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    • 1. 发明授权
    • Optical distance-measuring device and electronic device
    • 光学测距装置及电子装置
    • US09086480B2
    • 2015-07-21
    • US13536415
    • 2012-06-28
    • Hideo WadaAkifumi YamaguchiMasaru Kubo
    • Hideo WadaAkifumi YamaguchiMasaru Kubo
    • G01C21/02G01S17/48G02B1/04G01C3/08G02B19/00G02B7/02G01S7/481
    • G01S17/48G01C3/08G01S7/4813G02B1/041G02B7/022G02B19/0014G02B19/0085
    • A lens frame, made from metal, retaining a light-emitting lens and a light-receiving lens is retained between a second mold and a third mold both of which are made from light-shielding resins. Anchors are formed by filling light-shielding resin for forming the third mold into fixing slots formed in an upper surface of the second mold and through holes formed in the lens frame. Since the lens frame is made from metal, thermal expansion of the lens frame is hardly caused by ambient temperature changes and self-heating. This causes little difference in the amount of change in difference between the lenses. Further, the lens frame is fixed with anchors between the second mold and the third mold. This suppresses the occurrence of sliding caused by difference in thermal expansion coefficient between the lens frame and the second and third molds.
    • 由金属制成的透镜框架,保持发光透镜和光接收透镜保持在由遮光树脂制成的第二模具和第三模具之间。 通过将形成第三模具的遮光树脂填充到形成在第二模具的上表面中的固定槽和通过形成在透镜框架中的孔而形成锚。 由于透镜框由金属制成,透镜框架的热膨胀几乎不会由于环境温度变化和自热而引起。 这导致透镜之间的差异的变化量几乎没有差异。 此外,透镜框架固定有第二模具和第三模具之间的锚固件。 这抑制由透镜框与第二和第三模之间的热膨胀系数的差异引起的滑动的发生。
    • 4. 发明申请
    • OPTICAL RANGING SENSOR AND ELECTRONIC DEVICE
    • 光学测距传感器和电子设备
    • US20100230599A1
    • 2010-09-16
    • US12641007
    • 2009-12-17
    • Akifumi YAMAGUCHIMasaru KUBO
    • Akifumi YAMAGUCHIMasaru KUBO
    • G01C3/02
    • G01S17/48G01S7/4813
    • An optical ranging sensor includes an infrared LED encapsulated in a first light-permeable resin section, a light receiving device encapsulated in a second light-permeable resin section, a light-shielding resin member in contact with the first and second resin sections, a drive circuit section for driving the LED, a light receiving device control section for controlling the light receiving device, and a control section for the drive circuit section and light receiving device control section. Under control of the control section, a driving time of the LED coincides with an exposure time of the light receiving device. Further, while the LED is not driven, the light receiving device is also exposed for a time identical to the exposure time. An output difference between outputs at the exposure with driving the LED and at the exposure without driving the LED is calculated, and ranging is performed based on the output difference.
    • 光学测距传感器包括封装在第一透光树脂部分中的红外LED,封装在第二透光树脂部分中的光接收装置,与第一和第二树脂部分接触的遮光树脂部件,驱动 用于驱动LED的电路部分,用于控制光接收装置的光接收装置控制部分和用于驱动电路部分和光接收装置控制部分的控制部分。 在控制部分的控制下,LED的驱动时间与受光装置的曝光时间一致。 此外,当LED不被驱动时,光接收装置也暴露与曝光时间相同的时间。 计算在驱动LED时的曝光和不驱动LED的曝光时的输出之间的输出差异,并且基于输出差进行测距。
    • 8. 发明授权
    • Optical object identification apparatus, and printing apparatus and object classification apparatus using same
    • 光学对象识别装置,以及使用该光学对象识别装置的打印装置和对象分类装置
    • US07005661B2
    • 2006-02-28
    • US10726068
    • 2003-12-03
    • Akifumi YamaguchiHisakazu Sugiyama
    • Akifumi YamaguchiHisakazu Sugiyama
    • G01N21/86
    • B41J11/0095B41J11/009G01B11/303G01N21/55G01N21/86
    • An optical object identification apparatus has a light emitting-side optical system (23), a light receiving-side optical system (26), and a signal processing section (29). The light emitting-side optical system (23) irradiates light from a light emitting device (21) via an objective lens (22) to a moving target object (27) such as printing paper sheets. The light receiving-side optical system (26) receives reflected light from the target object by means of the light receiving device (25) via an objective lens (24), and outputs an output signal with a waveform corresponding to the surface projections and depressions of the target object (27). The signal processing section (29) executes signal processing on the output signal by at least one signal processing method to identify the target object.
    • 光学物体识别装置具有发光侧光学系统(23),光接收侧光学系统(26)和信号处理部(29)。 发光侧光学系统(23)通过物镜(22)将来自发光器件(21)的光照射到诸如打印纸张的移动目标物体(27)。 光接收侧光学系统(26)经由物镜(24)通过光接收装置(25)接收来自目标物体的反射光,并输出具有对应于表面突起和凹陷的波形的输出信号 的目标对象(27)。 信号处理部(29)通过至少一种信号处理方法对输出信号执行信号处理,以识别目标对象。
    • 10. 发明授权
    • Optical ranging sensor and electronic device
    • 光学测距传感器和电子设备
    • US08373128B2
    • 2013-02-12
    • US12641007
    • 2009-12-17
    • Akifumi YamaguchiMasaru Kubo
    • Akifumi YamaguchiMasaru Kubo
    • G01J5/02
    • G01S17/48G01S7/4813
    • An optical ranging sensor includes an infrared LED encapsulated in a first light-permeable resin section, a light receiving device encapsulated in a second light-permeable resin section, a light-shielding resin member in contact with the first and second resin sections, a drive circuit section for driving the LED, a light receiving device control section for controlling the light receiving device, and a control section for the drive circuit section and light receiving device control section. Under control of the control section, a driving time of the LED coincides with an exposure time of the light receiving device. Further, while the LED is not driven, the light receiving device is also exposed for a time identical to the exposure time. An output difference between outputs at the exposure with driving the LED and at the exposure without driving the LED is calculated, and ranging is performed based on the output difference.
    • 光学测距传感器包括封装在第一透光树脂部分中的红外LED,封装在第二透光树脂部分中的光接收装置,与第一和第二树脂部分接触的遮光树脂部件,驱动 用于驱动LED的电路部分,用于控制光接收装置的光接收装置控制部分和用于驱动电路部分和光接收装置控制部分的控制部分。 在控制部分的控制下,LED的驱动时间与受光装置的曝光时间一致。 此外,当LED不被驱动时,光接收装置也暴露与曝光时间相同的时间。 计算在驱动LED时的曝光和不驱动LED的曝光时的输出之间的输出差异,并且基于输出差进行测距。