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    • 11. 发明申请
    • Connecting structure for hollow member or half hollow member
    • 中空构件或半空心构件的连接结构
    • US20060278463A1
    • 2006-12-14
    • US11451559
    • 2006-06-13
    • Eiji AnzaiYunosuke YamadaYoshihiro KonnoYuki Murayama
    • Eiji AnzaiYunosuke YamadaYoshihiro KonnoYuki Murayama
    • B62D21/00
    • B62D27/065B62D21/11B62D21/155Y10T403/7079Y10T403/7084
    • A connecting structure includes a hollow member or a half hollow member including two side portions opposed apart to each other; a collar; and a bolt. The collar includes two contact surfaces at both ends of the collar. The two contact surfaces are adapted to respectively abut on the two side portions between the two side portions. At least one of the two contact surfaces is formed with a receiving portion for caulking. Moreover, the collar is formed with a bolt-hole passing through the two contact surfaces. The collar is disposed between the two side portions, and is caulked with the hollow member or half hollow member at a caulked portion formed from at least one of the two side portions toward the receiving portion. The bolt is adapted to pass through the two side portions and the bolt-hole to connect the hollow member or half hollow member with another member.
    • 连接结构包括中空构件或包括彼此相对分离的两个侧部的半中空构件; 领子 和螺栓。 套环包括在套环的两端的两个接触表面。 两个接触表面适于分别邻接在两个侧部之间的两个侧部。 两个接触表面中的至少一个形成有用于铆接的接收部分。 此外,套环形成有穿过两个接触表面的螺栓孔。 套环设置在两个侧部之间,并且在由朝向接收部分的两个侧部中的至少一个形成的铆接部分处用中空构件或半中空构件铆接。 螺栓适于穿过两个侧部和螺栓孔,以将中空构件或半中空构件与另一构件连接。
    • 12. 发明申请
    • Method of producing forged part and method of producing suspension arm for automotive vehicles
    • 制造锻造件的方法及制造汽车悬臂的方法
    • US20060005596A1
    • 2006-01-12
    • US11176684
    • 2005-07-08
    • Hideyori SakuragiYoshihiro KonnoHidenobu Kawai
    • Hideyori SakuragiYoshihiro KonnoHidenobu Kawai
    • B21J5/06
    • B21K1/74B21J5/00B21J5/02B21J5/08B21K1/06
    • A method of producing a forged part includes holding a material by a jig, upsetting the material, held by the jig, to a predetermined length by a pair of upsetting dies disposed on both ends of the material, while pressing the upsetting dies on the material, so as to produce large-diameter portions at the respective axial ends of the material. Next, a bending operation and a forging operation are made to the upset material, in that order. When forging, a direction, in which the material is forged, is set, so that a burr generated on the material by upsetting is included in a burr generated on the material by forging. Next, a finish-machining operation is made to the forged material to remove the burr left on the outer periphery of the material after forging. Thereafter, the finish-machined material is drilled to form bush-mounting holes in the large-diameter portions.
    • 一种制造锻造部件的方法包括通过夹具将材料夹持,通过一对设置在材料两端的镦锻模具将由夹具保持的材料镦锻至预定长度,同时将镦锻模压在材料上 ,以便在材料的相应轴向端部处产生大直径部分。 接下来,按顺序对镦粗材料进行弯曲操作和锻造操作。 当锻造时,设置材料被锻造的方向,使得通过锻造在材料上产生的毛刺包括在通过锻造在材料上产生的毛刺中。 接下来,对锻造材料进行精加工操作,以去除锻造后材料的外周留下的毛刺。 此后,精加工材料被钻孔以在大直径部分中形成衬套安装孔。
    • 13. 发明授权
    • Optical fibre birefringence compensation mirror and current sensor
    • 光纤双折射补偿镜和电流传感器
    • US09465053B2
    • 2016-10-11
    • US13699772
    • 2011-05-25
    • Yoshihiro KonnoMasaru Sasaki
    • Yoshihiro KonnoMasaru Sasaki
    • G01R19/00G01R15/24G02B27/28G02B6/27
    • G01R19/00G01R15/246G02B6/274G02B27/283G02B27/288
    • Disclosed is an optical fiber birefringence compensation mirror. Also disclosed is a current sensor wherein vibration resistance has been increased due to the optical connection of the optical fiber birefringence compensation mirror. The optical fiber birefringence compensation mirror includes: an optical fiber, a birefringence element, a lens, a magnet, a Faraday rotator, and a mirror. From the light incidence/emission end surface of the optical fiber, the birefringence element, Faraday rotator, and mirror are arranged in said order. Light comes in from the optical fiber, and is separated into two linearly polarised lights by the birefringence element. The polarisation planes of the two linearly polarised lights are rotated by the Faraday rotator, and the two linearly polarised lights are point-symmetrically reflected at one point by the mirror, then again rotated by the Faraday rotator, then re-combined into one light by the birefringence element and made to enter the optical fiber.
    • 公开了一种光纤双折射补偿镜。 还公开了一种电流传感器,其中由于光纤双折射补偿反射镜的光学连接而使振动阻力增加。 光纤双折射补偿镜包括:光纤,双折射元件,透镜,磁铁,法拉第旋转器和反射镜。 从光纤的光入射/发射端面,双折射元件,法拉第旋转器和反射镜按照顺序排列。 光从光纤入射,并通过双折射元件分离为两个线偏振光。 两个直线偏振光的偏振面由法拉第旋转器旋转,两个直线偏振光在一个点上被镜子点对称地反射,然后由法拉第旋转器再次旋转,然后通过 双折射元件并使其进入光纤。
    • 17. 发明授权
    • Current measuring device
    • 电流测量装置
    • US07176671B2
    • 2007-02-13
    • US10502277
    • 2003-02-28
    • Kiyoshi KurosawaYoshiharu HirokiYoshihiro KonnoMasaru Sasaki
    • Kiyoshi KurosawaYoshiharu HirokiYoshihiro KonnoMasaru Sasaki
    • G01R31/00G01J4/00
    • G01R15/246
    • A current measuring apparatus comprises a current detection unit 10 and a photoelectric converter 20. The current detection unit 10 comprises an optical fiber sensor 11 extended or looped around a conductor 30. A reflective film 12 is attached to one end of the sensor 11 so that light can be reflected by the end of the sensor. The current detection unit 10 further comprises a first Faraday element 13, a light-transmitting birefringent member 14, a first optical fiber 15, a second optical fiber 16 and a lens 17. The Faraday element 13 rotates a plane of polarization of the incident light through about 22.5°. The birefringent member 14 functions to separate the light emitted from the sensor 11 into an ordinary ray L1 and an extraordinary ray L2 that are orthogonal to each other, and to transmit linearly polarized light L0 emitted from a light source. The lens 17 is provided between the element 13 and the birefringent member 14. Focal points of the lens are formed at core portions of an input end 11a of the sensor 11 and an end face 15a of the first optical fiber 15. With this arrangement, the number of components is reduced and the apparatus is reduced in size.
    • 电流测量装置包括电流检测单元10和光电转换器20。 电流检测单元10包括在导体30周围延伸或环绕的光纤传感器11。 反射膜12附接到传感器11的一端,使得光可以被传感器的端部反射。 电流检测单元10还包括第一法拉第元件13,透光双折射元件14,第一光纤15,第二光纤16和透镜17。 法拉第元件13将入射光的偏振面旋转约22.5°。 双折射构件14用于将从传感器11发射的光分离成彼此正交的普通光L 1和非常光L 2 2,并且发射 从光源发射的线偏振光L 0 0 。 透镜17设置在元件13和双折射元件14之间。 透镜的焦点形成在传感器11的输入端11a和第一光纤15的端面15a的芯部。 通过这种布置,部件的数量减少,并且装置的尺寸减小。
    • 19. 发明授权
    • Individual test program producing system
    • 单独测试程序生成系统
    • US5801972A
    • 1998-09-01
    • US905997
    • 1997-08-04
    • Yoshihiro Konno
    • Yoshihiro Konno
    • G01R31/3183G01R31/319G06F11/22G06F11/28
    • G01R31/318307G01R31/31908
    • A test program producing device including a test item information producing unit for reading circuit information, macro to be tested information and a library to produce necessary information regarding test items for an LSI to be examined, a test possibility/impossibility determining unit for calculating a total capacity of an object of a test pattern in a test program to be produced and comparing the total capacity of the object with a memory capacity of a testing device which executes a test for the LSI to be examined to determine whether a test is possible or not based on comparison results, and an individual test program producing unit for embedding information regarding test items in a model of a test program when determination is made that a test is possible, to produce a test program for use in an individual test of the LSI to be examined.
    • 一种测试程序产生装置,包括:用于读取电路信息的测试项目信息产生单元,待测试的信息的宏;以及用于产生关于待检查的LSI的测试项目的必要信息的库;测试可能性/不可能性确定单元, 测试程序中的测试模式的对象的容量被产生,并且将对象的总容量与执行要检查的LSI的测试的测试装置的存储容量进行比较,以确定是否可以进行测试 基于比较结果,以及个体测试程序产生单元,用于在确定可能进行测试时将关于测试项目的信息嵌入到测试程序的模型中,以产生用于LSI的单独测试的测试程序 被检查。