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    • 1. 发明专利
    • Electromagnetic induction propulsion device
    • 电磁感应推进装置
    • JP2010030572A
    • 2010-02-12
    • JP2008213308
    • 2008-07-27
    • Yoshinori Shoji義則 庄司
    • SHOJI YOSHINORI
    • B63H19/00
    • PROBLEM TO BE SOLVED: To provide an electromagnetic induction propulsion device capable of changing a polarity of an electrode without changing the direction of a magnetic field, thus suppressing the consumption of the electrode, using an alternating current or three-phase alternating current, easily realizing high-frequency, and using a permanent magnet since the direction of the magnetic field can be constant.
      SOLUTION: The front end section 11 of this propulsion device is a rotary type, and the magnetic field is generated toward a traveling direction. A plurality of electrodes 31-34 for passing a current are arranged in an outer wall near the root of the front end section, and the current is passed intermittently between two or more electrodes. Thus, the current is passed spirally so as to go around the outside of the propulsion device, and a propulsion force is generated by the action of this current and the magnetic field.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:为了提供能够改变电极的极性而不改变磁场方向的电磁感应推进装置,从而通过使用交流电或三相交流电来抑制电极的消耗 容易实现高频,并且由于磁场的方向可以是恒定的,所以使用永磁体。 解决方案:该推进装置的前端部11是旋转型的,并且向行进方向产生磁场。 用于通过电流的多个电极31-34布置在前端部分的根部附近的外壁中,并且电流在两个或更多个电极之间间歇地通过。 因此,电流被螺旋地通过,以绕过推进装置的外部,并且通过该电流和磁场的作用产生推进力。 版权所有(C)2010,JPO&INPIT
    • 2. 发明专利
    • Electric propulsion system by electromagnetic field
    • 电磁场电动推进系统
    • JP2009115069A
    • 2009-05-28
    • JP2007312843
    • 2007-11-05
    • Yoshinori Shoji義則 庄司
    • SHOJI YOSHINORI
    • F03H99/00F03G7/00
    • PROBLEM TO BE SOLVED: To solve problems wherein since in many cases, a conventional electric propulsion system used in the aerospace is an ion jet type most of which have a structure for ionizing and injecting a propellant, the electric propulsion system has small thrust force and increased weight due to the propellant and interstellar matter is too thin to obtain thrust force if used.
      SOLUTION: Magnetic poles and electrodes are installed in a body so that the electromagnetic field in which the magnetic poles and electrodes are approximately orthogonal to each other has an annular shape. In this annular electromagnetic field, supply and discharge of electric charges or bias of electric charges by an electric field is generated. Thus, ring current is generated in the annular electromagnetic field to generate a magnetic field. Due to the action of the magnetic field generated by the body and the magnetic field generated by the ring current, propulsive force is generated by the magnetic force.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题为了解决由于在许多情况下,在航空航天中使用的常规电动推进系统是离子喷射型,其大部分具有用于电离和喷射推进剂的结构,所以电推进系统具有小的 由于推进剂和星际物质的推力和增加的重量太薄而不能获得推力。 解决方案:磁极和电极安装在体内,使得磁极和电极彼此大致正交的电磁场具有环形形状。 在这种环形电磁场中,产生电荷的电荷放电或电场的电荷偏置。 因此,在环形电磁场中产生环电流以产生磁场。 由于由身体产生的磁场和由环形电流产生的磁场的作用,推进力由磁力产生。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Electromagnetic propelling device
    • 电磁螺旋装置
    • JP2013087764A
    • 2013-05-13
    • JP2011239593
    • 2011-10-13
    • Yoshinori Shoji義則 庄司
    • SHOJI YOSHINORI
    • F03H99/00B63G8/08B63H19/00
    • PROBLEM TO BE SOLVED: To provide a propelling device which is operated only by electricity and magnetic force without requiring propellent, atmosphere, and seawater.SOLUTION: Two electrodes for electric discharge are arranged on a surface of the propelling device which is resistant to heat and hardly conducts electricity. A function of generating a magnetic field between the electrodes is provided to the propelling device. Electric discharge is made by applying a positive voltage and a negative voltage to the electrodes, and a current is flown between the electrodes in which the magnetic field is generated. Interaction is generated on the current and the magnetic field, and the discharged current is moved. Simultaneously, reaction is generated on the device which generates the magnetic field. This force is temporary one, but this force can be continuously obtained by intermittently repeating these behaviors.
    • 要解决的问题:提供仅通过电力和磁力操作而不需要推进剂,大气和海水的推进装置。 解决方案:用于放电的两个电极布置在推进装置的耐热和几乎不导电的表面上。 在推进装置之间设置有在电极之间产生磁场的功能。 通过向电极施加正电压和负电压来进行放电,并且在产生磁场的电极之间流过电流。 在电流和磁场上产生相互作用,并且放电电流移动。 同时,在产生磁场的装置上产生反应。 这种力是暂时的,但是这种力可以通过间歇地重复这些行为而持续获得。 版权所有(C)2013,JPO&INPIT
    • 4. 发明专利
    • Electromagnetic propelling device
    • 电磁螺旋装置
    • JP2011220318A
    • 2011-11-04
    • JP2010105816
    • 2010-04-13
    • Yoshinori Shoji義則 庄司
    • SHOJI YOSHINORI
    • F03H99/00
    • PROBLEM TO BE SOLVED: To solve a problem wherein a propelling principal and a propelling device available in space, atmosphere, and underwater and attaining propelling force by means of electricity and magnetic force are scarcely existed until now.SOLUTION: Electrodes 31, 32 for electric discharge are arranged on a surface 10 of a device which is highly resistant to heat and hardly conducts electricity, and a magnetic pole 21 for generating a magnetic field between the electrodes is arranged on the device. Electric discharge between the electrodes is made by applying a positive voltage and a negative voltage to respective electrodes, and a magnetic field is generated from the magnetic pole by flowing a current between two electrodes. Interaction is generated on the current and the magnetic field, and the discharged current is moved by receiving a force due to the magnetic field. The magnetic field simultaneously receives a reaction of the interaction, and the device with a magnetic pole also receives the force. This force is a temporary object, but this force can be continuously obtained by intermittently repeating electric discharge.
    • 要解决的问题为了解决现在几乎不存在通过电力和磁力在空间,大气和水中可用的推进主体和推进装置达到推进力的问题。 解决方案:用于放电的电极31,32布置在耐高温且难以传导的装置的表面10上,并且用于在电极之间产生磁场的磁极21布置在装置上 。 通过向各个电极施加正电压和负电压来进行电极之间的放电,并且通过在两个电极之间流动电流从磁极产生磁场。 在电流和磁场上产生相互作用,并且通过接收由于磁场引起的力而使放电电流移动。 磁场同时接收到相互作用的反应,并且具有磁极的装置也接收该力。 该力是暂时的对象,但是可以通过间歇地重复放电来连续获得该力。 版权所有(C)2012,JPO&INPIT
    • 5. 发明专利
    • Electromagnetic propulsion device
    • 电磁推进装置
    • JP2010126151A
    • 2010-06-10
    • JP2008331388
    • 2008-12-01
    • Yoshinori Shoji義則 庄司
    • SHOJI YOSHINORI
    • B63H19/00B63G8/08
    • PROBLEM TO BE SOLVED: To solve a problem wherein equipment for generating magnetic field in a track is required in a linear motor car propelled by electric force by an action of an electromagnetic field, a course is limited, equipment cost is high, and a material around a propulsion device is required to be heavy in electromagnetic induction propulsion to be used in a vessel, etc. and the electromagnetic induction propulsion can be virtually used at only the sea.
      SOLUTION: This electromagnetic propulsion device is in contact with an environment in which current flows such as a material of gas or liquid in which current is easy to flow and vacuum. In the electromagnetic propulsion device, magnetic poles 21 and 22 to generate the magnetic field in the environment and electrodes 31, 32, 33 and 34 to make current crossing the magnetic field flow are installed. Voltage is applied between the electrodes 31, 32, 33 and 34, current is made to flow and magnetic field is generated from the magnetic poles 21 and 22. The current flowing between the electrodes 31, 32, 33 and 34 has property to hold the state, force is generated in the electromagnetic propulsion device by an interaction with the magnetic field generated by the magnetic poles 21 and 22 and disappears in a short time since the current changes the track. By generating current and magnetic field which are different in phase, this cycle is repeated, the force is continuously produced, and propulsive force is generated.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题为了解决在由电磁力驱动的电力推动的线性电动车中需要在轨道中产生磁场的设备的问题,课程受到限制,设备成本高, 并且围绕推进装置的材料需要在用于容器等的电磁感应推进中很重,并且电磁感应推进可以仅在海上使用。 解决方案:该电磁推进装置与电流流动的环境例如气体或液体的材料接触,其中电流容易流动和真空。 在电磁推进装置中,安装在环境中产生磁场的磁极21和22以及电极31,32,33,34以使电流与磁场流相交。 在电极31,32,33和34之间施加电压,使电流流动,并且从磁极21和22产生磁场。在电极31,32,33和34之间流动的电流具有保持 状态下,通过与磁极21和22产生的磁场的相互作用在电磁推进装置中产生力,并且由于电流改变轨迹而在短时间内消失。 通过产生相位不同的电流和磁场,重复该循环,连续产生力并产生推进力。 版权所有(C)2010,JPO&INPIT
    • 6. 发明专利
    • Electric propulsion system by electromagnetic field
    • 电磁场电动推进系统
    • JP2009219339A
    • 2009-09-24
    • JP2008099767
    • 2008-03-10
    • Yoshinori Shoji義則 庄司
    • SHOJI YOSHINORI
    • H02K41/025B63G8/08B63H19/00
    • PROBLEM TO BE SOLVED: To solve a problem that the linear motor car requires equipment for generating a magnetic field on orbit, the course is limited, and expenditure for equipment is required, and the use of the electromagnetic induction propulsion device under the sea is limited since the device increases power consumption and can be used only in the sea although there are a linear motor car traveling in orbit on the ground and an electric propulsion vessel as propulsion systems for promotion by an electric force by the action of the conventional electromagnetic field.
      SOLUTION: Two or more coils are installed close to the surface of a fuselage of an airframe. The varying current flow in a certain coil causes a magnetic field. The induced current is generated around the airframe. The current with a different phase flow in a coil on the side causes the magnetic field. The induced current is generated around the airframe. Consequently, the generated magnetic field with a different phase of a plurality of coils and the action repelling or attracting to the induced current are generated. The propulsion is created using this.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题为了解决线性电动车需要在轨道上产生磁场的设备的问题,课程受到限制,需要设备费用,以及使用电磁感应推进装置 海是有限的,因为装置增加了功率消耗,并且只能在海上使用,尽管线性电动车在地面轨道上行驶,电动推进装置作为用于通过常规动作由电力促进的推进系统 电磁场。

      解决方案:两个或更多个线圈安装在靠近机身机身表面的位置。 某一线圈中的变化的电流流过磁场。 在机身周围产生感应电流。 在侧面的线圈中具有不同相流的电流导致磁场。 在机身周围产生感应电流。 因此,产生具有多个线圈的不同相位的所产生的磁场以及排斥或吸引到感应电流的动作。 推进是使用这个创建的。 版权所有(C)2009,JPO&INPIT