阅读说明：本技术 一种摇摆式磁动力内推结构 (Swing type magnetomotive internal pushing structure ) 是由 罗治斌 朱瑞震 吴建洪 于 2018-07-24 设计创作，主要内容包括：本发明公开了一种摇摆式磁动力内推结构,包括摇摆架组件、磁铁座组件一、磁铁座组件二、曲轴组件、磁铁主体组件和横向磁铁座组件,利用磁场中的S极N极有相斥、相吸的特性而产生的移动距离被引出来推动机械运动,通过杠杆原理：摇摆驱动链轮驱动摇摆架摇摆移动磁铁座组件一或磁铁座组件二上磁铁,当磁铁与横向磁铁座组件上磁铁相遇时,因磁性相同,两磁铁之间产生的推力,横向磁铁座组件上磁铁沿导向槽移动中,在导向推板的作用下,推动偏心轴进行旋转,用少量电能,在运动中介入磁力介体,将原动力激发和放大,推动高能量发电机产生新电能储入蓄电池供驱动电机持续工作,颠覆传统能源和传统机械运动的影响力。(The invention discloses a swing type magnetomotive force internal pushing structure, which comprises a swing frame component, a magnet seat component I, a magnet seat component II, a crankshaft component, a magnet main body component and a transverse magnet seat component, wherein the moving distance generated by the repulsion and attraction characteristics of S poles and N poles in a magnetic field is drawn out to push a machine to move, and the lever principle is adopted: swing drive sprocket drive and sway frame and sway removal magnet seat subassembly one or magnet seat subassembly two and go up magnet, when magnet and horizontal magnet seat subassembly on magnet meet, because of magnetism is the same, the thrust that produces between two magnets, magnet moves along the guide way on the horizontal magnet seat subassembly, under the effect of direction push pedal, it rotates to promote the eccentric shaft, with a small amount of electric energy, intervene magnetic force mediator in the motion, arouse motive power and enlargie, promote high energy generator and produce new electric energy and store into battery and supply driving motor continuous operation, the influence power of the traditional energy of subversing and traditional mechanical motion.)

1. A swing type magnetomotive push-in structure comprises a swing frame assembly (2), a first magnet base assembly (3), a second magnet base assembly (4), a crankshaft assembly (5), a main magnet body assembly (9) and a transverse magnet base assembly (13), and is characterized in that the swing frame assembly (2) consists of a swing frame (10) and a rotating shaft, a swing driving chain wheel (12) is arranged at the bottom of the swing frame assembly (2), the main magnet body assembly (9) is arranged above the swing frame (10), the left side and the right side of the main magnet body assembly (9) are respectively provided with the first magnet base assembly (3) and the second magnet base assembly (4), magnets (14) are respectively arranged on the first magnet base assembly (3) and the second magnet base assembly (4), a guide groove (8) is arranged at the upper part of the main magnet body assembly (9), and a guide push plate (15) is arranged in the guide groove (8), a transverse magnet seat assembly (13) is arranged in the guide groove (8), and a crankshaft assembly (5) is arranged in the guide groove (8).

2. The swing type magnetomotive push-in structure according to claim 1, wherein the middle part of the swing frame (10) is erected on the rotating shaft and swings left and right around the rotating shaft, and the middle part of the bottom end of the swing frame (10) is provided with a kidney-shaped groove (1).

3. The swing type magnetomotive push-in structure according to claim 2, wherein the eccentric shaft (11) of the swing driving sprocket (12) is movably arranged in the kidney-shaped groove (1) of the swing frame (10), and the swing driving sprocket (12) is rotated by a motor or manpower.

4. The oscillating magnetomotive push-in structure according to claim 1, wherein the first magnet holder assembly (3) and the second magnet holder assembly (4) are hinged to two ends of the upper part of the oscillating frame (10).

5. The oscillating magnetomotive push-in structure according to claim 4, wherein the magnet (14) is a pure neodymium iron boron magnet, a unidirectional polar sleeve of the magnet is arranged on the magnet (14), and the upper end of the magnet (14) shows polarity.

6. The oscillating magnetomotive push-in structure according to claim 5, wherein the magnets are mounted on the lateral magnet holder assembly (13), and the polarity of the magnets of the lateral magnet holder assembly (13) is the same as the polarity of the magnets of the adjacent magnet holder assemblies, and is arranged in the adjacent positions with the same polarity of S polarity and N polarity.

7. The oscillating magnetomotive push-in structure according to claim 1, wherein the crankshaft assembly (5) is provided with a crankshaft (6), and the crankshaft (6) is connected with an output sprocket (7).

8. A rocking magnetomotive push-in structure according to claim 1, wherein when the rocking frame assembly (2) is in the neutral position, the magnet holder assembly one (3) and the magnet holder assembly two (4) on both sides are in the same horizontal position, not in the same position as the transverse magnet holder assembly (13), and the magnetic properties are in a static state.

Technical Field

The invention relates to the field of machinery, in particular to a swing type magnetomotive push-in structure.

Background

In the age that petroleum resources are increasingly exhausted and 'free sources' are not available in the green and yellow and the electric energy storage is not mature, the search for new energy is urgent. Secondly, all objects on the earth are influenced by the earth magnetic field, S poles and N poles in the magnetic field have the characteristics of repulsion and attraction, and by utilizing the characteristics of attraction and repulsion of the magnetic field polarities, how to lead out inexhaustible magnetomotive force in nature to benefit human beings becomes one of the problems of changing the traditional mechanical motion main dynamic force.

As is well known, the Nd-Fe-B magnet material can work in the environment of 200 ℃, theoretically, the Nd-Fe-B magnet can never demagnetize, the comprehensive cost of energy can be reduced, and the moving comprehensiveness of a vehicle can be improved.

Therefore, it is necessary to design a swinging magnetomotive thrusting structure which can utilize the repulsion and attraction characteristics of the S pole and the N pole in the magnetic field, and can use a small amount of electric energy to be excited and amplified by a magnetic field medium, so that the initial electric energy can play a larger role, and the influence of the traditional energy and the traditional mechanical motion is overturned, and the generated moving distance is led out to push the mechanical motion, so as to utilize inexhaustible magnetomotive force in the nature to lead out to benefit the human beings, and change the main dynamic force of the traditional mechanical motion.

Disclosure of Invention

Aiming at the defects of the prior art, all objects on the earth are influenced by the earth magnetic field, and the S pole and the N pole in the magnetic field have the characteristics of repulsion and attraction. The invention aims to provide a swinging type magnetomotive internal pushing structure, which utilizes a technology that the moving distance generated by the repulsion and the attraction of S poles and N poles of a magnetic field is drawn out to push a machine to move, and solves the problems in the background technology.

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

the utility model provides a formula of swaing magnetomotive is structure of pushing away in, includes and sways frame subassembly, magnet seat subassembly one, magnet seat subassembly two, bent axle subassembly, magnet main part subassembly and horizontal magnet seat subassembly, it comprises rocking frame and pivot to sway the frame subassembly, and rocking frame subassembly bottom is equipped with sways driving sprocket, it is equipped with magnet main part subassembly to sway the frame top, and the magnet main part subassembly left and right sides is provided with magnet seat subassembly one and magnet seat subassembly two respectively, all install magnet on magnet seat subassembly one and the magnet seat subassembly two, magnet main part subassembly upper portion is equipped with the guide way, installs the direction push pedal in the guide way, is equipped with horizontal magnet seat subassembly in the guide way, installs the bent axle subassembly in the guide way.

As a further scheme of the invention, the middle part of the swing frame is erected on the rotating shaft and swings left and right around the rotating shaft, and the middle part of the bottom end of the swing frame is provided with a kidney-shaped groove.

As a further scheme of the invention, the eccentric shaft on the swing driving chain wheel is movably arranged in the kidney-shaped groove of the swing frame, and the swing driving chain wheel is rotated by a motor or manpower.

As a further scheme of the invention, the first magnet seat assembly and the second magnet seat assembly are respectively hinged with two ends of the upper part of the swing frame.

As a further scheme of the invention, the magnet is a pure neodymium iron boron magnet, a magnet unidirectional polar sleeve is arranged on the magnet, and the upper end of the magnet shows polarity.

In a further aspect of the present invention, the magnets are mounted on the lateral magnet holder assemblies, and the magnets of the lateral magnet holder assemblies have the same polarity as the magnets of the adjacent magnet holder assemblies and are arranged in adjacent positions having the same polarity of S-polarity and N-polarity.

As a further scheme of the invention, the crankshaft assembly is provided with a crankshaft, and the crankshaft is connected with an output chain wheel.

As a further aspect of the present invention, when the rocking frame assembly is in the middle position, the first magnet base assembly and the second magnet base assembly on both sides are in the same horizontal position and are not in the same position as the lateral magnet base assembly, and the magnetic properties are in a static state.

In conclusion, compared with the prior art, the invention has the following beneficial effects:

the invention relates to a swing type magnetomotive force internal pushing structure, which utilizes the characteristic that S pole and N pole in a magnetic field have repulsion and attraction to generate a moving distance to be led out to push a machine to move, and adopts the lever principle: when the magnets meet the magnets on the transverse magnet seat assembly, thrust generated between the two magnets due to the same magnetism is generated, the magnets on the transverse magnet seat assembly move along the guide grooves, the eccentric shaft is pushed to rotate under the action of the guide push plate, a small amount of electric energy is used, a magnetic force mediator is involved in the movement, motive power is excited and amplified, and a high-energy generator is pushed to generate new electric energy to be stored in a storage battery for the continuous work of a driving motor.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic cross-sectional view of a transverse magnet holder assembly of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a left side view of the magnet body assembly of the present invention.

FIG. 5 is a schematic view of the eccentric shaft according to the present invention.

Reference numerals: the device comprises a 1-kidney-shaped groove, a 2-swinging frame component, a 3-magnet base component I, a 4-magnet base component II, a 5-crankshaft component, a 6-crankshaft, a 7-output chain wheel, an 8-guide groove, a 9-magnet main body component, a 10-swinging frame, an 11-eccentric shaft, a 12-swinging driving chain wheel, a 13-transverse magnet base component, a 14-magnet and a 15-guiding push plate.

Detailed Description

The technical solution of the present invention is further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-5, a swing type magnetomotive internal pushing structure comprises a swing frame assembly 2, a magnet base assembly I3, a magnet base assembly II 4, a crankshaft assembly 5, a magnet main body assembly 9 and a transverse magnet base assembly 13, wherein the swing frame assembly 2 comprises a swing frame 10 and a rotating shaft, the middle of the swing frame 10 is erected on the rotating shaft and swings left and right around the rotating shaft, a kidney-shaped groove 1 is formed in the middle of the bottom end of the swing frame 10, a swing driving chain wheel 12 is arranged at the bottom of the swing frame assembly 2, an eccentric shaft 11 on the swing driving chain wheel 12 is movably arranged in the kidney-shaped groove 1 of the swing frame 10, and the swing driving chain wheel 12 below the swing frame assembly 2 is rotated through a motor or manpower, and the eccentric shaft 11 on the swing driving chain wheel 12 moves in the kidney-shaped groove 1 of the swing.

A magnet main body assembly 9 is arranged above the swing frame 10, a magnet base assembly I3 and a magnet base assembly II 4 are respectively arranged on the left side and the right side of the magnet main body assembly 9, and the magnet base assembly I3 and the magnet base assembly II 4 are respectively hinged with two ends of the upper part of the swing frame 10; the first magnet seat assembly 3 and the second magnet seat assembly 4 are both provided with magnets 14, the magnets 14 are pure neodymium iron boron magnets, the magnets 14 are provided with unidirectional polar sleeves of the magnets, and the upper ends of the magnets 14 show polarities.

The upper part of the magnet main body component 9 is provided with a guide groove 8, a guide push plate 15 is arranged in the guide groove 8, and a transverse magnet seat component 13 is arranged in the guide groove 8; the magnets are mounted on the transverse magnet base assembly 13, and the polarities of the magnets of the transverse magnet base assembly 13 are the same as those of the magnets of the adjacent magnet base assemblies and are arranged in the adjacent positions with the same polarities of S polarity and N polarity.

When the rocking frame assembly 2 rocks, it pushes the first magnet holder assembly 3 and the second magnet holder assembly 4 towards each other, and when one set of magnets 14 of the magnet holder assemblies moves to the horizontal position of the transverse magnet holder assembly 13, the same magnetic properties of the two adjacent sets of magnets generate a pushing force that pushes the transverse magnet holder assembly 13 towards the other side.

The first magnet base assembly 3 and the second magnet base assembly 4 are respectively arranged on the left side and the right side of the magnet main body assembly 9 and move in succession during working.

The crankshaft assembly 5 is installed in the guide groove 8, the crankshaft 6 is arranged on the crankshaft assembly 5, the crankshaft 6 is connected with the output chain wheel 7, and when the transverse magnet seat assembly 13 moves in the guide groove 8 and pushes the crankshaft 6 on the crankshaft assembly 5, the crankshaft 6 rotates within a set range and position; the crankshaft 6 on the crankshaft assembly 5 rotates and then completes all actions of mechanical movement through the rotation of the output chain wheel 7.

When the rocking frame assembly 2 is in the middle position, the magnet base assemblies one 3 and two 4 on both sides are in the same horizontal position and are not in the same position as the transverse magnet base assembly 13, and the magnetic property is in a static state.

The invention relates to a swing type magnetomotive force internal pushing structure, which utilizes the characteristic that S pole and N pole in a magnetic field have repulsion and attraction to generate a moving distance to be led out to push a machine to move, and adopts the lever principle: when the magnet 14 meets the magnet on the transverse magnet seat assembly 13, due to the fact that the magnetism of the magnet 14 is the same, the magnet on the transverse magnet seat assembly 13 moves along the guide groove 8 in the process of thrust generated between the two magnets due to the fact that the magnetism of the magnet 14 is the same, the eccentric shaft 11 is pushed to rotate under the action of the guide push plate 15, a small amount of electric energy is used, a magnetic force medium is inserted in the process of movement, the motive power is excited and amplified, and the high-energy generator is pushed to generate new electric energy which is stored in a storage battery to be continuously driven by the motor.

In the invention, the selected pure neodymium iron boron magnet material can work at 200 ℃, theoretically never demagnetizes, can reduce the comprehensive cost of energy and improve the movement comprehensiveness of vehicles.

On the basis of Newton energy conservation, a magnetic force mediator is introduced into an original system, magnetic force excitation and amplification are performed, and new energy is generated by combining the two systems.

The technical structure of the present invention has been described above in connection with the specific embodiments, which are merely preferred embodiments of the present invention. The protection scope of the present invention is not limited to the above embodiments, and any technical solutions and similar moving structures belonging to the idea of the present invention belong to the protection scope of the present invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty, and such will fall within the scope of the invention.