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    • 2. 发明公开
    • MAGNETIC SENSOR DEVICE
    • MAGNETSENSORVORRICHTUNG
    • EP2955535A4
    • 2017-02-15
    • EP14748712
    • 2014-02-05
    • MITSUBISHI ELECTRIC CORP
    • ASANO HIROYUKISHOJI TOSHIAKIOGOMI TOMOKAZUSHIMOHATA KENJIOKADA MASAAKIKAGANO MIKIHINO MASASHIMATSUI HIDEKI
    • G01R33/09G01R33/02
    • G01D5/16G01R33/09
    • A magnetic field generator is disposed on one surface side of a sheet-shaped object-to-be-detected (4) and contains a magnetic component. The magnetic field generator includes a first magnetic pole part that forms a first magnetic pole, and a second magnetic pole part that forms a second magnetic pole that has a reverse polarity of the first magnetic pole. The magnetic field generator generates a cross magnetic field that crosses the object-to-be-detected (4). An MR element (3) is disposed between the first magnetic pole part and the object-to-be-detected (4). The resistance value of the MR element (3) changes according to a change in a component of the cross magnetic field in a conveying direction. The position of the MR element (3) in the conveying direction is a position shifted along the conveying direction from the center position of the first magnetic pole part in the conveying direction, and located between both ends of the first magnetic pole part in the conveying direction.
    • 磁场发生器设置在片状被检测体(4)的一个表面侧,并含有磁性成分。 磁场发生器包括形成第一磁极的第一磁极部分和形成具有第一磁极的相反极性的第二磁极的第二磁极部分。 磁场发生器产生穿过待检测物体(4)的交叉磁场。 MR元件(3)设置在第一磁极部分和被检测物体(4)之间。 MR元件(3)的电阻值根据输送方向上的交叉磁场的分量的变化而变化。 MR元件(3)在输送方向上的位置是从输送方向的第一磁极部分的中心位置沿输送方向移动的位置,位于输送方向上的第一磁极部分的两端之间 方向。
    • 3. 发明专利
    • Cavity resonator
    • CAVITY谐振器
    • JP2007287636A
    • 2007-11-01
    • JP2006116956
    • 2006-04-20
    • Mitsubishi Electric Corp三菱電機株式会社
    • YOSHIDA KIYOHIKOHINO MASASHI
    • H01J23/20H01P7/06
    • PROBLEM TO BE SOLVED: To provide a cavity resonator that suppresses heat generation in a tuner even in the case of increasing duty and output of a high frequency wave, and improves an efficiency of heat dissipation.
      SOLUTION: The cavity resonator comprises: a bellows 13 made of stainless steel on which a copper plating film is formed to separate a resonant cavity and an exterior; a tuner rod 16 with a satisfactory electrical conductivity whose tip is inserted into the resonant cavity passing through the bellows 13 for moving the tip toward a drift 11; a stationary portion 15 with a satisfactory thermal conductivity accommodating the bellows 13 and the tuner rod 16; and a supporter 18 with a satisfactory thermal conductivity connected to a back end of the tuner rod 16, and extended from an inside of the stationary portion 15 to an outside thereof.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种即使在增加高频波的占空比和输出的情况下也能抑制调谐器中的发热的空腔谐振器,并且提高散热效率。 解决方案:空腔谐振器包括:由不锈钢制成的波纹管13,其上形成有镀铜膜以分离谐振腔和外部; 具有令人满意的导电性的调谐器杆16,其顶端插入通过波纹管13的谐振腔中,用于将尖端移向漂移体11; 固定部分15具有令人满意的导热性,容纳波纹管13和调谐器杆16; 以及具有令人满意的导热性的支撑件18,其连接到调谐器杆16的后端,并且从固定部分15的内部延伸到其外部。 版权所有(C)2008,JPO&INPIT
    • 4. 发明专利
    • Microwave melting device
    • 微波熔炼设备
    • JP2003065509A
    • 2003-03-05
    • JP2001251059
    • 2001-08-22
    • Mitsubishi Electric Corp三菱電機株式会社
    • ASANO HIROYUKITAMURA MASAKAZUSUZUKI MASAHIKOHINO MASASHI
    • F23G5/00F23G5/027F23G5/44F23J1/00F27D3/08F27D11/12F27D17/00
    • PROBLEM TO BE SOLVED: To provide a microwave melting device in which a heating efficiency can be improved by previously discharging gas from a material to be molten and suppressing the generation of plasma during applying microwave.
      SOLUTION: The microwave melting device comprises a tank 40 charged with the material to be molten, a screw conveyor 15 for conveying the material to be molten charged in the tank 40, a heater 41 for heating the material to be molten when the material to be molten is conveyed by the screw conveyor 15, a melting vessel 44 for accommodating the material to be molten in which hydrocarbon is emitted by the heater 41, a microwave generator 45 for generating the microwave applied to the material to be molten which is accommodated in the melting vessel 44, and a recovery vessel 30 for recovering slag produced in the melting vessel 44.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种微波熔化装置,其中可以通过预先从待熔融材料中排出气体并且在施加微波时抑制等离子体的产生而提高加热效率。 解决方案:微波熔化装置包括一个充满待熔化材料的箱体40,用于输送在罐40中熔融填充的材料的螺旋输送机15,一个加热器41,用于加热要熔化的材料 熔融物通过螺旋输送机15输送,用于容纳被加热器41发出烃的熔融材料的熔化容器44;微波发生器45,用于产生施加到待熔化材料的微波, 熔解容器44和用于回收在熔化容器44中产生的炉渣的回收容器30。
    • 5. 发明专利
    • 磁気センサ装置
    • 磁传感器装置
    • JP2015007580A
    • 2015-01-15
    • JP2013132932
    • 2013-06-25
    • 三菱電機株式会社Mitsubishi Electric Corp
    • ASANO HIROYUKIOGOMI TOMOKAZUOKADA MASAAKIHINO MASASHI
    • G01R33/09G01R33/02G07D7/04
    • 【課題】 MR素子の感磁方向の微小なバイアス磁界を、簡単な方法で精度良く調整可能とする磁気センサ装置を得る。【解決手段】磁気成分を有する被検知物の一方の面に面し、前記被検知物に交差する交差磁界を形成する磁石部と、前記磁石部の一方の磁極と前記被検知物との間に設けられ、前記交差磁界内を搬送される前記被検知物の磁気成分による前記交差磁界の搬送方向成分の変化を抵抗値の変化として出力する磁気抵抗効果素子とを備え、前記磁石部は、前記磁気抵抗効果素子に印加される前記交差磁界の搬送方向の成分が所定の大きさとなるように、前記磁気抵抗効果素子に対して搬送方向に相対的に移動可能に配置されている。【選択図】図1
    • 要解决的问题:通过简单的方法获得能够以高精度调节MR(磁阻效应)元件的磁敏感方向上的微小偏磁场的磁传感器装置。解决方案:磁传感器装置包括:磁体 面对具有磁性成分的待检测物体的一个表面,并形成与待检测物体交叉的交叉磁场; 以及磁阻效应元件,设置在磁体单元的磁极和被检测体之间的磁极之间,作为电阻值的变化,输出由磁场引起的交叉磁场的输送方向的分量的变化 被检测物体的分量在交叉磁场中传输。 磁体单元相对于磁阻效应元件在传输方向上可移动地布置,使得施加到磁阻效应元件的交叉磁场的输送方向上的分量成为规定尺寸。
    • 6. 发明专利
    • Image sensor
    • 图像传感器
    • JP2011109517A
    • 2011-06-02
    • JP2009263947
    • 2009-11-19
    • Mitsubishi Electric Corp三菱電機株式会社
    • HINO MASASHIMATSUMURA SEIICHI
    • H04N1/04G03B27/54H04N1/028
    • PROBLEM TO BE SOLVED: To provide an image sensor that ensures uniform illumination distribution in a reading width direction even with distortion caused by thermal expansion/shrinkage due to heat of an illumination system or any environmental temperature change. SOLUTION: An image sensor comprises a lightguide 2, a light scattering layer 3, a holder 12 and a housing 9. The lightguide 2 has a projection in its center, has light sources 10 disposed in both ends to guide light from the light sources 10 in a reading width direction of a document. The light scattering layer 3 is disposed discontinuously along the lightguide 2 while providing a narrow pattern 3b on a surface of the lightguide 2 on the surfaces of both ends and providing a wide pattern 3a on the surface in the center. The holders 12 hold the ends of the lightguide 2, and provided at both ends of the lightguide 2 for accommodating the light source 10 in the space with another end. The housing 9 fixes the holder 12 via an elastic member 13, and has a notch 9a to be fitted with the projection 2a of the lightguide 2. The wide pattern 3a of the light scattering layer 3 provided on the surface in the center of the lightguide 2 is set longer than the length of the projection 3a in the reading width direction of the document. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种图像传感器,即使由于照明系统的热量或任何环境温度变化引起的热膨胀/收缩引起的变形,也能够确保在读取宽度方向上均匀的照明分布。 解决方案:图像传感器包括光导2,光散射层3,保持器12和壳体9.光导2在其中心具有突出部,其中,光源10设置在两端以引导来自 光源10在文档的读宽度方向上。 光散射层3沿着光导2不连续地设置,同时在两端的表面上在光导2的表面上提供窄图案3b,并且在中心的表面上提供宽图案3a。 保持器12保持光导2的端部,并且设置在光导2的两端,用于将光源10容纳在具有另一端的空间中。 壳体9经由弹性构件13固定保持器12,并且具有与导光体2的突起2a配合的切口9a。设置在光导中心的表面上的光散射层3的宽图案3a 2被设定为比文件的读取宽度方向上的突起3a的长度长。 版权所有(C)2011,JPO&INPIT
    • 7. 发明专利
    • Helix type traveling-wave tube and helix type traveling-wave tube manufacturing method
    • HELIX型旅行波纹管和HELIX型行波管制造方法
    • JP2013030377A
    • 2013-02-07
    • JP2011166211
    • 2011-07-29
    • Mitsubishi Electric Corp三菱電機株式会社
    • HIGASHIMURA KEISUKEKANBARA RISUINANOKAICHI KAZUYOSHIHINO MASASHI
    • H01J23/26
    • PROBLEM TO BE SOLVED: To improve assembling accuracy of a loading element and a helix.SOLUTION: A helix type traveling-wave tube comprises a cylindrical envelope 9, an electron gun mounted at one end of the envelope 9 and radiating electron beam inside the envelope, and a collector mounted at the other end of the envelope 9 and collecting electrons of the electron beam. Plural vanes 14 are formed on an inner face of the envelope 9 in parallel to a shaft of the envelope 9 and integrally with the envelope 9. A helix 4 is arranged inside the envelope 9 coaxially with the envelope 9. The helix 4 is supported away from the envelope 9 by three or more supports 8 interposed between an outer periphery of the helix 4 and the inner face of the envelope 9 away from the vanes 14. Then, an inside diameter of the envelope 9 and an outside diameter of a circle to which the three or more supports 8 are inscribed has a shrink fitting relationship.
    • 要解决的问题:提高装载元件和螺旋的组装精度。 解决方案:螺旋型行波管包括圆柱形外壳9,安装在外壳9的一端的电子枪和外壳内的辐射电子束,以及安装在外壳9另一端的收集器 收集电子束的电子。 多个叶片14形成在信封9的内表面上,与信封9的轴平行,并且与信封9一体形成。螺旋4与信封9同轴地布置在信封9内。螺旋4被支撑在 从信封9通过三根或更多个支撑件8插入螺旋4的外周边和外壳9的离开叶片14的内表面之间。然后,将外壳9的内径和圆形的外径 其中三个或更多个支承件8被刻划,具有收缩配合关系。 版权所有(C)2013,JPO&INPIT
    • 8. 发明专利
    • WAVEGUIDE COUPLING DEVICE
    • JPH1093301A
    • 1998-04-10
    • JP24008596
    • 1996-09-11
    • MITSUBISHI ELECTRIC CORP
    • HINO MASASHI
    • H01P1/08H01P1/30
    • PROBLEM TO BE SOLVED: To provide the waveguide coupling device with an air-tight high frequency window in which a damage in the high frequency window to keep air- tightness between a vacuum side and a non-vacuum side due to overheat is suppressed and an upper limit of microwave power allowed for the device is improved. SOLUTION: A circular waveguide 8 holding a window 6 is pressed and connected with a flange 30 coupled with ends of square waveguides 2, 4. The flange 30 is configured by coupling two members made of different types of materials as a torus part 32 being a press contact part and a thermal conduction plate 34 being an in side part opposed to the window 6. The torus 32 is made of a stainless steel with excellent mechanical strength and the thermal conduction plate 34 is made of a copper being high thermal conductivity metal. Thus, the flange 30 is pressed into contact with the circular waveguide 8 and the thermal conduction plate 34 delivers heat from the surface of the thermal conduction plate 34 and the window 6 exposed in a microwave and heated to the square waveguides 2,4, then a damage to the window 6 due to overheat is prevented.
    • 10. 发明专利
    • JPH05299020A
    • 1993-11-12
    • JP9844492
    • 1992-04-20
    • MITSUBISHI ELECTRIC CORP
    • OGURA KAZUMASAHINO MASASHI
    • H01J9/38
    • PURPOSE:To facilitate discharge of respective display cells without impressing excessive voltage by radiating a light beam or a thermal light beam to a surface oxide film formed on the surface of an electrode or a sticking foreign matter, and evaporating/removing it. CONSTITUTION:Before a cathode electrode 2 and an anode electrode 4 are sealed, a laser beam 12 radiated from a radiation source 11 is applied directly or indirectly to a surface oxide 7 formed when the electrode 2 is formed on base glass l, a simultaneously sticking foreign matter 8 existent in the atmosphere and a similar surface oxide 9 and a foreign matter 10 of the electrode 4 so as to be removed. At this time, a matter unrecognizable with the naked eye can be also removed by radiating the lase beam 12 while scanning the overall surface. If only a light beam or a thermal light beam radiated from the radiating source 11 could pass through the electrode, it can be also removed by a halogen light beam and so on. A similar effect can be also obtained by radiating an electron beam or an infrared ray.