CN106300705A - Electromagnetic device - Google Patents

Abstract

Translated fromChinese

本发明指一种电磁装置，尤指一种可解决负载下增生磁吸所造成动能损耗的电磁装置，该电磁装置主要由可相对运动的定子与转子所组成，本发明的特色在于其中转子的运动方向与磁力线平行，供产生双磁吸点，且于作为定子或转子的感应线圈组的导磁体两端中于有利运动前进方向的一端设有一较大径磁轭，供利用单边磁轭破坏增生磁吸平衡，借此，可以使水平向量分力放大，降低动损率，从而提升能源转换率。

The present invention relates to an electromagnetic device, and in particular to an electromagnetic device capable of solving the kinetic energy loss caused by the proliferative magnetic attraction under load. The electromagnetic device is mainly composed of a stator and a rotor capable of relative movement. The feature of the present invention is that the movement direction of the rotor is parallel to the magnetic force lines to generate double magnetic attraction points, and a larger diameter magnetic yoke is provided at one end of the magnetic conductor of the induction coil group serving as the stator or rotor in a favorable direction of movement, so as to utilize the single-sided magnetic yoke to destroy the proliferative magnetic attraction balance, thereby amplifying the horizontal vector force component, reducing the kinetic loss rate, and thus improving the energy conversion rate.

Description

Translated fromChinese

电磁装置 electromagnetic device

技术领域technical field

本发明隶属一种电磁技术领域，具体而言是指一种能迅速破坏增生磁吸平衡的电磁装置，借以能增强前进方向的磁助力，可降低负载下增生磁吸所造成动能损，从而提高其能源转换效率。The present invention belongs to the field of electromagnetic technology, and specifically refers to an electromagnetic device that can quickly destroy the balance of the accretion magnetic attraction, so as to enhance the magnetic assist force in the forward direction and reduce the kinetic energy loss caused by the accretion magnetic attraction under load, thereby improving its energy conversion efficiency.

背景技术Background technique

按，一般电磁装置是根据佛莱明右手定律制作而成，其通常是由一组相对运动与磁力线呈垂直状态所构成，该电磁装置包含有相对的至少一磁组与至少一感应线圈组，其被分别定义为转子及定子，使感应线圈组因磁力线切割而产生电压，而达到发电的目的。According to, the general electromagnetic device is made according to Fleming's right-hand law, which is usually composed of a set of relative motion and the magnetic field line is perpendicular to the state, the electromagnetic device includes at least one magnetic group and at least one induction coil group, They are respectively defined as the rotor and the stator, so that the induction coil group generates voltage due to the cutting of the magnetic field line, so as to achieve the purpose of power generation.

由于当此感应线圈组接上负载后，依安培右手定则会产生电流和电磁，并使感应线圈组产生磁性，由于经感应线圈组的磁组磁力线与相对运动方向呈垂直交错状，其增生磁吸呈单吸点垂直状，其增生磁吸容易造成强吸状态，故其垂直向量分力大，不利于水平运动方向，而产生了阻却前进运动的作用，再者其仅具单吸点，因此在负载下会有更大增生磁吸所造成的动能损耗；When the induction coil group is connected to the load, current and electromagnetic will be generated according to Ampere's right-hand rule, and the induction coil group will generate magnetism. Since the magnetic force lines of the induction coil group and the relative motion direction are perpendicular to each other, the growth of The magnetic attraction is vertical with a single suction point, and its proliferating magnetic attraction is likely to cause a strong suction state, so its vertical vector component force is large, which is not conducive to the horizontal movement direction, and has the effect of hindering the forward movement, and it only has a single suction point , so there will be a greater kinetic energy loss caused by accretive magnetic attraction under load;

当该动能损产生后，一则该电磁装置中作动转子的输入动能必须加大，无法达成微力发电的要求，二则受到增生磁吸的动能损耗的影响，也会降低其运转的速率，从而影响到能源转换的效率。When the kinetic energy loss occurs, firstly, the input kinetic energy of the actuating rotor in the electromagnetic device must be increased, which cannot meet the requirements of micro-power generation; Thus affecting the efficiency of energy conversion.

换言之，如能迅速破坏其增生磁吸的平衡状态，且增强其运动方向的前进磁助力，则相信可以减少增生磁吸的动能损，从而提高其能源转换率，此目的相信是业界所亟待开发者。In other words, if the balance state of the accretion magnet can be quickly destroyed, and the forward magnetic assistance in the direction of motion can be enhanced, it is believed that the kinetic energy loss of the accretion magnet can be reduced, thereby improving its energy conversion rate. This goal is believed to be an urgent need for development in the industry. By.

有鉴于此，本发明人乃针对前述现有电磁装置在应用上所面临的问题深入探讨，并借由多年从事相关产业的研发经验，积极寻求解决之道，经不断努力的研究与试作，终于成功的开发出一种可提高能源转换率的电磁装置，借以克服现有因增生磁吸的动能损所造成的不便与困扰。In view of this, the inventor of the present invention made an in-depth discussion on the problems faced by the aforementioned existing electromagnetic devices in application, and actively sought solutions through years of research and development experience in related industries. After continuous efforts in research and trial production, Finally, an electromagnetic device that can improve the energy conversion rate has been successfully developed, so as to overcome the inconvenience and trouble caused by the kinetic energy loss of the accretion magnetic attraction.

发明内容Contents of the invention

因此，本发明的主要目的在提供一种可迅速破坏增生磁吸平衡的电磁装置，借以能产生微力驱动的效果，以减少动能损耗，从而提高能源转换率。Therefore, the main purpose of the present invention is to provide an electromagnetic device that can quickly break the balance of the accretion magnetic attraction, so as to produce the effect of micro-force driving, reduce kinetic energy loss, and improve the energy conversion rate.

又，本发明的另一主要目的在提供一种能增强相对运动中前进磁助力的电磁装置，使其能利用双磁吸点，而放大运动方向的向量分力，提高其动能，进一步增进其能源转换率。Again, another main purpose of the present invention is to provide a kind of electromagnetic device that can strengthen the advancing magnetic assist in relative motion, so that it can utilize double magnetic points of attraction to amplify the vector component force in the direction of motion, improve its kinetic energy, and further enhance its energy conversion rate.

基于此，本发明主要透过下列的技术手段，来实现前述的目的及其功效。Based on this, the present invention mainly achieves the above-mentioned purpose and effects thereof through the following technical means.

一种电磁装置，该电磁装置由一被定义为转子的磁组及至少一被定义为定子的感应线圈组所组成；An electromagnetic device consisting of a magnetic assembly defined as a rotor and at least one induction coil assembly defined as a stator;

该磁组具有至少一磁性件，且相邻的磁性件以相同极性相对方式串接排列，又各磁性件的两磁极与作为转子的磁组的运动方向呈平行状，再者各该感应线圈组具有一导磁体，且导磁体外绕设有一线圈，该线圈于导磁体上的绕圈延伸方向并与作为转子的磁组的运动方向呈平行状，另各该感应线圈组的导磁体异于磁组运动方向的一端设有一较大径的磁轭。The magnetic group has at least one magnetic part, and the adjacent magnetic parts are arranged in series with the same polarity opposite, and the two magnetic poles of each magnetic part are parallel to the moving direction of the magnetic group as the rotor, and each induction The coil group has a magnetizer, and a coil is wound around the magnetizer, and the winding extension direction of the coil on the magnetizer is parallel to the moving direction of the magnetic group as the rotor. In addition, the magnetizers of the induction coil groups A yoke with a larger diameter is provided at the end different from the moving direction of the magnetic group.

一种电磁装置，该电磁装置由一被定义为定子的磁组及至少一被定义为转子的感应线圈组所组成；An electromagnetic device consisting of a magnetic assembly defined as a stator and at least one induction coil assembly defined as a rotor;

该磁组具有至少一磁性件，且相邻的磁性件以相同极性相对方式串接排列，又各磁性件的两磁极与作为转子的感应线圈组的运动方向呈平行状，再者各该感应线圈组具有一导磁体，且导磁体外绕设有一线圈，该线圈于导磁体上的绕圈延伸方向并与作为转子的感应线圈组的运动方向呈平行状，另各该感应线圈组的导磁体相对于感应线圈组运动方向的一端设有一较大径的磁轭。The magnetic group has at least one magnetic piece, and the adjacent magnetic pieces are arranged in series with the same polarity facing each other, and the two magnetic poles of each magnetic piece are parallel to the moving direction of the induction coil group as the rotor, and each of the magnetic pieces The induction coil group has a magnetizer, and a coil is wound around the magnetizer body, and the winding extension direction of the coil on the magnetizer is parallel to the moving direction of the induction coil group as the rotor, and each of the induction coil groups A yoke with a larger diameter is provided at one end of the magnetizer relative to the moving direction of the induction coil group.

进一步，该磁组与该感应线圈组的相对运动可以是旋转运动。Further, the relative movement between the magnetic group and the induction coil group may be a rotational movement.

进一步，该磁组与该感应线圈组的相对运动可以是线性运动。借此，透过前述技术手段的展现，使本发明能透过磁组的磁性件磁力线及感应线圈组的线圈设置方向均与运动方向呈平行，使其产生双磁吸点，同时于感应线圈组的导磁体一端设置较大径磁轭的设计，而能利用该较大径的磁轭破坏两端增生磁吸力的平衡，借此，可以使水平向量分力放大，而能有效降低动损率，故能产生微力驱动的效果，同时放大运动方向的向量分力，以提高其动能，且在惯性加速下，能有效产生大电流，增加发电量的功效，进一步增进其能源转换率，进而提升发电效能，故能大幅增加其附加价值，并提高其经济效益。Further, the relative movement between the magnetic group and the induction coil group can be a linear movement. In this way, through the display of the aforementioned technical means, the present invention can pass through the magnetic lines of the magnetic components of the magnetic group and the coil arrangement direction of the induction coil group to be parallel to the direction of motion, so that it can generate double magnetic attraction points, and at the same time, the induction coil One end of the magnetic conductor of the group is designed with a larger-diameter yoke, and the larger-diameter yoke can be used to break the balance of the accretion magnetic force at both ends, so that the horizontal vector component force can be amplified, and the dynamic loss can be effectively reduced. rate, so it can produce the effect of micro-force driving, and at the same time amplify the vector component force in the direction of motion to increase its kinetic energy, and under inertial acceleration, it can effectively generate large current, increase the efficiency of power generation, and further increase its energy conversion rate. Improve the efficiency of power generation, so it can greatly increase its added value and improve its economic benefits.

为使　贵审查委员能进一步了解本发明的构成、特征及其他目的，以下乃举本发明的若干较佳实施例，并配合图式详细说明如后，同时让熟悉该项技术领域者能够具体实施。In order to enable your examiners to further understand the composition, characteristics and other purposes of the present invention, the following are some preferred embodiments of the present invention, and describe them in detail with the accompanying drawings, and at the same time allow those familiar with this technical field to implement them in detail .

附图说明Description of drawings

图1为本发明的电磁装置的架构示意图；FIG. 1 is a schematic diagram of the structure of the electromagnetic device of the present invention;

图2A至图2C为本发明的电磁装置以磁组作为转子的动作示意图，供说明磁组由S极向N极的状态；2A to 2C are schematic diagrams of the action of the electromagnetic device of the present invention using the magnetic group as the rotor, for illustrating the state of the magnetic group from S pole to N pole;

图3A至图3C为本发明的电磁装置以磁组作为转子的动作示意图，供说明磁组由N极向S极的状态；3A to 3C are schematic diagrams of the action of the electromagnetic device of the present invention using the magnetic group as the rotor, for illustrating the state of the magnetic group from N pole to S pole;

图4A至图4C为本发明的电磁装置以感应线圈组作为转子的动作示意图，供说明其由磁组N极向S极的状态；4A to 4C are schematic diagrams of the action of the electromagnetic device of the present invention using the induction coil group as the rotor, for illustrating its state from the N pole to the S pole of the magnetic group;

图5A至图5C为本发明的电磁装置以感应线圈组作为转子的动作示意图，供说明其由磁组S极向N极的状态。5A to 5C are schematic diagrams of the operation of the electromagnetic device of the present invention using the induction coil group as the rotor, for illustrating its state from the S pole to the N pole of the magnetic group.

【符号说明】【Symbol Description】

10 磁组 11磁性件10 magnetic groups11 magnetic pieces

20线圈组 21导磁体20 coil sets21 magnetizer

22线圈 25磁轭。22 coils25 yoke.

具体实施方式detailed description

本发明一种电磁装置，随附图例示的本发明的具体实施例及其构件中，所有关于前与后、左与右、顶部与底部、上部与下部、以及水平与垂直的参考，仅用于方便进行描述，并非限制本发明，亦非将其构件限制于任何位置或空间方向。图式与说明书中所指定的尺寸，当可在不离开本发明的申请专利范围内，根据本发明的具体实施例的设计与需求而进行变化。The present invention is an electromagnetic device. Among the specific embodiments of the present invention and its components illustrated in the accompanying drawings, all references to front and rear, left and right, top and bottom, upper and lower, and horizontal and vertical are only used The description is for convenience, but not to limit the invention, nor to limit its components to any position or spatial orientation. The dimensions specified in the drawings and description can be changed according to the design and requirements of the specific embodiments of the present invention without departing from the patent scope of the present invention.

而本发明的电磁装置的构成，如图1所示，该电磁装置由磁组10及至少一感应线圈组20所组成，且该磁组10可被分别定义为转子或定子，而该感应线圈组20可被分别定义为定子或转子，使磁组10与感应线圈组20能产生旋转或线性的相对运动；And the constitution of electromagnetic device of the present invention, as shown in Figure 1, this electromagnetic device is made up of magnetic group 10 and at least one induction coil group 20, and this magnetic group 10 can be defined as rotor or stator respectively, and this induction coil The group 20 can be defined as a stator or a rotor respectively, so that the magnetic group 10 and the induction coil group 20 can generate rotational or linear relative motion;

而本发明的特色在于磁组10具有至少一磁性件11所组成，且相邻的磁性件11以同极性相对方式串接排列，且各磁性件11的两磁极（N极与S极）与作为转子的磁组10或感应线圈组20的运动方向呈平行状，再者各该感应线圈组20具有一导磁体21，且导磁体21外绕设有一线圈22，该线圈22于导磁体21上的绕圈延伸方向并与作为转子的磁组10或感应线圈组20的运动方向呈平行状，再者各该感应线圈组20的导磁体21于可产生有助运动方向磁助力的一端设有一较大径的磁轭25，例如当以磁组10作为转子、而感应线圈组20作为定子时，磁轭25设于导磁体21异于磁组10运动方向的一端（如图2A至图2C、图3A至图3C所示），供固定的感应线圈组20可增加吸动磁组10位移的作用力。反之当以感应线圈组20作为转子、而磁组10作为定子时，则磁轭25设于导磁体21相对感应线圈组20运动方向的一端（如图4 A至图4C、图5 A至图5C所示），以供固定的磁组10可增加吸动感应线圈组20位移的作用力；The characteristic of the present invention is that the magnetic group 10 is composed of at least one magnetic piece 11, and the adjacent magnetic pieces 11 are arranged in series in the same polarity opposite manner, and the two magnetic poles (N pole and S pole) of each magnetic piece 11 It is parallel to the moving direction of the magnetic group 10 or the induction coil group 20 as the rotor, and each of the induction coil groups 20 has a magnetizer 21, and the magnetizer 21 is wound with a coil 22, and the coil 22 is connected to the magnetizer. The extension direction of the coil on 21 is parallel to the moving direction of the magnetic group 10 or the induction coil group 20 as the rotor, and the magnetizer 21 of each induction coil group 20 is at one end that can produce magnetic boosting force in the direction of motion A yoke 25 with a larger diameter is provided. For example, when the magnetic group 10 is used as the rotor and the induction coil group 20 is used as the stator, the yoke 25 is arranged on the end of the magnetizer 21 that is different from the moving direction of the magnetic group 10 (as shown in Figure 2A to 2C, 3A to 3C), the fixed induction coil group 20 can increase the force for attracting the displacement of the moving magnetic group 10 . On the contrary, when the induction coil group 20 is used as the rotor and the magnetic group 10 is used as the stator, the yoke 25 is arranged at one end of the magnetizer 21 relative to the direction of motion of the induction coil group 20 (as shown in Fig. 4 A to Fig. 4C, Fig. 5 A to Fig. 5C), for the fixed magnetic group 10 to increase the displacement force of the induction coil group 20;

借此，组构成一可增加前进磁助力、且减少动能损耗的电磁装置者。In this way, an electromagnetic device that can increase the forward magnetic boost and reduce the loss of kinetic energy is formed.

至于本发明电磁装置的实际运作，首先以磁组10作为转子、而感应线圈组20作为定子为例，则请参看图2A至图2C、图3A至图3C所示，当磁组10相对感应线圈组20位移时，其中一磁性件11以其S极移向该磁性件11的N极时，磁组10的磁性件11的磁力线与运动方向平行，因此可相对感应线圈组20产生双磁吸点（如图2A），此时若于感应线圈组20连接负载，则磁组10对应运动前进方向，增生磁吸产生的负向力大于正向力，故此时感应线圈组20的线圈22是不连接负载的；而由于其具有双磁吸点，故当其两端增生磁吸力平衡时，则如图2B所示，该磁组10处于零力矩状态，不受增生磁吸的影响；而当感应线圈组20的线圈22连接负载时，则如图2C所示，由于感应线圈组20的导磁体21异于磁组10运动方向一端具有较大径的磁轭25，则磁组10对应运动前进方向，更使增生磁吸产生的正向力大于负向力，而令感应线圈组20的导磁体21磁轭25迅速破坏增生磁吸平衡关系，使磁组10被快速带动，增强了磁组10往运动方向前进的磁助力；As for the actual operation of the electromagnetic device of the present invention, first take the magnetic group 10 as the rotor and the induction coil group 20 as the stator as an example. Please refer to FIGS. 2A to 2C and 3A to 3C. When the coil group 20 is displaced, when one of the magnetic parts 11 moves to the N pole of the magnetic part 11 with its S pole, the magnetic line of force of the magnetic part 11 of the magnetic group 10 is parallel to the direction of motion, so that a double magnetic field can be generated relative to the induction coil group 20. At the suction point (as shown in Figure 2A), if the load is connected to the induction coil group 20 at this time, the magnetic group 10 corresponds to the direction of motion, and the negative force generated by the accretion magnetic attraction is greater than the positive force, so the coil 22 of the induction coil group 20 at this time It is not connected to the load; and because it has double magnetic attraction points, when the accretion magnetic attraction force at both ends is balanced, as shown in Figure 2B, the magnetic group 10 is in a zero-torque state and is not affected by the accretion magnetic attraction; And when the coil 22 of the induction coil group 20 is connected to the load, then as shown in Figure 2C, since the magnetic conductor 21 of the induction coil group 20 is different from the magnetic yoke 25 with a larger diameter at one end of the magnetic group 10 moving direction, the magnetic group 10 Corresponding to the forward direction of the movement, the positive force generated by the accretive magnetic attraction is greater than the negative force, so that the magnetizer 21 and the yoke 25 of the induction coil group 20 quickly destroy the balance relationship of the accretive magnetic attraction, so that the magnetic group 10 is quickly driven and strengthened. The magnetic assist force that the magnetic group 10 advances toward the moving direction;

再者，当磁性件11以其N极移向该磁性件11的S极时，则如图3A至图3C，该磁组10的磁性件11的磁力线与运动方向平行，因此可相对感应线圈组20产生双磁吸点（如图3A），此时若于感应线圈组20连接负载，则磁组10对应运动前进方向，增生磁吸产生的负向力大于正向力，故此时感应线圈组20的线圈22是不连接负载的；而由于其具有双磁吸点，故当其两端增生磁吸力平衡时，则如图3B所示，该磁组10处于零力矩状态，不受增生磁吸的影响；而当感应线圈组20的线圈22连接负载时，则如图3C所示，由于感应线圈组20的导磁体21异于磁组10运动方向一端具有较大径的磁轭25，则磁组10对应运动前进方向，更使增生磁吸产生的正向力大于负向力，而令感应线圈组20的导磁体21磁轭25迅速破坏增生磁吸平衡关系，一样可以使磁组10被快速带动，从而增强了磁组10往运动方向前进的磁助力。Furthermore, when the magnetic piece 11 moves to the S pole of the magnetic piece 11 with its N pole, then as shown in Fig. 3A to Fig. 3C, the magnetic field lines of the magnetic piece 11 of the magnetic group 10 are parallel to the direction of motion, so they can be opposite to the induction coil The group 20 produces double magnetic attraction points (as shown in Figure 3A). At this time, if the load is connected to the induction coil group 20, the magnetic group 10 corresponds to the direction of motion, and the negative force generated by the accretion magnetic attraction is greater than the positive force, so the induction coil at this time The coil 22 of the group 20 is not connected to the load; and because it has double magnetic attraction points, so when the accretion magnetic attraction force at its two ends is balanced, then as shown in Figure 3B, the magnetic group 10 is in a state of zero torque, free from accretion and when the coil 22 of the induction coil group 20 is connected to the load, then as shown in Figure 3C, since the magnetizer 21 of the induction coil group 20 is different from the magnetic yoke 25 with a larger diameter at one end of the direction of movement of the magnetic group 10 , then the magnetic group 10 corresponds to the moving forward direction, and the positive force generated by the accretion magnetic attraction is greater than the negative force, and the magnetizer 21 and the yoke 25 of the induction coil group 20 quickly destroy the balance relationship of the accretion magnetic attraction, which can also make the magnet The group 10 is quickly driven, thereby enhancing the magnetic assist force of the magnetic group 10 moving forward.

另于本发明电磁装置的实际运作以磁组10作为定子、而以感应线圈组20作为转子时，则请参看图4A至图4C、图5A至图5C所示，当感应线圈组20相对磁组10位移，且感应线圈组20由其中一磁性件11的N极移向该磁性件11的S极时，磁组10的磁性件11磁力线与运动方向平行，因此可相对感应线圈组20产生双磁吸点（如图4A），此时若于感应线圈组20连接负载，则感应线圈组20对应运动前进方向，增生磁吸产生的负向力大于正向力，故此时感应线圈组20的线圈22是不连接负载的；而由于其具有双磁吸点，故当其两端增生磁吸力平衡时，则如图4B所示，该感应线圈组20处于零力矩状态，不受增生磁吸的影响；而当感应线圈组20的线圈22连接负载时，则如图4C所示，由于感应线圈组20的导磁体21相对感应线圈组20运动方向的一端具有较大径的磁轭25，则感应线圈组20对应运动前进方向，更使增生磁吸产生的正向力大于负向力，而令感应线圈组20的导磁体21磁轭25迅速破坏增生磁吸平衡关系，使感应线圈组20被快速带动，增强了感应线圈组20往运动方向前进的磁助力；In addition, in the actual operation of the electromagnetic device of the present invention, when the magnetic group 10 is used as the stator and the induction coil group 20 is used as the rotor, please refer to FIGS. 4A to 4C and FIGS. 5A to 5C. When the group 10 is displaced, and the induction coil group 20 moves from the N pole of one of the magnetic parts 11 to the S pole of the magnetic part 11, the magnetic field lines of the magnetic parts 11 of the magnetic group 10 are parallel to the direction of motion, so they can be generated relative to the induction coil group 20. Double magnetic attraction points (as shown in Figure 4A), if the load is connected to the induction coil group 20 at this time, the induction coil group 20 corresponds to the forward direction of motion, and the negative force generated by the accretion of magnetic attraction is greater than the positive force, so the induction coil group 20 at this time The coil 22 is not connected to the load; and because it has double magnetic attraction points, when the accretion magnetic attraction force at both ends is balanced, then as shown in Figure 4B, the induction coil group 20 is in a state of zero moment, free from accretion magnetic force. and when the coil 22 of the induction coil group 20 is connected to the load, as shown in Figure 4C, since the magnetizer 21 of the induction coil group 20 has a relatively large-diameter yoke 25 at one end of the induction coil group 20 moving direction , the induction coil group 20 corresponds to the forward direction of motion, and the positive force generated by the accretionary magnetic attraction is greater than the negative force, and the magnetic conductor 21 and the yoke 25 of the induction coil group 20 quickly destroy the balance relationship of the accretionary magnetic attraction, so that the induction coil The group 20 is quickly driven, which enhances the magnetic assist of the induction coil group 20 moving forward;

再者，当感应线圈组20由磁组10的磁性件11S极移向该磁性件11的N极时，则如图5A至图5C，该磁组10的磁性件11磁力线与运动方向平行，因此可相对感应线圈组20产生双磁吸点（如图5A），此时若于感应线圈组20连接负载，则感应线圈组20对应运动前进方向，增生磁吸产生的负向力大于正向力，故此时感应线圈组20的线圈22是不连接负载的；而由于其具有双磁吸点，故当其两端增生磁吸力平衡时，则如图5B所示，该感应线圈组20处于零力矩状态，不受增生磁吸的影响；而当感应线圈组20的线圈22连接负载时，则如图5C所示，由于感应线圈组20的导磁体21相对感应线圈组20运动方向的一端具有较大径的磁轭25，则感应线圈组20对应运动前进方向，更使增生磁吸产生的正向力大于负向力，能利用感应线圈组20的导磁体21磁轭25迅速破坏增生磁吸平衡关系，其一样可以使感应线圈组20被快速带动，从而增强了感应线圈组20往运动方向前进的磁助力。Furthermore, when the induction coil group 20 moves from the S pole of the magnetic part 11 of the magnetic group 10 to the N pole of the magnetic part 11, as shown in Figures 5A to 5C, the magnetic lines of force of the magnetic part 11 of the magnetic group 10 are parallel to the direction of motion, Therefore, double magnetic attraction points can be generated relative to the induction coil group 20 (as shown in Figure 5A). At this time, if the load is connected to the induction coil group 20, the induction coil group 20 corresponds to the direction of motion, and the negative force generated by the accretion of magnetic attraction is greater than the positive direction. Force, so the coil 22 of the induction coil group 20 is not connected to the load at this time; and because it has double magnetic attraction points, when the magnetic attraction force generated at both ends is balanced, as shown in Figure 5B, the induction coil group 20 is in the The zero-torque state is not affected by the accretive magnetic attraction; and when the coil 22 of the induction coil group 20 is connected to a load, as shown in FIG. With a yoke 25 with a larger diameter, the induction coil group 20 corresponds to the forward direction of motion, so that the positive force generated by the accretion magnetic attraction is greater than the negative force, and the magnetic conductor 21 of the induction coil group 20 can be used to rapidly destroy the hyperplasia The magnetic attraction balance relationship also enables the induction coil group 20 to be quickly driven, thereby enhancing the magnetic assist force for the induction coil group 20 to advance in the moving direction.

综上，透过磁组10的磁性件11磁力线及感应线圈组20的线圈22设置方向均与运动方向呈平行，使其产生双磁吸点，同时于感应线圈组20的导磁体21一端设置较大径磁轭25的设计，而能利用该较大径的磁轭25破坏两端增生磁吸力的平衡，借此，可以使水平向量分力放大，而能有效降低动损率，故能产生微力驱动的效果，同时放大运动方向的向量分力，以提高其动能，且在惯性加速下，能有效产生大电流，增加发电量的功效，进一步增进其能源转换率。To sum up, the direction of the magnetic lines of force passing through the magnetic element 11 of the magnetic group 10 and the coil 22 of the induction coil group 20 are parallel to the direction of motion, so that a double magnetic attraction point is generated, and at the same time, it is set at one end of the magnetic conductor 21 of the induction coil group 20 The design of the larger-diameter yoke 25 can utilize the larger-diameter yoke 25 to destroy the balance of the accretion magnetic attraction force at both ends, whereby the horizontal vector component force can be amplified, and the dynamic loss rate can be effectively reduced, so it can It produces the effect of micro-force driving, and at the same time amplifies the vector component force in the direction of motion to increase its kinetic energy. Under inertial acceleration, it can effectively generate large current, increase the power generation effect, and further increase its energy conversion rate.

上述实施例和图式并非限定本发明的产品形态和式样，任何所属技术领域的普通技术人员对其所做的适当变化或修饰，皆应视为不脱离本发明的专利范畴。The above-mentioned embodiments and drawings do not limit the form and style of the product of the present invention, and any appropriate changes or modifications made by those skilled in the art should be considered as not departing from the patent scope of the present invention.

Claims (4)

Translated fromChinese

1.一种电磁装置，该电磁装置由一被定义为转子的磁组及至少一被定义为定子的感应线圈组所组成；其特征在于：1. An electromagnetic device, which is composed of a magnetic group defined as a rotor and at least one induction coil group defined as a stator; it is characterized in that:该磁组具有至少一磁性件，且相邻的磁性件以相同极性相对方式串接排列，又各磁性件的两磁极与作为转子的磁组的运动方向呈平行状，再者各该感应线圈组具有一导磁体，且导磁体外绕设有一线圈，该线圈于导磁体上的绕圈延伸方向并与作为转子的磁组的运动方向呈平行状，另各该感应线圈组的导磁体异于磁组运动方向的一端设有一磁轭。The magnetic group has at least one magnetic part, and the adjacent magnetic parts are arranged in series with the same polarity opposite, and the two magnetic poles of each magnetic part are parallel to the moving direction of the magnetic group as the rotor, and each induction The coil group has a magnetizer, and a coil is wound around the magnetizer, and the winding extension direction of the coil on the magnetizer is parallel to the moving direction of the magnetic group as the rotor. In addition, the magnetizers of the induction coil groups A magnetic yoke is provided at one end different from the moving direction of the magnetic group.2.一种电磁装置，该电磁装置由一被定义为定子的磁组及至少一被定义为转子的感应线圈组所组成；其特征在于：2. An electromagnetic device, which is composed of a magnetic group defined as a stator and at least one induction coil group defined as a rotor; it is characterized in that:该磁组具有至少一磁性件，且相邻的磁性件以相同极性相对方式串接排列，又各磁性件的两磁极与作为转子的感应线圈组的运动方向呈平行状，再者各该感应线圈组具有一导磁体，且导磁体外绕设有一线圈，该线圈于导磁体上的绕圈延伸方向并与作为转子的感应线圈组的运动方向呈平行状，另各该感应线圈组的导磁体相对于感应线圈组运动方向的一端设有一磁轭。The magnetic group has at least one magnetic piece, and the adjacent magnetic pieces are arranged in series with the same polarity facing each other, and the two magnetic poles of each magnetic piece are parallel to the moving direction of the induction coil group as the rotor, and each of the magnetic pieces The induction coil group has a magnetizer, and a coil is wound around the magnetizer body, and the winding extension direction of the coil on the magnetizer is parallel to the moving direction of the induction coil group as the rotor, and each of the induction coil groups A magnetic yoke is provided at one end of the magnetic conductor relative to the moving direction of the induction coil group.3.如权利要求1或2所述的电磁装置，其特征在于：该磁组与该感应线圈组的相对运动是旋转运动。3. The electromagnetic device according to claim 1 or 2, wherein the relative movement between the magnetic group and the induction coil group is a rotational movement.4.如权利要求1或2所述的电磁装置，其特征在于：该磁组与该感应线圈组的相对运动是线性运动。4. The electromagnetic device according to claim 1 or 2, wherein the relative motion between the magnetic group and the induction coil group is a linear motion.