研究發(fā)現(xiàn)靜態(tài)磁場能的利用.doc

utilizing static field energyAn Dong*Correspondence to: 70, Litang Road, Changping District, Beijing, China, 102209; E-mail: AbstractOur research indicates that the power energy at various form can be generated from static magnetic field, this mainly caused by permanent magnet used in special combination: Small magnet will be placed in the middle of two ring magnets opposite to each other at upper and lower same poles; There always exists some places where special structured field of magnetic force acts on small magnet as a result of circular and small magnets changed in dimension, location , magnetic flux, angles and etc; when small magnet is to do work by special field of magnetic force but enough to offset its energy consumption, it keeps on moving in two circular magnets. This has been successfully proved with test data and model.The research results show that the permanent magnet field can produce the new kind of energy.Technical domain: A study shows a permanent magnet-combined unit utilizing static magnetic field Background technology: The previous unit utilizing permanent magnet to do work, as a result of no external force and energy consumption, is forcibly to stop on moving. i.e. this device shows no practical applicability that also has been defined as violated law of conservation of energy. Be that as it may, people always neglects law of conservation of energy is generalized law, which have actually not found the phenomenon violated this law until now, so confirmed its universality. However, with the development of human society and the nature, if there has been found that non-conformance is existed in the law of conservation of energy someday. The laws generality may be faced with challenge. As two Chinese Americans, Mr. Yang chinning and Mr.Lizhengdao, in the 1950s, contributes to deny Parity conservation law, they have been granted as Nobel Prizes in physics, which had ever been refused and mocked by many scholars before that. Today what I have to do is: Except for novelty brought to us from research findings, some characteristics intrinsic in permanent magnet will also be changed to endow its inventiveness on research findings; even more with practical applicability this research unit is characterized (currently there are some research models to be proven as successful); and the technician related with this research findings can make them become truly existence (to be explained in details later).Research findings: To eliminate the mistakes the predecessors has been made, in order to realize the above research target, this research is mainly to change permanent magnets partial characteristics so as to do reciprocally work for this system (unit).This research unit mainly consists of the following components: there are two same permanent circular magnets in which two ring surfaces are respectively called as two magnetic poles; additionally, a small permanent magnet with its two parallel surfaces applied in two magnetic poles; two fixed, cylindrical permanent magnets acted as balancing effect with its circular surfaces to be deemed as two magnetic poles as well as spindle, fixed axis, swing arm, support and baseplate; First of all, a small magnet will be placed in the middle of two ring surfaces of two circular magnets at the same upper and lower axis and on the circular radius line(Enabling two magnetic surfaces perpendicular to or form an acute angle with two circular surfaces and then be parallel with or form an acute angle with radius line of two circular rings; Magnetic polarity two of upper and lower circular magnets opposite to circular surfaces will be as same as that on one side of small magnet(such as that side anti-clockwise along with circular surface); as the changes of shapes, dimension and magnetic flux of small magnet will be corresponding to that of internal and external diameters, thickness, spacing as well as magnetic flux of two circular magnets, there are always small magnets on a certain point of radius line along with the circular surfaces of two circular magnets, generated a special field of magnetic force acted on its center（be interpreted as special structural field of magnetic force）. An actual measurement will be made on magnetic force to do positive work (suppose equal to tangential magnetic force multiplied by displacement) along with circular surface in anti-clockwise direction) and negative work(suppose equal to tangential magnetic force multiplied by displacement) along with circular surface in clockwise direction) for small magnet placed in the middle of two circular magnets along with closed loop of centerline where the whole circular surface will be forced by the acting point of special field of magnetic force and their algebraic sum will not be equal to zero (generally it must be equal to zero or both average relative difference less than 10% below. Our research indicates partial data by actual measurement as follows: An actual measurement for magnetic force to do work on small magnet placed in the middle of two circular magnets along with closed loop of centerline (Tangential force multiplied by displacement: gram*centimeter) Tangential magnetic force to do positive work in anti-clockwise direction along with closed loop of centerline at each section (Tangential force multiplied by displacement).Tangential magnetic force to do negative work in clockwise direction along with closed loop of centerline at each section (Tangential force multiplied by displacement).Difference between positive work and negative workRelative work difference126.73350.80165.22334.12191.18108.21308.5620.46348.4655%123.52385.13174.55324.45183.0578.15320.8920.46405.1067%146.92358.33184.55369.45186.58104.41297.8920.46449.9174%173.85327.60181.20355.12192.3895.81289.5620.46439.5873%An actual measurement for force of gravity only to do work on small magnet after demagnetized along with non-horizontally closed loop of centerline (Tangential force multiplied by displacement: gram*centimeter)Tangential force of gravity to do positive work in anti-clockwise direction along with closed loop of centerline at each section (Tangential force multiplied by displacement).Tangential force of gravity to do negative work in anti-clockwise direction along with closed loop of centerline at each section (Tangential force multiplied by displacement).Difference between positive work and negative workRelative work difference650.17631.2418.933%482.41469.4212.992.8%1676.201738.40-62.203.7%1362.601342.8319.771.5%Our research indicates that, although there are different work capacities(A) on a certain tangential magnetic force by the acting point of special field of magnetic force along with closed loop of centerline, the total work A=A0 (special field of magnetic force to do work) is existed with the tangential magnetic forces acted upon small magnet on the whole of special points at the closed loop of centerline; small magnet keeps on moving in the middle of two circular surfaces on two circular magnets in order to ensure the existence of special field of magnetic force as well as resistance as small capacity as possible. Therefore, our design is to move the central point of small magnet, located in the special point on the radius line in the middle of circular surfaces of two circular magnets, to a balancing point along with closed loop of radius line, where it reciprocally oscillates on this point along with special central line, in the oscillating zone, acted on special field of magnetic force (So it can be considered as to rotate in approximately micro-amplitude manner along with circular surfaces of two circular magnets). It keeps on moving when the work acted upon small magnet reaches up to more than or equal to consumption of damped oscillation; If a magnetic chip is attached with a certain place on the small magnet (exclusive of central point) along with radius line of circular magnet stops oscillating in the event of other conditions remained unchanged, small magnet, as a result of the changes on its central point (the location of central point is deviated from the special point), independent of the special field of magnetic force. Our research indicates partial data by actual measurement as follows: An actual measurement for magnetic force to do work on small magnet in the closed loop mainly acted upon normal field of magnetic force along with circular surface (Tangential force multiplied by displacement: gram*centimeter) Tangential magnetic force to do positive work in anti-clockwise direction along with closed loop of circular surface at each section (Tangential force multiplied by displacement).Tangential magnetic force to do negative work in clockwise direction along with closed loop of circular surface at each section (Tangential force multiplied by displacement). Difference between positive work and negative workRelative work difference65.4311.8094.42108.7148.032.96193.555.2030.6212%215.89321.15176.75235.91294.3265.76419.1576.9293.5511%182.3513.3050.0085.1027.00105.2028.3513%106.1594.4038.98108.1153.4373.104.892%It has been attested that small magnet unable to overcome damped consumption of energy but stops moving under the action of normal field of magnetic force (Average relative work difference : 10%). This test device is characterized with simple structure, low costs, higher efficiency (accuracy of manufacture can be increased to make small magnet rotating around the closed loop of special point of centerline or multiple devices adopts the series-parallel output to largely raise output energy),convenient for use and environmental friendly; safety for use, versatility, capable of continuous output and transferring multiple forms of energies, long lifespan and other advantages; currently, small magnet in this test device keeps on moving, and this has proved its practical applicability. Description of attached Figure: Further description in details can be made in combination with attached figure and detailed implementing way to this test device. Figure 1 Front view in this device (partial profile). Figure 2 Top view in this test device (take away support 17 and permanent magnet 10). Implementing way in detail: Test device for research, as shown in Figure 1 and Figure 2, mainly consists of the following components: Permanent magnet 10 and 8 is ferrite-designed with same shaped circular magnet (Internal and external radius respectively: 12cm and 21.4cm.ring thickness: 2.4cm), in the state of magnetic flux saturation, where there are two same permanent circular magnets in which two ring surfaces are respectively called as two magnetic poles at the upper and lower location; Permanent magnet 9 is NdFeB magnetic material-designed in the rectangular shape（25151）in the state of magnetic flux saturation, where there are two parallel circular surfaces are respectively designed as two magnetic poles; Cylindrical permanent magnet 11 for balancing use（1210） and 12（3012）is ferrite-designed, where there are two ring flat surfaces are respectively designed as two magnetic poles; spindle 13 is designed as alternative use and plastic casing sphere（Diameter:8cm）; fixed spindle 14（0.1530）is normal wire-designed; oscillating arm 15（377） is aluminum stick-designed; support 17 and baseplate 16 are all organic glass-designed; Sensor 18 is used for monitoring the running status of permanent magnet 9 if necessary. As shown in Figure 1 and 2, first of all, permanent magnet will be placed in the middle of circular surfaces of circular magnet10 and 8 at upper and lower parts of the same axis on the circular radius line (Two pole faces perpendicular to or formed an angle with circular surfaces and parallel with or formed an angle with circular radius line); Enable upper and lower circular magnets 10 and 8 opposite to circular magnetic polarity and remain same magnetic polarity with one side of magnet 9 (Now option for one side of magnet oscillated in anti-clockwise direction along with circular surface). In long-term period of time, outer diameter and thickness as well as spacing between two circular surfaces and magnetic flux on the circular magnet 10 and 8 will be changed correspondingly with the variations of shape, dimension and magnetic polarity of magnet 9, where location and angle between circular magnet 10 and 8 will be selected; as shown in Figure 2, there always exists special field of magnetic force acted upon the central location of magnet 9 on a special point 19 on radius line in the middle of two circular magnets 10 and 8 (considered as special structured magnetic field); An actual measurement will be made on magnetic force to do positive work (suppose equal to tangential magnetic force multiplied by displacement along with circular surface) on magnet 9 in the middle of circular magnet 10 and 8 along with the whole circular surface acted upon special field of magnetic force generated from acting point 19 on closed loop of central line and negative work(suppose equal to tangential magnetic force multiplied by displacement along with circular surface) ,where their algebraic sum will not be equal to zero (generally it must be equal to zero, or Average relative work difference : 10%). The absolute value of total positive work will be more than that of total negative work (It is considered as special field of magnetic force to do work in consideration of factors of measuring errors), where its main location and angle parameter should be reviewed in combination with the descriptions of Figure 1 and 2: the spacing at the acting point 1 will be 9cm at circular magnet 10 and 8 opposite to relative circular surfaces, 9.4cm at the acting point 2, 9.3cm at the acting point 3, 9.2cm at the acting point 4; the spacing will be 1.7cm between the radius line 5at the central location of magnet 9 and the internal ring at circular magnet 8, 4.4cm away from the circular surface of circular magnet 8; The short side of rectangular pole surface and its pole surface on the magnet 9 will be respectively parallel with or forms an angle of 85with circular surface (the openings at the edges of two angles will be faced in clockwise direction), where its pole surface forms an angle of 20with radius line 5(the openings at the edges of two angles will be pointed to internal ring). In order to ensure the existence of the acting point 9 of special field of magnetic force (the range of generating the acting point 19 will be lower than mm because of it is located on the radius line in the middle of magnet 10 and 8) as well as resistance as small capacity as possible when magnet 9 keeps on moving in the middle of two circular surfaces of magnet 10 and 8 (It is not easy to be successful). Therefore, as shown in Figure 1 and 2, the following structure adopts: Magnet 11 and 12 will attracted each other for positioning balancing spindle 13; the lower end of spindle 13 connected to Wire 14 will be secured on the Baseplate 16, on the upper part of it, there are connecting spindle 13 and oscillating arm 15 on the magnet 19; centered on magnet 9 on the sp