiment: In the presence of the famous Archimedes principle of the present invention, the present invention is characterized in that, without a pedestal, the generator fixed center axis and the inner wall surface of the housing are provided with an inner moving center axis

Axis) and holding it on the wall. The power of unthinking power. The present invention is the technology of origin invention which is one dimension higher than energy of lever.

3 Examples; Difference Between Centrifugal Force and Centrifugal Force Centrifugal force is fake force and centripetal force is real force. The relationship between the two has nothing to do with reaction reaction and can be in equilibrium. When I say 'centrifugal force', 'circle' means not 'circle' but 'far'. The phrase 'centripetal force' is not 'ball' but 'will be saved'. Centrifugal (centrifugal) is the force to move away from the center. Conversely, 心心 (心 心) refers to the power to the center. The moon is circling around the earth. Of course, 'centrifugal force' to run out of action. What is the centripetal force that counteracts this centrifugal force? It is the gravitational pull of the earth pulling the moon. It is the same effect as connecting an invisible string. For reference, action-reaction is between two objects. This is not an action-reaction. The centrifugal force is the inertial force observed in the coordinate system of the constant velocity motion, that is, the apparent force. Contemporary one-sided machine without center Outer motion (axis → circumferential motion) When the diameter is increased by 2 times, the resistance increases by 4 times and it is a destructive action.

4, Example; Comparison table of linear motion and angular momentum

The linear momentum is the difference between the line momentum and the angular momentum, and the angular momentum is compared and added, and the linear momentum and angular momentum are different and can not be mixed, meaning: Line momentum is the integral of the force with respect to time. Similarly, the angular momentum is the integral of the torque over time -

5, Examples: The angular momentum principle of the present invention Among the numerous proofs, only a few are shown below.

① angular momentum Wikipedia, the encyclopedia. Angular momentum is a very important concept not only in physics but also in various engineering fields. The reason why the angular momentum is so important is that the amount of angular momentum is preserved if the rotational force is not applied. According to the neuron's theorem, the conservation of the angular momentum is due to the rotational symmetry of space. This conservation of angular momentum is useful not only for engineering but also for describing various natural phenomena.

② Education, Science > Physics, Mechanical Engineering Angular momentum conservation law Angular momentum: The energy of a rotating object. It is a vector quantity that expresses the momentum of the object and the distance between the object and the axis of rotation. And can be defined as the rotation moment about the rotation center of the mass momentum.

③ Example: black hole and: time refraction [science / engineering nuciear burning] Fusion reaction that floats a star and powers a hydrogen bomb fusion merges two small atomic nuclei to make a large nucleus Keep the sun hot And the explosive power of the hydrogen bomb is due to the fusion of hydrogen, deuterium, and hydrogen in order to make the nucleus of helm. Nucleon neutron or proton rotation See "Angular momentum" Rotational energy,

In the electric power generating apparatus according to the embodiment of the present invention, the generator and the motor are accommodated in one housing 10, and the generator rotor and the motor rotor are coaxially operated by the mechanical energy of one cylindrical rotor 35 The generator stator and the motor stator are installed between the stator and the generator stator, respectively.

The generator rotor and the rotor of the electric motor rotate together with the generator stator and the motor stator in the one housing to produce the cooperative working electrical energy by the mechanical energy.

In the operation of the present invention, the outer end of the cylindrical rotating body is connected to the outer cylindrical body of the cylindrical rotor, the inner end of the cylindrical rotating body is connected to the outer outer diameter 27b of the shaft bearing, and the generator upper and lower fixed shafts 26a, So that the generator shaft bearing 27 is rotatably driven by the shaft bearing outer wheel 27c.

A power received in the magnetic field by a conductor flowing in the coil from the motor stator 22a when the power is input to the electric input port; a cylindrical rotor device having one of the generator rotor and the motor rotor; Electrical energy is produced while forming a magnetic field by a stator (iron core) that surrounds the outside of the rotor (electromagnet).

The amount of angular momentum is the product of the momentum (the mass multiplied by the rotational speed) of each part of the rotating body in which the cylindrical rotating body rotates and the distance multiplied by the distance from the rotational axis. Principle Applied power Maximizing the power of the machine.

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.

10: Housing 11: Boundary line (non-combustible material)
20: generator 21: generator body
21a: generator stator core
22a: generator stator 22b: generator rotor
23a: generator stator inner cylinder 23b: generator stator outer cylinder
24a: Generator rotor inner tube 24b: Generator rotor outer tube
25: generator electromagnetic shaft 26a: generator upper pipe fixed shaft
26b: Generator lower pipe fixing shaft 27: Generator shaft bearing
27a: inner diameter of generator shaft bearing 27b: outer diameter of generator shaft bearing
27c: Axial bearing outer ring 28 Electrical output port
29: Power line
30: electric motor 31: electric motor body
31a: electric motor stator iron core 32a: electric motor stator
32b: motor rotor 33a: motor stator inner cylinder
33b: Motor stator outer cylinder 34a: Motor rotor inner cylinder
34b: Motor rotor outer cylinder 35: Cylindrical rotating body
35a: Cylindrical rotating body inner sleeve 35b: Cylindrical rotating body outer sleeve
38: Electric power input port

Claims (5)

The present invention relates to a generator upper and lower pipe fixing shafts 26a (26a) and 26a (26a) which are protruded from upper and lower end surfaces of a generator, in which a generator 20 and an electric motor 30 of a single housing 10 are housed and installed at the center of the housing with a generator electromagnetic fixing shaft 25 , 26b.
A generator stator inner barrel 23a and an outer barrel 23b in which a stator (iron core) is provided on the outer side of a generator fixed magnet (electromagnet) coil surrounding the generator stator inner barrel 23a around the circumference of the generator electromagnetic shaft 25, .
A generator rotor inner barrel 24a and an outer barrel 24b around which a generator rotor (electromagnet) coil wound around the generator stator outer barrel 23b with a predetermined distance therebetween is wound. The outer barrel 24b is made of non- (Electromagnet) coil wound around the inner rotor shaft 34a of the electric motor and coupled to the outer periphery of the generator rotor 34 by a boundary line 11, and an outer cylinder 34b, The rotor and the motor rotor are combined by a single cylindrical rotating body (35).
An electric motor stator inner cylinder 23a and an outer cylinder 23b which are installed with an electric motor stator (iron core 31a) surrounding the outer circumferential surface of the cylindrical rotating body with a predetermined interval therebetween and in which an electric motor fixed magnet (electromagnet) The motor stator is fixed to the inner wall surface of the housing.
And the upper and lower pipe fixing shafts 26a and 26b are fixed to the inner diameter 27a of the shaft bearing and the upper and lower pipe fixing shafts 26a and 26b are fixed to the outer diameter 27b of the shaft bearing. And the shaft bearing 27 is configured to be rotationally operated by the shaft bearing outer wheel 27c.
An electric power input port 38 is provided on the outer right side of the housing and a power line 29 is connected to the upper portion of the generator stator 22a to extend to the outer upper surface of the housing, do.
When an electric power is input to the electric motor input port, the electric current is applied to the motor rotor coils by the electromagnetic induction phenomenon of the current flowing in the coils of the motor stator to generate a current in the rotor coils. Wherein a rotor of the rotor rotates together with mechanical energy to form a magnetic field by a stator (iron core) surrounding the outside of the generator stator in the generator rotor (electromagnet) Is applied to the generator rotor coils so that the magnetic energy of the generator is characterized by electric energy conversion according to the application of electric energy "angular momentum" principle application device. The method according to claim 1,
Wherein the generator rotor and the one rotor of the rotor are operated by mechanical energy between the generator stator and the motor stator in the one housing to generate electric energy. 3. The method according to claim 1 or 2,
For smooth operation of the present invention, the outer end of the cylindrical rotating body is coupled to the outer cylindrical body of the cylindrical rotor, the inner end of the cylindrical rotor is coupled to the outer diameter 27b of the shaft bearing and the generator upper and lower fixed shafts 26a, 27a so that the generator shaft bearing 27 is rotatably driven by the shaft bearing outer ring 27c, The method according to any one of claims 1 and 3,
When the power is input to the electric motor input port 38, the electric power is applied to the coil in the electric motor stator 22a. The electric power received by the electric motor in the magnetic field acts on the electric motor rotor and the motor rotor as one cylindrical rotor mechanical energy. The generator is a power generator that maximizes the electric motor, which is characterized by the production of electric energy while forming a magnetic field by a stator (iron core) surrounding the rotor (electromagnet). The method according to claim 1 or 4,
The amount of angular momentum is the product of the momentum (the mass multiplied by the rotational speed) of each part of the rotating body in which the cylindrical rotating body rotates and the distance multiplied by the distance from the rotational axis. Principle Application maximization of motors, which is characterized by energy generation structure based on maximized devices, etc. Applied power generation devices,

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