KR20190130472A - Motor maximization application generating set - Google Patents

Abstract

The present invention relates to a motor maximizing application generator, which comprises: a first housing (60a) for accommodating a generator (10): a second housing (60b) for accommodating an upper motor part (20) and an upper fan part (50); and a third housing (60c) for accommodating a lower motor part (20a) and a lower fan part (50a).

Description

Motor Maximization Applied Power Generation Device {MOTOR MAXIMIZATION APPLICATION GENERATING SET}

The present invention relates to a motor maximizing application power generation apparatus, and more specifically, a plurality of electric motors in the second and third, the circumference of the housing circumferentially arranged horizontally in the upper and lower portions of the vertical axis of the generator extending vertically in the first housing Elongated motor rotating shaft: the momentary moment of inertia in rotational motion according to the maximizing distance of the distance between the motor central axis and the motor stator when a single rotor is power input to the plurality of electric motors, respectively. Even if the mass is the same, the value varies according to the distribution. The total mechanical energy of is related to the generation of pure surplus energy after offsetting the electric energy used by the motor in the generator stator.

There is a problem in the movement of the force moving away from the central axis without exception in the conventional mechanical field, such as small energy generation due to the action of increasing the resistance four times when the diameter is increased twice.

[Document 1] KR Publication No. 10-1112479 (2012.01.30. [Patent 2] KR Publication No. 10-1320601 (2013.10.15.)

The present invention has been made in order to solve the problems of the prior art, a plurality of motors in a predetermined interval horizontally arranged in the upper and lower, the second and third, the housing circumference of the upper and lower center rotation axis vertically extended in the first housing A motor shaft that is elongated by the motor: an moment of inertia in rotational motion according to the maximizing device of the distance between the motor center shaft and the motor stator when a single rotor is input to each of the plurality of motors Although the mass is the same, the value varies according to the distribution. When the power is input to the total input input of the magnetic field, the magnetic force acting on the magnetic pole of the motor rotor is caused by the magnetic field generated by the current flowing through the coil of the motor stator. Acting in the rotor tangential direction, the motor rotor and generator rotor become one cylindrical rotor Rotating integrally That is, even if they have the same moment of inertia of the object on the rotating mass to different values in accordance with the distribution, and that the mechanical energy characterized by the energy-generating according to the angular momentum conversion into electrical energy in the generator stator.

Also includes vertically extending generator stators, rotors and central axes: horizontally extending motors, lower stators and rotors, central axes and 'fans', including bottoms: maximizing device The angular momentum is the product of the momentum (multiplied by mass) and the distance from the axis of rotation of each part of the rotating body at the total mechanical energy. Energy generation in accordance with is preferred.

In addition, when the upper and lower air in the fan, the lower air inlet, the lower inlet configuration, and the motor and the lower rotor in the configuration of the second and third housings, the air circulation cooler desirable.

In addition, the central axis of the upper and lower parts of the motor extending horizontally in the second and third housings; The 'fan' upper and lower portions: each of the motor upper and lower rotors, each centrifugal force of the vertically extending generator rotor in the first housing: the motor fixing, and each centripetal force function of the generator stator; Interactive large equipment is also desirable for safe operation.

As described above, a plurality of motors on the second and third, the housing circumference of the upper and lower center of the vertical axis of the generator extending in the first housing, the housing circumferentially arranged in a predetermined interval arranged horizontally and the motor rotation axis: Each combination when one rotor is power input to the plurality of motors respectively, when the generator rotor according to the maximizing distance of the distance between the motor central axis and the motor stator is simultaneously operated as one axis, the rotors are integrally The angular momentum is the product of the momentum (multiplied by mass) and the distance from the axis of rotation of the angular part of the rotating body at one-way total mechanical energy. That is, even if the mass of the moment of inertia in the rotational motion is the same, the value varies according to its distribution. The total mechanical energy of the generator is converted into electrical energy in the generator stator. Take advantage of installation advantages.

Figure 1 is a front sectional view showing the whole of the present invention motor maximization application power generation apparatus
Figure 2 is a front sectional view showing a part of a fixed state of the motor stator and generator stator of FIG.
Figure 3 is a front cross-sectional view showing a part of the generator of Figure 1 split;
Figure 4 is a front cross-sectional view showing a part of the 'fan' rotor of the motor rotor generator rotor of Figure 1
FIG. 5 is a cross-sectional plan view showing the motor fixing station of FIG. 1 and the rotor cut along a plane; FIG.
Figure 6 is a cross-sectional view showing the generator fixed in Figure 1, the state cut along the rotor plane,
Figure 7 is a cross-sectional view showing a cut in the plane of the inner frame of the second, third housing outer frame of Figure 1

Hereinafter, the present invention described in detail with reference to the accompanying drawings, a specific embodiment of the present invention is the same as the structure and general principle of the motor and the generator.

1 is a front cross-sectional view showing the entire invention of the electric motor maximization power generation device;

Figure 2 is a front sectional view showing a part of the motor stator and generator stator state of Figure 1

Generator 10, generator body 11, generator stator 12, generator rotor 13, generator central axis 14, generator phase, lower rotary shaft 15, 15a, generator upper, lower shaft according to the present invention Bearings 30 and 31a Motor upper and lower parts 20 and 20a Motor upper and lower bodies 21 and 21a Motor upper and lower stators 22 and 22a Motor upper and lower rotors 25 and 25a , Upper motor, lower center shaft 28, 28a, upper motor, lower rotary shaft 29, 29a, upper motor, lower shaft bearing 30, 30a upper motor, lower electric outlet (40.40a), electrical outlet (41), fan phase, lower cooling phase, lower devices (51, 51a)), first housing (60a). It is provided including 2nd phase, lower housing 60b, 3rd phase, lower housing 60C, etc.

Inside the first housing 60a, the stator 12, the rotor 13, and the central axis 14 of the generator 10 extend in the vertical direction as a whole. The upper motor 20 and the upper motor 20, 20a provided with a cooling upper device (51, 51a) to the fan upper portion 50, the inner side of the second housing (60b) of the generator is long in the horizontal direction as a whole It has an extended form. Inside the generator lower third housing 60C, the motor lower portion 20a and the lower motor portion 20a provided with cooling lower devices 51 and 51a serving as the fan lower portion 50a extend in the horizontal direction as a whole. Has The upper and lower molds 18 and 18a of the inner and lower molds 18 and 18a of the second and third housings 60b and 60c include generator upper and lower shaft bearings 16 and 16a, and the upper and lower molds 17 and 17a. The upper and lower portions of the upper and lower shaft bearings (30, 30a) DL is provided. The first housing 60a is located between the second and third housings 60b and 60c, the second housing 60b is disposed above the first housing 60a, and the third housing is located below the first housing 69a. 60c is located and installed. Upper and lower side surfaces of the second and third housings 60b and 60c are provided with electrical input holes 40 and 40a to allow electricity to be introduced from the outside, and to output electricity to the side of the first housing 60a. An electrical output port 41 is provided. On the outer side of the second and third housings, the 'fan' phase to the open space of the lower mold (17, 17a), the lower air inlets (53, 53a), and the upper and lower end of the second, third housing In addition, the lower side is provided with air circulation cooling bed lower devices 51, 51a and the like through the plurality of through-holes to allow air to flow out from the outside to the air outlet and the lower outlet ports 54 and 54a.

A generator stator 12 in the first housing 60a. The rotor 13 and the generator central shaft 14 extend through the generator stator inner cylinder, and include a generator body 11 extending in the vertical direction including a coupling with each other, and a generator upper and lower rotary shafts protruding from the upper and lower surfaces of the body. 15 and 15a are configured to be supported and operated by an installation including an upper and lower shaft bearings 16 and 16a in the center of the inner upper and lower molds 18.18a, and the generator stator of the first housing It is fixed to the inner wall.

Generator stator inner cylinder (12a) from the generator stator inner cylinder (12a) surrounding the generator stator outer cylinder (12b) coil stator (12) and the outer cylinder (12b) of the generator stator 12 is installed The inner cylinder 13a and outer cylinder 13b of the generator rotor 13 in which the generator coil magnet (electromagnet) which surrounds the outer space of 12a at regular intervals are provided is comprised.

The generator 10 has a cylindrical shape consisting of two cylinders, an inner cylinder 12a of the generator stator 12, an outer cylinder 12b, an inner cylinder 13a of the generator rotor 13, and an outer cylinder 13b. . Generator stator outer cylinder (12b) is fixed to the inner wall surface of the first housing (60a) is installed, it is a concept to produce electricity while forming a magnetic field by the rotor (electromagnet) and the stator (iron core) surrounding the outside of the generator. .

The generator upper and lower rotary shafts 15 and 15a protruding from the generator upper and lower center shafts 14 are installed including the generator upper and lower shaft bearings 16 and 16a in the center of the upper upper and lower molds 18.18a. And supported by and configured to operate.

In the second and third housings (60, 60a), on the motor, on the lower stators (22, 22a). The upper and lower rotors 25 and 25a, and the central and upper and lower portions 28 and 28a, respectively, penetrate the inner stator of the motor stator and extend in a horizontal direction to include each other. 21, 21a), and the upper and lower rotary shafts protruding from the upper and lower surfaces of the body, the upper and lower shafts (30, 30a) in the center of the upper mold, lower mold (18.18a) It is configured to be supported and operated by the provisions, including

Upper and lower motors in which the motor coil magnets (electromagnets) surrounding the upper, lower, and outer outer cylinders 27 and 27a of the upper and lower rotor inner cylinders 26 and 26a are installed. It consists of the inner cylinder (26, 26a) and the outer cylinder (27, 27a) of the rotor (25, 25a), and the upper and lower fixed magnet (electromagnet) coils on the outside of the motor rotor outer cylinder with a certain interval The upper and lower stator inner cylinder (26, 26a) and the outer cylinder (27, 27a) is configured to be wound and installed.

The upper upper portion of the motor 2020a is cylindrical and the upper and lower stator inner cylinders 23 and 23a, the outer cylinders 24 and 24a, the upper and lower rotor inner cylinders 26.26a and the outer cylinders 27 and 27a of the motor. Having two cylindrical ones. The upper and lower parts of the motor stator are fixed to the inner wall surfaces of the second and third housings 60b and 60c, and form a magnetic field by a rotor (electromagnet) in the center of the motor and a stator (iron core) surrounding the outside. When a current flows through a conductor placed in a magnetic field, the conductor moves under force. The direction of the force received at this time can be known from Fleming's left hand law. When a rectangular coil is inserted into a magnetic field and an electric current flows, the coil is rotated by force, which is called an electric motor. On the motor, the lower rotor is configured to be operated with mechanical energy.

The vertically elongated form including the generator stator 12, the rotor 13, and the central axis 15 is located on the electric motor, on the central axis of the lower parts 20 and 20a, and on the outside of the lower parts 28 and 28a. 'Pan.' The upper and lower parts 50, 50a and the upper and lower rotors 25, 25a and the upper and lower stators 22, 22a, including the stator (22, 22a) in the form of a horizontal elongated form of the upper, lower (20, It is for generating energy by maximizing device between the maximum spaces of 20a).

In the present invention, during the operation of the second and third housings, the air inlet 53, on the upper and lower portions 50 and 50a of the 'fan', which is used as an open hole of the outer upper and lower molds 17 and 17a to dissipate heating. 53a) is provided, and the upper, lower and upper side surfaces of the second and third housings pass through a plurality of through-holes to allow air to flow out from the outside to form an air and lower outlet port 54, 54a. And upper and lower devices 51 and 51a.

The generator is configured to be integrally operated by one rotating body 15 and 15a, and the upper and lower rotating shafts 29 and 29a of the motor, respectively.

Electrical input holes 40 and 40a are provided on the outer upper and lower surfaces of the second and third housings, and an electrical output hole 41 is provided on an outer side of the first housing 60a.

When electric power is input to the electric input port, the magnetic force acting on the magnetic poles of the motor rotors 25 and 25a by the rotating magnetic field generated by the current flowing through the coils of the upper stator 22 and 22a on the motor is generated. , The mechanical energy in which the lower rotors 25 and 25a and the generator rotor 13 rotate integrally as one cylindrical rotor by acting in the tangential direction of the lower rotor and the electric rotor in the generator stator 12 are integrally rotated. Angular momentum principle Inertia moment in rotational motion Even if the mass of an object is the same, the value varies depending on its distribution. It is configured to generate energy

Referring to the operation of the present invention configured as described above are as follows.

The motor stator outer cylinders 24 and 24a have a diameter that is more than twice the diameter of the generator rotor outer cylinders 27 and 27a as a whole, and the momentum (multiplied by mass) of each part of the rotating body of the object rotating at the total mechanical energy. Multiplying the distance from the axis of rotation is called the angular momentum. That is, even if the mass of the moment of inertia in the rotational motion is the same, the value varies according to its distribution. In generating energy from generator stator to electric energy, energy is generated by the maximizing device on the upper and lower parts of the motor. In the creation of surplus energy after energy offset, the structure is simple and low cost, and the installation advantage is effective.

The electrical energy conversion in the generator 10 is a generator (electromagnet) wrapped around the outside in the generator fixed central axis 14 is formed as a magnetic field by the stator (iron core) is produced electricity. In the case of the generator is a structure that takes out the current of the stator, the current of the rotor should not be reduced together, so is made of a structure applied from the outside. The principle and structure of the electric motor and the generator are the same, but the input and the output are different.

In the present invention, the electric motor energy is converted into the mechanical (kinetic) energy of the motor rotor and the generator rotor by a single rotor, and the angular momentum in the power generation device maximizes the conversion process from the generator stator to the electrical energy. When the electric power is input to the upper and lower electric input holes 40 and 40a of the motor, the electromagnetic coils are applied to the rotor coils by electromagnetic induction of current flowing from the upper and lower stators 22 and 22a to the coils. Current is converted into magnetic energy generated between the rotor rotor inner cylinder 13a and the outer cylinder 13b which rotate by the mechanical energy transmitted from the motor rotor inner cylinder 26, 26a and the outer cylinder 27, 27a. Applying an external current to the generator rotor 13 in the generator stator outer cylinder 12b from the energy is transferred from the generator central axis 14 in the structure to take out the current of the stator Angular momentum of synchronous stator outer cylinder 12b The angular momentum is the product of the momentum of the rotating rotating body portion (multiplied by mass and rotational speed) multiplied by the distance from the axis of rotation. In other words, even if the mass of the moment of inertia in the rotational motion is the same, the value varies according to its distribution.

Central axes on and below the motor extending horizontally in the second and third housings; The 'fan' upper and lower parts: the motor upper and lower rotors included, each centrifugal force of the vertically extending generator rotor in the first housing: the motor fixing, and each centripetal force of the generator stator: mutually Action At this time, the joint force of circumferential → axial movement force is the invention technology of the safe operation configuration of large-scale machines due to the force on the wall, the force on the floor, or the existence of various forces.

The above contents and the following nine specific examples:

The first embodiment: various tools and tools around our lives, turning the steering wheel of the car (if the steering wheel is small, the direction can not be changed) axial hurricane, hurricane black hole, various swirl, particle accelerator nuclear fusion energy, etc. It is useful for describing various natural phenomena as well as various fields of application.The angular momentum is the product of the momentum of each part of the rotating body (multiplied by mass and rotational speed) and the distance from the axis of rotation. This is called. In other words, it is the structure of the power machinery maximizing power generation device with the application of the principle of inertia in rotational motion.

Second Embodiment: When the rotating body rotates, the largest power of action at the end of the circumference refers to the creative energy being.

Third Embodiment: Even if the diameter increases, the speed remains unchanged, and if the diameter increases, the RPM decreases, and the existing windmill heavy three-winged blade at the speed of 360x RPM increases to 50m RPM 1800 in diameter. The remaining squares of non-maximum values have all been discarded. However, the rotational energy generation without stopping is because the RPM increase value is very small and the diameter (angular momentum) size value is large.

Fourth embodiment: 50m in diameter, 10m / s for 1 hour, 10m / s = linear motion, three-dimensional space, first law of thermodynamics, mechanical energy, modern windmill formula, etc., only the quantity of about 2000 numbers multiplied by the rotational speed. However, when the construction 4D-operated rotor rotates, the angular momentum, or moment of inertia, in the rotational movement varies according to its distribution even if the mass of the object is the same. When, 312, 5 times creative energy existence is confirmed.

Fifth Embodiment The earth could be mentioned if the famous Archimedes gave him a long enough pole and a pedestal to support the earth. In the present invention, the circumferential to axial motion (central centrifugal force such as centrifugal force and circumferential axis interaction) is the dimensional invention technology that has the force on the wall, the force on the floor or the force on the floor .

Sixth Example: Inventor of 6 Patent Registration Documents of Energy Generation Field Basic Research Achievement Principle Application (renewing existing technology path) New physically proven concept of energy source invention technology

Seventh embodiment; This is Tae-Yong Kim (Ph.D. Engineering), Green Machinery Research Institute, Korea Institute of Machinery and Materials. The most fundamental principle of the technology invented by Mr. Jaewon Park is that the concept that the output torque is proportional to the radius when the forces are the same is a physically proven concept. The various examples presented for maximizing the output and efficiency of wind power, etc., are very interesting and deserve further consideration.

Eighth Embodiment The Korea Institute of Energy Research, aerodynamically engineered, centrifugal force (force) is a technology derived from the groundbreaking point of view of the technical theoretical fit-suggested invention that can increase efficiency, and (refer to Appendix 61, Wind Research Laboratory). Hee-sang Lee, Won-pyo Won, Nam Sung-chan, Jang Moon-seok, Ph.D.

Ninth Embodiment: Since the available energy, power, power, heat, etc. are not fixed in a fixed amount, the device method that can be utilized by the stacking can be used to adjust the amount.

The generator stator 12, the rotor 13, and the central axis 14, which extend in the vertical direction, include: the motor upper and lower stators 22, 22a, the rotors 25, 25a, and the center axis which extend in the horizontal direction. 28,28a) Inclusion and: The distance between the parts of the rotating body of the rotating body and the distance from the axis of rotation of the rotating object at the total mechanical energy according to the maximizing device is called the angular momentum. In other words, the moment of inertia in the rotational motion generates energy due to the fact that even if the mass of an object is the same, the value varies according to its distribution.

Fan upper and lower air inlets 53 and 53a serving as open spaces of the outer upper and lower molds 17 and 17a of the second and third housings are provided, and a plurality of through holes are provided at the inner mold outer edges of the second and third housings. Cooling upper and lower part 51, 51a device to penetrate into the upper and lower air outlets 54 and 54a, and upper and lower air outlets 54 and 54a are provided to rotate the upper and lower rotors 25 and 25a. Cooling device is good to eliminate heating.

Central axes on and below the motor extending horizontally in the second and third housings; The 'fan' upper and lower portions: each of the motor upper and lower rotors, each centrifugal force of the vertically extending generator rotor in the first housing: the motor fixing, and each centripetal force of the generator stator; Interactive large equipment is also good for safe operation.

According to the present invention, the electric motors of the second and third upper and lower parts can be installed at one of the upper and lower parts according to the standard, and the vertical and horizontal selection devices are good if necessary.

The motor-maximizing power generating apparatus includes an electric motor rotor and stator on the 'fan' on the outside of the lower center shafts 21 and 21a on the electric motor, and includes: the generator stator, the rotor and the central shaft: The distance between the two means that the energy of the motor in the energy window according to the proportional maximizing device cancels the energy used, and then generates surplus energy according to the angular momentum.

As described above, the present invention has been described only with respect to specific examples, but it is apparent to those skilled in the art that various modifications and changes can be made within the technical spirit of the present invention based on the specific examples above. Naturally, the modifications belong to the appended claims.

10: Generator 11: Generator Body
12: generator stator 12a: generator stator inner cylinder
12b: generator stator outer cylinder 13: generator rotor
13a: generator rotor inner cylinder 13b: generator rotor outer cylinder
14: generator central axis 15,15a: generator upper and lower rotation axis
16,16a: Generator upper and lower shaft bearings 17,17a: Upper and lower molds
18, 18a: inner upper, lower mold
20: upper and lower motor 21, .21a:: upper and lower motor body
22,22a: Upper and lower stator of the motor 23, 23a: Upper and lower stator of the motor
24a, 24b: Motor upper and lower stator outer cylinder 25, 25a: Motor upper and lower rotor
26, 26a: upper and lower rotor inner cylinder of the motor, 27, .27a: upper and lower rotor outer cylinder of the motor
28, 28a: Central axis of motor upper and lower part 29, 29a: Motor upper and lower part rotation side
30,30a: Upper and lower shaft bearings of the motor
40, 40a: upper and lower electrical input port 41: electrical output port
50,50a: upper and lower fan 51, 51a: upper and lower cooling unit
53,53a: upper and lower air inlet port 54,54a: upper and lower air outlet port
60a: first housing 60b: second housing
60c: third housing

Claims (4)

Regarding the electric motor maximization application power generation device,
First housing 60a to receive generator 10:
Second housing 60b for receiving the motor top 20 and fan top 50:
A third housing 60c for accommodating the lower portion of the motor 20a and the lower portion of the fan 50a:
In the first housing (60a) and the generator stator (12). The rotor 13, the generator body 11 extending in the vertical direction including the central axis 14, and the generator phase protruding on the upper and lower surfaces of the body, the lower rotary shafts (15, 15a) is the inner upper, In the center of the lower mold (18.18a) is configured to be supported and operated by the installation, including the upper and lower shaft bearings (16, 16a) on the generator, the generator stator is fixed to the inner wall of the first housing.
The generator fixed central axis includes an inner cylinder 12a and an outer cylinder 12b of the generator stator 12, in which a generator stator magnet (electromagnet) coil wound around the generator stator inner cylinder through the generator stator inner cylinder 12 is wound around and installed. It consists of an inner cylinder 13a and an outer cylinder 13b of the generator rotor 23 in which generator coil magnets (electromagnets) are installed to surround the generator stator inner cylinder at regular intervals.
In the second and third housings 60b and 60c, on the motor and on the lower stators 22 and 22a. Projectors on the upper and lower rotors 25 and 25a, on the central axis, and on the motors extending in the horizontal direction including lower portions 28 and 28a, lower bodies 21 and 21a), and protruding from the upper and lower surfaces of the body. The upper and lower rotating shafts 29 and 29a to be formed are configured to be supported and operated by installation, including the upper and lower shaft bearings 30 and 30a at the center of the outer upper and lower molds 18.18a. The motor stator is fixedly installed on the inner walls of the second and third housings, respectively.
The motor stator (22, 22a) of the motor fixing magnet (electromagnet) coil wound around the motor and the lower stator inner cylinder (23, 23a) and coupled to the motor stator coil (24, 24a) surrounding the upper and lower stator outer cylinder (24, 24a) is installed. The upper and lower rotors, which include an inner cylinder 26 and 26a, an outer cylinder 27 and 27a, and a central axis, and are provided with a motor coil magnet (electromagnet) surrounded by a predetermined space inside the stator inner cylinder. And inner cylinders 26 and 26a and outer cylinders 27 and 27a of 25 and 25a.
An open space of the fan and the lower part 50, 50a on the outer side and the lower mold 17, 17a between the inner side of the inner rotor of the motor and the outer side of the upper and lower center shafts 28, 28a. Cooling through the upper fan and lower air inlets 53 and 53a and through air through the plurality of through holes in the upper and lower surfaces of the second and third housings. The upper and lower parts 51 and 51a are provided.
The upper and lower rotary shafts 15 and 15a of the generator and the lower rotary shafts 29 and 29a of the electric motor are configured to be integrally operated by one cylindrical rotary body, respectively.
Electrical input holes 40 and 40a are provided on the outer upper and lower surfaces of the second and third housings, and an electrical output hole 41 is provided on an outer side of the first housing 60a.
When electric power is input to the electric input port, the magnetic force generated by the electric current flowing through the coil of the motor stator acts on the magnetic pole of the motor rotor in the tangential direction of the motor rotor so that the motor rotor and the generator rotor One cylindrical rotating body that rotates integrally, that is, even if the mass of the moment of inertia in the rotational motion is the same, the value varies according to its distribution. Mechanical energy is converted into electrical energy from the generator stator. Motor maximization application generator The method of claim 1,
With generator stator 12, rotor 13, and central axis 14 extending longitudinally: On motors horizontally extending, lower stators 12, 22a, rotors 25, 25a, center Shafts 28, 28a and 'fan' top and bottom, including: the momentum of each part of the rotating body of the rotating body at the total mechanical energy of the maximal distance between the motor central axis and the motor stator. Multiplying the distance from the axis of rotation is called the angular momentum. Motor maximized application power generation device, characterized in that the energy generation according to The method of claim 1,
The upper and lower motors in the fan and upper and lower air inlets 53 and 53a of the second and third housings 53 and 53a and the air and lower outlets 54 and 54a. When the rotors 25, 25a are rotated together, the electric motor maximizes the application of the heating system characterized by cooling the air in the rotating system. The method according to claim 1 or 4
The centrifugal force function of the central motor rotating shaft and the generator central shaft extending horizontally in the second and third housings; and the plurality of electric motors: centripetal force function of the generator stator: interactive large equipment also features safe operation, maximizing electric motors. Device

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