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    • 3. 发明授权
    • Occupant discriminating method for vehicular seat
    • 车位座驾识别方法
    • US07131513B2
    • 2006-11-07
    • US10761485
    • 2004-01-20
    • Tuyoshi MutouTakashi TakeshitaToshihiko Yamaguchi
    • Tuyoshi MutouTakashi TakeshitaToshihiko Yamaguchi
    • B60K28/00
    • B60N2/7094B60N2/002B60R21/01516B60R21/01556
    • A flat spring of a vehicular seat is elastically supported by means of supporting springs that extend in accordance with the load of an occupant. The seat has displacement sensors, first-stage determination step, second-stage determination step, and third-stage determination step. The displacement sensors output electrical signals corresponding to the respective elongations of the springs. The first-stage determination step determines the occupant in the seat in accordance with voltage values delivered from the displacement sensors. The second-stage determination step determines whether or not the result of determination by the first-stage determination step is maintained for a given period of time. The third-stage determination step compares the result of determination by the second-stage determination step with the preceding result of determination and specifies the occupant in accordance with the result of the comparison.
    • 通过支撑弹簧弹性地支撑车辆座椅的弹簧,所述支撑弹簧根据乘员的负载而延伸。 座椅具有位移传感器,第一阶段确定步骤,第二阶段确定步骤和第三阶段确定步骤。 位移传感器输出对应于弹簧的相应伸长率的电信号。 第一阶段确定步骤根据从位移传感器传递的电压值确定座椅中的乘客。 第二级确定步骤确定第一级确定步骤的确定结果是否保持给定的时间段。 第三级确定步骤将通过第二级确定步骤的确定结果与先前的确定结果进行比较,并根据比较结果指定乘客。
    • 4. 发明授权
    • Vehicle occupant restraint system
    • 车辆乘员约束系统
    • US07104601B2
    • 2006-09-12
    • US10613737
    • 2003-07-01
    • Ko MasudaTakashi TakeshitaHiroshi Matsunaga
    • Ko MasudaTakashi TakeshitaHiroshi Matsunaga
    • B60N2/42
    • B60N2/4279B60N2/42763
    • In a vehicle occupant restraint system for restraining a lower part of a vehicle occupant, an arrangement for moving a restraining member from a retracted position to a deployed position upon detection and/or prediction of a vehicle crash by a crash sensor is adapted in such a manner that the restraining member cannot be made to move from the deployed position to the retracted position by an external force applied to the restraining member but can be made to move from the retracted position to the deployed position and from the deployed position back to the retracted position by a force transmitted from a power actuator to the restraining member via a power transmitting member. Thus, while the restraining member is capable of withstanding the load of restraining the vehicle occupant, even when the restraining member is deployed, it can be brought back to the retracted position so that the restraining system can be used repeatedly. This is particularly significant when the crash sensor includes a crash prediction sensor because the prediction could be wrong and the restraining member may have to be deployed a number of times even when a vehicle crash has never occurred.
    • 在用于限制车辆乘员的下部的车辆乘员约束系统中,在通过碰撞传感器检测和/或预测车辆碰撞时将约束构件从缩回位置移动到展开位置的装置适于在 使得限制构件不能通过施加到约束构件的外力而从展开位置移动到缩回位置,而是可以使其从缩回位置移动到展开位置并且从展开位置移动到缩回位置 通过经由动力传递部件从动力致动器传递到限制部件的力的位置。 因此,在约束构件能够承受车辆乘员的承受力的情况下,即使限制构件展开,也能够将其返回到缩回位置,从而可以重复使用约束系统。 当碰撞传感器包括碰撞预测传感器时,这是特别重要的,因为预测可能是错误的,并且即使当车辆碰撞从未发生时,限制构件也可能必须部署多次。