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    • 2. 发明授权
    • Fiber-optic block and fingerprint detector using the same
    • 光纤块和指纹检测器使用相同
    • US5808729A
    • 1998-09-15
    • US872674
    • 1997-06-11
    • Takeo SugawaraToshihiko HinoKazuaki Okumura
    • Takeo SugawaraToshihiko HinoKazuaki Okumura
    • G02B6/00A61B5/117G02B6/04G02B6/06G02B6/08G02B6/26G06K9/00G06K9/74
    • G06K9/00046A61B5/1172G02B6/08G02B6/262G02B6/06Y10S385/901
    • A tapered FOB (20) obtained by forming optical absorbers on the outer surfaces of fibers and bundling these fibers is joined to a slant FOB (10) obtained by bundling fibers, and a CCD (60) is arranged at the output end face of the tapered FOB (20). The slant angle (.beta..sub.0) of a detection surface (11) of the slant FOB (10) on which a fingertip is to be placed is set to an angle at which background light incident from air on the slant FOB (10) is not reflected as total internal reflection at the interface between the core and cladding of the slant FOB (10). The slant angle (.beta..sub.1) of the tapered FOB (20) is set such that background light reaching the tapered FOB (20) becomes incident at the interface between the core and the cladding at an angle smaller than the critical angle at which total internal reflection occurs. Unwanted background light and illumination light are eliminated, and the S/N ratio of a fingerprint image to be detected can be increased.
    • 通过在纤维的外表面上形成光纤并捆扎这些纤维获得的锥形FOB(20)与通过捆扎纤维获得的倾斜FOB(10)接合,并且CCD(60)布置在 锥形FOB(20)。 将要放置指尖的倾斜FOB(10)的检测表面(11)的倾斜角(β0)设定为从倾斜FOB(10)上的空气入射的背景光不是的角度 反映为在倾斜FOB(10)的芯和包层之间的界面处的全内反射。 锥形FOB(20)的倾斜角(β1)被设定为使得到达锥形FOB(20)的背景光以小于临界角的角度入射在芯和包层之间的界面处, 发生反射。 消除了不需要的背景光和照明光,并且可以增加要检测的指纹图像的S / N比。
    • 4. 发明申请
    • Ionized gas current emission type dust-free ionizer
    • 电离气体发射型无尘电离器
    • US20060279897A1
    • 2006-12-14
    • US11507917
    • 2006-08-22
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • H01H47/00
    • H01T23/00
    • The ionizer of the present invention comprises a chamber which has an ionization part that ionizes a portion of an ion carrier gas that is supplied to the interior of this chamber, and a blowing part which feeds the ion carrier gas toward a charged body. The ionization part is constructed from an ionization source which is contained in the chamber, and a control device which is connected with this ionization source via a high-voltage cable. Either the generating part of a soft X-ray generating device, the generating part of a low-energy electron beam generating device or the generating part of an ultraviolet radiation generating device is used as the ionization source. The control device, the connecting part between the control device and the high-voltage cable and the connecting part between the ionization source and the high-voltage cable are formed with an explosion-proof structure.
    • 本发明的电离器包括具有离子化部分的室,该离子化部分离子化供应到该室内的离子载体气体的一部分,以及将离子载气朝向带电体供给的吹送部。 离子化部分由容纳在室中的电离源构成,以及通过高压电缆与该电离源连接的控制装置。 使用软X射线产生装置的产生部分,低能电子束产生装置的产生部分或紫外线辐射产生装置的产生部分作为电离源。 控制装置,控制装置和高压电缆之间的连接部分以及电离源和高压电缆之间的连接部分由防爆结构形成。
    • 5. 发明授权
    • Ionized air flow discharge type non-dusting ionizer
    • 电离气流放电式除尘电离器
    • US07126807B2
    • 2006-10-24
    • US10479353
    • 2002-05-28
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • H05F3/06H01T23/00H05K9/00
    • H01T23/00
    • The ionizer of the present invention comprises a chamber which has an ionization part that ionizes a portion of an ion carrier gas that is supplied to the interior of this chamber, and a blowing part which feeds the ion carrier gas toward a charged body. The ionization part is constructed from an ionization source which is contained in the chamber, and a control device which is connected with this ionization source via a high-voltage cable. Either the generating part of a soft X-ray generating device, the generating part of a low-energy electron beam generating device or the generating part of an ultraviolet radiation generating device is used as the ionization source. The control device, the connecting part between the control device and the high-voltage cable and the connecting part between the ionization source and the high-voltage cable are formed with an explosion-proof structure.
    • 本发明的电离器包括具有离子化部分的室,该离子化部分离子化供应到该室内的离子载体气体的一部分,以及将离子载气朝向带电体供给的吹送部。 离子化部分由容纳在室中的电离源构成,以及通过高压电缆与该电离源连接的控制装置。 使用软X射线产生装置的产生部分,低能电子束产生装置的产生部分或紫外线辐射发生装置的产生部分作为电离源。 控制装置,控制装置和高压电缆之间的连接部分以及电离源和高压电缆之间的连接部分由防爆结构形成。
    • 8. 发明授权
    • Ionized gas current emission type dust-free ionizer
    • 电离气体发射型无尘电离器
    • US07397647B2
    • 2008-07-08
    • US11507917
    • 2006-08-22
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • Akira MizunoAkio SugitaMasanori SuzukiTomokatsu SatoToshihiko HinoHaruyuki Togari
    • H05F3/00
    • H01T23/00
    • The ionizer of the present invention comprises a chamber which has an ionization part that ionizes a portion of an ion carrier gas that is supplied to the interior of this chamber, and a blowing part which feeds the ion carrier gas toward a charged body. The ionization part is constructed from an ionization source which is contained in the chamber, and a control device which is connected with this ionization source via a high-voltage cable. Either the generating part of a soft X-ray generating device, the generating part of a low-energy electron beam generating device or the generating part of an ultraviolet radiation generating device is used as the ionization source. The control device, the connecting part between the control device and the high-voltage cable and the connecting part between the ionization source and the high-voltage cable are formed with an explosion-proof structure.
    • 本发明的电离器包括具有离子化部分的室,该离子化部分离子化供应到该室内的离子载体气体的一部分,以及将离子载气朝向带电体供给的吹送部。 离子化部分由容纳在室中的电离源构成,以及通过高压电缆与该电离源连接的控制装置。 使用软X射线产生装置的产生部分,低能电子束产生装置的产生部分或紫外线辐射产生装置的产生部分作为电离源。 控制装置,控制装置和高压电缆之间的连接部分以及电离源和高压电缆之间的连接部分由防爆结构形成。