CN117639554A - Chain drive magnetic motor - Google Patents
Chain drive magnetic motor Download PDFInfo
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- CN117639554A CN117639554A CN202211009403.3A CN202211009403A CN117639554A CN 117639554 A CN117639554 A CN 117639554A CN 202211009403 A CN202211009403 A CN 202211009403A CN 117639554 A CN117639554 A CN 117639554A
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- 238000010248 power generation Methods 0.000 claims description 11
- 238000000034 method Methods 0.000 abstract description 2
- 230000003872 anastomosis Effects 0.000 abstract 1
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- 229910000831 Steel Inorganic materials 0.000 description 1
- 238000013459 approach Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
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- 238000004519 manufacturing process Methods 0.000 description 1
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Abstract
The invention provides a chain drive magnetic motor. It has long been found that there is physical rationality and possibility to work with the magnetic repulsive force of permanent magnets, but no technical method has been found to convert this magnetic force into a mechanical force that can be exploited. Mainly the problem of transmission mode. The clamping phenomenon can occur in the gear transmission for a pair of mutually opposite forces, and the slipping problem can occur in the friction transmission. The invention transfers the force generated by mutual repulsion of the same-name power generating poles of the magnetic rotor and the magnetic stator to the chain wheel by utilizing the bevel gear, and then converts the magnetic acting force into mechanical force which can be output outwards by the anastomosis of the chain wheel and the special-shaped chain. After the teeth of the chain wheel are inserted into the chain links, the magnetic repulsive force is transmitted to the central transmission main shaft, and then the teeth of the chain wheel are released through the rolling of the chain cylinder or the chain roller, so that the transmission can be continued. The magnetic motor is an engine, directly drives the working machine, does not consume other energy materials and discharge any substances, and is a good family partner which does not eat and drink dry and alive for a lifetime.
Description
Field of the art
The invention relates to the technical field of chain transmission magnetomotive machine.
(II) background art
The inventor of the present invention has filed an invention application in 2010, 8 and 20 days. In this application it is proposed that: the magnetic motor consists of a transmission mechanism, a magnetic engine, a control mechanism and a casing. The transmission mechanism consists of a central transmission main shaft with a power output mechanism, one or more rotating arms taking the central transmission main shaft as a rotating shaft, a rotary table connected with the rotating arms in a plane, an annular track taking the central transmission main shaft as a circle center, and one or more track rotating wheels which are arranged at the end parts of the rotating arms and rotate in a directional manner along the annular track. The magnetic engine is a power generating mechanism composed of a magnetic stator and a magnetic rotor. When the power generating pole of the magnetic rotor rotates to a state opposite to the end face of the magnetic stator, which is the same name with the power generating pole and has the smallest air gap, a magnetic acting force for pushing the track rotating wheel to rotate forwards is generated, so that the magnetic motor which enables the central transmission main shaft to rotate continuously and can output power outwards is formed.
The above description of this application correctly determines the operating principle and the basic structural form of the magnetic motor, but presents a great technical obstacle during the experimental process. When the magnetic rotor approaches the magnetic stator or the magnetic pole end faces are opposite, a force which is reversely pushed backwards along the bottom rim of the track rotating wheel but can enable the track rotating wheel to rotate forwards is generated, and at the moment, the gear transmission is in a clamping state or the friction transmission is slipped, so that the magnetic motor cannot continuously rotate.
The object of the present application is to solve the technical problems of the above-described original invention and to make a magnetic motor practical from the intended technical solution.
(III) summary of the invention
The invention aims to solve the technical problem of finding a transmission mechanism, so that a magnetic motor can transmit magnetic acting forces with the same poles and repulsive to each other and can transmit larger magnetic acting force at the same time.
The technical scheme adopted by the invention is to manufacture a chain transmission magnetic motor. The main components of the magnetic motor comprise a central transmission main shaft with a power output mechanism, rotating arms taking the central transmission main shaft as a rotating shaft, turntables connected with the rotating arms in a surface shape, an annular track taking the central transmission main shaft as a circle center, and one or more track rotating wheels which are arranged at the end parts of the rotating arms and directionally rotate along the annular track. The annular rail and the supporting wall of the chain transmission magnetic motor are not vertical, but incline to the center according to the circumference and curvature of the annular rail. The bottom surface of the corresponding machine is not a horizontal surface, and the corresponding machine is in the shape of an inverted umbrella, and is in the shape of a cone with a downward vertex angle. The lower edge of the conical surface is supported by a cylinder. Each arm is also parallel to the tangent of the longitudinal section of the machine bottom surface. The posture of each relevant part is adjusted accordingly. The power generating mechanism consists of magnetic stator and magnetic rotor with the same name. The magnetic stator is composed of U-shaped permanent magnets or other magnetic components with the same magnetic circuit property. The magnetic pole cylindrical surface of the magnetic stator is parallel to the wall surface of the track rotating wheel. The power generating electrode is positioned at the front edge of the advancing direction of the track rotating wheel. The conjoined end of the magnetic stator is fixed on the bracket. The bracket is mounted on the magnetic stator annular positioner. The annular positioner moves back and forth in a small range around the support wall of the track rotating wheel and is controlled by a baffle piece which can be flattened or sprung on the machine bottom plate according to the requirement. The magnetic rotor is arranged on the inner side surface of the track rotating wheel, and the magnetic pole end surface of the power generation pole faces to the opposite direction of the rotating direction of the track rotating wheel. When the power generation pole of the magnetic rotor rotates to be close to the power generation pole of the same name of the magnetic stator, magnetic repulsive force for pushing the track rotating wheel to rotate forwards is generated. The transmission of the magnetic motor is completed by the track rotating wheel which is transmitted to the chain wheel through the bevel gear. An upper rotating arm is arranged on the upper part of each rotating arm and is parallel to the rotating arm, the distance between the upper rotating arm and the rotating arm is not smaller than the radius of the track rotating wheel, and the end point of the outward extension exceeds the track rotating wheel. And fixedly hoisting a gear box at the upper rotating arm part outside the annular track. The chain of the chain transmission mechanism is a special-shaped chain which does not rotate, the plane of the chain is attached to the outer wall surface of the supporting wall, and a closed chain ring parallel to the annular track is formed along the supporting wall. The inner side surface of the track rotating wheel is provided with a magnetic rotor. The power generating pole and the magnetic stator power generating pole meet when rotating forwards. The outer side surface of the orbit runner or the edge part of the orbit runner is processed into gear teeth of a bevel gear, or a bevel gear which is coaxial with the orbit runner and has outward conical top is fixedly arranged. A vertical shaft bevel gear meshed with the gear teeth of the lower edge of the orbit runner is fixedly arranged on the bottom surface of the gear box, and a chain wheel matched with a chain is arranged below the bottom surface of the gear box through a fixed connecting shaft. The transmission process is to make the circumference of the track wheel equal to the circumference of the chain wheel or integral multiple of the circumference of the chain wheel. After the teeth of the chain wheel are matched with the chain links of the chain, the track rotating wheel is driven to rotate in the same direction along the annular track. In this way, the magnetic repulsive force between the magnetic rotor and the magnetic stator is converted by the chain drive into a mechanical force which turns the central drive spindle.
The invention has the beneficial effects that: first, the invention adopts a chain type transmission mechanism, so that the transmission of the magnetic acting forces with the same poles and repulsion is possible. The power generating poles of the magnetic stator and the magnetic rotor generate a large repulsive force when they are close to each other. The unique effect of chain drives is the ability to convert this repulsive magnetic force into a mechanical force that can be utilized. After the teeth of the chain wheel are inserted into the gaps of the chain links, firstly, the magnetic acting force is transmitted to push the chain wheel backwards along the lower edge of the track rotating wheel, and then, the teeth of the chain wheel are separated from the chain through the rotation of the chain drum or the rotary roller, so that the track rotating wheel can continuously rotate forwards. This breaks the challenges that gears and friction drives cannot overcome.
Second, the closed end of the magnetic stator is installed on the bracket, the bracket is installed on the magnetic stator annular positioner, and as long as the magnetic stator annular positioner is moved forwards and backwards, the power generation pole of the magnetic stator is far away from or near the power generation pole of the magnetic rotor, so that the acting force of the power generation mechanism is reduced, weakened or re-strengthened, and various operations such as running, decelerating, stopping or restarting of the machine can be easily realized, and the working requirements under various working conditions can be met.
Third, the magnetic motor is an engine that directly drives the work machine. The permanent magnet does not consume the magnetic energy of the permanent magnet to do work, so the permanent magnet is a machine which can not absorb any external energy and is self-sufficient for the whole life of energy.
And (IV) drawing illustration. Fig. 1 is a front view of a chain type magnetic motor transmission mechanism.
1-bevel gear teeth of a track runner; 2-a track wheel; 3-a rotation axis of the orbital wheel; 4-vertical shaft bevel gear: 5-circular tracks; 6-fixed connection shaft: 7-a sprocket; 8-special-shaped chains; 9-track wheel support wall.
Fifth) detailed description of the invention
In a first embodiment, a chain drive magnetic motor is assembled.
A magnetic motor with six track wheels is manufactured. The radius of the track rotating wheel of the magnetic motor is 12cm, the perimeter of the annular track is 452.16cm, and the diameter of the annular track is 144cm. A circular steel cylinder with the diameter of 90cm and the height of 20cm is firstly arranged on a hard plane for mounting the magnetic motor, and then a conical surface-shaped machine bottom surface with the apex angle of 170 degrees is discontinuously welded along the periphery of the cylinder. The center transmission main shaft is vertically installed at the center of the bottom surface of the machine through a bearing, six rotating arms are radiated to the periphery from the lower part to the higher part in a constant included angle and parallel to the bottom surface, and the far end close to 72cm is formed into the rotating shaft 3 of six orbit rotating wheels 2. The inner side surface of the track runner 2 is provided with a magnetic rotor, and the outer side surface is processed into gear teeth 1 of a bevel gear at the edge part of the outer side surface. The gear teeth 1 mesh with an upright shaft bevel gear 4 in the gearbox. The vertical shaft bevel gear 4 is fixedly connected with a vertical shaft sprocket 7 through a fixed connecting shaft 6. The chain wheel can be matched with the special-shaped chain 8 on the periphery of the track rotating wheel wall, and can rotate around the track supporting wall along the special-shaped chain 8. The advancing direction of the device is the same as that of the track runner 2, so that the central transmission main shaft is driven to rotate in the same direction, and the aim of outputting power outwards is fulfilled.
Claims (1)
1. The main components of the chain-driven magnetic motor include a central driving main shaft with power output mechanism, rotating arms with the central driving main shaft as rotating shaft, rotating discs connected with the rotating arms in a plane, an annular track with the central driving main shaft as circle center, one or more track rotating wheels installed on the end parts of the rotating arms and rotating along the annular track in a directional mode, the annular track (5) of the chain-driven magnetic motor and the supporting wall (9) thereof are not vertical, but incline towards the center according to the circumference and the curvature of the annular track, the bottom surface of the corresponding machine is not a horizontal plane, the shape is like an inverted umbrella, the shape is actually a cone with a downward vertex angle, the lower edge of the cone is supported by a cylinder, each rotating arm is kept parallel to the tangent line of the longitudinal section of the bottom surface of the machine, the posture of each relevant part is adjusted accordingly, the power generation mechanism consists of a magnetic stator and a magnetic rotor, the magnetic stator consists of U-shaped permanent magnets or other magnetic components with the same magnetic path property, the magnetic pole cylindrical surface of the magnetic stator is parallel to the wall surface of the track runner, the power generation pole of the magnetic stator is positioned at the front edge of the advancing direction of the track runner, the conjoined end of the magnetic stator is fixed on a bracket, the bracket is arranged on an annular positioner of the magnetic stator, the annular positioner moves back and forth in a small range in the supporting wall of the track runner, the annular positioner is controlled by a baffle piece which can be flattened or sprung up as required on a machine bottom plate, the magnetic rotor is arranged on the inner side surface of the track runner, the magnetic pole end surface of the power generation pole faces the opposite direction of the rotating direction of the track runner, when the power generation pole of the magnetic rotor rotates to be close to the same-name power generation pole of the magnetic stator, a magnetic repulsive force which can push the track runner (2) to rotate forwards is generated, the transmission of the magnetic motor is completed by driving a track runner (2) to a chain wheel (7) through a bevel gear (4), an upper rotating arm parallel to the track runner is arranged at the upper part of each rotating arm, the distance between the upper rotating arm and the rotating arm is not smaller than the radius of the track runner, the end point of the outward extension exceeds the track runner, a gear box is fixedly hoisted at the upper rotating arm part outside an annular track (5), a chain of a chain transmission mechanism is a special-shaped chain (8) which does not rotate, the plane of the chain is attached to the outer wall surface (9) of a supporting wall, a closed chain ring parallel to the annular track (5) is formed along the supporting wall, a magnetic rotor is arranged at the inner side surface of the track runner (2), a power generating pole of the magnetic rotor meets with a power generating pole of a magnetic stator when the magnetic rotor rotates forwards, a gear tooth (1) of the bevel gear is machined at the outer side surface of the track runner (2) or at the edge part of the magnetic rotor, or a vertical shaft bevel gear (4) meshed with the lower gear rim of the track runner is fixedly arranged on the bottom surface of the gear box, and a vertical shaft bevel gear (6) meshed with the lower gear rim of the track runner is fixedly arranged on the bottom surface of the gear box, and the vertical shaft bevel gear (4) is fixedly connected with the chain wheel (7) so that the chain wheel is meshed with the circumference of the chain wheel (2) along the annular track (7) or the circumference of the chain wheel (7) after the chain is fixed, the chain wheel is meshed with the chain wheel (7) and the chain wheel is meshed with the chain wheel (2) along the circumference of the track (2) or the track (7) and the circumference of the track (2) and the chain is required to rotate, the magnetic repulsive force between the magnetic rotor and the magnetic stator is converted by the chain drive into a mechanical force which turns the central drive spindle.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202210985384 | 2022-08-17 | ||
CN2022109853841 | 2022-08-17 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN117639554A true CN117639554A (en) | 2024-03-01 |
Family
ID=90030920
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202211009403.3A Pending CN117639554A (en) | 2022-08-17 | 2022-08-23 | Chain drive magnetic motor |
Country Status (1)
Country | Link |
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CN (1) | CN117639554A (en) |
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2022
- 2022-08-23 CN CN202211009403.3A patent/CN117639554A/en active Pending
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