JP2003143880A - Autogeneous energy generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an autogeneous energy generator which is safe, clean, practical, and is capable of long-term use without causing environmental problems. SOLUTION: A base seat 122 of a power apparatus 10 is formed with a first and a second magnet devices 150, 130, and a transmission structure 120. The second magnet device 130 is interlocked with the transmission structure 120 and rotates while periodically passing the first magnet device 150 in a first direction. After the second magnet device 130 passes the first magnet device 150, magnetic fields of the first and second magnet devices 150, 130 work to generate force in a positive direction, and the force in the positive direction rotates the second magnet device 130 relative to the rotation of the first magnet device 150. The induction coil structure 61 of a generator 60 is provided on the first magnet device 150 and in the second magnetic field, so that the induction coil structure 61 uses faradism generated when the second magnet device 130 and the transmission structure 120 rotate.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation system using self-generated energy, and more particularly to a system for generating electric energy for a long time without causing problems such as environmental pollution.

[0002]

2. Description of the Related Art Generally, oil, gas, etc. are used as an energy source, and there are other sources such as nuclear energy, solar energy and wind energy.

[0003]

However, the amount of fuel mined from nature is rapidly decreasing, and serious problems such as air pollution during combustion occur, and in the nucleus, The danger is a problem, but there is a problem that sufficient energy cannot be supplied in safe and clean solar energy.
In view of the above-mentioned drawbacks, therefore, there is provided a clean, self-generated energy generator of the present invention that is safe, can be used for a long time, is practical, and does not cause environmental problems.

[0004]

Mainly composed of a power unit and a power generator. The power unit includes a base, a first magnet unit, a transmission structure and a second magnet unit, and the first magnet unit is installed on the base to have a first magnetic field, and at the same time, the transmission structure is also The second magnetic device is installed on the base and the second magnetic device is installed on the transmission structure so as to have the second magnetic field. With the above structure, the second magnet device rotates in conjunction with the transmission structure and periodically passes through the first magnetic field in the first direction. When the second magnet device passes the first magnet device, both magnetic fields interact with each other to generate a positive force and a negative force on the first magnet device and the second magnet device, A positive force causes the second magnet arrangement to rotate away from the first magnet in the first direction. The force in the negative direction rotates the second magnet device in the second direction (opposite to the first direction), and reaches a position where the second magnet device approaches and interacts with the first magnet device. At this time, a positive force is generated to move the second magnet device away from the first magnet device, and an inertial force is generated. The force in the positive direction and the force in the inertia pass through the second magnet device and the transmission structure smoothly through the opposing position and return to the original position, that is, the position where they interact with each other, and the rotation is stopped by the negative force. Try not to. By doing so, when the second magnet device rotates, it opposes the position where the first and second magnet devices naturally interact with each other in a periodic manner by the forward force and inertial force. It alternates between the positions and continues to rotate without being stopped by the negative force.

[0005]

DETAILED DESCRIPTION OF THE INVENTION As shown in FIG. 1, the present invention includes a power plant 10 and a power plant 60. As shown in FIGS. 1, 2, and 4, the power unit 10 includes a base 122, a first magnet unit 15
0, the second magnet device 130, and the transmission structure 120.
The base 122 includes first, second and third supports 1221, 12
22 and 1223, each of which is parallel to each other,
And it is stretched upward. The transmission structure 120 has a shaft 121.
Which extends laterally to extend the first and second supports 12
21 and 1222 are bored so that the shaft 121 can rotate. The transmission structure 120 further includes a disc 1
23 is provided between the second and third supports 1222 and 1223, the disk 123 is installed coaxially, that is, on the shaft 121, and the fixed plate 125 sets the axis center on the shaft 121. It is fixed to the third support 1223 as the center.

The second magnet device 130 includes two short arms 1.
30 are installed on both sides of the disk 123, the short arms 1301 extend from the disk 123 toward the third support 1223 in the same direction as the axis, and the second magnets 13 are respectively connected to the short arms 1301. It is provided at the extreme end of the arm 1301 and has an N pole 1311 and an S pole 131 of the second magnet 131.
2 are parallel to each other and have a direction parallel to the axis 121. Besides the non-dense, the second magnet uses a permanent magnet.

In the first magnet device 150, two inclined short arms 1501 are fixed to the fixed plate 125, respectively. One end of the inclined short arm 1501 is upward and the other is downward, and the inclined short arm 1501 is inclined toward the disk 123 side. The first magnet device 150 has two first magnets 151, each of which is connected to the short arm 1501, and an N pole 1511 and an S pole 1512 of the first magnet 151 are arranged in parallel with each other. By making 1511 approach the second magnet device 130, the south pole is made to be farther away from the second magnet device 130 (FIGS. 2 and 4). Also, the first magnet 151
Is a permanent magnet.

With the above structure, the second magnet device 130
Together with the shaft 121 of the transmission structure 120 in the first direction (see FIG.
The first magnet device 150 rotates periodically by the arrow X)
Through the second magnet device 130,
When passing through the first magnet 151, the first and second magnetic fields of the first and second magnets 151 and 131 interact with each other, and positive and negative forces are alternately generated to generate the first and second magnetic fields. It acts on the one magnet device 150 and the second magnet device 130. The force in the positive direction causes the second magnet device 130 to move to the first magnet device 15
The negative direction force causes the second magnet device 130 to face the first magnet device 150 and moves in a second direction opposite to the first direction. exercise.

As shown in FIGS. 2 and 3, the first magnet 151 is
And the second magnet 131 interact with each other, the N pole 1511 of the first magnet 151 and the N pole of the second magnet 131
When the pole 1311 acts close to each other, the repulsive drag acts on the first and second magnets 151 and 131, and the repelling drag acts as a positive force on the second magnet 131 to act in the X direction. Rotate to. The second magnet 131 rotates in the first direction X,
The transmission structure 120 rotates in conjunction with each other, so that a considerable inertial force acts on the second magnet device 130. The second magnet 1
When 31 rotates to approach the first magnet 151 and the second magnet 131 reaches the opposing position, as shown in FIGS. 4 and 5, two inclined short arms 1501 in the first magnet device 150 cause The north pole 1311 fixed to the second magnet 131 is the north pole 1511 and the south pole 151 of the inclined short arm 1501.
By approaching 2, the first magnet 151 is inclined with respect to the second magnet 131. Therefore, the first magnet 1
The N pole 1511 of 51 is the S pole 1512 of the first magnet 151.
More closely located to the N pole 1311 of the second magnet 131, each N pole 1511 and each N pole 1311 of the second magnet 131 act to generate a relatively large repulsive force, and each S pole 151
The attracting force between the second magnet 131 and the N pole 1311 of the second magnet 131 becomes relatively small, and a negative force is formed by the resultant force of the relatively large retracting force and the relatively small attracting force. Therefore, the force in the negative direction located at the counter position is smaller than the force in the positive direction, that is, when the first magnet 151 rotates to the counter position, the force and inertia in the positive direction received by the second magnet 131. Becomes larger than the force in the negative direction, and the second magnet 131 continues to rotate in the first direction X. In this way, the second magnet 131 rotates back to the position where the first magnet 151 interacts, the positive force continues to act on the second magnet device 130,
The shaft 121 continues to rotate in the first direction X and is not stopped by the negative force.

As shown in FIGS. 1, 2, 3, 4, and 5, the power generating device 60 has a sensitive coil structure 61, and the sensitive coil is installed in the first magnet device 150, and It is installed in the second magnetic field. The sensitive coil structure 61 includes two coils and is fixed on the peripheral edge of the fixed plate 125 between the inclined short arms 1501. Therefore, the sensitive coil structure 61 includes the second magnet device 130 and the transmission structure 12.
When 0 is continuously rotated relative to the sensitive coil structure 61, a sensitive current is generated. The power generator 60
Has a power source voltage regulator 64 and a constant voltage converter 65, the power source voltage regulator 64 is electrically connected to the sensitive coil 61, and the installed transformer 66 has a stable constant voltage. I will provide a. The constant voltage converter 65 has a control circuit 67, which is connected to the power source voltage regulator, so that the constant voltage exchanger 65 provides a constant current. The most important point is that the power unit 10 of the present invention continues to rotate due to the interaction of the magnetic force and the magnetic force, but it is inevitable to stop when the magnetic force disappears, similar to a permanent engine. It is different. However, the reason why energy is supplied semipermanently is that even if energy is lost due to friction, resistance, load, etc. during rotation, it is overcome by magnetic force, that is, the existing energy. It is similar to a drive, which is similar to overcoming friction, drag, etc., by the power provided by, for example, starting a motor with electrical energy or burning oil. It should be noted that the power plant 10 of the present invention is not a permanent machine. Normally, the permanent motor does not lose energy due to friction, inhibition force, etc. during the whole movement. Therefore, the permanent mover needs to be placed in a specific sealed space, and there is no frictional force at the rotating contact position. That is, the eternal motive does not exist in the real world. Similarly, electric energy and gasoline are used in motors and engines. When the electric energy and gasoline run out, the motor and engine stop. Similarly, the present invention naturally stops when the magnetic force disappears. That is, the present invention does not consume energy when exercising like a permanent motive,
It doesn't stop. Further, the present invention has not applied for a patent for the amount of magnetic force provided by the magnet. Therefore, the amount of oil reserves and the amount of electric energy generated will not affect the motivation for improvements to better engines or motors in human society.

[0011]

The present invention utilizes the characteristics of the magnet of the magnetic force device to generate magnetic force, and combines the structure of the magnetic force device, the special arrangement of the magnets, and the clever combination of the transmission components to the magnetic force device to combine the magnetic force. Produce an effect. The interaction of the magnetic forces is not interrupted or changed during operation, and the magnitude and direction of the resultant force are not changed. If the resultant force is not zero, the motion of the object that receives the force does not change. As mentioned above, the present invention takes advantage of the properties of magnetic attraction to match the features of mechanical structures. This resultant force and the mechanical structure correspond to each other to generate a driving action. This action creates power,
Providing power as energy for facility operation. Although the power plant of the present invention loses energy under the influence of friction, inhibition force, load, etc. during operation, the aforementioned energy loss can be overcome by the action of magnetic force, and the power plant can keep running. . The similarity between the power plant of the present invention and a known facility for providing energy and driving power is that electric energy starts and powers a motor, and gasoline ignites an engine to generate power. As long as the power can overcome the friction, the inhibition, the load, etc., and the motor and the engine can continue the operation, the interaction of the magnetic force can overcome the friction, the inhibition, the load, etc. The power plant is also capable of continuous operation. The operating process of the present invention is suitable for nature's providence and does not violate any nature's discipline. It is quite clear that it belongs to a technology that uses the laws of nature. Therefore, the purpose of being able to continue supplying power for a long time without causing environmental problems has been achieved.

[Brief description of drawings]

FIG. 1 is a stereoscopic explanatory view of an embodiment of the present invention,

FIG. 2 is an explanatory diagram of positions where the embodiments of the present invention interact with each other.

3 is a left side view of the second magnet device of FIG. 2. FIG.

FIG. 4 is an explanatory diagram of a counter position of an embodiment of the present invention.

5 is a left side view of the second magnet device of FIG. 4. FIG.

[Explanation of symbols]

10 power plant 120 transmission structure 122 base 1221 First rack 1222 Second rack 1223 Third rack 121 axis 123 disks 125 fixed plate 130 Second magnet device 1301 short arm 131 Second magnet 1311 N pole 1312 S pole 150 First magnet device 1501 inclined short arm 151 First magnet 1511 N pole 1512 S pole 60 generator 61 Sensitive coil structure 64 power supply voltage regulator 65 Constant voltage converter 66 transformer 67 Control circuit

Claims (5)

[Claims] 1. A self-generated energy generator mainly composed of a power unit and a power generator, comprising: a base, a first magnet device installed on the base and having a first magnetic field, and on the base. A transmission structure that is installed and rotates, has first and second magnetic fields that are connected to the transmission structure, and operates the first magnet device in a first direction and with periodicity in cooperation with the transmission structure. When passing and rotating and passing through the first magnet device, the second magnetic field of the second magnet device interacts with the first magnetic field of the first magnet device and By alternatingly generating a positive direction force and a negative direction force so that the first magnetic field of the first magnet acts on the second magnet device, the first force is applied to the first magnet device relative to the first magnet device. Rotation in the negative direction, and rotation in the negative direction, rotate in the second direction relative to the first magnet device and interact with each other. At a position adjacent to the first magnet device and rotated in the first direction by the action of the force in the positive direction, and the inertial force is generated by moving the first magnet device away from the first magnet device. The action of the force in the positive direction is continued by the action of, and it rotates in the first direction along with the transmission structure, and even if it passes through the opposing position and returns to the interacting position, It is not stopped by force, and therefore rotates with a periodicity between the interacting position and the opposing position, and the interaction of the first and second magnetic fields and the force of inertia cause the positive direction A power unit including a second magnet device that continues to apply a force, the transmission structure continues to rotate in the first direction and is not stopped by the force in the negative direction, and a second magnet device on the first magnet device and on the first magnet device. The sensitive coil structure installed in the two magnetic fields has the second magnet device and the transmission structure. Autogenous energy generator a sensitive current occurs, characterized by possession a power generation device that generates electricity to continue, the at the time of rotating the. 2. The power generator includes a power source voltage regulator and a constant voltage converter, the power source voltage regulator is electrically connected to the sensitive coil structure, and is stable from the installed transformer. Since a constant voltage is provided and a control circuit is provided in the constant voltage converter and is connected to the power source voltage regulator, a constant current is supplied from the constant voltage converter. The self-generated energy generator according to claim 1, characterized in that: 3. The base is provided with first, second and third supports extending parallel to each other and extending upward, and the transmission structure is laterally oriented to the first, third. A shaft having a support frame is provided, and the transmission structure is further provided with a disc between the second and third supports, and a fixed plate is concentric with the shaft on the third support frame. It is fixed to the third support as a shaft, and the second magnet device is provided with short arms on both sides of the first disk, respectively, and the short arms extend from the first disk in the same direction as the axis. The second magnet extending toward the third support is installed at the extreme end of the short arm of the second magnet device, and the first magnet is provided with inclined short arms on both sides of the fixed plate. And one of the tilted short arms is installed facing upward and the other is installed facing downward and tilted toward the first disk, The first magnets are respectively provided at the extreme ends of the inclined short arms of the first magnet magnet device, so that the first magnetic field has an angle relative to the second magnetic field and is inclined. The self-generated energy generator according to claim 1. 4. The self-generated energy generator according to claim 3, wherein the first and second magnets are permanent magnets. 5. Each of the second magnets has first and second magnetic poles, which are parallel to each other and substantially parallel to the direction of the axis, and each of the first magnets has first and second magnetic poles. And the first magnetic pole of the first magnet is brought close to the first magnetic pole of the second magnet so that the second magnetic pole of the first magnet is the first magnetic pole of the second magnet. The self-generated energy generator according to claim 3 or 4, wherein the magnetic poles are far apart.