TWM652432U - Magnetic-excited power generation device - Google Patents

Abstract

A magnetic excitation device includes a bearing base, a rotating shaft and a plurality of rotating disks; wherein, the bearing base is provided with several carrier plates, each carrier plate has a gap between them, and each carrier plate is provided with an even number of inductors. Coil, each carrier plate is provided with a hollow hole in the center; the rotating shaft is installed on the bearing base and is positioned through the hollow hole provided on the above-mentioned carrier plate, so that the rotating shaft can be driven by external force to rotate; these rotations The disks are fixed on the rotating shaft, and the rotating disks are located on both sides of the carrier plate. Each rotating disk is equipped with an even number of magnets, and these magnets correspond to the induction coils provided on the above-mentioned bearing base. And make the magnetic poles of two adjacent magnets different from each other, so that the induction coil provided on the carrier plate can generate current through the relative rotation between the magnets and the induction coil; through the above structure, it is provided A power generation device with simple structure and high environmental protection.

Description

Magnetic excitation device (1)

The invention is a magnetic stimulating device, especially a magnetic stimulating device with a simple structure and high environmental protection.

With the development and progress of science and technology, many equipment, devices, machines and vehicles, etc., must use electric energy to operate. At present, the main sources of electric energy are nuclear energy and thermal power generation. However, nuclear power generation will produce nuclear waste. , and thermal power generation will produce carbon dioxide, causing the greenhouse effect and harming the environment. Therefore, the use of renewable energy and green energy power generation to gradually replace nuclear energy and thermal power generation is an urgent issue currently to be solved.

The purpose of this invention is to improve the above-mentioned shortcomings in order to provide a power generation device with a simple structure and a high degree of environmental protection.

In order to achieve the above purpose, the magnetic excitation device of the present invention includes a bearing base, a rotating shaft and a plurality of rotating disks; among them: the bearing base is provided with a number of carrier plates, and there is a gap between each carrier plate. An even number of induction coils are embedded in a circular arrangement on the carrier plate, and there is a hollow hole in the center of each carrier plate; The rotating shaft is installed on the bearing seat and is inserted into the hollow hole provided on the above-mentioned carrier plate, so that the rotating shaft can be driven by external force to rotate; the rotating disk is fixedly installed on the rotating shaft. The disks are arranged correspondingly to the carrier plate, and each rotating disk is provided with an even number of magnets, and these magnets are corresponding to the induction coils provided on the above-mentioned carrier base, and the magnetic poles of two adjacent magnets are different from each other. The induction coil provided on the carrier plate can generate current through the relative rotation between the magnets and the induction coil; thereby, a power generation device with a simple structure and a high degree of environmental protection is provided.

10: Bearing seat

11: Carrier board

12: Induction coil

13: Hollow hole

20:Rotating axis

30: Rotating disk

[Figure 1] is a three-dimensional exploded view of this creation.

[Figure 2] is a top view of the rotating disk of this invention.

[Figure 3] is a combined cross-sectional view of this creation.

Regarding the technical means and structures used in this invention to achieve the purpose, detailed descriptions are as follows with reference to the embodiments shown in Figures 1 to 3: As shown in Figures 1 to 3, the magnetically excited electrolysis in the embodiment The device includes a bearing base 10, a rotating shaft 20 and a plurality of rotating disks 30; among them: the bearing base 10 (see Figure 3) is provided with a number of carrier plates 11, and there is a gap between each carrier plate 11. , an even number of induction coils 12 are embedded in an annular arrangement on each carrier plate 11 , and a hollow hole 13 is provided in the center of each carrier plate 11 .

The rotating shaft 20 (please refer to FIG. 3 ) is installed on the bearing base 10 and is inserted into the hollow hole 13 provided in the above-mentioned carrier plate 11 so that the rotating shaft 20 can be driven to rotate by external force.

The rotating disk 30 (see Figures 2 and 3) is fixedly mounted on the rotating shaft 20. The rotating disks 30 are arranged corresponding to the carrier plate 11, and each rotating disk 30 is provided with an even number of magnets 31. And these magnets 31 correspond to the induction coils 12 provided on the carrier base 10, and the magnetic poles of two adjacent magnets 31 are different from each other, so that the induction coils 12 provided on the carrier plate 11 can pass through the induction coils 12. The relative rotation between the magnet 31 and the induction coils 12 generates current.

With the above structure, when the rotating shaft 20 rotates, it will drive the rotating disks 30 to rotate synchronously. At this time, the magnets 31 provided on the rotating disks 30 also rotate with the rotating shaft 20 as the axis to generate a rotating magnetic field, and The induction coil 12 provided on the bearing base 10 can cut the magnetic lines of force to generate induced electromotive force, thereby generating a current output, and the operator can store the generated electric energy for standby or direct use; at the same time, due to the two sides of the rotating disk 30 The magnetic poles of two adjacent magnets 31 are different from each other. When the rotating disk 30 continuously rotates, the magnets 31 can continuously cut the magnetic lines of force for each induction coil 12, and thereby continuously generate current for storage or In addition, because this invention uses magnetic excitation to generate electricity, this invention will not produce waste or carbon dioxide pollution, and it is indeed highly efficient in power generation and environmentally friendly.

Based on the above, a preferred embodiment is, as shown in Figures 1 and 3, magnets 31 are arranged on both upper and lower surfaces of the rotating disk 30, and the magnetic poles of two adjacent magnets 31 are different; when the When the magnets 31 are provided on both the upper and lower sides of the rotating disks 30, the induction coil 12 provided on the carrier plate 11 will be cut by the magnets 31 provided on the upper and lower rotating disks 30 at the same time. Therefore, the magnetic field lines can be improved. The induction coil 12 generates the effect of induced electromotive force, thereby improving the overall power generation efficiency of the present invention.

Based on the above, as shown in Figures 1 and 2, the number of induction coils 12 provided on the carrier plate 11 and the number of magnets 31 provided on the rotating disk 30 of this invention is 6, and it can also be 2, 4, 8,... and other even numbers. quantity, make The user can adjust the size and arrangement spacing of the carrier plate 11 and the rotating disk 30, but the even number is still the main one, so as to improve and maintain the power generation efficiency of this invention.

Based on the above, a better implementation is that the invention can be installed on an appliance with a rotating shaft (such as a fan), and the rotating shaft 20 of the invention can be driven to rotate by means of power, or it can be manually operated or pedaled (such as a bicycle) The rotating shaft 20 of the invention is driven to rotate, thereby improving the environmentally friendly utilization of the invention.

Therefore, it can be known from the above that the present invention utilizes magnets 31 arranged in a ring on the rotating disk 30, and an induction coil 12 is also arranged on the carrier plate 11, and the rotating shaft 20 is used to drive the rotating disk 30 to rotate and cause the magnets to rotate. 31 rotates with the rotating disk 30, so that the induction coils 12 provided on the carrier plates 11 can generate current through the relative rotation between the magnets 31 and the induction coils 12 to achieve power generation and reuse; therefore, This creation is indeed progressive and practical, and its structure is indeed unprecedented. It has met the requirements for a new patent. I submit a patent application in accordance with the law and pray for the patent to be granted. It is most grateful.

However, the above are only possible embodiments of this invention. These embodiments are mainly used to illustrate the technical means and structures used to achieve the purpose of this invention. Therefore, they cannot be used to limit the scope of protection of this invention. Any equivalent changes or modifications made based on the description of this creation and the scope of the patent application shall still fall within the scope of protection covered by this creation.

10: Bearing seat

11: Carrier board

12: Induction coil

13: Hollow hole

20:Rotating axis

30: Rotating disk

31: Magnet

Claims (2)

A magnetic excitation device includes a bearing base, a rotating shaft and a number of rotating disks; wherein: A carrier base with a number of carrier plates on it, with gaps between each carrier plate, an even number of induction coils embedded in a ring on each carrier plate, and a hollow hole in the center of each carrier plate; The rotating shaft is installed on the bearing base and is positioned through the hollow hole provided in the above-mentioned carrier plate, so that the rotating shaft can be driven to rotate by external force; The rotating disk is fixed on the rotating shaft. The rotating disks are arranged corresponding to the carrier plate. Each rotating disk is equipped with an even number of magnets, and these magnets are corresponding to the induction coils provided on the above-mentioned bearing base. , and make the magnetic poles of two adjacent magnets different from each other, so that the induction coil provided on the carrier plate can generate current through the relative rotation between the magnets and the induction coil. The magnetic excitation device as described in claim 1, wherein the upper and lower surfaces of the rotating disk are ringed with magnets, and these magnets correspond to the induction coils provided on the above-mentioned bearing base, and the magnetic poles of two adjacent magnets are Different.

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