阅读说明：本技术 一种磁力发电系统 (Magnetic 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发电系统,包括底座、支撑架、发电机、磁力驱动装置、悬浮装置、中心轴；所述发电机设置底座上,发电机转子与中心轴的底部连接；所述悬浮装置包括磁浮底盘、负重飞轮以及和负重飞轮底部固定连接的磁盘；所述中心轴从下到上依次穿过磁浮底盘、磁盘、负重飞轮；所述磁浮底盘上表面设置有多个第一磁铁；所述磁盘的下表面设置有多个第二磁铁；所述负重飞轮依靠第一磁铁与第二磁铁磁性相斥而悬浮在磁浮底盘上方。通过磁悬浮技术,通过磁场斥力抵消掉重力,使得转动装置悬浮于空中,再由中心轴带动转动装置转动,消除了原有转动装置必须与支撑转动装置的基础部件产生机械接触,从而在转动时产生的机械摩擦减少,降低耗损。(The invention discloses a magnetic power generation system, which comprises a base, a support frame, a generator, a magnetic driving device, a suspension device and a central shaft, wherein the support frame 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 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 upper surface of the magnetic suspension chassis is provided with a plurality of first magnets; a plurality of second magnets are arranged on the lower surface of the magnetic disk; the loading flywheel is suspended above the magnetic suspension chassis by means of magnetic repulsion of the first magnet and the second magnet. Through the magnetic suspension technology, gravity is offset through magnetic field repulsive force, so that the rotating device is suspended in the air, and then the rotating device is driven by the central shaft to rotate, thereby eliminating the problem that the original rotating device is in mechanical contact with a base part supporting the rotating device, reducing mechanical friction generated during rotation and reducing loss.)

1. A magnetic power generation system, characterized by: comprises a base, a supporting frame, a generator, a magnetic driving device, a suspension device and a central shaft; the generator is arranged on the base, and a generator rotor is connected with the bottom of the central shaft; 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 plate 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 upper surface of the magnetic suspension chassis is provided with a plurality of first magnets; a plurality of second magnets are arranged on the lower surface of the magnetic disk; the loading flywheel is suspended above the magnetic suspension chassis by means of magnetic repulsion of the first magnet and the second magnet; the magnetic driving device is connected with the top of the central shaft.

2. A magnetic power generation system according to claim 1, wherein: the magnetic driving device comprises a turntable and a first magnetic head; the center pin top fixedly connected with carousel, a plurality of recesses have been seted up on the top surface of carousel, and is a plurality of be provided with the third magnet in the recess respectively, the upper surface of base is provided with first pole, the top lateral wall of first pole rotates and is connected with the second pole, the first magnetic head of one end lateral wall fixedly connected with of first pole is kept away from to the second pole.

3. A magnetic power generation system according to claim 2, wherein: the third magnet is placed in a mode that the N pole faces upwards and the S pole faces downwards; or the S pole faces upwards and the N pole faces downwards; the third magnet is not perpendicular to the turntable but inclined at a certain angle, and an extension line of a central connecting line of an N pole and an S pole of the third magnet does not intersect with the central shaft and the extension line of the central shaft.

4. A magnetic power generation system according to claim 3, wherein: the first magnetic head is positioned above the turntable and is vertical to the turntable, and the first magnetic head is over against any one of the third magnets; the polarity of one side of the first magnetic head facing the third magnet is the same as that of the side of the third magnet facing upwards; the second rod rotates in a mode of turning up and down by taking the top end of the first rod as an axis; the first rod is connected with the base in a rotating mode, and the first rod can rotate by taking the axis of the first rod as a circle center.

5. A magnetic power generation system according to claim 2, wherein: the third 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 third magnet faces inwards, and the S pole of the third magnet faces outwards; or with the N pole facing outward and the S pole facing inward.

6. A magnetic power generation system according to claim 5, characterized by: the first magnetic head is positioned on one side of the turntable and is positioned on the same horizontal plane with the turntable; the polarity of one side of the first magnetic head facing the turntable is the same as the polarity of the outward side of the third magnet on the turntable; the second rod rotates horizontally with the top end of the first rod as an axis.

7. A magnetic power generation system according to claim 1, wherein: the connection relation between the load flywheel and the central shaft is fixed connection.

8. A magnetic power generation system according to claim 1, wherein: the connecting line direction of the centers of the N pole and the S pole of the second magnet is vertical to the magnetic suspension chassis.

9. A magnetic power generation system according to claim 1, wherein: the connecting line direction of the centers of the N pole and the S pole of the second magnet is not perpendicular to the magnetic suspension chassis but inclines for a certain angle to form an included angle with the magnetic suspension chassis; and the extension line of the central connecting line of the N pole and the S pole of the second magnet does not intersect with the central shaft and the extension line of the central shaft.

10. A magnetic power generation system according to claim 2, wherein: the first rod is movably connected with the second rod through a fastening device; the first rod is movably connected with the base through a second fastening device.

Technical Field

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

Background

The generator is a mechanical device which converts other forms of energy into electric energy, is driven by a water turbine, a steam turbine, a diesel engine or other power machines, converts energy generated by water flow, air flow, fuel combustion or atomic fission into mechanical energy to be transmitted to the generator, and then converts the mechanical energy into electric energy, the generator has wide application in industrial and agricultural production, national defense, science and technology and daily life, the generator has many forms, but the working principle of the generator is based on the electromagnetic induction law and the electromagnetic force law, so the general principle of the structure is as follows: appropriate magnetic conductive and electric conductive materials are used to form a magnetic circuit and a circuit which mutually perform electromagnetic induction so as to generate electromagnetic power and achieve the purpose of energy conversion.

Magnetic force, can be used as good energy, and has no pollution, energy saving and carbon reduction. Magnetic actuation generally uses either the same repelling force of the poles or the opposite attracting force of the poles as the driving force. The magnetic driving device can drive the generator and other mechanisms by using pollution-free magnetic force, thereby achieving the purposes of saving energy and reducing carbon. However, the existing magnetic driving device has a complex structure and large loss, so that the problem of complex structure and large loss in the existing magnetic driving device is more and more important to solve.

Disclosure of Invention

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

a magnetic power generation system comprises a base, a support frame, a generator, a magnetic driving device, a suspension device and a central shaft; the generator is arranged on the base, and a generator rotor is connected with the bottom of the central shaft; 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 plate 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 upper surface of the magnetic suspension chassis is provided with a plurality of first magnets; a plurality of second magnets are arranged on the lower surface of the magnetic disk; the loading flywheel is suspended above the magnetic suspension chassis by means of magnetic repulsion of the first magnet and the second magnet; the magnetic driving device is connected with the top of the central shaft.

The further improvement lies in that: the magnetic driving device comprises a turntable and a first magnetic head; the center pin top fixedly connected with carousel, a plurality of recesses have been seted up on the top surface of carousel, and is a plurality of be provided with the third magnet in the recess respectively, the upper surface of base is provided with first pole, the top lateral wall of first pole rotates and is connected with the second pole, the first magnetic head of one end lateral wall fixedly connected with of first pole is kept away from to the second pole.

The further improvement lies in that: the third magnet is placed in a mode that the N pole faces upwards and the S pole faces downwards; or the S pole faces upwards and the N pole faces downwards; the third magnet is not perpendicular to the turntable but inclined at a certain angle, and an extension line of a central connecting line of an N pole and an S pole of the third magnet does not intersect with the central shaft and the extension line of the central shaft.

The further improvement lies in that: the first magnetic head is positioned above the turntable and is vertical to the turntable, and the first magnetic head is over against any one of the third magnets; the polarity of one side of the first magnetic head facing the third magnet is the same as that of the side of the third magnet facing upwards; the second rod rotates in a mode of turning up and down by taking the top end of the first rod as an axis; the first rod is connected with the base in a rotating mode, and the first rod can rotate by taking the axis of the first rod as a circle center.

The further improvement lies in that: the third 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 third magnet faces inwards, and the S pole of the third magnet faces outwards; or with the N pole facing outward and the S pole facing inward.

The further improvement lies in that: the first magnetic head is positioned on one side of the turntable and is positioned on the same horizontal plane with the turntable; the polarity of one side of the first magnetic head facing the turntable is the same as the polarity of the outward side of the third magnet on the turntable; the second rod rotates horizontally with the top end of the first rod as an axis.

The further improvement lies in that: the connection relation between the load flywheel and the central shaft is fixed connection.

The further improvement lies in that: the connecting line direction of the centers of the N pole and the S pole of the second magnet is vertical to the magnetic suspension chassis.

The further improvement lies in that: the connecting line direction of the centers of the N pole and the S pole of the second magnet is not perpendicular to the magnetic suspension chassis but inclines for a certain angle to form an included angle with the magnetic suspension chassis; and the extension line of the central connecting line of the N pole and the S pole of the second magnet does not intersect with the central shaft and the extension line of the central shaft.

The further improvement lies in that: the first rod is movably connected with the second rod through a fastening device; the first rod is movably connected with the base through a second fastening device.

The invention has the beneficial effects that: the like poles of the first magnetic head and the magnets on the turntable repel each other, so that the formed repulsion force pushes the turntable to rotate, and no pollution is caused; the second rod is overturned to the right side of the first rod, and then the first rod is rotated by 180 degrees, so that the magnetic head changes repulsion force to the magnet into attraction force to the magnet, and the turntable is conveniently stopped. Through the magnetic suspension technology, gravity is offset through magnetic field repulsion, so that the rotating device is suspended in the air, and then the rotating device is driven by the central shaft to rotate, thereby solving the problem that the original rotating device is required to be connected with a basic component for supporting the rotating device to generate mechanical contact, reducing the mechanical friction generated during rotation, saving energy and reducing loss.

Drawings

Fig. 1 is a schematic structural diagram of a magnetic power generation system according to an embodiment of the present invention;

fig. 2 is a top view of a surface of a turntable of a magnetic power generation system according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a magnetic power generation system according to a second embodiment of the present invention;

fig. 4 is a top view of a surface of a turntable of a magnetic power generation system according to a second embodiment of the present invention;

fig. 5 is a schematic diagram of a principle that a connecting line of centers of an N pole and an S pole of a second magnet in a magnetic power generation system according to the second embodiment of the present invention is not perpendicular to a magnetic levitation chassis, but inclines at a certain angle, and forms an included angle with the magnetic levitation chassis.

Description of reference numerals:

1-base, 2-first rod, 3-second rod, 4-generator, 5-magnetic suspension chassis, 6-support frame, 7-first magnet, 8-magnetic disc, 9-weight flywheel, 10-second magnet, 11-support plate, 12-central shaft, 13-rotary table, 14-third magnet and 15-first magnetic head.

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.