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    • 3. 发明授权
    • Keyless access sensor system
    • 无钥匙门禁传感器系统
    • US07106172B2
    • 2006-09-12
    • US10330309
    • 2002-12-30
    • Antoine NeveuxMarek GierczakPascal SchweizerMichael James Shelley
    • Antoine NeveuxMarek GierczakPascal SchweizerMichael James Shelley
    • G08B29/00
    • E05B81/78E05B85/16G07C2009/00785G07C2209/64
    • A keyless access sensor system for use with a keyless access control mechanism (KACM) is described for controlling the operation of a locking device. The KACM receives a signal from a sensor device for keyless access to create a first output signal before the user has begun any action on the handle in order to open the door. The first output signal is sent to a general processor, which initiates a recognition process and, after recognition of the authorized user the processor then generates an unlocking signal which unlocks the locking device before the authorized user will have fully accomplished the action of opening the door. Thus the authorized user is allowed to open the door without any specific un-ergonomic and time-consuming additional action to the simple action of actuating the handle to open the door. The second signal is generated by a device, such as a fob, card or the like, carrying a unique digital or analog identification in response to RF or IR interrogation from the general processor after it receives the output signal from the sensor device for keyless access.
    • 描述了一种用于无钥匙存取控制机构(KACM)的无钥匙存取传感器系统,用于控制锁定装置的操作。 KACM从用于无钥匙存取的传感器装置接收信号以产生第一输出信号,在用户已经开始对手柄进行任何动作以打开门之前。 第一输出信号被发送到通用处理器,其启动识别过程,并且在认可授权用户之后,处理器然后产生解锁信号,其在授权用户将完全完成打开门的动作之前解锁锁定装置 。 因此,授权用户被允许打开门,而没有任何特定的非人体工程学和耗时的附加动作,以简单起动手柄打开门的动作。 第二信号由接收来自传感器装置的输出信号之后的通用处理器的RF或IR询问的设备(例如,小窝,卡等)产生,从而携带独特的数字或模拟识别信号,用于无钥匙存取 。
    • 6. 发明授权
    • Passive entry sensor system
    • 被动进入传感器系统
    • US07375613B2
    • 2008-05-20
    • US11157896
    • 2005-06-21
    • Michael J. ShelleyAlex CrawfordPascal SchweizerAdrian KettleMarek Gierczak
    • Michael J. ShelleyAlex CrawfordPascal SchweizerAdrian KettleMarek Gierczak
    • G05B19/00G06M7/00B60R25/00
    • G07C9/00309E05B81/76E05B81/77E05B81/78G07C2209/65H03K17/941
    • Passive entry sensor systems and associated sensors are disclosed. The system sensor is locatable in the handle of a door or like structure and can provide an electromagnetic radiation beam transmitted either along the length of the handle between opposite ends thereof or between the handle and the door such that the sensor can detect at least a partial interruption of the beam by a user actuating the handle. The system can include an independent optical locking switch for actuation by a user to lock the door which locking switch comprises a shutter for intercepting the beam so as to flag the sensor. The system can include a power-up switch for actuation by a user to power-up the system, back-up switches for detecting a pull on the handle, indicators for indicating system status to the user, and backlight and ground light lighting.
    • 公开了被动进入传感器系统和相关传感器。 系统传感器可定位在门或类似结构的手柄中,并且可以提供在手柄的相对端之间或在手柄和门之间沿着手柄的长度传递的电磁辐射束,使得传感器可以检测至少一部分 使用者致动把手的梁的中断。 该系统可以包括独立的光学锁定开关,用于由用户致动以锁定门,该锁定开关包括用于拦截光束的挡板以便标记传感器。 系统可以包括用于由用户致动以启动系统的上电开关,用于检测手柄上的拉动的备用开关,用于向用户指示系统状态的指示器以及背光和地面光照明。
    • 7. 发明申请
    • Passive entry sensor system
    • 被动进入传感器系统
    • US20060232379A1
    • 2006-10-19
    • US11157896
    • 2005-06-21
    • Michael ShelleyAlex CrawfordPascal SchweizerAdrian KettleMarek Gierczak
    • Michael ShelleyAlex CrawfordPascal SchweizerAdrian KettleMarek Gierczak
    • G05B19/00B60R25/00
    • G07C9/00309E05B81/76E05B81/77E05B81/78G07C2209/65H03K17/941
    • Passive entry sensor systems and associated sensors are disclosed. The system sensor is locatable in the handle of a door or like structure and can provide an electromagnetic radiation beam transmitted either along the length of the handle between opposite ends thereof or between the handle and the door such that the sensor can detect at least a partial interruption of the beam by a user actuating the handle. The system can include an independent optical locking switch for actuation by a user to lock the door which locking switch comprises a shutter for intercepting the beam so as to flag the sensor. The system can include a power-up switch for actuation by a user to power-up the system, back-up switches for detecting a pull on the handle, indicators for indicating system status to the user, and backlight and ground light lighting.
    • 公开了被动进入传感器系统和相关传感器。 系统传感器可定位在门或类似结构的手柄中,并且可以提供在手柄的相对端之间或在手柄和门之间沿着手柄的长度传递的电磁辐射束,使得传感器可以检测至少一部分 使用者致动把手的梁的中断。 该系统可以包括独立的光学锁定开关,用于由用户致动以锁定门,该锁定开关包括用于拦截光束的挡板以便标记传感器。 系统可以包括用于由用户致动以启动系统的上电开关,用于检测手柄上的拉动的备用开关,用于向用户指示系统状态的指示器以及背光和地面光照明。
    • 8. 发明申请
    • REFLECTIVE OPTICAL SENSOR AND SWITCHES AND SYSTEMS THEREFROM
    • 反射光学传感器及其开关和系统
    • US20100096553A1
    • 2010-04-22
    • US12256419
    • 2008-10-22
    • Swapnil Gopal PatilMarek Gierczak
    • Swapnil Gopal PatilMarek Gierczak
    • G01J5/02
    • G01V8/10G01S7/481G01S17/026H03K17/941H03K2217/94108
    • A reflection-based optical sensor device (100) for detecting a presence of an object (110) having a detection surface (111) includes a housing (115) having first and second open volumes (120,130) including a central common portion (140) for isolating the first and second volumes. A light emitter (122) for emitting an irradiation beam (141) is contained within the first volume of the housing, wherein the light emitter is positioned in the housing so that the irradiation beam is aligned within 5 degrees of a surface normal of the detection surface (111). A light detector (132) has a detection plane (133) contained within the second volume of the housing, wherein the light detector is positioned in the housing so that the normal from the detection plane (133) is aligned within 5 degrees of the surface normal of the detection surface (111). At least one optical device (150) is secured to the housing (115) and positioned in a path of the irradiation beam having a first portion for tilting said irradiation beam to provide a tilted irradiation beam (142) at an angle for reaching the detection surface (111), wherein a reflected or backscattered beam (143) emerges from the detection surface (111) of the object responsive to the tilted irradiation beam (142). The optical device (150) includes a second portion (152) that is positioned laterally from the first portion (151), wherein the detection plane (133) of the detector is in optical alignment with said second portion (152) for sensing the reflected or backscattered beam (143).
    • 用于检测具有检测表面(111)的物体(110)的存在的基于反射的光学传感器装置(100)包括具有包括中心公共部分(140)的第一和第二开放体积(120,130)的壳体(115) 用于隔离第一和第二卷。 用于发射照射光束(141)的光发射器(122)被包含在壳体的第一容积内,其中光发射器定位在壳体中,使得照射光束在检测的表面法线的5度内对准 表面(111)。 光检测器(132)具有包含在壳体的第二体积内的检测平面(133),其中光检测器定位在壳体中,使得来自检测平面(133)的法线在表面的5度内对准 检测面(111)的法线。 至少一个光学装置(150)被固定到壳体(115)并且定位在具有用于倾斜所述照射光束的第一部分的照射束的路径中,以提供倾斜的照射光束(142),以形成一个角度以达到检测 表面(111),其中响应于倾斜的照射光束(142),反射或反向散射光束(143)从物体的检测表面(111)出射。 光学装置(150)包括从第一部分(151)侧向定位的第二部分(152),其中检测器的检测平面(133)与所述第二部分(152)光学对准,以感测反射 或后向散射光束(143)。