阅读说明：本技术 闭合磁动力机 (Closed magnetic power machine ) 是由 王云海 于 2019-01-08 设计创作，主要内容包括：本发明公开了闭合磁动力机,它包括轴1、静架13、启停电机19、机架33组成。轴1内腔设有N个动磁铁6和齿环11、静架13设有N个齿轮12、齿轮轴16两端装有转向齿轮10、齿轮轴16通过齿轮轴承15与静架固定、再将N个静磁铁轴5、推力轴承35、静磁铁轮轴承座18,静磁铁轴承36,静磁铁架9安装一体,静左磁铁4和静右磁铁8分别粘接到静磁铁架9预留腔内、按不同角度用四个静齿轮轴承座固定螺栓37固定,静齿轮7与转向齿轮10咬合,插入轴1空腔里、N个齿轮12与齿环11咬合、形成联动同步整体,静架13整体在启停电机19推动下,静架13向里移动,动磁铁6和静左磁铁4和静右磁铁8分别产生排斥力,使轴形成连续旋转对外输出动力。(The invention discloses a closed magnetic power machine, which comprises a shaft 1, a static frame 13, a start-stop motor 19 and a frame 33. N movable magnets 6 and a gear ring 11 are arranged in an inner cavity of a shaft 1, N gears 12 are arranged on a static frame 13, steering gears 10 are arranged at two ends of a gear shaft 16, the gear shaft 16 is fixed with the static frame through a gear bearing 15, N static magnet shafts 5, a thrust bearing 35, static magnet bearing seats 18 and static magnet bearings 36 are further fixed into a whole, the static magnet frame 9 is integrally installed, a static left magnet 4 and a static right magnet 8 are respectively adhered into a reserved cavity of the static magnet frame 9 and are fixed by four static gear bearing seat fixing bolts 37 according to different angles, the static gear 7 is meshed with the steering gears 10 and inserted into a cavity of the shaft 1, the N gears 12 are meshed with the gear ring 11 to form a linkage synchronous whole, the static frame 13 is pushed by a start-stop motor 19 to move inwards, and the movable magnets 6, the static left magnet 4 and the static right magnet 8 respectively generate repulsive force, so that the shaft forms continuous rotation and outputs power outwards.)

1. The closed magnetic power machine is characterized by comprising a shaft (1), a static frame (13), a start-stop motor (19) and a rack (33). The shaft (1) is a specially-made shaft, N movable magnet (6) cavities and a gear ring (11) are reserved in a cavity of the shaft (1), the movable magnets (6) are placed in the movable magnet (6) cavities and are bonded by glue, the bearing (2) and the bearing seat (3) are pressed into the reserved positions of the shaft, the assembled shaft (1) bearing seat (3) is placed into a rack (33) and is fixed by a bearing seat fixing bolt (34); on a static frame (13), a frame tube (14) with external splines is welded in a reserved hole of the static frame (13), N gears (12) are respectively pressed into reserved positions of a gear shaft (16), four gear bearings (15) are respectively pressed into reserved positions of two ends of the gear shaft (16), the assembled gear bearing (15) is inserted into a reserved hole (39) of the static frame, gear bearing end covers (38) are pressed into two ends, steering gears (10) are pressed into two ends of the gear shaft (16), N static magnet shafts (5) are respectively assembled, a thrust bearing (35) is sleeved into the static magnet shaft (5) and is inserted into a static magnet bearing seat (18), a static magnet bearing (36) is pressed, a static magnet frame (9) is pressed into one end of the static magnet shaft (5), a static gear (7) is pressed into the other end of the static magnet shaft (5), and the assembled static magnet bearing seat (18) is then, fixing a static magnet frame (9) by four static gear bearing seat fixing bolts (37) according to different angles, meshing a static gear (7) with a steering gear (10), pressing a two-way thrust bearing (29) into a reserved position of a screw rod (31), pressing an outer ring of the two-way thrust bearing (29) into a reserved hole at the end of an outer pipe (26), pressing one end of the screw rod (31) into a screw rod chain wheel (30), pressing one end of the outer pipe (26) into a round hole of a static magnet frame seat (25), then pushing an installed integral frame pipe (14) into an inner spline of the outer pipe (26) according to the reserved spline position, screwing the screw rod (31) into a screw hole arranged at one end of the frame pipe (14) by utilizing a rotating screw rod chain wheel (30), continuously rotating the screw rod chain wheel (30), pulling the integral frame pipe (14) to the bottom, placing a static left magnet (4) and a static right magnet (8) into a reserved cavity of the static magnet frame (9), bonding by using glue, inserting the whole static frame into the inner cavity of the shaft (1) after the static frame is installed, occluding N gears (12) with a gear ring (11), aligning a static magnet frame seat (25) with a reserved hole of a rack (33), and fixing by using a static magnet frame seat fixing bolt (32); the starting and stopping motor (19) is pressed into a motor chain wheel (21) through a starting and stopping motor shaft (22), a transmission chain (20) is sleeved into a screw rod chain wheel (30), the starting and stopping motor (19) is integrally placed on a starting and stopping motor fixing frame (24) and sleeved into the transmission chain (20) and fixed through a starting and stopping motor fixing bolt (23), and the complete machine assembly of the closed magnetic power machine is completed.

Starting a closed magnetic power machine: electrifying a start-stop motor (19), positively rotating the start-stop motor (19), driving a screw chain wheel (30) and a screw (31) to rotate through a transmission chain (20), pushing an integral static frame to move inwards through a frame pipe (14) thread by the screw (31), when N groups of static left magnets (4) and static right magnets (8) with different angles are parallel to and opposite to a moving magnet (6), utilizing N magnetic poles of the static left magnets (4) and the static right magnets (8) and N magnetic poles of the moving magnet (6) to generate mutual repulsive force to push a shaft (1) to rotate, driving N circumferential gears (12) and a gear shaft (16) by a gear ring (11) of the shaft (1), turning gears (10) at two ends, static gears (7) at two ends, static shafts (5) at two ends and static iron frames (9) to synchronously rotate in positive and negative directions, and mutual repulsive forces are generated on N groups of static left magnets (4) and static right magnets (8) of the shaft (6) at different times respectively, therefore, the shaft (1) forms a continuous axial radial thrust, so that the shaft (1) has the energy of outputting rotary power.

Stopping closing the magnetic power machine: the starting and stopping motor (19) is electrified, the starting and stopping motor (19) rotates reversely, the screw rod chain wheel (30) and the screw rod (31) are driven to rotate through the transmission chain (20), the screw rod (31) pushes the whole static frame to move outwards through the frame pipe (14) threads, the N groups of static left magnets (4) and static right magnets (8) are separated from the N magnetic pole faces of the movable magnets (6), the mutual repulsive force is cancelled, the shaft (1) loses power, and the shaft (1) stops.

2. A closed magnetic power machine according to claim 1, characterized in that said static frame (13) is placed inside the shaft (1) to increase the radius of the shaft (1) and increase the power output.

3. A closed magnetic power machine according to claim 1, wherein the ring gear (11) of the shaft (1) drives the circumferential N gears (12), the gear shaft (16), the two-end steering gear (10), the two-end static gears (7), the two-end static magnet shafts (5), and the two-end static magnet frames (9) to synchronously rotate in the forward and reverse directions, so that the static left magnet (4), the static right magnet (8), and the moving magnet (6) form a relative synchronous motion, thereby ensuring that the magnets are alternately and continuously provided for the shaft (1) to repel the magnetic force, and forming stable power supply.

4. A closed magnetic power machine according to claim 1, characterized in that the moving magnet (6) and the static left magnet (4) and the static right magnet (8) form an inserted compressed magnetic line to obtain repulsive force, which can optimize the magnetic application.

5. A closed magnetic power machine according to claim 1, wherein any modification, equivalent replacement, improvement and the like within the spirit and principle of the present invention that the moving magnet 6 rotates in the radial direction of the shaft 1, the static left magnet 4 and the static right magnet 8 rotate in the synchronous closing linkage in the transverse direction of the shaft 1 to extract the power energy of the repulsive force and the attractive force of the permanent magnets are included in the protection scope of the present invention.

Background

Wind energy, light energy, water energy and tidal energy existing in nature can be converted into electric energy or other mechanical energy by means of equipment. The energy extraction of wind, light, water, tide and the like has the defects of being limited by time and regions. The permanent magnet has the characteristics that like poles repel and opposite poles attract, and the attraction includes energy, the energy is not limited by time, weather and other conditions, the permanent magnet is a pure green energy source, the attraction includes energy in the attraction of the permanent magnet as an entry point, and the attraction and repulsion magnetomotive force energy of the permanent magnet is obtained by adopting a mechanical logic mode, so that the novel power machine is formed.

Disclosure of Invention

The invention aims to provide a closed magnetic power machine, which aims to solve the problem that the characteristics of permanent magnets, like poles repel each other and opposite poles attract each other, extracts the repelling power energy of the permanent magnets by means of a mechanical logic combination mode, inputs the repelling power energy into the closed magnetic power machine, enables the closed magnetic power machine to obtain the rotary power energy, and is used as a novel source power machine to drive a generator and other passive power equipment to work.

The invention is realized by the following steps: a closed magnetic power machine comprises a shaft, a static frame, a start-stop motor and a frame. The shaft is a specially-made shaft, N movable magnet cavities and gear rings are reserved in a shaft cavity, movable magnets are placed in the movable magnet cavities and are bonded by glue, a bearing and a bearing seat are pressed into a reserved position of the shaft, the assembled shaft bearing seat is placed in a rack and is fixed by a bearing seat fixing bolt; on a static frame, welding a frame tube with an external spline in a reserved hole of the static frame, respectively pressing N gears into reserved positions of gear shafts, respectively pressing four gear bearings into reserved positions of two ends of the gear shafts, respectively pressing assembled gear bearings into the reserved hole of the static frame, pressing end covers of the gear bearings into two ends of the gear shafts, pressing steering gears into two ends of the gear shafts, respectively assembling N static magnet shafts, respectively fitting thrust bearings into the static magnet shafts, inserting the static magnet shaft into a static magnet wheel bearing seat, pressing the static magnet bearings, pressing a static magnet frame into one end of the static magnet shaft, pressing a static gear into the other end of the static magnet shaft, fixing the static magnet frame by four static gear bearing seat fixing bolts according to different angles, meshing the static gear with the steering gears, pressing a bidirectional thrust bearing into a reserved position of a screw rod, and pressing an outer ring of the bidirectional thrust bearing into a reserved hole at the end of the external tube, pressing one end of a screw rod into a screw rod chain wheel, pressing one end of an outer pipe into a round hole of a static magnet frame seat, then pushing an installed integral frame pipe into an inner spline of the outer pipe according to the position of a reserved spline, screwing the screw rod into the screw hole formed in one end of the frame pipe by utilizing a rotating screw rod chain wheel, continuously rotating the screw rod chain wheel, pulling the integral frame pipe to the bottom, putting a static left magnet and a static right magnet into a reserved cavity of the static magnet frame, bonding the static left magnet and the static right magnet by using glue, inserting the integral static frame into an inner cavity of a shaft after the static frame is installed, meshing N gears with a gear ring, aligning the static magnet frame seat with a reserved hole of a frame, and fixing the static magnet frame seat by using; and (3) pressing a motor shaft of the start-stop motor into a motor chain wheel, sleeving a transmission chain into the screw rod chain wheel, putting the start-stop motor on a start-stop motor fixing frame integrally, sleeving the transmission chain, fixing the start-stop motor by using a start-stop motor fixing bolt, and completing the complete machine assembly of the closed magnetic power machine.

Starting a closed magnetic power machine: the starting and stopping motor is electrified, the starting and stopping motor rotates forwards, the screw rod chain wheel and the screw rod are driven to rotate through the transmission chain, the screw rod pushes the whole static frame to move inwards through frame pipe threads, when N groups of static left magnets and static right magnets with different angles are parallel to and opposite to the moving magnet, the N magnetic poles of the static left magnets and the static right magnets and the N magnetic poles of the moving magnet are utilized to generate mutual repulsive force to push the shaft to rotate, the shaft tooth belt drives the circumferential N gears and the gear shaft, the steering gears at two ends, the static magnet shafts at two ends and the static magnet frames at two ends rotate synchronously in the forward and reverse directions, and the N groups of static left magnets and the static right magnets respectively generate mutual alternate repulsive force to the N groups of moving magnets at different times, so that the shaft forms a continuous axial and radial thrust, and the shaft.

Stopping closing the magnetic power machine: the start-stop motor is electrified, the start-stop motor rotates reversely, the screw rod chain wheel and the screw rod are driven to rotate through the transmission chain, the screw rod pushes the whole static frame to move outwards through the frame pipe thread, the N groups of static left magnets and static right magnets are separated from the N magnetic pole faces of the moving magnets, mutual repulsion force is cancelled, the shaft loses power, and the shaft stops.

By using the technical scheme, the continuous and uninterrupted rotational power energy is formed by reasonably applying the mutual repulsive force and the mutual attractive force of the permanent magnets in a mechanical logic mode and generating the closed magnetic power machine with new clean energy.

Drawings

FIG. 1 is a front half-section structural view of a closed magnetic power machine;

2A-A are side cross-sectional views of a closed magnetic power machine;

fig. 3 is a front view of the magnetostatic iron frame 9 of the closed magnetic power machine;

FIG. 4 is a side view of a closed magnetic power machine magnetostatic iron frame 9;

5B-B are rear side views of the closed magnetomotive machine shaft 1;

Detailed Description

In order to achieve the purpose, technical solutions and advantages of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 is a front half sectional view structural diagram of a closed magnetic power machine, fig. 2A-a are side sectional views of the closed magnetic power machine, fig. 3 is a front view of a static magnet frame 9 of the closed magnetic power machine, fig. 4 is a side view of the static magnet frame 9 of the closed magnetic power machine, and fig. 5B-B are rear side views of a shaft 1 of the closed magnetic power machine.

The invention is realized by the following steps: a closed magnetic power machine comprises a shaft 1, a static frame 13, a start-stop motor 19 and a frame 33. The shaft 1 is a specially-made shaft, N movable magnet 6 cavities and a toothed ring 11 are reserved in the cavity of the shaft 1, the movable magnets 6 are placed in the movable magnet 6 cavities and are bonded by glue, the bearing 2 and the bearing seat 3 are pressed into the reserved positions of the shaft, the assembled shaft 1 and the bearing seat 3 are placed in the rack 33 and are fixed by the bearing seat fixing bolts 34; on a static frame 13, a frame tube 14 with external splines is welded in a reserved hole of the static frame 13, N gears 12 are respectively pressed into reserved positions of a gear shaft 16, four gear bearings 15 are respectively pressed into reserved positions of two ends of the gear shaft 16, an assembled gear bearing 15 is inserted into a reserved hole 39 of the static frame, gear bearing end covers 38 are pressed into two ends, steering gears 10 are pressed into two ends of the gear shaft 16, N static magnet shafts 5 are respectively assembled, a thrust bearing 35 is sleeved into the static magnet shaft 5, a bearing seat 18 of the static magnet shaft is inserted, a bearing 36 of the static magnet is pressed, a static magnet frame 9 is pressed into one end of the static magnet shaft 5, the other end of the static magnet shaft 5 is pressed into a static gear 7, the assembled bearing seat 18 of the static magnet frame 9 is fixed by four fixing bolts 37 of the static gear seat according to different angles, the static gear 7 is meshed with the steering gears 10, a bidirectional thrust bearing 29 is pressed into a reserved position of a screw 31, then pressing the outer ring of the bidirectional thrust bearing 29 into a reserved hole at the end of the outer tube 26, pressing one end of a screw 31 into a screw chain wheel 30, pressing one end of the outer tube 26 into a round hole of a static magnet frame seat 25, then pushing the installed integral frame tube 14 into a spline in the outer tube 26 according to the reserved spline position, screwing the screw 31 into a screw hole arranged at one end of the frame tube 14 by rotating the screw chain wheel 30, continuing to rotate the screw chain wheel 30, pulling the integral frame tube 14 to the bottom, putting the static left magnet 4 and the static right magnet 8 into a reserved cavity of the static magnet frame 9, bonding by using glue, completing the installation of the static frame, inserting the integral static frame into the inner cavity of the shaft 1, meshing the N gears 12 with the toothed ring 11, aligning the reserved hole of the static magnet frame seat 25 with a reserved hole of a frame 33, and fixing by using a static magnet frame; and (3) pressing a start-stop motor 19 and a start-stop motor shaft 22 into a motor chain wheel 21, sleeving a transmission chain 20 into a screw rod chain wheel 30, putting the whole start-stop motor 19 onto a start-stop motor fixing frame 24, sleeving the transmission chain 20, fixing by using a start-stop motor fixing bolt 23, and completing the whole assembly of the closed magnetic power machine.

Starting a closed magnetic power machine: the start-stop motor 19 is electrified, the start-stop motor 19 rotates forwards to drive the screw chain wheel 30 and the screw 31 to rotate through the transmission chain 20, the screw 31 pushes the integral static frame to move inwards through the threads of the frame pipe 14, when two static left magnets 4 and two static right magnets 8 with different angles in the N groups are parallel to and opposite to the moving magnet 6, the mutual repulsion force is generated by the N magnetic poles of the static left magnet 4 and the static right magnet 8 and the N magnetic pole of the movable magnet 6, the shaft 1 is pushed to rotate, the gear ring 11 of the shaft 1 drives the circumferential N gears 12 and the gear shaft 16, the steering gears 10 at the two ends, the static gears 7 at the two ends, the static magnet shafts 5 at the two ends and the static magnet frames 9 at the two ends synchronously rotate in the positive and negative directions, the N groups of static left magnets 4 and the static right magnets 8 respectively generate the mutual alternative repulsion force to the movable magnet 6 of the shaft 1N groups at different time, therefore, the shaft 1 forms a continuous axial radial thrust, so that the shaft 1 has the output rotary power energy.

Stopping closing the magnetic power machine: the start-stop motor 19 is electrified, the start-stop motor 19 rotates reversely, the screw rod chain wheel 30 and the screw rod 31 are driven to rotate through the transmission chain 20, the screw rod 31 pushes the whole static frame to move outwards through the frame pipe 14 threads, the N groups of static left magnets 4 and static right magnets 8 are separated from the N magnetic pole faces of the movable magnets 6, mutual repulsive force is cancelled, the shaft 1 loses power, and the shaft 1 stops.

By using the technical scheme, the continuous and uninterrupted rotational power energy is formed by reasonably applying the mutual repulsive force and the mutual attractive force of the permanent magnets in a mechanical logic mode and generating the closed magnetic power machine with new clean energy.

The above description is only for the preferred embodiment of the present invention, and not intended to limit the present invention, and any modification made within the spirit and principle of the present invention that the moving and static magnets move relatively to each other to insert the compressed magnetic force lines to generate the elastic and attractive force energy, whether the magnets obtain the power by single repulsion or single attraction, equivalent replacement and improvement, etc., should be included in the protection scope of the present invention.