会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 7. 发明授权
    • Vehicle occupant restraint system including occupant position sensor
mounted in seat back
    • 车载乘员约束系统,包括安装在座椅靠背中的乘员位置传感器
    • US5439249A
    • 1995-08-08
    • US349385
    • 1994-12-05
    • Charles E. Steffens, Jr.Thomas H. VosScott B. GentryJoseph F. MazurBrian K. Blackburn
    • Charles E. Steffens, Jr.Thomas H. VosScott B. GentryJoseph F. MazurBrian K. Blackburn
    • B60R21/01B60R21/015B60R21/26B60R21/28
    • B60R21/01534B60R21/01526B60R21/01536
    • A vehicle occupant restraint system (10) comprises a vehicle seat (12) including a seat bottom (14), a seat back (16), and an occupant position sensor (20) mounted in the seat back. The occupant position sensor is located about sixteen inches above a flat plane (99) of the seat bottom of the vehicle seat and below a head rest (11) of the vehicle seat. The seat back of the vehicle seat includes foam material (40) to which the occupant position sensor is secured. The seat back of the vehicle seat also includes fabric material (41) which covers the occupant position sensor secured to the foam material. The fabric material and the foam material of the seat back cooperate to protect the occupant position sensor and hide the occupant position sensor from view. The occupant position sensor senses the position of an occupant in the vehicle seat and provides a position signal (21) functionally related to the position of the occupant in the vehicle seat. An occupant restraint (17) actuates in response to a deceleration signal (31) indicative of sudden vehicle deceleration above a predetermined threshold such as occurs in a vehicle collision. When actuated, the occupant restraint restrains the occupant in the vehicle seat. The operation of the occupant restraint is controlled as a function of the position signal from the occupant position sensor.
    • 车辆乘员约束系统(10)包括车辆座椅(12),其包括座椅底部(14),座椅靠背(16)和安装在座椅靠背中的乘员位置传感器(20)。 乘客位置传感器位于车辆座椅的座位底部的平面(99)的上方大约十六英寸处,并位于车辆座椅的头枕(11)的下方。 车辆座椅的座椅靠背包括固定乘客位置传感器的泡沫材料(40)。 车辆座椅的座椅靠背还包括覆盖固定到泡沫材料的乘员位置传感器的织物材料(41)。 座椅靠背的织物材料和泡沫材料配合,以保护乘客位置传感器并隐藏乘员位置传感器。 乘客位置传感器感测乘员在车辆座椅中的位置,并提供与乘员在车辆座椅中的位置功能相关的位置信号(21)。 乘员约束(17)响应于指示突然车辆减速度高于预定阈值(例如在车辆碰撞中发生)的减速信号(31)而致动。 当驾驶时,乘员约束将乘员约束在车辆座椅中。 作为来自乘员位置传感器的位置信号的函数来控制乘员约束的操作。
    • 8. 发明授权
    • Occupant restraint system and method having smart process initiation control
    • 具有智能过程启动控制的乘员约束系统和方法
    • US06311112B1
    • 2001-10-30
    • US08994202
    • 1997-12-19
    • Joseph F. MazurBrian K. BlackburnScott B. Gentry
    • Joseph F. MazurBrian K. BlackburnScott B. Gentry
    • B60R2132
    • B60R21/0132B60R21/013B60R21/015B60R2021/01315
    • A vehicle occupant restraint system (10) has an actuatable occupant restraint device (16) with an aspect adjustable for adjusting actuation of the restraint device. An associated control method controls the system (10). Within the system (10), a sensor (40) senses a vehicle operating parameter functionally related to crash acceleration and provides a signal (42) indicative thereof. A threshold determination function (44) of a microcomputer (18) determines whether the signal (42) from the sensor (40) exceeds a threshold value. An occupant characteristic sensor (26) senses an occupant characteristic in response to a determination that the signal (42) from the sensor (40) exceeds the threshold value and provides a signal (28A) indicative thereof. A restraint adjustment controller function (38) of the microcomputer (18) determines adjustment of the adjustable aspect of the restraint device (16) in response to the determination that the signal (42) from the sensor (40) exceeds the threshold value and in response to the signal (28A) from the occupant characteristic sensor (26). The adjustment controller function (38) provides a signal (20A) indicative of the determined adjustment to cause adjustment of the restraint device (16).
    • 车辆乘员约束系统(10)具有可调节乘员约束装置(16),其可调整以调节约束装置的致动。 相关的控制方法控制系统(10)。 在系统(10)内,传感器(40)感测与碰撞加速功能相关的车辆操作参数,并提供指示其的信号(42)。 微型计算机(18)的阈值确定功能(44)确定来自传感器(40)的信号(42)是否超过阈值。 响应于来自传感器(40)的信号(42)超过阈值并提供指示信号(28A)的确定,乘客特征传感器(26)感测乘员特性。 微型计算机(18)的约束调节控制器功能(38)响应于来自传感器(40)的信号(42)超过阈值的确定,确定约束装置(16)的可调整方面的调整,并且 响应于来自乘员特征传感器(26)的信号(28A)。 调节控制器功能(38)提供指示所确定的调整以使调节约束装置(16)的信号(20A)。
    • 9. 发明授权
    • Method and apparatus for testing fluid pressure in a sealed vessel
    • 用于测试密封容器中的流体压力的方法和装置
    • US5351527A
    • 1994-10-04
    • US986035
    • 1992-12-04
    • Brian K. BlackburnScott B. GentryJoseph F. Mazur
    • Brian K. BlackburnScott B. GentryJoseph F. Mazur
    • B60R21/16B60R21/01B60R21/013B60R21/268G01L9/00G01L11/00G01L11/04G01M3/24G01M3/32G01M17/007G01M99/00G01M3/00B60R21/26
    • G01M99/00G01L11/04G01L9/0008G01M17/0078G01M3/24G01M3/3272B60R21/013B60R21/268
    • An apparatus (20) for sensing pressure in a stiff wall sealed vessel (30) comprises a speaker (60) operatively coupled to the vessel (30) for, when energized, transferring energy to pressurized fluid in the vessel (30). The energy transferred from the speaker (60) establishes oscillations of the pressurized fluid in the vessel (30). A piezoelectric capacitive sensor (62) is operatively coupled to the vessel (30) for providing a received electrical signal having a frequency value indicative of the oscillation frequency of the pressurized fluid in the vessel (30). A receiver circuit (70, 90, 110) is operatively connected to the capacitive sensor (62) and provides a fluid resonating signal having a frequency indicative of the natural frequency of the oscillating pressurized fluid in the vessel (30). The natural frequency of the pressurized fluid is indicative of the fluid pressure in the vessel (30). A drive circuit (120, 164) is operatively connected to the receiver circuit (70, 90, 110) and to the speaker (60). The drive circuit ( 120, 164) initially drives the speaker (60) with a square wave pulse and subsequently drives the speaker (60) with an energy wave having a frequency equal to the natural frequency of the pressurized fluid in the vessel (30) so as to lock onto the natural frequency.
    • 用于感测刚性壁密封容器(30)中的压力的​​装置(20)包括可操作地联接到容器(30)的扬声器(60),用于当被激励时将能量传递到容器(30)中的加压流体。 从扬声器(60)传递的能量建立了容器(30)中加压流体的振荡。 压电电容传感器(62)可操作地耦合到容器(30),用于提供具有指示容器(30)中加压流体的振荡频率的频率值的接收电信号。 接收器电路(70,90,110)可操作地连接到电容传感器(62),并提供具有指示容器(30)中的振荡加压流体的固有频率的频率的流体谐振信号。 加压流体的固有频率指示容器(30)中的流体压力。 驱动电路(120,164)可操作地连接到接收器电路(70,90,110)和扬声器(60)。 驱动电路(120,164)最初以方波脉冲驱动扬声器(60),随后利用频率等于容器(30)中加压流体的固有频率的能量波驱动扬声器(60) 以便锁定在固有频率上。