阅读说明：本技术 一种磁力循环发电系统 (Magnetic force circulation power generation system ) 是由 马冲 吴少波 于 2020-06-10 设计创作，主要内容包括：本发明公开了一种磁力循环发电系统,包括底座、发电机、磁力驱动装置、中心轴、驱动电机、支撑板、控电箱；所述发电机安装在底座上,发电机转子与中心轴的底部连接；所述磁力驱动装置与中心轴顶部连接；所述支撑板与底座连接；所述驱动电机固定在支撑板的顶部上,驱动电机的转轴与磁力驱动装置连接；所述控电箱安装在底座上；所述控电箱的输入端与市电输出端电性连接；所述控电箱输出端与驱动电机电性连接。综发电机产生的电力反哺磁力驱动部分的能量,驱动电机向市电索取的电能减少,节能减碳,使得整个发电系统不再需要更多的外部能源输出,实现持续内循环发电。(The invention discloses a magnetic force circulation power generation system, which comprises a base, a generator, a magnetic force driving device, a central shaft, a driving motor, a supporting plate and an electricity control box, wherein the generator is arranged on the base; the generator is arranged on the base, and a generator rotor is connected with the bottom of the central shaft; the magnetic driving device is connected with the top of the central shaft; the supporting plate is connected with the base; the driving motor is fixed on the top of the supporting plate, and a rotating shaft of the driving motor is connected with the magnetic driving device; the electric control box is arranged on the base; the input end of the power control box is electrically connected with the commercial power output end; and the output end of the electricity control box is electrically connected with the driving motor. The electric power generated by the comprehensive generator reversely feeds the energy of the magnetic driving part, the electric energy required by the driving motor to the commercial power is reduced, the energy is saved, and the carbon is reduced, so that the whole power generation system does not need more external energy output any more, and the continuous internal circulation power generation is realized.)

1. A magnetic force circulation power generation system which is characterized in that: comprises a base, a generator, a magnetic driving device, a central shaft, a driving motor, a supporting plate and an electricity control box; the generator is arranged on the base, and a generator rotor is connected with the bottom of the central shaft; the magnetic driving device is connected with the top of the central shaft; the supporting plate is connected with the base; the driving motor is fixed on the top of the supporting plate, and a rotating shaft of the driving motor is connected with the magnetic driving device; the electric control box is arranged on the base; the input end of the power control box is electrically connected with the commercial power output end; and the output end of the electricity control box is electrically connected with the driving motor.

2. A magnetic force circulation power generation system according to claim 1, wherein: the output end of the generator is electrically connected with the electricity control box, and part of electricity generated by the generator is supplied to the driving motor through the electricity control box; the driving motor is a speed-adjustable motor.

3. A magnetic force circulation power generation system according to claim 1, wherein: the driving device comprises a turntable and a driving disc; the top of the central shaft is fixedly connected with a turntable; a plurality of grooves are formed in the top end surface of the rotary table, and first magnets are arranged in the grooves respectively; the driving disc is fixedly connected with a rotating shaft of the driving motor; a plurality of grooves are formed in the top end surface of the driving disc, and second magnets are arranged in the grooves respectively; the turntable and the driving disc are positioned on the same horizontal plane.

4. A magnetic cycle power generation system according to claim 3, wherein: the first magnet is flatly placed in the groove on the rotary table at a certain inclination angle, an extension line of a central connecting line of an N pole and an S pole is parallel to the surface of the rotary table and is not intersected with the axis of the rotary table and the extension line of the axis, the N pole of the first magnet faces inwards, and the S pole of the first magnet faces outwards; or with the N pole facing outward and the S pole facing inward.

5. A magnetic cycle power generation system according to claim 4, wherein: the second magnet is flatly placed in the groove on the driving disc at a certain inclination angle, an extension line of a central connecting line of an N pole and an S pole of the second magnet is parallel to the surface of the driving disc and is not intersected with the axis of the driving disc and the extension line of the axis of the driving disc, and the outward polarity of the first magnet on the rotating disc is the same as the outward polarity of the second magnet on the driving disc.

6. A magnetic cycle power generation system according to claim 3, wherein: the arc distance between the arc points corresponding to the outward sides of the two adjacent first magnets on the turntable is equal to the arc distance between the arc points corresponding to the outward sides of the two adjacent second magnets on the driving disk.

7. A magnetic force circulation power generation system according to claim 1, wherein: the suspension device comprises a magnetic suspension chassis, a load flywheel and a magnetic disc fixedly connected with the bottom of the load flywheel; the central shaft sequentially penetrates through the magnetic suspension chassis, the magnetic disc and the load-bearing flywheel from bottom to top; the magnetic suspension chassis is fixed above the base through a support rod on the support frame; the central position of the magnetic suspension chassis is provided with a through hole, and the central shaft passes through the through hole and can rotate relative to the magnetic suspension chassis; the connection relation between the load flywheel and the central shaft is fixed connection.

8. A magnetic cycle power generation system according to claim 7, wherein: the upper surface of the magnetic suspension chassis is provided with a plurality of third magnets; a plurality of fourth magnets are arranged on the lower surface of the magnetic disk; the positions of the third magnets correspond to the positions of the fourth magnets one by one; the central connecting line direction of the N pole and the S pole of the fourth magnet is vertical to the magnetic suspension chassis; the load flywheel is suspended above the magnetic suspension chassis by means of magnetic repulsion of the third magnet and the fourth magnet.

9. A magnetic force circulation power generation system according to claim 1, wherein: the movable plate is fixedly connected with the bottom of the supporting plate; the movable plate is movably connected with the base through a fastening device.

Technical Field

The invention relates to the technical field of magnetic power generation, in particular to a magnetic circulating power generation system.

Background

At present, earth resources are increasingly exhausted, magnetic force can be used as good energy, pollution is avoided, energy is saved, and carbon is reduced.

Magnetic drive is more and more popular, however, the current common magnetic drive device has the problems of complex structure, large loss and uncontrollable speed, and the efficiency of enterprises is greatly reduced. In the existing magnetic power generation system, a small engine, a magnetic coil, a magnetic device, a mechanical device and the like push a rotating magnetic disk to rotate, and the whole rotating shaft and a rotor are further driven to rotate to realize power generation. In general, when a small generator, a magnetic coil, a mechanical device, a magnetic device and the like are pushed, extra energy is required to be continuously output, so that energy consumption is serious, the use is inconvenient, and a traditional generator does not have the capability of electric energy feedback.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a magnetic force circulation power generation system.

In order to achieve the purpose, the invention adopts the following technical scheme:

a magnetic force circulation power generation system which is characterized in that: comprises a base, a generator, a magnetic driving device, a central shaft, a driving motor, a supporting plate and an electricity control box; the generator is arranged on the base, and a generator rotor is connected with the bottom of the central shaft; the magnetic driving device is connected with the top of the central shaft; the supporting plate is connected with the base; the driving motor is fixed on the top of the supporting plate, and a rotating shaft of the driving motor is connected with the magnetic driving device; the electric control box is arranged on the base; the input end of the power control box is electrically connected with the commercial power output end; and the output end of the electricity control box is electrically connected with the driving motor.

The further improvement lies in that: the output end of the generator is electrically connected with the electricity control box, and part of electricity generated by the generator is supplied to the driving motor through the electricity control box; the driving motor is a speed-adjustable motor.

The further improvement lies in that: the driving device comprises a turntable and a driving disc; the top of the central shaft is fixedly connected with a turntable; a plurality of grooves are formed in the top end surface of the rotary table, and first magnets are arranged in the grooves respectively; the driving disc is fixedly connected with a rotating shaft of the driving motor; a plurality of grooves are formed in the top end surface of the driving disc, and second magnets are arranged in the grooves respectively; the turntable and the driving disc are positioned on the same horizontal plane.

The further improvement lies in that: the first magnet is flatly placed in the groove on the rotary table at a certain inclination angle, an extension line of a central connecting line of an N pole and an S pole is parallel to the surface of the rotary table and is not intersected with the axis of the rotary table and the extension line of the axis, the N pole of the first magnet faces inwards, and the S pole of the first magnet faces outwards; or with the N pole facing outward and the S pole facing inward.

The further improvement lies in that: the second magnet is flatly placed in the groove on the driving disc at a certain inclination angle, an extension line of a central connecting line of an N pole and an S pole of the second magnet is parallel to the surface of the driving disc and is not intersected with the axis of the driving disc and the extension line of the axis of the driving disc, and the outward polarity of the first magnet on the rotating disc is the same as the outward polarity of the second magnet on the driving disc.

The further improvement lies in that: the arc distance between the arc points corresponding to the outward sides of the two adjacent first magnets on the turntable is equal to the arc distance between the arc points corresponding to the outward sides of the two adjacent second magnets on the driving disk.

The further improvement lies in that: the suspension device comprises a magnetic suspension chassis, a load flywheel and a magnetic disc fixedly connected with the bottom of the load flywheel; the central shaft sequentially penetrates through the magnetic suspension chassis, the magnetic disc and the load-bearing flywheel from bottom to top; the magnetic suspension chassis is fixed above the base through a support rod on the support frame; the central position of the magnetic suspension chassis is provided with a through hole, and the central shaft passes through the through hole and can rotate relative to the magnetic suspension chassis; the connection relation between the load flywheel and the central shaft is fixed connection.

The further improvement lies in that: the upper surface of the magnetic suspension chassis is provided with a plurality of third magnets; a plurality of fourth magnets are arranged on the lower surface of the magnetic disk; the positions of the third magnets correspond to the positions of the fourth magnets one by one; the central connecting line direction of the N pole and the S pole of the fourth magnet is vertical to the magnetic suspension chassis; the load flywheel is suspended above the magnetic suspension chassis by means of magnetic repulsion of the third magnet and the fourth magnet.

The further improvement lies in that: the movable plate is fixedly connected with the bottom of the supporting plate; the movable plate is movably connected with the base through a fastening device.

Compared with the prior art, the invention has the beneficial effects that:

part of electric energy generated by the generator is transmitted back to the speed regulating motor through the electric control box, and the speed regulating motor can continuously control the rotation of the driving disc; the first magnet on the carousel and the second magnet of the driving-disc on the driving-disc produce repulsion, make the carousel rotate, and be contactless drive between carousel and the driving-disc, reduce coefficient of friction, the rotation of driving-disc lasts the rotation of drive carousel to reach the purpose of circulation electricity generation. The electric power generated by the generator is used for supplying energy to the magnetic driving part, the electric energy required by the driving motor to the commercial power is reduced, energy is saved, and carbon is reduced, so that the whole power generation system does not need more external energy output any more, and continuous internal circulation power generation is realized.

Utilize the carousel, first magnet, the driving-disc, second magnet, parts such as driving motor, start driving motor, rotation through driving motor makes the second magnet on the driving-disc rotate, because homopolar magnetic force repels and makes the first magnet on the carousel rotate, the rotational speed through adjusting driving motor makes the second magnet on the driving-disc have different rotational speeds, also make the carousel have different rotational speeds simultaneously, solve current magnetic drive device, the structure is complicated, the loss is big, the uncontrollable problem of speed, the efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of a magnetic cycle power generation system according to the present invention;

FIG. 2 is a schematic top view of a driving disk and a turntable of a magnetic circulation power generation system according to the present invention;

description of reference numerals:

1-base, 2-movable plate, 3-support plate, 4-generator, 5-support frame, 6-magnetic suspension chassis, 7-third magnet, 8-electricity control box, 9-drive plate, 10-fourth magnet, 11-support rod, 12-central shaft, 13-rotary table, 14-first magnet, 15-second magnet, 16-drive motor, 17-load flywheel and 18-magnetic disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 and 2, a magnetic circulation power generation system includes a base 1, a generator 4, a magnetic driving device, a central shaft 12, a driving motor 16, a support plate 3, and an electricity control box 8; the generator 4 is arranged on the base 1, and a rotor of the generator 4 is connected with the bottom of the central shaft 12; the magnetic driving device is connected with the top of the central shaft 12; the supporting plate 3 is connected with the base 1; the driving motor 16 is fixed on the top of the supporting plate 3, and a rotating shaft of the driving motor 16 is connected with the magnetic driving device; the electricity control box 8 is arranged on the base 1; the input end of the electricity control box 8 is electrically connected with the commercial power output end; the output end of the electricity control box 8 is electrically connected with the driving motor 16.

The output end of the generator 4 is electrically connected with the electricity control box 8, and part of electricity generated by the generator 4 is supplied to the driving motor 16 through the electricity control box 8; the driving motor 16 is a speed-adjustable motor.

The driving device comprises the rotary disc 13 and a driving disc 9; the rotary disc 13 and the driving disc 9 are both in a cylindrical shape; the top of the central shaft 12 is fixedly connected with a rotary table 13; a plurality of grooves are formed in the top end surface of the rotary table 13, and first magnets 14 are arranged in the grooves respectively; the driving disc 9 is fixedly connected with a rotating shaft of a driving motor 16; a plurality of grooves are formed in the top end surface of the driving disc 9, and second magnets 15 are arranged in the grooves respectively; the turntable 13 and the drive disc 9 are located on the same horizontal plane.

The first magnet 14 is flatly placed in a groove on the rotary disc 13 at a certain inclination angle, the central connecting line direction of the N pole and the S pole is parallel to the surface of the rotary disc 13 and is not intersected with the axis of the rotary disc 13 and the axis extension line, the N pole of the first magnet 14 faces inwards, and the S pole of the first magnet faces outwards; or with the N pole facing outward and the S pole facing inward. In a preferred embodiment of the present invention, an extension line of a center line of poles of first magnet 14N, S forms an included angle of 45 ° with an extension line of a radial direction of a position of turntable 13 where first magnet 14 is located.

The second magnet 15 is flatly placed in the groove on the driving disc 9 at a certain inclination angle, the central connecting line direction of the N pole and the S pole of the second magnet 15 is parallel to the surface of the driving disc 9 and does not intersect with the axis of the driving disc 9 and the axis extension line, and the outward polarity of the first magnet 14 on the rotating disc 13 is the same as the outward polarity of the second magnet 15 on the driving disc 9.

The arc distance between the arc points corresponding to the outward sides of the two adjacent first magnets 14 on the rotating disk 13 is equal to the arc distance between the arc points corresponding to the outward sides of the two adjacent second magnets 15 on the driving disk 9. That is, the arc distance from point a to point B in fig. 2 is equal to the arc distance from point C to point D.

The suspension device comprises a magnetic suspension chassis 6, a load flywheel 17 and a magnetic disc 18 fixedly connected with the bottom of the load flywheel 17; the central shaft 12 sequentially penetrates through the magnetic suspension chassis 6, the magnetic disc 18 and the load flywheel 17 from bottom to top; the magnetic suspension chassis 6 is fixed above the base 1 through a support rod 11 on the support frame 5; a through hole is arranged at the center of the magnetic suspension chassis 6, and the central shaft 12 passes through the through hole and can rotate relative to the magnetic suspension chassis 6; the connection relationship between the load flywheel 17 and the central shaft 12 is fixed connection.

The upper surface of the magnetic suspension chassis 6 is provided with a plurality of third magnets 7; a plurality of fourth magnets 10 are arranged on the lower surface of the magnetic disk; the positions of the third magnets 7 and the positions of the fourth magnets 10 are in one-to-one correspondence; the central connecting line direction of the N pole and the S pole of the fourth magnet 10 is vertical to the magnetic suspension chassis 6; the weight flywheel 17 is suspended above the magnetic suspension chassis 6 by means of the magnetic repulsion of the third magnet 7 and the fourth magnet 10.

The movable plate 2 is fixedly connected with the bottom of the support plate 3; the movable plate 2 is movably connected with the base 1 through a fastening device; the movable plate 2 and the base 1 can move when the fastening device is loosened; the movable plate 2 and the base 1 are fixed and immovable when the fastening device is locked.

In this embodiment, firstly, an operator starts the driving motor 16 through the power control box 8, the driving motor 16 rotates to drive the driving disk 9 to rotate, the driving disk 9 drives the second magnet 15 thereon to rotate, the first magnet 14 on the rotating disk 13 rotates due to the action of magnetic force, and the central shaft 12 is also driven to rotate, so that the power generation of the generator 4 is realized, if the distance between the rotating disk 13 and the driving disk 9 needs to be adjusted, the fastening device can be loosened, then the movable plate 2 is moved, the distance between the rotating disk 13 and the driving disk 9 becomes longer, and the rotating disk 13 is not stopped slowly by repulsive force. Part of electric energy generated by the generator 4 is transmitted back to the driving motor 16 through the electric control box 8, and the driving motor 16 can continuously control the rotation of the driving disc 9; the whole power generation system does not need more external energy output any more, and continuous internal circulation power generation is realized.

Utilize carousel 13, first magnet 14, driving-disc 9, second magnet 15, parts such as driving motor 16, start driving motor 16, rotation through driving motor 16 makes second magnet 15 on the driving-disc 9 rotate, because homopolar magnetic force repels mutually makes first magnet 14 on the carousel 13 rotate, the rotational speed through adjusting driving motor 16 makes second magnet 15 on the driving-disc 9 have different rotational speeds, also make carousel 13 have different rotational speeds simultaneously, the slew velocity of going to control carousel 13 through the slew velocity of control driving-disc 9, it is complicated to solve current magnetic drive device structure, the loss is big, the uncontrollable problem of speed, the efficiency of enterprise has been improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.