WO2013086956A1

WO2013086956A1 - Magnetic machine composed of permanent magnet repulsive forces

Info

Publication number: WO2013086956A1
Application number: PCT/CN2012/086255
Authority: WO
Inventors: 周雪华
Original assignee: Zhou Xuehua
Priority date: 2011-12-12
Filing date: 2012-12-10
Publication date: 2013-06-20
Also published as: CN103166525A; WO2013086957A1

Abstract

Disclosed is a magnetic machine composed of permanent magnet repulsive forces, which machine set comprises a fixed position permanent magnet A and a fixed position permanent magnet B, a magnetic shielding box A and a magnetic shielding box B, a separated magnetic linkage automatic control system device, a cylindrical tank, a magnetic blaster, a support and other auxiliary installations. The fixed position permanent magnet A and the fixed position permanent magnet B are mounted on the two outer ports of the cylindrical tank respectively. The end faces of the two practical magnetic poles of the fixed position permanent magnet A and the fixed position permanent magnet B are directed to the two outer ports of the cylindrical tank respectively, with one practical magnetic pole being the N pole and the other being the S pole. The magnetic shielding box A and the magnetic shielding box B are fixed respectively abutting against the two outer ports of the cylindrical tank, the fixed position permanent magnet A and the fixed position permanent magnet B being installed within the box thereof respectively.

Description

Permanent magnet repulsion group magnetic machine

The invention relates to a power output device, in particular to a permanent magnet repulsion group magnetic machine. Background technique

Due to the current serious environmental pollution, oil and other energy sources are depleting. In order to find low-carbon green energy and environmentally friendly new energy sources, innovative research and application of using permanent magnet magnetic energy to other energy sources has been innovated. Summary of the invention

The invention utilizes the interaction force between the magnets of the same pole of the permanent magnet, that is, the magnetic repulsion is converted into power. The working principle is to use the fixed permanent magnet A and the fixed permanent magnet B to change the magnetic field relationship between the magnetic field and the magnetic punch (moving permanent magnet) in order to achieve the continuous maximum of the magnetic repulsion, thereby Permanent magnets work continuously to create power and provide active power to keep the unit running.

The technical scheme of the invention is: a permanent magnet repulsive force group magnetic machine, comprising a fixed permanent magnet A and a fixed permanent magnet B, a magnetic shielding box A and a magnetic shielding box B, a magnetic isolation linkage automatic control system device, a cylinder groove, a magnetic punch and The bracket, the fixed permanent magnet A and the fixed permanent magnet B are respectively installed at the two ports of the slot, and the magnetic pole faces of the fixed permanent magnet A and the fixed permanent magnet B are respectively in the opposite way of one pole being N pole and the other being S pole Installed in the two ports of the slot; except for the magnetic pole faces of the N and S poles of the fixed permanent magnet A and the fixed permanent magnet B, the other side is covered with a magnetic shielding material; the magnetic shielding box A and the magnetic shielding box B respectively The magnetic shielding stroboscopic shutter is respectively mounted on the outer side of the fixed permanent magnet A and the fixed permanent magnet B, and the magnetic shielding box A and the magnetic shielding box B are respectively mounted on a box surface of the outer ports of the cylinder; In addition, in the magnetic permanent magnet #N, S two practical magnetic extreme faces, the other side is covered with magnetic shielding material, a magnetic handle is installed in the middle of the magnetic handle; the magnetic isolation linkage automatic control system device is connected with the magnetic shielding stroboscopic shutter. The side of the magnetic punching off the outer end of the magnetic pole has a cylindrical sleeve, and a plurality of circular sliding beads are trapped around the outer circumference of the cylindrical sleeve. The inner wall of the cylindrical groove has a ball channel corresponding to the magnetically slidable ball. The outer side of the magnetic punch is provided with a linear bearing. The magnetically shielded stroboscopic shutter can be a mechanical magnetic shield stroboscopic shutter or a stroboscopic electronic magnetic screen door or a magnetic isolation door that can be opened and closed in an instant degaussing manner. In order to obtain a better use effect, the invention can also implement the following technical measures:

The magnetic punching strip has a cylindrical sleeve on the outer side of the two ends of the magnetic pole, and a plurality of circular sliding beads are trapped in the outer periphery of the cylindrical sleeve; the inner wall of the cylindrical groove has a ball channel corresponding to the magnetically gliding ball; With linear axis Cheng.

The magnetic isolation linkage automatic control system device connects and controls the magnetic shielding stroboscopic shutters disposed on the magnetic shielding box A and the magnetic shielding box B, and interlocks the opening and closing to change the fixed permanent magnets A in the magnetic shielding box A and the magnetic shielding box B. The magnetic isolation of the permanent magnet B is set to break the static state of the static magnetic field of the permanent magnet, causing a change, forming a changing magnetic field to perform external work, so that the magnetic potential between the two can be effectively converted into magnetic kinetic energy, thereby forming a strong magnetic field. The repulsive force causes the magnetic shock to obtain a strong explosive force between the fixed permanent magnet A3 and the fixed permanent magnet B4, so that the magnetic punch can continuously perform the reciprocating operation under the magnetic repulsion between A and B, and the magnetic punch runs in its operation. In the process, a large impulse will be obtained under the action of magnetic repulsion. In fact, in each individual single operation process (→8 or 8 →A), the power stroke is performed. After each stroke (eight → 8 or 8 → eight), it will be under the magnetic repulsion of the fixed permanent magnet. The magnetic rush replenishes the impulse, and finally reaches the continuous cycle to continuously provide power, and the active work is formed, which drives the load to work externally. Because the interaction force between the permanent magnets and the magnetic poles applied by the unit is persistent, and the magnetic isolation between the magnetic poles is timely and effective ( The magnetic shielding method is indeed feasible and will be a sufficient and necessary condition for the successful operation of the unit. This will be a new way to utilize magnetic energy (source) for permanent magnets. The new unit operation of this new unit is very similar to the independent power stroke mode of the internal combustion engine. The power stroke of the internal combustion engine is based on the high-temperature and high-pressure gas generated by the combustion of the fuel to form an explosive force. The piston drives the connecting rod, and the crankshaft performs external work. The device relies on a momentary opening of a mechanical magnetic shielding stroboscopic shutter (or an instant of electronic magnetic separation). When the disappearance and degaussing mode are turned off instantaneously, the two magnetic poles generate a large magnetic repulsive force at a close distance to form an explosive impact force to push the magnetic punch to perform external work through the power handle.

The invention has the advantages of novel concept, carbon-free environment protection, energy saving and safety. According to the above principle of the permanent magnet repulsive force magnetic machine, the utility model can be shielded (shielded) by setting a variable type (infinitely variable speed: continuous increasing or continuous decreasing) or gear type magnetic isolation. The amount of cross-sectional area (magnetic flux) is used to control the magnitude of the magnetic repulsion, which ultimately results in a continuously variable (larger or smaller) or gear-level change in output power. The unit can provide power for a wide range of mechanical equipment such as power generation, vehicles, and wheels. Moreover, compared with other power output equipment (such as steam engine, internal combustion engine, etc.), the unit has many advantages such as low noise and no heat. It has two power strokes per working cycle, and no other additional auxiliary strokes. The energy generated by the power stroke is consumed by the unit itself, with the maximum energy output, applied to the load and externally powered. At the same time, the unit can also be driven by multiple units in parallel, that is, in multiple units, depending on the power and design requirements of various mechanical equipment such as vehicles and wheels. The transmission lever is connected to the handle, and each transmission rod applies power to a crankshaft and a transmission disc to form a power combination. This is also similar to the dynamic synthesis of the external work of multiple cylinders of the internal combustion engine. BRIEF abstract

Specific features and properties of the present invention are further exemplified by the following examples and the accompanying drawings.

1 is a schematic view showing the structure of a permanent magnet repulsive force group magnetic machine of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION

The invention will be specifically described below in conjunction with the examples.

A permanent magnet repulsion group magnetic machine, the unit comprises a fixed permanent magnet A3 and a fixed permanent magnet B4 (fixed permanent magnet A3 and fixed permanent magnet B4), two magnetic shielding boxes (magnetic shielding box A1 and magnetic shielding box B2), The magnetic separation linkage automatic control system device 11, the cylinder groove 10, the magnetic punch 7 and the bracket. The fixed permanent magnet A3 and the fixed permanent magnet B4 are respectively installed corresponding to the two outer ports of the cylindrical groove 10, and the practical magnetic pole faces of the fixed permanent magnet A3 and the fixed permanent magnet B4 are respectively N-pole and the other is S-pole and groove. The outer ports of the cylinder 10 are directly opposite, except for the N pole and S pole faces of the fixed permanent magnet A3 and the fixed permanent magnet B4, and the other sides are sleeved with a tight magnetic barrier film or other magnetic shielding material. The magnetic shield case A1 and the magnetic shield case B2 respectively place the fixed permanent magnet A3 and the fixed permanent magnet B4 in the respective cases. And a magnetically shielded stroboscopic shutter 5 and a magnetically shielded stroboscopic shutter 6 are respectively disposed in the magnetic shielding box A1 and the magnetic shielding box B2 toward a one-way box surface of the two outer ports of the slot 10, respectively. The magnetic punch 7 is made of a permanent magnet, and the permanent magnet body part (except for the N and S practical magnetic pole faces) is provided with a tight magnetic barrier film mesh, and the outer periphery is tightly wrapped with a cylindrical sleeve, in a cylindrical sleeve. A plurality of circular sliding beads 9 are trapped in the outer periphery, and a ball channel corresponding to the magnetic punch 7 sliding ball 9 is disposed on the inner wall of the cylindrical groove 10. At the same time, a power handle 8 is mounted in the middle of the magnetic punch 7. The magnetic isolation linkage automatic control system device 11 adopts a microcomputer integrated circuit or a digital circuit main control, and the device mainly connects and controls the magnetic shielding stroboscopic shutter 5 and the magnetic shielding stroboscopic shutter 6 to make the magnetic shielding stroboscopic shutter 5 and the magnetic shielding. The stroboscopic shutter 6 is composed of a left-right opposite curtain-type opening and closing device or an upper and lower bounce-related device and another connected touch-sensitive switch and its accessories. It is also possible to connect and control a scientific stroboscopic electronic magnetic shielding. The door is constructed by a more effective related device for the magnetic isolation door that can be opened and closed in an instant demagnetization manner, and a touch sensitive switch and its accessories connected thereto. The core of the system is to mechanically and effectively control the magnetic shielding stroboscopic shutters respectively opened by the magnetic shielding box A1 and the magnetic shielding box B2, or the electronic magnetic shielding door and the magnetic separation by degaussing. Doors and other more scientific and effective magnetic isolation methods are reasonably linked to open and close to change the field between the fixed permanent magnet A3 and the fixed permanent magnet B4 and the magnetic punch 7 (permanent magnet) in the magnetic shield box A1 and the magnetic shield box B2. Field The field effect relationship and the magnetic isolation (magnetic shielding) method of the timely opening and closing break the static state of the static magnetic field of the permanent magnet, causing it to change, forming a changing magnetic field to perform external work, so that the magnetic potential between the two can be effectively It is converted into magnetic kinetic energy, which forms a strong magnetic repulsion, so that the magnetic punch 7 (permanent magnet) will obtain a strong explosive force between the fixed permanent magnet A3 and the fixed permanent magnet B4, respectively, so that the magnetic punch 7 can be in A, B. Under the action of the magnetic repulsion, the reciprocating operation is continuously performed, and the magnetic punch 7 will obtain a larger impulse under the action of the magnetic repulsion during its operation.

The fixed permanent magnet A3 and the fixed permanent magnet B4 are mainly used to provide a magnetic field generating device which forms a magnetic field interaction relationship (magnetic repulsive force) with the magnetic punch 7 (permanent magnet), and the fixed permanent magnet A3 and the fixed permanent magnet B4 are respectively It is fixedly mounted in the magnetic shield box A1 and the magnetic shield box B2 so that it does not move. Moreover, the practical magnetic pole faces of the fixed permanent magnet A3 and the fixed permanent magnet B4 installed in the magnetic shielding box are respectively N poles, and one S pole is opposite to the outer ports of the cylinder slots. So that it corresponds to the magnetic repulsion of the N and S poles at the two ends of the magnetic punch 7 (permanent magnet). According to the power demand of the unit, permanent magnets with different magnetic, magnetic flux, strength and density can be selected. The high-strength fixed permanent magnet can enhance the magnetic repulsive force of the magnetic punch 7 (permanent magnet) and increase the power of the magnetic punch 7 to work externally. . In order to prevent the practical magnetic pole surface of the fixed permanent magnet A3 and the fixed permanent magnet B4 and the magnetic pole end of the magnetic punch 7 (permanent magnet) in the same pole (front side), the interference generated by the other side magnetic field is diffracted to weaken the magnetic punch. 7 The adverse effect of the forward slipping is excluded, except for the end faces of the N pole and the S pole practical magnetic pole of the fixed permanent magnet A3 and the fixed permanent magnet B4, and the other sides are covered with a tight magnetic barrier film or other magnetic shielding material.

The magnetic shielding box A1 and the magnetic shielding box B2: The shielding box is mainly made of a magnetic shielding material, and is mainly used for fixing the fixed permanent magnet A3 and the fixed permanent magnet B4 in the respective boxes. The magnetic field of the fixed permanent magnet A3 and the fixed permanent magnet B4 is scientifically and reasonably controlled to be emitted outside the box. The magnetic shielding box A1 and the magnetic shielding box B2 are respectively fixedly disposed next to the outer ports of the slot. And in the magnetic shielding box A1 and the magnetic shielding box B2 respectively open a set of mechanical magnetic shielding stroboscopic shutters or a stroboscopic open and close electronic magnetic shielding door or a more It is an effective magnetic isolation door that can be opened and closed instantly by degaussing. The mechanical magnetically shielded stroboscopic shutter can be made of a lightweight and efficient magnetic shielding material. When the magnetic screen door is completely closed, the magnetic field of the fixed permanent magnet disposed in the magnetic shielding box will be completely shielded from the magnetic shielding box. Make a single fixed permanent magnet (A or B) completely independent of the static magnetic field, and can not do work externally. At this time, the magnetic field of the magnetic punch 7 (permanent magnet) can be unaffected by the magnetic field resistance of the fixed permanent magnet, so that the magnetic punch 7 (permanent magnet) can smoothly slide to the front end of the fixed magnetic permanent magnet. When the magnetic magnetic shielding stroboscopic shutter is used under the action of the magnetic isolation linkage automatic control system device When the magnetic shielding of the electronic magnetic shielding door and the degaussing magnetic door is instantaneously disappeared (closed), the magnetic field of the permanent magnet and the magnetic field of the magnetic punch 7 (permanent magnet) are instantaneously changed to form a changing magnetic field, and a magnetic field between the two magnetic poles is generated. A strong magnetic repulsion. The fixed permanent magnet will push the magnetic punch 7 (permanent magnet) with the work load to work externally. In order to facilitate the magnetic punch 7 (permanent magnet) to be highly effective and strong against the magnetic pole faces of the fixed permanent magnet A3 and the fixed permanent magnet B4, the practical magnetic pole surface of the fixed permanent magnet placed in the magnetic shielding box should be close to the ground. Placed only along the magnetically shielded stroboscopic shutter (no friction). And the mechanical magnetic shielding stroboscopic shutter should be made of high-efficiency and thin light magnetic shielding material, which is beneficial to the magnetic punch 7 (permanent magnet) magnetic field and the fixed permanent magnet A3 and the fixed permanent magnet B4 magnetic field in the magnetic shield strobe When the shutter is turned on instantaneously, the field effect between the two magnetic poles is the strongest.

Magnetic isolation linkage automatic control system device: This device is an important core device of the permanent magnet repulsion group magnetic machine. The linkage automatic control system can be controlled by a microcomputer integrated circuit (or digital circuit).

The device mainly connects and controls a conventional mechanical magnetic shielding stroboscopic shutter separately opened from the magnetic shielding box A1 and the magnetic shielding box B2, so that the mechanical stroboscopic shutters are opened and closed in a left-right opposite manner or The related equipment for bounce up and down and another connected touch sensitive switch and its accessories are constructed; an electronic magnetic screen door connected and controlled by a stroboscopic opening and closing or a magnetic isolation capable of instantaneous opening and closing in a degaussing manner may also be used. The related equipment of the door and the touch sensitive switch and its accessories connected thereto are constructed, or other more advanced and effective magnetic isolation methods are adopted. The magnetic isolation linkage automatic control system device is in an automatic closed state at one end of the mutual control A and B fixed permanent magnets, and the mechanical magnetic shielding stroboscopic shutter (or electronic magnetic isolation) effectively shields (shields) the fixed permanent magnet The magnetic field of the utility magnetic pole surface is emitted toward the outside of the magnetic shield door. When one end of the magnetic isolation device is automatically turned on, its mechanical magnetic shielding stroboscopic shutter (or electronic magnetic isolation) should be opened or pulled up or down (or changed) according to the preset gear position. The electronic shielding state) blocks the portion of the cross-sectional area of the fixed magnetic pole surface of the fixed permanent magnet or makes it all bare. The magnetic field of a part or all of the exposed practical magnetic pole faces exposed by the permanent magnets is emitted toward the outside of the magnetic shield door. Therefore, the magnetically shielded stroboscopic shutter (or electronic magnetic isolation) controlled by the magnetic separation linkage automatic control system device can most effectively effect the field effect between the fixed permanent magnet A3 and the fixed permanent magnet B4 and the magnetic punch 7 (permanent magnet). The relationship is turned on and off in a timely and accurate manner to achieve an effective representation of the maximum magnetic repulsive force between the poles. And the magnetic repulsion can be used only for useful work. When there is an adverse force in between, the mechanical magnetic shielding stroboscopic shutter (or electronic magnetic isolation) can fully and effectively occlude (magnetic shielding) in time. It solves the resistance generated by the unfavorable force between the magnetic fields. In order to ensure that the magnetic punch 7 is in the normal working operation of the fixed permanent magnet to a certain end, it is not affected by the resistance between the magnetic fields of the fixed permanent magnet at the end, and the extra work thus generated is avoided. The magnetic isolation door controlled by the magnetic isolation linkage automatic control system device Set to: When one end is magnetically opened (such as A end) and the other end (B end) magnetic isolation should be closed synchronously (magnetic shielding) to prevent the magnetic field of the permanent magnet in the B end from being placed on the magnetic punch 7 that will slide to its position. (Magnetic field) Produces interference, forming resistance, and the magnetic isolation should always be in a closed (magnetically shielded) state. Until the magnetic punch 7 is close to its nearest position and touches the touch sensitive switch of the magnetic separation linkage automatic control system device, the mechanical magnetic shield stroboscopic shutter (or electronic magnetic isolation) is evenly turned on, at that time, the other end is fixed with a permanent magnet (A end) ) Magnetic separation is synchronously closed (magnetic shielding). In this mode, the cyclic linkage between the magnetic opening and closing of the fixed permanent magnets at both ends of A and B is achieved. That is, when the magnetic field of the permanent magnet of the magnetic punch 7 is subjected to the strong repulsion of the magnetic field of the fixed permanent magnet A, an explosive impact force is formed to push the magnetic punch 7 to slide along the groove to the front end of the B, and the permanent magnet is fixed. The mechanical magnetically shielded stroboscopic shutter (or electronically isolated) at the front end of the B is in a closed (magnetically shielded) state. The magnetic field of the practical magnetic pole surface of the fixed permanent magnet B end is effectively shielded from the magnetic shield door (magnetic shielding), so that the permanent magnet (magnetic field) of the magnetic punch 7 will not be formed by the magnetic field of the fixed permanent magnet B end. The magnetic punch 7 can be smoothly slid to the front end of the fixed permanent magnet B, and touches the touch sensitive switch of the magnetic isolation linkage automatic control system device disposed at the front end of the fixed permanent magnet B, and the position is the magnetic punch 7 dynamic handle 8 and The trajectory determined by the connected external transmission acts and defines a reversing position of the reciprocation. At this time, the magnetic punch 7 (permanent magnet) and the same extreme surface of the fixed magnetic pole of the fixed permanent magnet are close to each other, and the mechanical magnetic shielding stroboscopic shutter (or electronic magnetic isolation) is utilized under the action of the magnetic sensitive touch switch. When the moment is turned on, the magnetic field of the magnetic punch 7 and the field effect of the fixed pole permanent magnet B have the strongest field force, so that the magnetic punch 7 (permanent magnet) will obtain a large instantaneous acceleration along the slot to align the fixed permanent magnet A. The end slides, and the unit is continuously operated in this mode.

Cylinder: This trough facility is primarily used to define a facility in which the magnetic punch 7 performs a reciprocating motion on its defined trajectory. The facility is made of a material that is not easily magnetized (anti-magnetization) and has an inner diameter slightly larger than the outer diameter of the cylinder of the magnetic punch 7 to ensure that the magnetic punch 7 can smoothly slide in its groove without excessive clearance. The ball channel corresponding to the magnetic sliding body of the magnetic punch 7 is mainly used to define the running track of the magnetic ball 7 body sliding ball. To ensure that the magnetic punch 7 runs stably in the tank (not sideways). At the same time, the size of the notch above the trough should be scientifically set, so that the power handle 8 placed above the magnetic punch 7 can drive the transmission device to smoothly run in the trough slot.

Magnetic Crush 7: This facility is an important manifestation of the magnetic repulsion of the entire unit. In the round-trip operation process, it is responsible for driving the external load to work externally. The magnetic punch 7 is mainly made of a permanent magnet, and the permanent magnet body part (except the N and S extreme faces) is provided with a tight magnetic shielding film or other magnetic shielding material, and the outer periphery is tightly wrapped with a cylindrical sleeve. The cylindrical sleeve is surrounded by a number of circling balls, and above it A power handle 8 is mounted in the middle to form an integral body. According to the needs of the power of the unit, the permanent magnet of the magnetic punch 7 can also be made of high-strength permanent magnets to enhance the repulsive force when it is opposite to the fixed permanent magnet A3 and the fixed permanent magnet B4, and increase the power of external work. The magnetic punch 7 is placed in the slot to ensure that the N pole and the S pole end of the magnetic punch 7 (permanent magnet) are both practical magnetic pole faces. When the magnetic punch 7 is placed, the N and S poles of the two end faces should be The N, S extreme surface and the same pole corresponding device of the fixed permanent magnet A3 and the fixed permanent magnet B4 are used to facilitate the generation of the same magnetic repulsion. In the permanent magnet body part of the magnetic punch 7 (except for the N, S practical magnetic pole faces), a tight magnetic barrier film or other magnetic shielding material is mainly used to prevent the magnetic field from the fixed permanent magnet A3 and the fixed permanent magnet B4. Interference, diffraction, etc. are formed to adversely affect the normal operation of the magnetic punch 7. The plurality of circular sliding beads trapped around the cylindrical sleeve are mainly for facilitating the reduction of frictional resistance when the magnetic punch 7 smoothly slides in the cylindrical groove. The size of the sliding ball should correspond to the ball channel provided on the inner wall of the groove to ensure that the magnetic punch 7 is stably slidable (not laterally) in the groove. The power shank 8 mounted in the middle of the upper portion of the magnetic punch 7 is mainly used to connect other transmissions that drive the transmission rod or the external load. Since the power handle 8 is connected to the transmission rod or other transmission device, under the linkage action of the linkage device (the power handle 8 and the magnetic punch 7 are integrally integrated, so the linkage rod or other external load linkage device to the power handle 8 The effect of the magnetic punch 7 is that the trajectory of the magnetic punch 7 is determined (the correlation between time and position is determined). For example, when the magnetic punch 7 is slid from a permanent magnet to the front end of another fixed permanent magnet (A to B), under the action of the transmission rod, the crankshaft and the transmission disc, the transmission rod acts on the dynamic handle of the magnetic punch 7. 8, make it finite motion in the direction of the eighth and B directions. That is, when the magnetic punch 7 slides to the position closest to the front end of the fixed permanent magnet B, the drive disk is just running for half a week, and the operation of the second half of the cycle is started, and at this time, the instantaneous speed of the magnetic punch 7 is zero, The speed has vectority. Immediately, under the action of the magnetic-sensitive touch sensitive switch, the permanent magnet B-side magnetic isolation device is turned on instantaneously. At this time, the magnetic potential between the two magnetic poles is the largest and the repulsive force is the strongest, thus forming a strong explosive force, magnetic At the 7th rush, a large acceleration will be obtained at the front end of the B. Under the acceleration and the running inertia of the lower half of the drive disc, the magnetic punch 7 will be turned into a sharp speed from B to the A direction, so that the magnetic punch 7 passes. The power handle 8, the connecting rod and the crankshaft drive the transmission disc to start the operation of the lower half of the cycle. When the magnetic punch 7 is slid to the front end of the fixed permanent magnet A, the next duty cycle is started in this mode.

Start and stop of the unit: The power handle 8 of the unit's magnetic punch 7 needs to be connected to other external power equipment. The operation of the initial operation of the unit can be initiated by means of an external power unit. When the magnetic isolation linkage automatic control system implements the complete magnetic isolation (magnetic shielding) of the fixed permanent magnet A3 and the fixed permanent magnet B4, the magnetic repulsion completely disappears, and the unit will automatically stop.

The above, for those skilled in the art, according to the technical solution of the present invention and The technical concept is subject to various other modifications and variations, and all such changes and modifications are intended to be included in the appended claims.

Claims

Rights request

1. A permanent magnet repulsion group magnetic machine, comprising a fixed permanent magnet A and a fixed permanent magnet B, a magnetic shielding box A and a magnetic shielding box B, a magnetic isolation linkage automatic control system device, a cylinder groove, a magnetic punch and a bracket, wherein The fixed permanent magnet A and the fixed permanent magnet B are respectively installed at the two ports of the cylindrical groove, and the magnetic pole faces of the fixed permanent magnet A and the fixed permanent magnet B are respectively installed in a front view with one N pole and the other S pole. Two ports in the slot; except for the magnetic pole faces of the N and S poles of the fixed permanent magnet A and the fixed permanent magnet B, the other side is covered with a magnetic shielding material; the magnetic shielding box A and the magnetic shielding box B are respectively placed on The outer side of the permanent magnet A and the fixed permanent magnet B are fixed, and a magnetically shielded stroboscopic shutter is respectively mounted on a box surface of the magnetic shield box A and the magnetic shielding box B toward the outer ports of the cylinder; the magnetic punch is made of a permanent magnet. Except for the magnetic poles of the permanent magnets of the magnetic punching, the other side is covered with a magnetic shielding material, and a magnetic handle is installed in the middle of the magnetic punching; the magnetic isolation automatic control system device is connected with the magnetic shielding stroboscopic shutter.

2. The permanent magnet repulsive force group magnetic machine according to claim 1, wherein: the magnetic punching off the outer side of the magnetic pole has a cylindrical sleeve on the side surface, and a plurality of circular slides are trapped in the outer periphery of the cylindrical sleeve. Round beads.

3. The permanent magnet repulsive force group magnetic machine according to claim 2, wherein: the inner wall of the cylindrical groove has a ball channel corresponding to the magnetically slidable ball.

4. The permanent magnet repulsive force group magnetic machine according to claim 1, wherein: the outer side of the magnetic punch is provided with a linear bearing.

5. The permanent magnet repulsive group magnetic machine according to claim 1, wherein: the magnetic shielding stroboscopic shutter is a mechanical magnetic shielding stroboscopic shutter or a stroboscopic electronic magnetic shielding door or a Degaussing mode can open and close the magnetic door.