KR200272092Y1 - Autogeny royal tomb developmental system - Google Patents

Abstract

The present invention relates to a self-generating power generation system.

The present invention includes one power unit and one power generator for this purpose. The power unit consists of a base plate, a first magnetic body device, a second magnetic body device, and a power transmission component. The power transmission part is mounted on the base plate and can be driven, and the J magnetic device is fixed and connected to the power transmission part to be moved together with the power transmission part, and is periodic in the first direction and passes through the first magnetic device. First, when the magnetic ferrite device passes through the ferromagnetic device, the magnetic field of the magnetic ferromagnetic device interacts to generate a forward force, which causes the magnetic ferromagnetic device to be relatively electrically driven relative to the ferromagnetic device. The power generator has one sensitive coil component, which is installed in the first magnetic body and also installed in the second magnetic field. Therefore, when the magnetic coil device and the power transmission component are continuously driven, the sensitive coil parts produce a sensitive current, thereby producing electric energy for a long time.

Description

Autogeny royal tomb developmental system

The present invention relates to a self-generating power generation system, and more specifically, a self-generating power generation system which drives a device that generates energy by self-generation, which does not affect the environment even if electricity is produced for a long time. It is to prevent contamination.

As is well known, energy is produced in various ways to supply heat energy, light energy, power, etc. Generally, energy is obtained from petroleum fuel such as natural oil, natural gas, and methane. Petroleum fuels typically produce energy from combustion and provide power to steam turbines driven by cars or steam driven by engines.

However, the air pollution problem inevitably occurs during the combustion process, and the high consumption rate of petroleum fuel is limited and it does not last long to acquire energy as petroleum fuel when the total quantity of petroleum fuel is gradually decreased during the late tide. It is expected to be consumed completely.

The other form of energy is nuclear energy, although nuclear energy can be obtained permanently by adopting the methods of fission and fusion, but the safety of nuclear power plants is still questioned, and the disposal of nuclear waste also faces considerable difficulties. have. Other energy sources, such as solar energy, wind energy, and tidal power generation, can generate electricity, but they do not meet the demand for energy because they are limited in quantity.

The present invention has been made to solve the above problems of the prior art, to provide a kind of self-generating power generation system, which is a system that does not cause environmental pollution while maintaining the production of electrical energy for a long time.

The present invention describes a kind of self-generating power generation system, which includes one power unit and one power generation unit. The power unit consists of a base plate, a first magnetic body device, a power transmission component, and a second magnetic body device. The first magnetic body device is installed on the base plate and has the first magnetic field. At the same time, the power transmission component is also mounted on the base plate, and the Jay magnetic device is mounted on the power transmission component and has the Jay magnetic field. The magnetic material of J. 2 moves along with the power transmission component and passes through the first magnetic field with periodicity toward the first direction. As the magnetic ferrite device passes through the ferromagnetic device, the two magnetic fields interact to generate forward and negative forces on the ferromagnetic device and the ferromagnetic device. It makes the electric motor in the first direction. The negative force causes the J magnetic device to be driven toward the J direction (the direction of the J and the first direction are opposite to each other). When the J magnetic device approaches the first magnetic device and reaches the interaction position, it produces a positive force to give the J magnetic device first. The inertia force is produced by moving away from the magnetic device, and the positive and inertia forces pass the Jay magnetic device and the power transmission parts to the balanced position smoothly and are restored to the interaction position, but are not stopped by the negative force. In this way, the magnetic material of J.J. is rotated to move back and forth between the interaction position and the balance position by using the forward force and the inertia force naturally produced in the first and second magnetic device. Thus, the power transmission parts are not stopped by the negative direction. To form a continuous electric power.

The power generator has one sensitive coil component, which is installed in the first magnetic body and also installed in the second magnetic field. Therefore, the sensitive coil parts produce a sensitive current when the J magnetic device and the power transmission part are continuously driven, thereby producing electric energy for a long time.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this purpose are as follows.

1 is a three-dimensional view of a specific embodiment of the present invention.

Figure 2 is an interaction position schematic diagram of a specific embodiment of the present invention.

3 is a left side view of the second magnetic body device of FIG. 2 which is a specific embodiment of the present invention;

Degree.

4 is a schematic diagram of the balance position of a specific embodiment of the present invention;

5 is a left side view of the second magnetic body device of FIG. 4, which is a specific embodiment of the present invention;

Degree.

<Explanation of symbols for the main parts of the drawings>

10: power unit 120: power transmission parts

122: Foundation board 1221: First support stand

1222 ： J Supports 1223 ： Third Supports

121: Axis 123: Disc

125: stationary board 130: J magnetic body device

1301: Short bar 131: Jay magnet

1311: N pole 1312: S pole

150: first magnetic body device 1501: inclined short bar

151: First magnetic iron 1511: N pole

1512: S pole 60: Generator

61: sensitive coil component 64: power supply voltage stabilizer

65: voltage stable converter 66: transformer

67: Control circuit

The autonomous power generation system applied to the present invention is configured as shown in FIGS. 1 to 5.

In the following description of the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and the definitions should be made based on the contents throughout the present specification.

First, the present invention is a specific embodiment of the self-generating power generation system of the present invention with reference to Figure 1, the structure is generally composed of one power unit 10 and one power generator (60).

1, 2 and 4, the power unit 10 includes one base plate 122, one ferromagnetic device 150, one magnetic ferromagnetic device 130, and one power transmission component 120. It consists of. As illustrated in the drawing, the base plate 122 includes the first, second, and third support bars 1221, 1222, 1223, which are installed to extend upward in parallel to each other. The power transmission component 120 includes a shaft 121, which is connected to the first and second support bars 1221 and 1222 in such a way that the shaft extends horizontally. In this way, the shaft 121 can rotate. The power transmission component 120 has a disc 123, which is located between the second and third support rods 1222 and 1223. The disc 123 is mounted on the same shaft 121 in the same axis. The third support 1212 has a fixed plate 125, which corresponds to the shaft 121 and is fixed to the corner of the third support 1212 in the same way as the shaft center.

The second magnetic body device 130 has two short bars 1301 on each side of the disc 123, respectively. The short bars 1301 extend from the disc 123 toward the third support 1223 in the axial direction. It is. The two Jay magnets 131 are respectively connected to two ends of the short bar 1301 so that the N pole 1311 and the S pole 1312 of the Jay magnet 131 are parallel to each other and at the same time parallel to the direction of the axis 121. To be. This Jay magnet 131 is a permanent magnet.

In the first magnetic device 150, two inclined short bars 1501 are fixed to the fixing plate 125. The ends of the inclined short bars 1501 are one up and one down and the disc 123 is rotated. Inclined towards In this first magnetic body device 150, two first magnets 151 are connected to the inclined short bar 1501, respectively, and the N pole 1511 and the S pole 1512 of the first magnet 151 are parallel to each other. The pole 1511 allows access to the J magnetic device 130 and the S pole 1512 keeps it away from the J magnetic device 130. As illustrated in FIGS. 2 and 4. This first magnet 151 is a permanent magnet.

With this structure, the second magnetic body device 130 passes through the first magnetic body device 150 along the X axis rotation and periodicity illustrated in FIG. 2 along with the axis 121 of the power transmission component 120. When the Jay magnet 131 in the device 130 passes through the first magnet 151, the first, the first, and the second magnetic field of the Jay magnets 151 and 131 alternately produce one forward force and one negative force. It acts on the first magnetic body device 150 and the second magnetic body device 130. The forward force causes the second magnetic body device 130 to move relative to the first magnetic body device 150 in the first direction X, and the negative force causes the second magnetic body device 130 to correspond to the first magnetic body device 150. It makes relative movement in the second direction, which is opposite to the first direction.

More specifically, in FIG. 2, reference numeral 3 in FIG. 2 indicates the N pole 1511 of the first magnet 151 and the N pole 1311 of the J magnet 131 when the first magnet 151 and the second magnet 131 are in an interaction position. ) Approaches and interacts with each other to form a rejection force for the first and second magnets 151 and 131. This rejection force is converted to the forward force acting on the Jay magnet 131 to cause it to rotate in the first direction (X).

Jay magnet 131 is rotated in the first direction (X) to be rotated together with the power transmission component 120 because of this a very large inertial force acts on the Jay magnetic device 130. When the Jay magnet 131 is driven to approach the first magnet 151, the Jay magnet 131 enters the balance maintenance position. 4 to 5, the first magnetic material device 150 has two inclined short bars 1501, each of which is fixed to the N pole 1311 of the second magnet 131, and the N of the first magnet 151 is fixed. Approaching the pole 1511 and the S pole 1512, the first magnet 151 acts in a direction inclined to the second magnet 131 relatively. Because the N pole 1511 of the first magnet 151 is relatively closer to the N pole 1311 of the second magnet 131 than the S pole 1512 of the first magnet 151, the respective N-class 1511 and J. Each N-class 1311 of the magnet 131 produces a relatively large rejection force, and each N-class 1311 of each S-class 1512 and Jay magnet 131 produces a relatively small suction force. . This relatively large rejection force and relatively relatively small suction force are collected to form a negative force. The negative force at this balancing position is smaller than the positive force at the interaction position, whereby the positive force received by the magnet 131 when the Jay magnet 131 is rotated relative to the first magnet 151 to reach the balancing position. The sum of the inertia forces is greater than the negative forces. Therefore, the Jay magnet 131 is rotated in the first direction (X). Based on this method, the Jay magnet 131 rotates and recovers the interaction position corresponding to the first magnet 151. Therefore, the forward force is continuous and acts on the Jay magnetic device 130, and this axis 121 is also continuously transmitted to the first direction (X) and is not stopped by the negative direction force.

Referring to Figs. 1, 2, 3, 4, and 5, there is a sensitive coil part 61 in the power generator 60, which is installed in the first magnetic body device 150 and is installed in the second magnetic field. The sensitive coil component 61 includes two coils, which are fixed around the fixing plate 125 and are disposed between the inclined short bars 1501. Therefore, the Jay magnetic device 130 and the power transmission component 120 together produce a response current when the relative continuous transmission to the sensitive coil component 61. The generator 60 also includes a power supply voltage stabilizer 64 and a voltage stabilizer switch 65, which are in electrical contact with the sensitive coil component 61 and further provided with a transformer 66. Output a stable expected voltage. The voltage stabilizer 65 has a control circuit 67 which is connected to the power supply voltage stabilizer 64 to output a fixed current from the voltage stabilizer 65. In this way, power generation for a long time without causing environmental pollution.

Meanwhile, the present invention may be variously modified and may take various forms in applying the above components.

And it is to be understood that the present invention is not limited to the specific forms mentioned in the above description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

As described in detail above, the present invention is a self-generating power generation system that drives a device that generates energy by self-power generation. One very useful design.

Claims (5)

In the self-generating power generation system, One power unit, one base plate, one ferromagnetic device are installed on the base plate, and the most ferromagnetic device has the best magnetic field, One power transmission part is installed on the base plate and can be driven, One J magnetic device is mounted on a power transmission component and has a J magnetic field, and the J magnetic device travels together with the power transmission component and is periodic in the first direction and passes through the first magnetic device. When the J magnetic device passes through the first magnetic device, the first magnetic field of the first magnetic device and the second magnetic field of the second magnetic device interact with each other so that the second magnetic device acts on the first magnetic field body alternately to produce forward and negative forces. The magnetic force acts on the second magnetic device, and the forward force causes the second magnetic device to move in the first direction relative to the first magnetic device. The second direction and the first direction are opposite to each other, and when the second magnetic device approaches the first magnetic device and reaches the interaction position, it produces a forward force to move the second magnetic device away from the first magnetic device. To produce inertial forces, The J-magnetic material and power transmission parts are smoothly passed to the balanced position and returned to the interactive position by the force of the force, so that they are not stopped by the negative direction, and the Jay magnetic device is periodically stopped at the interaction position and the balanced position. By using the interaction and inertia of the first and second magnetic fields, the forward force continues to act on the J magnetic device, and the power transmission parts are continuously driven toward the first direction, but are not stopped by the negative direction force. , One power generator has a sensitive coil part, which is installed in the first magnetic body and is installed in the magnetic field of J. The sensitive coil part produces a sensitive current when the magnetic field device and the power transmission part are continuously driven. Autogenous power generation system, characterized in that to produce electrical energy. The method according to claim 1, The power generator has a power supply voltage stabilizer and a voltage stabilizer, which are in electrical contact with the sensitive coil parts, and are provided with a transformer to output a stable predetermined voltage, and the voltage stabilizer has a control circuit. Self-generating power generation system characterized in that it is connected to the voltage stabilizer to output a fixed current from the voltage stabilizer. The method according to claim 1, The base plate has the first, second, and third support, which are installed to extend upward in parallel to each other, and the power transmission component includes a single axis, which is connected to the first and second support in such a way as to extend horizontally. The power transmission part has one disc, which is located between the second and third supporters, and the third support has a fixed plate, which corresponds to this axis and is fixed to the corner of the third support, The J magnetic device is equipped with two short bars on each side of the disc, which extend axially from the disc toward the third support, and two J magnets at each two ends of the short bar of the J magnetic device. The two inclined short bars of the first magnetic body are fixed to the fixed cupboard, each of which is inclined toward the disc with one end up and one down, and the two The first magnetic iron is connected to a short bar that is inclined, so that the first magnetic field reveals the inclined angle with respect to the Jay magnetic field. The method according to claim 3, The first and second magnetic field is an autogenous power generation system, characterized in that provided with a permanent magnet. The method according to claim 3 or 4, Each Jay magnet has the first and second magnetic poles, so that they are substantially parallel to the direction of the axis in parallel with each other. The magnetic stimulation system of claim 1, wherein the Jay magnetic pole of the first magnetic pole moves away from the magnetic pole of the magnetic pole of the second magnetic pole.