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    SYSTEM AND METHOD FOR CONTROLLING AN ELEVATOR CAR
    1.
    发明申请
    SYSTEM AND METHOD FOR CONTROLLING AN ELEVATOR CAR 审中-公开
    用于控制电梯车的系统和方法

    公开(公告)号:WO2016146186A1

    公开(公告)日:2016-09-22

    申请号:PCT/EP2015/055697

    申请日:2015-03-18

    Applicant: OTIS ELEVATOR COMPANY SCHROEDER-BRUMLOOP, Helmut Lothar

    Inventor: SCHROEDER-BRUMLOOP, Helmut Lothar LOEB, Ruediger

    IPC: B66B13/14 B66B5/00

    CPC classification number: B66B5/0031 B66B1/28 B66B5/0087 B66B5/02 B66B13/143 B66B13/146 G01D5/36

    Abstract: A system for controlling an elevator comprises a car door operation control system (10) for controlling movement of at least one car door (12), the car door operating control system (10) including an incremental encoder configured to provide a signal indicative of a travel distance of the car door (12) to the car door operating control system (10), and an elevator car control system (50) configured to obtain a primary Car Door Closed Signal from a car door safety switch of an elevator safety control system, said elevator car control system (50) configured to obtain a secondary Car Door Closed Signal (DFCM) independent of the primary Car Door Closed Signal based on the travel distance signal provided by the car door operation control system (10).

    Abstract translation: 一种用于控制电梯的系统包括用于控制至少一个轿厢门(12)的移动的轿厢门操作控制系统(10),所述轿厢门操作控制系统(10)包括增量编码器,所述增量编码器被配置为提供指示 轿厢门(12)到轿厢门操作控制系统(10)的行驶距离以及电梯轿厢控制系统(50),其被配置为从电梯安全控制系统(12)的轿厢门安全开关获得主车门关闭信号 ,所述电梯轿厢控制系统(50)被构造成基于由所述轿厢门操作控制系统(10)提供的行驶距离信号而获得与所述主车门关闭信号无关的二次车门关闭信号(DFCM)。

    ELEVATOR SYSTEM BATTERY DISCHARGE CONTROL
    2.
    发明申请
    ELEVATOR SYSTEM BATTERY DISCHARGE CONTROL 审中-公开
    电梯系统电池放电控制

    公开(公告)号:WO2013015797A1

    公开(公告)日:2013-01-31

    申请号:PCT/US2011/045440

    申请日:2011-07-27

    Applicant: OTIS ELEVATOR COMPANY SCHROEDER-BRUMLOOP, Helmut Lothar STRICKER, Gregor

    Inventor: SCHROEDER-BRUMLOOP, Helmut Lothar STRICKER, Gregor

    IPC: B66B1/34 B66B3/00

    CPC classification number: B66B1/34

    Abstract: An exemplary device for controlling use of a battery in an elevator system includes a controller that automatically prevents the battery from discharging after a preselected time during which a main power supply is not providing power to at least one component of the elevator system. An exemplary method of controlling use of a battery in an elevator system includes automatically preventing the battery from discharging responsive to a preselected time passing during which a main power supply is not providing power to at least one component of the elevator system.

    Abstract translation: 用于控制电梯系统中的电池的使用的示例性装置包括控制器,其在主电源未向电梯系统的至少一个部件供电之前的预选时间内自动防止电池放电。 控制电梯系统中的电池的使用的示例性方法包括:响应于主电源未向电梯系统的至少一个部件供电的预选时间通过自动防止电池放电。

    ELEVATOR TESTING ARRANGEMENT
    3.
    发明申请
    ELEVATOR TESTING ARRANGEMENT 审中-公开
    电梯测试安排

    公开(公告)号:WO2016150469A1

    公开(公告)日:2016-09-29

    申请号:PCT/EP2015/055983

    申请日:2015-03-20

    Applicant: OTIS ELEVATOR COMPANY SIRIGU, Gerard

    Inventor: SIRIGU, Gerard FONTENEAU, Nicolas STRICKER, Gregor PAETOW, Alexander GARCIA-CASLA, Javier CANO-TORRES, Ricardo FOSCHINI, Gianluca SCHROEDER-BRUMLOOP, Helmut Lothar

    IPC: B66B5/00 B66B13/22

    CPC classification number: B66B5/0093 B66B5/0031 B66B9/00 B66B13/22

    Abstract: A testing arrangement (36) for testing the operability of at least one safety sensor (21, 22, 23, 26, 28) connected to the safety chain (30) of an elevator system (1), the testing arrangement (36) comprises: at least one test circuit (34) for testing the operability of the at least one safety sensor (21, 22, 23, 26, 28); and at least one testing relay (32, 33). The testing relay (32, 33) is switchable between an operational position and a test position and it is configured for electrically connecting the at least one safety sensor (21, 22, 23, 26, 28) to the safety chain (30) in the operational position and for electrically connecting the at least one safety sensor (21, 22, 23, 26, 28) to the test circuit (34) in the test position.

    Abstract translation: 一种用于测试连接到电梯系统(1)的安全链(30)的至少一个安全传感器(21,22,23,26,28)的可操作性的测试装置(36),所述测试装置(36)包括 :用于测试所述至少一个安全传感器(21,22,23,26,28)的可操作性的至少一个测试电路(34); 和至少一个测试继电器(32,33)。 测试继电器(32,33)可在操作位置和测试位置之间切换,并且其被配置为将至少一个安全传感器(21,22,23,26,28)电连接到安全链条(30) 操作位置和用于将至少一个安全传感器(21,22,23,26,28)电连接到测试位置的测试电路(34)。

    CLOUD SERVER BASED CONTROL
    4.
    发明申请
    CLOUD SERVER BASED CONTROL 审中-公开
    基于云服务器的控制

    公开(公告)号:WO2014200464A1

    公开(公告)日:2014-12-18

    申请号:PCT/US2013/045071

    申请日:2013-06-11

    Applicant: OTIS ELEVATOR COMPANY

    Inventor: THEBEAU, Ronnie E. DELLA VALLE, Vincent MARVIN, Daryl J. YOUKER, Jeremy SCHROEDER-BRUMLOOP, Helmut Lothar

    IPC: B66B1/06 B66B25/00

    CPC classification number: B66B5/0025 B66B1/3461 B66B5/0018 B66B5/0087 B66B25/003 B66B25/006 H04L67/10

    Abstract: Embodiments are directed to receiving, by a cloud server, data that is configured to control at least dispatching operations associated with a conveyance device, and distributing, by the cloud server, the data to a controller associated with the conveyance device. Embodiments are directed to an apparatus comprising: at least one processor, and memory having instructions stored thereon that, when executed by the at least one processor, cause the apparatus to: receive data that is configured to control at least dispatching operations associated with a conveyance device, and distribute the data to a controller associated with the conveyance device.

    Abstract translation: 实施例涉及云服务器接收被配置为至少控制与传送设备相关联的调度操作的数据,并且由云服务器将数据分发到与传送设备相关联的控制器。 实施例涉及一种装置,包括:至少一个处理器,以及存储器,其上存储有指令的存储器,当由至少一个处理器执行时,所述存储器使得所述设备:接收被配置为至少控制与传送相关联的调度操作的数据 设备,并将数据分发到与传送设备相关联的控制器。

    SYSTEM AND METHOD FOR CONTROLLING AN ELEVATOR CAR
    6.
    发明公开
    SYSTEM AND METHOD FOR CONTROLLING AN ELEVATOR CAR 审中-公开
    用于控制电梯轿厢的系统和方法

    公开(公告)号:EP3271279A1

    公开(公告)日:2018-01-24

    申请号:EP15712572.5

    申请日:2015-03-18

    Applicant: Otis Elevator Company

    Inventor: SCHROEDER-BRUMLOOP, Helmut Lothar LOEB, Ruediger

    IPC: B66B13/14 B66B5/00

    CPC classification number: B66B5/0031 B66B1/28 B66B5/0087 B66B5/02 B66B13/143 B66B13/146 G01D5/36

    Abstract: A system for controlling an elevator comprises a car door operation control system (10) for controlling movement of at least one car door (12), the car door operating control system (10) including an incremental encoder configured to provide a signal indicative of a travel distance of the car door (12) to the car door operating control system (10), and an elevator car control system (50) configured to obtain a primary Car Door Closed Signal from a car door safety switch of an elevator safety control system, said elevator car control system (50) configured to obtain a secondary Car Door Closed Signal (DFCM) independent of the primary Car Door Closed Signal based on the travel distance signal provided by the car door operation control system (10).

    METHOD AND APPARATUS FOR DETECTING THE POSITION OF AN ELEVATOR CAR
    8.
    发明公开
    METHOD AND APPARATUS FOR DETECTING THE POSITION OF AN ELEVATOR CAR 审中-公开

    公开(公告)号:EP3733579A1

    公开(公告)日:2020-11-04

    申请号:EP19172655.3

    申请日:2019-05-03

    Applicant: Otis Elevator Company

    Inventor: ALKAN, Ergun SCHROEDER-BRUMLOOP, Helmut Lothar

    IPC: B66B1/34 B66B3/02

    Abstract: An elevator system (1) comprises a load sensor (4, 24, 34, 44), a flexible member (2, 18, 22) and an elevator unit (10, 20, 28) arranged to move vertically in a hoistway. The system is arranged such that the load sensor (4, 24, 34, 44) detects a load from at least a fraction of the flexible member (2, 18, 22) and the fraction of the flexible member (2, 18, 22) that applies load to the load sensor (4, 24, 34, 44) changes as the elevator unit (10, 20, 28) moves vertically in the hoistway. The system further comprises a non-volatile memory, arranged to store load conversion information for converting the detected load into an elevator unit position.

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