KR20180089840A - Two rotors using generators - Google Patents

Abstract

In a generator using two rotors of the present invention, a fixed shaft is supported by shaft supports a and b, and a first rotor is formed of a conductor or a magnetic material. The first rotor is connected to the outer circumferential surface of the fixed shaft by a first rotor of link bushing so as to be rotatable therein. A stator is located outside the first rotor, and a core is formed of a complex soft material or a non-magnetic material to form a coil winding. Both side plates of the stator are coupled to fix a stator side plate a and a stator side plate b to the outer circumferential surface of the fixed shaft by using a coupling mechanism or precision machining. A second rotor is located outside the stator and is formed of a magnetic material or a conductor. Both sides of the second rotor install a second rotor side plate a on the outer circumferential surface of a sleeve a surrounding the fixed shaft to be slipperily rotated, by using a second rotor a of link bushing a and the sleeve a and both sides of the second rotor install a second rotor side plate b on the outer circumferential surface of the sleeve a surrounding the fixed shaft to be slipperily rotated, by using a second rotor of link bushing b and the sleeve b. When the second rotor rotates due to an external force even during the stationary state of the fixed shaft and the stator, the first rotor located therein cannot directly adhere to the second rotor due to the force to be attached to the second rotor by the influence of a magnetic field, but the first rotor and the second rotor simultaneously rotate at the same speed while pulling each other at the same time and at the same rotational angle in the same direction. According to the present invention, it is possible to obtain a desired electromotive force.

Description

Two rotors using generators < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a generator using two rotors, and more particularly, to a conventional generator in which a core of a stator is formed into a field iron core having a strong magnetic body and then a coil is wound to attach the rotor In the present invention, a fixed shaft is provided to prevent rotation of the stator with respect to the stator,

The stator is wound with a winding coil wound around a core made of complex soft material or non-conductor, and is attracted by a force that the first rotor is about to adhere to when the second rotor is rotated by an external external force through the stator, A magnetic field is induced in a stator wound on a core formed of a complex soft material or a non-conductor while rotating, thereby generating an electromotive force.

In this case, although the two rotors can not be directly attached, they are attracted to each other and at the same time have a phase of the same rotation angle and are rotated at a constant speed together. Since the rotational resistance is lost and a natural rotation force is obtained, .

The present invention relates to a generator using two rotors, and more particularly, to a generator using two rotors, in which a first rotor, which is a conductor or a magnetic body, and a second rotor, which is formed of a magnetic material or a conductor, And a generator capable of generating electromotive force by reducing the rotation resistance movement of the rotor by increasing the power generation efficiency.

In order to increase the electromotive force by increasing the relative speed between the magnetic field and the conductor, it is necessary to increase the rotational speed of the rotor. In this case, when the low-speed rotational force such as electric car, I could not get it.

A generator capable of obtaining a desired electromotive force using a complex soft material or a non-conductor and a stator using two rotors has been developed, and a generator of the example 10-1454805 is shown in FIG.

5 has a structure in which an electromotive force is obtained at a low rotational speed by rotating the rotor 120 having a magnet and the internal casing 150 as a magnetic body in the same direction. Advantages include a rotor 120 having a magnet, A magnetic field is induced in a coil wound around a core made of a composite soft material or non-conductor in a rotating body of the inner casing 150, and the rotor 120 and the inner casing 150) maintains the pulling force to stick to each other but reduces the rotation resistance by rotating the three rotors at the same time, suppresses the cogging torque phenomenon and the eddy current, increases the power generation efficiency by greatly suppressing the heat generation suppression effect and the rotation resistance There is an effect that can be.

However, the conventional generator described above can reduce the rotational resistance by fixing the rotor and the inner casing (second rotor role) to the rotating shaft. However, since the rotating shaft rotates, there is a problem in coupling with the frames of the electric motorcycle and the electric car have.

In the present invention, in contrast to the above-described conventional generator, the fixed shaft and the stator are not rotated, and the first rotor is slipably engaged with the fixed shaft by using the engaging bush, And the second rotor is slip on the outer peripheral surface of the sleeve a using the sleeve a and the second rotor coupling bushing a, one side of which surrounds the fixed shaft, The first rotary member is slidably coupled to the outer circumferential surface of the sleeve b using the sleeve b surrounding the fixed shaft and the second rotary coupling bushing b so that the second rotary member is installed to be rotated by an external force, And the second and third electromagnetic coupling bushes b and b or the sleeve a or the sleeve b to form a wire through hole in the fixed shaft direction and to securely lead the wire to the outside, The first rotor rotating in a state in which the second rotor rotates in a state of being attracted to each other can not be directly attached to the rotor but pulls each other by the magnetic force and at the same time forms the same rotation angle in the same direction, While reducing cogging torque phenomenon and suppressing eddy current and heat generation.

SUMMARY OF THE INVENTION The present invention has been devised in order to solve the problems of the conventional art described above. An object of the present invention is to provide a generator which uses two rotors and simultaneously rotates only a first rotor, which is a conductor or a magnetic body, and a second rotor, which is formed of a magnetic material or a conductor, with the stator therebetween, The first rotor and the second rotor are attracted to and pulled from each other due to the magnetic field to the stator in which the coils are wound around the core composed of the complex soft material or the non-conductor between the second rotors, 2 rotors can not directly adhere to each other, but the first rotor rotates in the same direction at the same rotational angle at the same rotational angle under the influence of the second rotor, thereby reducing the rotational resistance and reducing the cogging torque, So that a desired electromotive force can be obtained.

In order to achieve the object of the present invention, the present invention provides a rotor comprising a first rotor coupled to a fixed axis outer circumferential surface to be slip, a first rotor formed of a composite soft material or a non-conductor core, And the second rotor side plate a is fixed to the outer circumferential surface of the sleeve a by using the sleeve a and the second rotor coupling bushing a, one side of which surrounds the fixed shaft, so as to be fixed to the outer circumferential surface of the fixed shaft, And the other side slipably engages the second rotor side plate b with the outer circumferential surface of the sleeve b by using the sleeve b and the second rotor coupling bushing b that surround the fixed shaft. The present invention also provides an electric power generating device for an electric vehicle and an industrial electric power generating device.

The generator using two rotors of the present invention may be provided with a first rotor, a stator, and a second rotor on the outer circumferential surface of the fixed shaft.

Both ends of the fixed shaft can be fixed by the shaft supports a, b.

Both ends of the fixed shaft can be wrapped using the sleeves a and b.

Further, the sleeve a or the sleeve b can form the wire through-hole in a direction parallel to the fixed shaft.

The first rotor is disposed on the outer circumferential surface of the fixed shaft and is formed of a conductor or a magnetic body, is coupled to the outer circumferential surface of the fixed shaft using a first rotor coupling bushing, and is free to rotate from a fixed shaft fixed thereto.

In addition, the first rotor can be prevented from moving left and right at a position where the first rotor is slip-coupled with the fixed shaft.

Further, the stator is positioned between the first rotor and the second rotor, and the core for winding the coil can be formed into a composite soft material or non-conductor.

Further, in order to fix the stator, the center of the stator side plate a and the stator side plate b can be fixedly coupled to the outer circumferential surface of the fixed shaft by using a coupling device or precision machining.

Further, the second rotor is formed of a magnetic material or a conductor and is formed on the outer side of the stator, and the second rotor side plate a is slip on the outer circumferential surface of the sleeve a by using the sleeve a and the second rotor coupling bushing a, The other side slipably couples the second rotor side plate b to the outer circumferential surface of the sleeve b by using the sleeve b surrounding the fixed shaft and the second rotor coupling bushing b and is allowed to rotate freely from the fixed shaft .

Further, it is possible to form the wire through-hole in the fixed-shaft direction to the second rotor coupling bushing a or the second rotor coupling bushing b and to secure the wire to the outside safely.

When either one of the first rotor and the second rotor is molded into a magnetic body, the other may be molded into a conductor or molded into a magnetic body to both the first rotor and the second rotor.

According to the generator using the two rotors of the present invention, when the second rotor is rotated by an external external force, a force that tries to stick to each other due to a magnetic field between two rotors and the stator, the first rotor is attracted by the first rotor and the two rotors simultaneously make the same rotation angle in the same direction to perform the constant-speed rotation, thereby reducing the rotation resistance and eliminating the cogging torque phenomenon and the eddy current between the two rotors and the stator, The speed can be increased and the desired electromotive force can be obtained.

The manufacturing process is advantageous in that it is directly coupled to the frame of the electric motorcycle or the electric car through the stop of the fixed shaft.

In addition, since the present invention has a core composed of a composite soft material or a non-conductor, dissipation of eddy currents can be eliminated and heat generation can be eliminated to improve the durability of the winding coils. By eliminating the cogging torque and reducing the rotational resistance, There is an advantage of saving power energy because it is not necessary.

1 is a cross-sectional view of a generator using two rotors in accordance with a preferred embodiment of the present invention;
Fig. 2 is a longitudinal sectional view taken along line AA in Fig.
3 is a longitudinal sectional view taken along line BB in Fig.
Fig. 4 is a longitudinal sectional view taken along the line CC in Fig.
Figure 5 is a cross-sectional view of a prior art generator

Hereinafter, a generator using two rotors according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 to 4, a generator 100 using two rotors according to a preferred embodiment of the present invention includes a fixed shaft 110, shaft supports a, b (111, 112), a first rotor 120, a stator 130, and a second rotor 150.

The fixed shaft 110 is slip or fixedly coupled to the first rotor, the stator, and the second rotor, and both ends of the fixed shaft 110 are fixed by the shaft supports a, b (111, 112).

The first rotor 120 has a hollow cylindrical shape and is formed of a conductor or a magnetic body 127. The first rotor 120 is located outside of the fixed shaft 110 and has a first rotor coupling bushing 122, So as to be able to rotate freely from the fixed shaft 110. [0054]

The first rotor 120 is moved to the left and right sides by using the circlip 154 at both ends of the first rotor coupling bushing 122 coupled to the outer circumferential surface of the fixed shaft 110 in a slip manner .

The stator 130 is disposed between the first rotor 120 and the second rotor 150 and forms a core for winding the coil into a composite soft material or a non-conductor.

Both side ends of the stator side plates a 131 and the stator side plates b 132 are fixedly coupled to the outer circumferential surface of the fixed shaft 110 by using a coupling mechanism 135 or precision machining to support the stator 130 .

The stator 130 is kept stationary with the fixed shaft 110 at all times.

The second rotor 150 has a hollow cylindrical shape and is formed of a magnetic material or a conductor 157. The sleeve 150 is disposed on the outer side of the stator 130 and has a sleeve 135 surrounding one side of the fixed shaft. A second baffle a 155 is used to slip the second rotor side plate a 151 to the outer circumferential surface of the sleeve a 135 while the other side is coupled to the sleeve b 136, The second rotor side plate b 152 is slip on the outer circumferential surface of the sleeve b 136 by using the bushing b 156 and coupled to be freely rotatable from the fixed shaft 110.

The wire through hole 141 is provided to the second electromagnetic coupling bushing a 155 or the second rotor coupling bushing b 156 or the sleeve a 135 or the sleeve b 136 in a direction parallel to the fixed shaft 110. [ .

Hereinafter, the operation of the generator 100 using the two rotors of the present invention having the above-described configuration will be described.

The first rotor 120 slipably coupled to the fixed shaft 110 also has the same rotational angle in the same direction at the same time And it is rotated at a constant speed. That is, since the first rotor 120 and the second rotor 150 are coupled to the fixed shaft 110 so as to be slip, the first rotor 120 and the second rotor 150 are attracted to a force due to the magnetic force, The rotor rotates at the same speed in the same direction at the same rotation angle.

The electromotive force formed by the winding coils 133 provided on the stator 130 is the same as the electromotive force generated by the second rotor second rotor coupling bushing a 155 or the second rotor coupling bush b 156 or the sleeve a 135, b 136 via the wire through-hole 141 formed in a direction parallel to the fixed shaft 110. [

While the present invention has been described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the invention is not limited thereto. .

100: generator using two rotors
110: fixed shaft 111: shaft support a 112: shaft support b
120: 1st electron
122: 1st Rotor of Link Bushing
127: conductor or magnetic body
130: stator
131: stator side plate a 132: stator side plate b
133: Winding coil
135: Sleeve a: 136: Sleeve b:
141: wiring through hole 142: wiring
150: 2nd electron
151: second electronic side plate a 152: second electronic side plate b
153: coupling mechanism 154: circlip
155: 2nd Rotor of Link Bushing (a)
156: 2nd Rotor of Link Bushing b:
157: magnetic material or conductor

Claims (3)

A fixed shaft fixed by a frame;
Shaft supports a and b for fixing the fixed shaft to the frame;
Sleeves (a) and (b) sleeved around both ends of the fixed shaft;
The first rotor coupling bushing is slipably engaged with the outer circumferential surface of the fixed shaft using a first rotor coupling bushing to be freely rotatable inside the first rotor coupling bushing A first rotor which is not moved to the left and right by using a circlip at both ends coupled with the first rotor;
The stator side plate (a) and the stator side plate (b) for supporting the stator are fixed to the fixed shaft outer peripheral surface A stator for generating an electromotive force by inducing a magnetic field;
The first rotor side plate a is slip with the outer circumferential surface of the sleeve a surrounding the fixed shaft by using the second rotor coupling bushing a and the sleeve a. And the other side is slipably engaged with the outer circumferential surface of the sleeve b surrounding the fixed shaft by using the second rotor coupling bushing b and the sleeve b to freely rotate by an external external force A second rotor; And
And a wire which is securely led out to the outside via a wire through hole formed in a direction parallel to the fixed shaft to the second rotor coupling bushing a, the second rotor coupling bushing b, the sleeve a or the sleeve b Wherein the two rotors are connected in series. The method according to claim 1,
When the second rotor is rotated by an external external force, the first rotor is not directly attracted by the attraction force of the second rotor due to the influence of the magnetic force of the first rotor but is attracted to each other at the same time And the first rotor and the second rotor rotate together at the same speed while having the same phase of rotation as the first rotor and the second rotor. The method according to claim 1,
Wherein either one of the first rotor and the second rotor is molded into a magnetic body and the other is molded into a conductor or both of the first rotor and the second rotor are formed into a magnetic body A generator using two rotors.

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