CN113098232A - Manufacturing method for driving machine to run by magnetic repulsion force of magnetic attraction - Google Patents

Abstract

The invention discloses a method for manufacturing a machine driven by magnetic repulsion force, which comprises a permanent magnet and an electromagnet, wherein a connecting rod is connected with a crankshaft, a generator 4 is connected on the crankshaft, the permanent magnet is fixed on the connecting rod, the electromagnet is connected on a power supply through a switch, and the magnetic repulsion force between the permanent magnet and the electromagnet is utilized to drive the connecting rod to operate under the magnetic repulsion force to drive the whole system to operate. The magnetic repulsion force of the magnetic attraction force can not generate waste gas when pushing the whole system to operate, and no fuel is required to be added, so that the influence on the environment is greatly reduced, and the national policy of energy conservation and emission reduction is met.

Description

Manufacturing method for driving machine to run by magnetic repulsion force of magnetic attraction

Technical Field

The invention relates to a method for manufacturing an engine, in particular to a method for manufacturing a motor by using magnetic repulsion force to drive a machine to run.

Background

For a long time, people commonly use gasoline and diesel oil as fuel, and use the energy of gasoline and diesel oil combustion to do work in internal combustion engines, and the internal combustion engines have the defects of environment damage caused by exhaust gas, noise and the like, and are not beneficial to environmental protection. In recent years, with the development of science and technology, a series of novel engines are researched, wherein the engines use electric energy or solar energy as power, do not discharge waste gas and waste heat, have stable performance, but have high manufacturing cost and inconvenient daily maintenance.

Technical scheme

The invention aims to overcome the defects in the prior art and provides the novel multifunctional electric heating cooker with simple structure, low price and flexible operation. The manufacturing method of driving machinery to operate by magnetic repulsion force, utilize the magnetic attraction force between the permanent magnet electromagnets, the magnetic repulsion force between the permanent magnet electromagnets, the magnetic attraction force between permanent magnet and permanent magnet, the magnetic repulsion force between permanent magnet and permanent magnet, the magnetic attraction force between electromagnet and electromagnet, the magnetic repulsion force between electromagnet and electromagnet, the manufacturing method of driving machinery to operate by magnetic repulsion force under the magnetic attraction force magnetic repulsion force interaction that the push link (or other parts that can fix the permanent magnet) takes the whole system to operate. Explaining what is magnetic attraction and repulsion: magnetic attraction force magnetic repulsion force is not discovered, confirmed, researched and named up to now, the magnetic attraction force is generated by mutual attraction between magnets and is called as Panying magnetic attraction force, the magnetic attraction force is called as magnetic attraction force for Panying, the magnetic attraction force is required to be generated under the condition that 1, two or more magnets or substances 2 capable of mutually attracting are required to be arranged, and the distance between the magnets or the substances 2 is changed or is in a changed magnetic field; the magnetic repulsion is the repulsion force generated by mutual repulsion between magnets, which is called Pan-Roi magnetic repulsion, and is called magnetic repulsion for short, and the magnetic repulsion is generated under the condition that 1, two or more magnets or substances 2 capable of mutual repulsion are required to be arranged, and the distance between the magnets or the substances 2 is changed or is in a changed magnetic field.

In order to achieve the above purpose, the present invention is implemented by the following technical scheme, a manufacturing method for driving a machine to operate by magnetic repulsion force comprises a permanent magnet (or substances capable of attracting each other) 1, an electromagnet 2, a crankshaft (or other transmission devices) 3, a generator 4, a base [5], a power supply 6, a switch (or other control circuit switching on/off device) 7, a power transmission output device 8, a connecting rod (or other fixed permanent magnet components) 9, a lead wire 10, wherein the positions of the permanent magnet (or substances capable of attracting each other) 1 and the electromagnet 2 can be interchanged, and the magnetic force generated by the permanent magnet 1 acts on the electromagnet 2 and the electromagnet 2 is fixed on the connecting rod (or other fixed permanent magnet components) 9.

The invention can also divide the electromagnet 2 into two parts, electromagnet 21 and electromagnet 22, the electromagnet 21 and the permanent magnet (or the mutually attractive substance [ I ] and the top contact electromagnet 22 and the permanent magnet (or the mutually attractive substance [ I ] and the bottom contact), the connecting rod (or other fixed permanent magnet parts) 9 passes through the electromagnet 22 and can move back and forth, and the permanent magnet 1 can also be divided into two parts, permanent magnet 11 and permanent magnet 12.

Alternatively, the switch (or other control circuit switching device) 7 may be divided into two parts, the switch (or other control circuit switching device) 71 is connected to the electromagnet 21, and the switch (or other control circuit switching device) 72 is connected to the electromagnet 22.

The force acting due to the back and forth movement of the connecting rod (or other fixed permanent magnet component) 9 of the present invention is a magnetic repulsive force. The magnetic repulsion force of the magnetic attraction force can not generate waste gas when being generated, and no fuel is required to be added, so that compared with the existing internal combustion engine, the influence of the internal combustion engine on the environment during working is greatly reduced, and the national policy of energy conservation and emission reduction is met.

Description of the drawings:

FIG. 1: is a structural view of embodiment 1 of the present invention

FIG. 2: is a structural view of embodiment 2 of the present invention

FIG. 3: is a structural view of embodiment 3 of the present invention

FIG. 4: is a structural view of embodiment 4 of the present invention

FIG. 5: is a structural view of embodiment 5 of the present invention

Detailed Description

The invention is described in detail below with reference to the accompanying drawings and embodiments

Embodiment 1 in fig. 1, a power supply 6 is connected with a switch (or other control circuit power-on/off device 7 through a lead 10, the switch (or other control circuit power-on/off device) 7 is connected with an electromagnet 2 through a lead 10 to control the power-on/off time of the electromagnet 2, i.e. the time and the size of the magnetic repulsion force generated between the electromagnet and a permanent magnet are controlled, the permanent magnet 1 is fixed on a connecting rod (or other fixed permanent magnet component) 9, the connecting rod (or other fixed permanent magnet component) 9 is connected with a crankshaft (or other transmission device) 3, the crankshaft (or other transmission device) 3 is connected with a generator 4, the generator 4 is connected with the power supply 6 through a lead 10, a base [5] is connected with and supports all components, the electromagnet 2 is electrified to generate repulsion with the permanent magnet 1 under the action of the magnetic repulsion force, the connecting rod, when connecting rod (or other fixed permanent magnet parts) 9 moves down to the end under the effect of magnetic repulsion, because permanent magnet 1 can attract electromagnet 2 (this is the characteristic of permanent magnet) that is in the outage state this moment, permanent magnet 1 and electromagnet 2 attract under the effect of magnetic attraction, connecting rod (or other fixed permanent magnet parts) 9 upward movement and drive system operation under the effect of magnetic attraction, connecting rod (or other fixed permanent magnet parts) 9 back and forth movement is realized under the effect of magnetic repulsion magnetic attraction. The condition that the magnetic repulsion force is generated is 1, two or more magnetic pole bodies or mutually repulsive substances 2 are required to be provided, and the distance between the two magnetic pole bodies or the mutually repulsive substances is changed or is in a changed magnetic field; the "magnetic attraction" should be generated with the proviso that 1, two or more magnets or mutually attractable substances 2 must be present, the distance between them is varied or within a varying magnetic field. The electromagnet 2 is a CEH type electromagnet (a common electromagnet) or a CPH type electromagnet (an electric control permanent magnet electromagnet or a power-off sucker electromagnet) or other types of electromagnets. The shape and form of the link (or other member for fixing the permanent magnet) 9 may be any shape and form as necessary. The shape and form of the crankshaft (or other transmission device) 3 may be any shape and form as required. The shape and form of the base 5 may be any shape and form as required. The base 5 may be one or more sets as required. As shown in fig. 1

Compared with embodiment 1, embodiment 2 differs from embodiment 1 in that the position of the permanent magnet 1 is exchanged with the electromagnet 2, and the electromagnet 2 is fixed on the connecting rod (or other fixed permanent magnet component) 9. As shown in fig. 2

Compared with the embodiments 1 and 2, the embodiment 3 is different from the embodiments 1 and 2 in that the electromagnet 2 is divided into two parts, the electromagnets 21 and 22, the electromagnet 21 is in contact with the top of the permanent magnet (or the mutually attractive substance) 1, the electromagnet 22 is in contact with the permanent magnet (or the mutually attractive substance) 1, the connecting rod (or other fixed permanent magnet part) 9 passes through the electromagnet 22 and can move back and forth, the connecting rod (or other fixed permanent magnet part) 9 is under the magnetic repulsion force formed by the electromagnet 21 and the permanent magnet at the top end, the connecting rod (or other fixed permanent magnet part) 9 is under the magnetic attraction force formed by the permanent magnet 1 and the electromagnet 22 during the downward movement of the connecting rod (or other fixed permanent magnet part) 9, and the electromagnet 22 is in the power-off state when the connecting rod (or other fixed permanent magnet part); the connecting rod (or other fixed permanent magnet component) 9 moves from the tail end to the top end, the electromagnet 22 forms magnetic repulsion with the permanent magnet 1, and the electromagnet 21 forms magnetic attraction with the permanent magnet 1. The magnetic repulsion force and the magnetic attraction force push the connecting rod (or other fixed permanent magnet components) 9 to move downwards; the magnetic repulsion force and the magnetic attraction force also push the connecting rod (or other fixed permanent magnet components) 9 to move upwards. As shown in fig. 3

Embodiment 4 differs from embodiments 1, 2 and 3 in that the permanent magnet 1 is divided into two parts, a permanent magnet 11 and a permanent magnet 12.

The distinguishing switch (or other control circuit power-on and power-off device) 7 of the embodiment 5 and the embodiments 1, 2, 3 and 4 is divided into two parts, the switch (or other control circuit power-on and power-off device) 71 is connected with the electromagnet 21, and the switch (or other control circuit power-on and power-off device) 72 is connected with the electromagnet 22. As shown in fig. 4

Scope of protection of the present application

1. The present invention is not limited to the above-described embodiments, and various modifications made by those skilled in the art based on the above-described conception are within the scope of the present invention.

2. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope and are not to be construed as limiting the claim to which reference is made.

3. The method and the device are all within the protection scope of the application as long as the method and the device drive the connecting rod (or other fixed permanent magnet components) to move back and forth by utilizing the magnetic repulsion force of the magnetic attraction force so as to drive the system to operate.

Claims (5)

1. A method for manufacturing a machine driven by magnetic repulsion force comprises: permanent magnet (or mutually attractive substances) [1], electromagnet [2], crankshaft (or other transmission device) [3], generator [4], base [5], power supply [6], switch (or other control circuit on-off device) [7], power transmission output device [8], connecting rod (or other fixed permanent magnet component) [9], and lead [10], which is characterized in that the magnetic repulsion force of the electromagnet [2] of the permanent magnet [1] is utilized, the magnetic attraction force of the electromagnet [2] of the permanent magnet [1] pushes the connecting rod (or other fixed permanent magnet component) [9] to run under the action of the magnetic repulsion force, thereby driving the whole system to run, the permanent magnet [1] is fixed on the connecting rod (or other fixed permanent magnet component) [9], the connecting rod (or other fixed permanent magnet component) [9] is connected on the crankshaft (or other transmission device) [3], the crank shaft (or other transmission device) 3 is connected with the generator 4, the power transmission output device 8 is connected with the crank shaft (or other transmission device) 3, the power supply 6 is connected with the switch (or other control circuit on-off device) 7 through a lead 10, the switch (or other control circuit on-off device) 7 is connected with the electromagnet 2 through the lead 10, the generator 4 is connected with the power supply 6 through the lead 10, the generator 4 is connected with the crank shaft (or other transmission device) 3, and the base 5 provides supporting connection for all components.

2. A method for making a machine driven by magnetic repulsion force according to claim 1, wherein said permanent magnet (or the mutually attracting substances) 1 and electromagnet 2 are interchanged, and the electromagnet 2 is fixed on the connecting rod (or other fixed permanent magnet member) 9.

3. A method for making a machine according to claim 1 or 2 by magnetic repulsion force of magnetic attraction to operate said machine, characterized in that said electromagnet [2] is divided into two parts, an electromagnet [21] and an electromagnet [22], said electromagnet [21] and said permanent magnet (or said mutually attracting substance [1] and said top contact electromagnet [22] and said permanent magnet (or said mutually attracting substance [1] bottom contact, said connecting rod (or other fixed permanent magnet part) [9] passing through said electromagnet [22 ].

4. A method for manufacturing a machine driven by magnetic repulsion force of magnetic attraction according to claim 1, 2 or 3, characterized in that said permanent magnet (1) is divided into two parts, permanent magnet (11) and permanent magnet (12).

5. A method for making a machine with magnetic repulsion according to claims 1, 2, 3 or 4, characterized in that the switch (or other control circuit switching device) [7] is divided into two parts, the switch (or other control circuit switching device) [71] is connected to the electromagnet [21], and the switch (or other control circuit switching device) [72] is connected to the electromagnet [22 ].

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