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    • 31. 发明申请
    • CYLINDER LOCK ASSEMBLY AND CORE CASING SET FOR A CYLINDER LOCK ASSEMBLY
    • 气缸锁组件和缸套组合
    • US20080168812A1
    • 2008-07-17
    • US11621998
    • 2007-01-11
    • Ping-Hung Hsieh
    • Ping-Hung Hsieh
    • E05B27/06
    • E05B9/086E05B27/0014E05B27/0017Y10T70/7565Y10T70/7661
    • A cylinder lock assembly has an exterior housing, a core casing set and a core. The exterior housing has a through hole defined longitudinally through the exterior housing and a mounting hole defined in the exterior housing and communicating with the through hole. The core casing set is mounted slidably in the exterior housing and has a core casing and a retaining pin. The core casing has a central hole and a mounting aperture. The retaining pin is mounted slidably through the mounting aperture and has an inside end. The core is mounted in the central hole in the core casing and has keyhole having a stepped recess selectively engaging with the inside end of the retaining pin. A crash of the retaining pin and the stepped recess during the engagement notifies a user that the core and the core casing are released.
    • 圆筒锁组件具有外壳,芯壳套和芯。 外壳体具有通过外部壳体纵向限定的通孔和限定在外部壳体中并与通孔连通的安装孔。 芯套管组可滑动地安装在外壳中,并具有芯壳和保持销。 芯壳体具有中心孔和安装孔。 保持销可滑动地安装在安装孔上并具有内端。 芯部安装在芯壳体的中心孔中,并且具有锁定孔,其具有选择性地与保持销的内端接合的阶梯凹部。 在接合期间,固定销和阶梯式凹槽的碰撞通知用户芯部和芯部壳体被释放。
    • 33. 发明申请
    • Storage medium and method to control auto exposure by the same
    • 存储介质和方法来控制自动曝光
    • US20070248346A1
    • 2007-10-25
    • US11786561
    • 2007-04-12
    • Wen-Hung HsiehChing-Jung TsaiShu-Chen Hsiao
    • Wen-Hung HsiehChing-Jung TsaiShu-Chen Hsiao
    • G03B15/03
    • G03B15/03H04N5/2351H04N5/2354
    • A method and a storage medium for auto exposure control are provided. A desired image is divided into a plurality of sample blocks, each includes red, green, and blue subpixels. A maximum exposure ratio and an average exposure ratio are obtained according to the maximum and average values of each red, green, and blue subpixel retrieved from each sample block and a predetermined desired maximum brightness and a predetermined desired average brightness. It is determined whether the maximum exposure ratio is smaller than the average exposure ratio. If it is, a strobe of the storage medium shines a flashlight based on the average exposure ratio, and, if it is not, the strobe shines a flashlight based on the maximum exposure ratio.
    • 提供一种用于自动曝光控制的方法和存储介质。 期望的图像被分成多个采样块,每个采样块包括红色,绿色和蓝色子像素。 根据从每个采样块检索的每个红色,绿色和蓝色子像素的最大值和平均值以及预定的期望最大亮度和预定的期望平均亮度获得最大曝光比和平均曝光比。 确定最大曝光比是否小于平均曝光比。 如果是,存储介质的闪光灯基于平均曝光比照射手电筒,并且如果不是,则闪光灯基于最大曝光比照射手电筒。
    • 34. 发明申请
    • IMAGE DETECTING MODULE
    • 图像检测模块
    • US20070237508A1
    • 2007-10-11
    • US11758899
    • 2007-06-06
    • Wen-Hung HsiehJian-Chao LiaoChing-Jung Tsai
    • Wen-Hung HsiehJian-Chao LiaoChing-Jung Tsai
    • G03B17/00H04N5/228
    • G02B27/646H04N5/2253H04N5/23248H04N5/23258H04N5/23287
    • An image detecting module. The image detecting module comprises a base, a seat movably disposed on the base, an image detecting unit disposed on the seat, a first guide member by which the seat is joined to the base, moving relative to the base in a first direction, a first coil disposed on either the base or the seat, a first magnet disposed on either the base or the seat and opposite to the first coil, and a first Hall element disposed on either the base or the seat and adjacent to the first coil. A magnetic force is generated between the first coil and the first magnet by providing a voltage to the first coil, thereby moving the seat in the first direction along the first guide element.
    • 图像检测模块。 图像检测模块包括基座,可移动地设置在基座上的座椅,设置在座椅上的图像检测单元,第一引导构件,座椅与基座接合,第一引导构件相对于基座沿第一方向移动, 设置在基座或座椅上的第一线圈,设置在基座或座椅上并与第一线圈相对的第一磁体,以及设置在基座或座椅上并与第一线圈相邻的第一霍尔元件。 通过向第一线圈提供电压,从而在第一线圈和第一磁体之间产生磁力,从而沿第一方向沿着第一引导元件移动座椅。
    • 35. 发明申请
    • Lock Driving Mechanism
    • 锁驱动机制
    • US20070163314A1
    • 2007-07-19
    • US11277490
    • 2006-03-25
    • Ping-Hung Hsieh
    • Ping-Hung Hsieh
    • E05B15/12
    • E05B17/04Y10T70/7362
    • A lock driving mechanism for use in a lock has an inner driving member having an inner panel, and a outer driving member attached to the inner panel and having an outer panel. The inner panel has an inner surface from which a lock core driver extends and connects to a lock core assembly of the lock and an outer surface on which an inner driver and an outer driver are formed. The outer panel has an inner surface on which an inner limiting protrusion and an outer limiting protrusion are formed, and an outer surface from which a latch driver extends to connect with a latch bolt of the lock. When a key inserted into the lock core assembly rotates, the inner and outer driver rotate, synchronously push the inner and an outer bump, respectively, to make the key and latch driver rotate smoothly to drive the latch bolt to lock or unlock a door.
    • 用于锁定的锁定驱动机构具有内部驱动构件,其具有内部面板,外部驱动构件附接到内部面板并具有外部面板。 内板具有内表面,锁芯驱动器从该内表面延伸并连接到锁的锁芯组件和形成内驱动器和外驱动器的外表面。 外板具有内表面,其上形成有内限制突起和外限制突起,以及外表面,闩锁驱动器从该外表面延伸以与锁的闩锁螺栓连接。 当插入锁芯组件中的钥匙旋转时,内部和外部驱动器分别同步地推动内部凸起和外部凸起,以使键和闩锁驱动器平滑地旋转以驱动闩锁来锁定或解锁门。
    • 36. 发明申请
    • AUTOMATIC FOCUSING METHODS AND IMAGE CAPTURE DEVICES UTILIZING THE SAME
    • 使用自动聚焦方法和图像捕获设备
    • US20070140677A1
    • 2007-06-21
    • US11609611
    • 2006-12-12
    • Wen-Hung HsiehChing-Jung TsaiYu-Ting Lee
    • Wen-Hung HsiehChing-Jung TsaiYu-Ting Lee
    • G03B13/00
    • G03B13/36G02B7/38H04N5/23212
    • An autofocusing method is implemented in an image capture device comprising a lens and a sensor module. The relative positions of lens and the sensor module are adjusted for autofocusing based on a factor. First, the relative positions of the lens and the sensor module are adjusted based on a first unit of the factor to determine a plurality of states of the lens and the sensor module, where the lens renders clearer images on the sensor module. The states are utilized to estimate a best state achievable by focusing based on a second unit of the factor, where the lens renders a clearest image on the sensor module. The second unit is finer than the first unit. The lens or the sensor module is driven to the best state.
    • 在包括透镜和传感器模块的图像捕获装置中实现自动聚焦方法。 根据一个因素调整透镜和传感器模块的相对位置以进行自动聚焦。 首先,基于因子的第一单位来调整透镜和传感器模块的相对位置,以确定透镜和传感器模块的多个状态,其中透镜在传感器模块上呈现更清晰的图像。 这些状态被用来估计基于因子的第二单位的聚焦可实现的最佳状态,其中透镜在传感器模块上呈现最清晰的图像。 第二单位比第一单位更精细。 镜头或传感器模块被驱动到最佳状态。
    • 39. 发明申请
    • Method for detecting fiberization of vegetable proteins
    • 检测植物蛋白纤维化的方法
    • US20050266147A1
    • 2005-12-01
    • US11135198
    • 2005-05-23
    • Gang YaoKeshun LiuFu-Hung Hsieh
    • Gang YaoKeshun LiuFu-Hung Hsieh
    • A23J1/00A23J3/22
    • A23J3/227
    • Methods for determining the degrees of fiber formation of textured vegetable proteins are provided. One inventive method based on fluorescence polarization technology comprises selecting a sample or a section thereof, using fluorescence polarization spectroscopy to detect P-value or Anisotropy Index of the sample, and obtaining the degree of fiber formation by comparing the P-value or Anisotropy Index to a pre-generated database collating P values or Anisotropy Index with degrees of fiber formation. Another inventive method based on image processing technique comprises preparing a sample to reveal its fibrous structures, obtaining an original image of the sample, applying edge detection to the original image to produce a second binary image with enhanced contrast, performing Hough transform on the second image to extract line information and generate a third image; defining region of interest on the third image; calculating the degree of fiber formation though analysis of the region of interest. The invention also combines the aforesaid methods to enable the automated and real-time determination of the degree of fiber formation of textured vegetable protein during a production line.
    • 提供了确定纹理植物蛋白的纤维形成程度的方法。 基于荧光偏振技术的一种创造性方法包括选择样品或其部分,使用荧光偏振光谱法检测样品的P值或各向异性指数,并通过将P值或各向异性指数与P值或各向异性指数进行比较来获得纤维形成程度 预先生成的数据库将P值或各向异性指数与纤维形成程度进行整理。 基于图像处理技术的另一种创造性方法包括制备样品以显示其纤维结构,获得样品的原始图像,对原始图像应用边缘检测以产生具有增强的对比度的第二二进制图像,对第二图像执行霍夫变换 提取行信息并生成第三图像; 定义第三图像上的感兴趣区域; 通过分析感兴趣区域来计算纤维形成程度。 本发明还结合了上述方法,使得能够在生产线期间自动和实时地确定纹理植物蛋白的纤维形成程度。