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    • 2. 发明申请
    • BIOPTICAL HOLOGRAPHIC LASER SCANNING SYSTEM
    • BIOPTICAL全息激光扫描系统
    • WO0180163A8
    • 2001-12-13
    • PCT/US0112623
    • 2001-04-18
    • METROLOGIC INSTR INCCHECK FRANKDICKSON LEROYGROOT JOHNGOOD TIMOTHY A
    • CHECK FRANKDICKSON LEROYGROOT JOHNGOOD TIMOTHY A
    • G06K7/10G02B6/00G06K5/00G06K17/00
    • G06K7/10673G06K7/10663G06K7/10693
    • A bioptical holographic laser scanning system employing a plurality of laser scanning stations (ST1-ST4) about a holographic disc (30) having scanning facets with high and low elevation angle characteristics, as well as positive, negative and zero skew angle characteristics which strategically cooperate with groups of beam folding mirrors having optimized surface geometry characteristics. The system has an ultra-compact construction, ideally suited for space-constrained retail scanning environments, and generate a 3-D omnidirectional laser scanning pattern between the bottom and side scanning windows during sytem operation. The laser scanning pattern of the present invention comprises a complex of pairs of quasi-orthogonal laser scanning planes (5A1-5A5), which include a plurality of substantially vertical laser scanning planes for reading bar code symbols having bar code elements that are oriented substantially substantially horizontal with respect to the bottom scanning window, and a plurality of substantially-horizontal laser scanning planes for reading bar code symbols having bar code elements that are oriented substantially vertical with respect to the bottom scanning window.
    • 一种采用多个激光扫描站(ST1-ST4)的全息光盘(30)的生物光学全息激光扫描系统,该全息光盘具有扫描小平面,具有高和低仰角特性以及策略上配合的正,负和零偏斜角特性 具有优化的表面几何特征的多组光束折叠镜。 该系统具有超紧凑的结构,非常适合空间受限的零售扫描环境,并在系统操作期间在底部和侧面扫描窗口之间生成3-D全方位激光扫描图案。 本发明的激光扫描图案包括成对的准正交激光扫描平面(5A1-5A5)的复数组,其包括用于读取条码元件的多个基本上垂直的激光扫描平面,所述条码元件具有基本基本上定向的条码元件 相对于底部扫描窗是水平的;以及多个基本上水平的激光扫描平面,用于读取具有相对于底部扫描窗大致垂直定向的条形码元素的条形码符号。
    • 3. 发明申请
    • ABTASTVORRICHTUNG FÜR BARCODES
    • 扫描条形码
    • WO2006048292A1
    • 2006-05-11
    • PCT/EP2005/011784
    • 2005-11-03
    • GIESECKE & DEVRIENT GMBHMAYER, KarlheinzSCHÜTZMANN, JürgenWUNDERER, BerndGIERING, Thomas
    • MAYER, KarlheinzSCHÜTZMANN, JürgenWUNDERER, BerndGIERING, Thomas
    • G06K7/10
    • G06K7/10673G06K7/10613G06K7/10633G06K7/10702G06K2017/0038
    • Es werden Abtastvorrichtungen (100; 200) zur Abtastung von auf Dokumenten (110; 210) angebrachten Barcodes (120; 220) vorgeschlagen, die jeweils eine Reflektoranordnung besitzen (140, 150, 160, 170; 141, 151, 161; 152, 162; 165; 142, 143), die entweder ein variables Reflektionselement (140; 141; 142, 143) oder ein Lichtleitersystem (250, 251, 252; 253, 255; 254) umfassen, das dazu dient, den Strahlengang der von einer Strahlenquelle (130) bzw. einer Beleuchtungseinrichtung (230, 231; 232, 233) emittierten elektromagnetischen Strahlung in der Dokumentebene entlang einer zu der Vorschubrichtung des Dokuments (110; 210) im wesentlichen senkrechten Linie auszulenken bzw. aufzunehmen und zu einem Detektor (280) weiterzuleiten. In Kombination mit der Vorschubbewegung ergeben sich dann durch die zeilenweise Abtastung des Dokuments (110; 210) entlang der verschiedenen Meßspuren aufgrund des wiederholten Auslenkens des Strahlengangs mittels des variablen Reflektionselements (140; 141; 142, 143) bzw. des wiederholten sequentiellen Weiterleitens des Abtaststrahls durch die Lichtleiteranordnung (250, 251, 252; 253, 255; 254) preisgünstige und kompakte Abtastvorrichtungen (100; 200), da auf die redundante Strahlenquellen (130; 230) und Detektoren (180; 280) verzichtet werden kann.
    • 有传感装置(100; 200),用于在文档扫描(110; 210)附连到所述条形码(120; 220)被提出,其每一个都具有反射器装置(140,150,160,170; 141,151,161; 152,162 ; 165; 142,143),无论是致可变反射元件(140; 141; 142,143)或光纤系统(250,251,252; 253,255;包括254),其用于辐射源的光束路径 (130)和照明装置(230,231; 232,233)在文档平面沿平面发射的电磁辐射到该文档的前进方向(110; 210)偏转基本上垂直,或捕获和到检测器(280)转发 , 沿着不同的测量轨迹由于由可变反射元件的装置中的光束路径的反复偏转;(; 141; 142,143 140)或所述扫描光束的重复的顺序转发与所述进给运动组合然后由文件(210 110)的线扫描经管线获得 由光纤装置(250,251,252; 253,255; 254)便宜且紧凑的感测装置(100; 200)作为冗余辐射源(130; 230)和检测器(180; 280)可以省略。
    • 5. 发明申请
    • SYSTEM AND METHOD FOR DATA READING USING RASTER SCANNING
    • 使用扫描扫描数据读取的系统和方法
    • WO2006138165A3
    • 2008-10-02
    • PCT/US2006022472
    • 2006-06-08
    • DATALOGIC SCANNING INC
    • OLMSTEAD BRYAN L
    • G06K7/10
    • G06K7/10574G06K7/10673G06K7/10693G06K7/10871
    • The present disclosure provides systems of and methods for reading optical codes located on multiple sides of an item (10) that is being moved through a read volume. In one method, optical symbols are read using a high speed raster laser beam and non-retrodirective collection optics (160) including the steps of moving an item containing an optical code along an item direction past a window (102, 154) disposed in a surface (152) of a scanner housing or platter; via a first scan mechanism, repeatedly scanning through the window at a first slant and/or tilt angle (104, 106, 108, 110) to the surface in a first direction and along a single line to acquire scanned data over two dimensions of one or more sides of the item; via a second scan mechanism, repeatedly scanning through the window at a second slant and/or tilt angle (104, 106, 108, 110) to the surface in a second direction and along a single line to acquire scanned data over two dimensions of one or more other sides of the item; and processing the scanned data acquired. The window may be formed in the shape of a slot (102, 124, 128), the slot being oriented generally transverse to the item direction. A preferred construction is a completely solid state implementation using either a linear imager or an area (2-D) imager in the Scheimpflug condition to image a plane with a depth of field.
    • 本公开提供了用于读取位于正在移动通过读取体积的物品(10)的多个侧面上的光学代码的系统和方法。 在一种方法中,使用高速光栅激光束和非逆向收集光学器件(160)读取光学符号,包括以下步骤:沿着物品方向移动包含光学代码的物品通过设置在窗口(102,154)中的窗口 扫描仪外壳或盘片的表面(152); 经由第一扫描机构,以第一倾斜角度和/或倾斜角度(104,106,108,110)沿着第一方向重复地扫描窗口并且沿着单个线沿着一条线获取扫描数据, 或更多方面; 经由第二扫描机构,以第二倾斜角度和/或倾斜角度(104,106,108,110)沿着第二方向重复地扫描窗口,并且沿着单个线路沿着一条线获得扫描数据, 或更多的其他方面; 并处理所获取的扫描数据。 窗口可以形成为狭槽(102,124,128)的形状,该狭槽大致横向于物品方向定向。 优选的结构是在Scheimpflug条件下使用线性成像器或区域(2-D)成像器的完全固态实现来对具有景深的平面成像。
    • 6. 发明申请
    • SELF-CONTAINED SCANNING AND VERIFIER APPARATUS
    • 自包含扫描和验证器设备
    • WO01011542A1
    • 2001-02-15
    • PCT/US2000/021602
    • 2000-08-08
    • G06K7/10
    • G06K7/10861G06K7/10673
    • Methods and apparatus are provided to generate a plurality of substantially parallel, spaced scans (28) taken along a height of a data carrying graphical symbol, such as a bar code indicia (26b). The apparatus (10) includes a movably mounted linear scanner unit (20). The movably mounted scanner unit (20) may be positioned in any one of a number of spaced scanning positions in a manual fashion, or alternately an automated and controlled manner, to enable the spaced scans to be taken having a known spacial relationship. Apparatus (10) of the invention may include signal conditioning and data processing elements to digitize, store, and process the scans taken to enable the quality of a scanned data carrying graphical symbol to be evaluated. Embodiments may include a scanning head portion (12a), which houses the movably mounted scanning unit (20) and a drive unit (50), that is operatively coupled to a main unit (10C). The main unit (10C) may most preferably house items including a control module (60) or an embedded computer.
    • 提供方法和装置以产生沿着诸如条形码标记(26b)的携带图形符号的数据的高度拍摄的多个基本上平行的间隔扫描(28)。 装置(10)包括可移动安装的线性扫描器单元(20)。 可移动安装的扫描仪单元(20)可以以手动方式定位在多个间隔扫描位置中的任何一个中,或者以自动和受控的方式定位,以使得能够采取具有已知空间关系的间隔扫描。 本发明的装置(10)可以包括信号调节和数据处理元件,以数字化,存储和处理扫描,以便能够评估携带图形符号的扫描数据的质量。 实施例可以包括容纳可移动安装的扫描单元(20)的扫描头部分(12a)和可操作地联接到主单元(10C)的驱动单元(50)。 主单元(10C)最优选地容纳包括控制模块(60)或嵌入式计算机的物品。
    • 8. 发明申请
    • SYSTEM AND METHOD FOR DATA READING USING RASTER SCANNING
    • 使用扫描扫描数据读取的系统和方法
    • WO2006138165A2
    • 2006-12-28
    • PCT/US2006/022472
    • 2006-06-08
    • PSC SCANNING, INC.
    • OLMSTEAD, Bryan, L.
    • G06K7/10
    • G06K7/10574G06K7/10673G06K7/10693G06K7/10871
    • The present disclosure provides systems of and methods for reading optical codes located on multiple sides of an item (10) that is being moved through a read volume. In one method, optical symbols are read using a high speed raster laser beam and non-retrodirective collection optics (160) including the steps of moving an item containing an optical code along an item direction past a window (102, 154) disposed in a surface (152) of a scanner housing or platter; via a first scan mechanism, repeatedly scanning through the window at a first slant and/or tilt angle (104, 106, 108, 110) to the surface in a first direction and along a single line to acquire scanned data over two dimensions of one or more sides of the item; via a second scan mechanism, repeatedly scanning through the window at a second slant and/or tilt angle (104, 106, 108, 110) to the surface in a second direction and along a single line to acquire scanned data over two dimensions of one or more other sides of the item; and processing the scanned data acquired. The window may be formed in the shape of a slot (102, 124, 128), the slot being oriented generally transverse to the item direction. A preferred construction is a completely solid state implementation using either a linear imager or an area (2-D) imager in the Scheimpflug condition to image a plane with a depth of field.
    • 本公开提供了用于读取位于正在移动通过读取体积的物品(10)的多个侧面上的光学代码的系统和方法。 在一种方法中,使用高速光栅激光束和非逆向收集光学器件(160)读取光学符号,包括以下步骤:沿着物品方向移动包含光学代码的物品通过设置在窗口(102,154)中的窗口 扫描仪外壳或盘片的表面(152); 经由第一扫描机构,以第一倾斜角度和/或倾斜角度(104,106,108,110)沿着第一方向重复地扫描窗口并且沿着单个线沿着一条线获取扫描数据, 或更多方面; 经由第二扫描机构,以第二倾斜角度和/或倾斜角度(104,106,108,110)沿着第二方向重复地扫描窗口,并且沿着单个线路沿着一条线获得扫描数据, 或更多的其他方面; 并处理所获取的扫描数据。 窗口可以形成为狭槽(102,124,128)的形状,该狭槽大致横向于物品方向定向。 优选的结构是在Scheimpflug条件下使用线性成像器或区域(2-D)成像器的完全固态实现来对具有景深的平面成像。