KR20210012846A - A Automatic Rotation Device Using Shield And Magnet Equipped With Satellite Gear - Google Patents

Abstract

The present invention relates to an automatic rotation device using a magnet installed with a shield and a planetary gear. According to the present invention, a shielding device is installed on a rotator and a stator at the same time, and the stator is rotated by rotation of a sun gear. Attractive and repulsive forces removed with a reverse rotational force using the rotating stator, the revolving and rotating rotor, and a shielding function are generated. The attractive and repulsive forces can be used as rotational energy. In the shielding of a magnetic field of a magnet, a spatial range of the magnetic field is reduced with a ferromagnetic material, and the magnetic field flows into a shielding material in which the magnetic field is a ferromagnetic material, such that the spatial range is reduced. In addition, provided are a rotating device and a power generation device. According to the present invention, a plurality of stators installed with a shielding means are installed on an external gear, and the shielding means is installed in a rotating magnet revolved and rotated with an idle gear on an internal gear. A rotational force in which reverse rotation is not generated is generated by using a force of an external magnet gear form, and a rotational force of the internal gear induces the rotation of a sun gear. Therefore, the present invention is essentially required in a low-output rotating device and a small-capacity charging device.

Description

A Automatic Rotation Device Using Shield And Magnet Equipped With Satellite Gear}

The present invention relates to an automatic rotation device using a magnet and a satellite gear equipped with a shield, and more particularly, a shield device is simultaneously installed on the rotor and the stator, and the stator is rotated by rotation of the sun gear in the center; Generating attractive force and repulsive force in a state in which the reverse rotation force using the shielding function of the rotating stator and the rotating and rotating rotor is removed; By using the attraction and repulsive force, it can be used as rotational energy.

In general, a motor, which is a rotating device, is a rotating device that converts electrical energy into mechanical energy, and is divided into a DC motor driven by a DC power source and an AC motor driven by an AC power source.

Among them, the DC motor is composed of a stator made of a permanent magnet, the stator and a rotor that rotates by attraction and repulsive force, and the rotor is fixed and installed on a rotating shaft to enable rotation, and It is composed of a coil that makes the iron core have an electromagnet property by a current wound around the iron core and a commutator for supplying the coil by periodically changing the direction of the current.

In addition, the opposite structure is a DC motor, a rotor having a permanent magnet, a stator generating a rotating magnetic field with respect to the permanent magnet of the rotor, and a means for energizing the stator. As a result, a rotating magnetic field is generated by sequentially excited, and the permanent magnet disposed on the rotor repeats attraction and repulsion against the rotating magnetic field, thereby rotating the rotor.

On the other hand, shielding the magnetic field of a magnet is to reduce the spatial range of the magnetic field with a ferromagnetic material, and the magnetic field flows into the shielding material, which is a ferromagnetic material, thereby reducing the spatial range.

At this time, since the strength of the magnetic field and the volume of the ferromagnetic material act in inverse proportion, the spatial range of the magnetic field is reduced. If the volume of the shielding object is smaller than the strength of the magnetic field, the shielding efficiency [the efficiency in which the magnetic force is exposed to the surrounding space] is lowered.

In addition, in order to use the force of the magnetic gear by differentiating the rotation direction of the satellite gear using the external gear and the rotation direction of the satellite gear of the internal gear, it is possible to achieve the same rotation direction through the idle gear; The rotational force of the satellite gears can rotate the sun gear.

Most of these conventional DC motors consist of a rotor made of an armature made of a permanent magnet or an iron core, a coil, and the like, and a stator made of an armature or a permanent magnet while being formed around the rotor. It is a rotating device that rotates to obtain power, and since a permanent magnet is provided in a limited standard, the output must be limited.

The law of energy conservation is that such a motor generates output through rotational force only when electricity is input from the outside, and its efficiency does not exceed 100%.

On the other hand, when the stator and the rotor are provided with only magnets, when the repulsive forces of the same pole meet each other, they cannot be pushed out and approached, and in the case of attraction of the other poles, they cannot be separated, so that the device of only pure magnets makes it difficult to rotate. .

In addition, if the stator and the rotor block the magnetic field on the side that approaches each other based on the direction of rotation, the initial repulsive force increases rapidly in the direction of the opposite pole line at some point, making it difficult to rotate. There was a difficulty.

Therefore, it is necessary to develop a motor that uses the electricity input from the outside as energy to use the internally generated energy as an electromagnet, and to generate a rotational force by fusion with a general magnet, and a shielded stator. It is necessary to attempt a technique that can use only the necessary part of the repulsive force and attraction as a rotor and the necessary magnetic force for rotation.

On the other hand, when the stator and the rotor are provided with only magnets, when the repulsive forces of the same pole meet each other, they cannot be pushed out and approached, and in the case of attraction of the other poles, they cannot be separated, so that the device of only pure magnets makes it difficult to rotate. .

In addition, when the stator and the rotor block the magnetic field on the side that approaches each other based on the rotation direction, the initial repulsive force rapidly increases in the direction of the opposite pole line at some point, and thus there is a difficulty in rotating.

In order to achieve the above object, the present invention removes the repulsive force generated from the same magnetic pole by installing a shielding means with a ferromagnetic material on the stator and the rotor, that is, when the shielded rotor approaches the shielded stator, the repulsive force for reverse rotation Does not happen.

In addition, in the present invention, a plurality of stators with shielding means are installed on the external gears, the idle gears on the internal gears, and the shielding means on the rotating magnets that revolve and rotate, and use the force in the form of external magnetic gears. A rotational force that does not cause reverse rotation is generated, and the rotational force of the internal gear is to provide a rotating device and a power generation device that induces the rotation of the solar gear.

As described above, the automatic rotating device using a magnet and a satellite gear equipped with a shield of the present invention produces the following effects.

1. Energy is generated by a device that automatically rotates by generating rotational force using internal and external solar gears and satellite gears generated by repulsive force and manpower without reverse rotation between the shielded and rotating stator and the rotor that rotates and rotates together. It can be used as clean energy.

2. It is possible to increase the energy repeatedly by rotating the shielded magnet, and it is possible to increase the force by using the repulsive force between the rotating stators as the rotational force, and alternative energy of fossil fuels can be used.

3. The rotational force of magnetic force rotates the satellite gear, the rotational force of the satellite gear rotates the sun gear with the rotational force using the internal gear, and the rotational force of the solar gear immediately increases the rotational force of the satellite gear, so that the output coexists and increases the efficiency. Let it.

4. In particular, it is effective in small and inexpensive manufacturing places such as hand fan, fan, toilet fan, etc. that do not need power generation efficiency and require only rotational power.

5. It is efficient for power generation devices of small charging devices.

Figure 1: Assembly cross-sectional view of the present invention.
Figure 2: Explanatory diagram of transmission of rotational motion through the satellite gear of the present invention.
Figure 3: An explanatory diagram of the rotational motion of the rotating stator and the ball of the same magnetic pole and the rotating rotor of the present invention.
Figure 4: An explanatory diagram of the rotational motion of the rotating stator and the ball and the rotating rotor of another pole of the present invention.
Figure 5: A cross-sectional view of a temporary line of the present invention.
Figure 6: Section B of the present invention-a spiral cross section.
* Description of the main symbols in the drawings
01) Solar rotation gear 03) External satellite gear 05) Idle satellite gear
07) Orbital satellite gear 09) Rotating motion stator housing
11) Revolving motion rotor housing 12) Manpower rotating stator housing
13) Manpower movement rotor housing 21) Internal gear
22) Rotating shaft 31) Repulsive force stimulation line 33) Shield
35) Repulsive magnet 41) Manpower stimulation line 45) Manpower magnet
51) Starting magnet 53) Power generation coil 55) Electromagnet coil
Arrow (→) is the direction of rotation or movement of the object
Unmarked squares or identical shapes are parts for the same purpose.
The blue (S) and red (N) marks in the square indicate magnetic poles.

The configuration state of the present invention will be described in detail based on the drawings presented from FIGS. 1 to 6 as follows.

Figure 1 is an assembly cross-sectional view of the present invention, the solar rotation gear (01) step is installed along the outer peripheral surface of the rotation center of the device; A plurality of rotary bearing balls for rotational motion of the idle satellite gear 05 and the orbital satellite gear 07 are installed along the outer circumferential surface of the solar rotary gear 01 to have a predetermined pitch and radius.

At this time, because the diameters of the orbital rotor housing 11 and the attraction rotor housing 13 installed on one side of the orbital satellite gear 07 interfere with the region of the central axis of the idle satellite gear 05; Secure the rotation space of the revolving motion rotor housing 11 and the manpower motion rotor housing 13 with a step difference,

By installing a circular auxiliary plate, the rotary bearing ball for the rotational motion of the idle satellite gear 05 and the orbiting satellite gear 07 are set to have the same predetermined pitch and radius installed on the solar rotary gear 01. Install several.

Subsequently, bearings are installed in the pre-installed ball, and an orbital rotor housing 11 and an attractive force rotor housing 13 are inserted into one of the orbital satellite gears 07, respectively, and assembled; The shaft of the orbital satellite gear (07) is fitted into the bearing hole; The other shaft of the orbital satellite gear 07 is assembled to the ball of the bearing on another circular auxiliary plate and installed to enable rotational motion.

At this time, the gear in which the internal gear 21 and the gear are directly meshed is the idle satellite gear 05, and when the idle satellite gear 07 comes into contact with the internal gear 21, the entire rotational motion becomes impossible.

On the other hand, the external satellite gear 03 is installed in engagement with the solar rotation gear 01, and the rotation center bearing is installed on the internal gear 21 plate and fixedly installed; The installation positions of the rotational motion stator housing 09 and the attractive rotational stator housing 12 respectively installed on one side of the external satellite gear 03 are,

In the rotational motion stator housing (09), the revolving motion rotor housing (11) and the attractive rotational stator housing (12) must match the magnetic pole center line and the magnetic pole center line installed in the attractive rotation rotor housing (13) in a straight line.

Subsequently, the bearings of the rotary shaft 22 are fixed by both bodies so that the solar rotary gear 01 can rotate, and as shown in FIGS. 3 and 4, the rotary motion stator housing 09 and the revolution rotor The magnet installed inside the housing 11 has a repulsive force magnet 35 installed, a repulsive force magnet 35 in the attractive rotation stator housing 12, and an attractive force magnet 45 in the attractive movement rotor housing 13 Install.

Next, a starting magnet 51 and a spring are installed inside one side of the internal gear 21 (the surface facing the solar rotation gear 01), and the power generation coil 53, an electromagnet coil 55, and an external satellite When the magnetic force of the gear 03 and the revolving rotor housing 11 cross and close together, the configuration of the present invention is completed.

Next, the operational state of the present invention will be described in detail based on the drawings presented from FIGS. 1 to 6 as follows.

The core of the present invention is the shielding technology and the pitch radius (R) of the solar rotation gear (01), the pitch radius (R1) of the internal gear (21), as shown in Figure 2, the radius of the difference (ΔR) ),

The pitch radius (r) of the external satellite gear (03) is the pitch radius (r1) of the idle satellite gear (05) and the orbital satellite gear (07), and the radius of the difference (ΔR) and R/r = 5 The rotational speed of the repulsive magnet 35 and the attraction magnet 45, which is determined by the factor of, should be the same.

First of all, calculating the speed, the rotational speed of the external satellite gear 03 is the same as the solar rotational speed,

Speed (V)=π2RN/(1000X60)=π10rN/(1000X60).

In addition, as the internal gear 21 is fixed and the solar rotation gear 01 is rotated, the speed at which the idle satellite gear 05 is rotated (V) is π2R1N/(1000X60)=π10r1N/(1000X60), and the idling satellite The rotation speed of the gear 07 is also the same.

At this time, since R-R1=ΔR=r-r1, R1=R-ΔR and r1=r-ΔR.

Therefore, assuming that there is a plus virtual pitch circle of ΔR in the pitch circle of the orbital satellite gear 07, the rotation speed is calculated,

It can be seen that the rotational speed of the orbital satellite (v) = π10rN/(1000X60), and if the installation radius of the repulsive magnet 35 and the attraction magnet 45 are the same from the center, each rotational speed is the same. Able to know.

On the other hand, when the magnetic shield 33 is attached to the magnet by appropriately adjusting the volume of the ferromagnetic material that flows better than the magnetic force in the air, the magnetic force on the side where the ferromagnetic material is installed flows through the inside of the shield 33 as a passage, No attraction or repulsion occurs.

That is, when the repulsive force occurs, the shield 33 crosses first to expose only the angle where the repulsive force generated in the same is used as the rotational force, and when the opposite attraction occurs, the attraction generated by the magnetic force is first used as the rotational force. , In the reverse rotation part, to prevent the attraction due to the shield (33).

Therefore, the installation angle established between the magnetic force line and the axis perpendicular line connecting the outer circumferential surface from the center of rotation is very important, so the size of the installation angle is 0 to 45° in consideration of the correlation of the above factors. Make it an angle.

3 shows that the repulsive force generated when the pole is the same is generated by the rotational force, and the force generated when the starting magnet 51 is pushed with the repulsive force generated by the crossing of the same magnetic pole is converted into electric energy from the power generation coil 53. And supplying it to the electromagnet coil 55, thereby increasing the rotational force.

Figure 4 shows that when the other pole, the generated attraction is generated by the rotational force,

Figure 5 explains the total rotation of the repulsive force,

Figure 6 explains the full rotation of the attractive force.

As described above, the present invention is a clean energy generating device using the attractive force and repulsive force of a magnet, and the present invention is a necessary invention. In particular, a small power generation and power generation device are not required, and it is a necessary invention where rotational force is required.

What has been described above is only one embodiment for carrying out the present invention of an automatic rotating device using a magnet and a satellite gear equipped with a shield of the device, and the present invention is not limited to the above-described embodiment, but in the following claims. Anyone of ordinary skill in the field belonging to the present invention will be able to implement various changes without departing from the gist of the claimed invention.

Claims (9)

An idle satellite gear (05) and an orbital satellite gear (07) having a constant pitch and radius are installed on the solar rotation gear (01) plate; An orbital rotor housing 11 and an attractive force rotor housing 13 are installed in the orbital satellite gear 07; The repulsive magnet 35 with a shield 33 installed on the orbital rotor housing 11, and a rotor portion provided with an attractive magnet 45 with a shield 33 installed on the attraction rotor housing 13,
An external satellite gear (03) is installed between the two internal gears (21); A rotational motion stator housing 09 and an attractive rotational stator housing 12 are installed on both sides of the external satellite gear 03; The rotating motion stator housing (09) has a repulsive force magnet (35) with a shield (33) installed, and the attractive rotating stator housing (12) has a magnetic force magnet (45) with a shield (33) installed. Automatic rotation device using magnets and satellite gears. The method of claim 1, wherein the rotational motion stator housing (09) has a repulsive force magnet (35) equipped with a shield (33), and the attractive rotational stator housing (12) has an attractive force magnet (45) installed with a shielding material (33). , Automatic rotation device using a shielded magnet and satellite gear, characterized by installing the size of the installation angle formed by the axis perpendicular line connecting the center of rotation and the outer circumference of the magnetic pole line at 0~45°. The automatic rotation device according to claim 1, characterized in that the teeth of the solar rotation gear (01) and the internal gear (21) are manufactured in a plurality of parts and installed in a partial assembly type. The automatic rotating device according to claim 1, wherein a material of a bearing used in the rotating part is replaced with a non-magnetic material and installed. The automatic rotation device according to claim 1, wherein the material of the shield (33) is used as a ferromagnetic material having zero magnetic stress such as silicon steel. The automatic rotation device according to claim 1, wherein the materials of the repulsive magnet (35) and the attraction magnet (45) are replaced with neodymium, alico, and cobalt magnets. The magnet and satellite with shielding according to claim 1, characterized in that materials other than the shield (33), repulsive magnet (35) and attraction magnet (45) are replaced with non-magnetic magnesium, aluminum, tungsten, etc. Automatic rotation device using gears. The method according to claim 1, characterized in that it is installed to apply electric energy generated from the power generation coil (53) to the electromagnet coil (55) by driving the starting magnet (51) to a motor that rotates the external satellite gear (03). Automatic rotation device using magnet and satellite gear equipped with phosphorus shield. The installation according to claim 1, wherein the starting magnet (51) is driven by the force of the spring and the repulsive force magnet (35) and the attractive force magnet (45) of the attractive rotating stator housing (12) and the attractive rotating rotor housing (13) act as a repulsive force. An automatic rotating device using a shielded magnet and satellite gear.

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