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
    • 4. 发明授权
    • Temperature adjusting low pressure sensor
    • 温度调节低压传感器
    • US5604338A
    • 1997-02-18
    • US558358
    • 1995-11-16
    • Donald J. PaxtonMarcus T. ClarkBrian H. Fulmer
    • Donald J. PaxtonMarcus T. ClarkBrian H. Fulmer
    • B60R21/268G01M3/32H01H35/34
    • H01H35/346G01M3/3272B60R21/268
    • A temperature compensating low pressure sensor for verifying loss of gas from an inflator of a vehicle restraint safety system. The sensor includes a housing and a pressure diaphragm in communication with the fluid in the inflator. A temperature sensitive bimetallic thermostat is disposed within the housing. The thermostat expands with relation to a change in temperature of the fluid at the same rate as the pressure diaphragm. A retainer in communication with the pressure diaphragm is movably disposed in the housing. A stack of spring washers is disposed between the retainer and the thermostat for counteracting the pressure of the fluid acting upon the diaphragm. A contact arm in contact with the thermostat moves with the retainer. When the diaphragm is acted upon by a shift in pressure due to a temperature change of the fluid, the thermostat moves at the same rate as the pressure diaphragm and the contact arm remains in contact with the thermostat, thus avoiding an alarm indication due merely to a drop in pressure related to a temperature change of the fluid.
    • 一种温度补偿低压传感器,用于验证来自车辆限制安全系统的充气机的气体损失。 传感器包括与充气机中的流体连通的外壳和压力隔膜。 温度敏感的双金属恒温器设置在外壳内。 恒温器以与压力膜相同的速率相对于流体的温度变化而膨胀。 与压力隔膜连通的保持器可移动地设置在壳体中。 一组弹簧垫圈设置在保持器和恒温器之间,用于抵消作用在隔膜上的流体的压力。 与恒温器接触的接触臂与保持器一起移动。 当隔膜由于流体的温度变化而被压力移动时,恒温器以与压力膜片和接触臂保持与恒温器接触的速率相同的速度移动,从而避免了仅仅因为 与流体的温度变化相关的压力下降。
    • 9. 发明授权
    • Hybrid inflator with reduced solid emissions
    • 具有减少固体排放的混合式充气机
    • US5882036A
    • 1999-03-16
    • US926916
    • 1997-09-10
    • Walter A. MooreRobert E. LewisMarcus T. ClarkBryan D. Matzl
    • Walter A. MooreRobert E. LewisMarcus T. ClarkBryan D. Matzl
    • B01D39/12B60R21/26B60R21/272
    • B60R21/272B01D39/12
    • A hybrid inflator having a quantity of stored gas in a pressure vessel, and a quantity of gas generant stored within a generant housing having at least one port in its longitudinal end. Within the generant housing the gas generant is retained within a porous sleeve. This sleeve is spaced inward from the non-porous generant housing, such that a free flow area is formed between the sleeve and the generant housing. The inflation gas created by the gas generant will thus flow radially outward through the sleeve, and then be turned to flow longitudinally toward the port(s) in the generant housing. Providing the free flow area reduces the pressure drop across the generant sleeve, resulting in less slag being forced through the sleeve to be entrained within the created gas flow. Additionally, the changes in direction forced upon the created gas flow to exit the generant housing cause additional amounts of slag to be removed from the created gas flow. This results in a hybrid inflator having reduced solid emissions. A second embodiment employs longitudinal flow directly from the gas generant with a free flow area leading to radial ports on the generant housing.
    • 一种在压力容器中具有一定量的储存气体的混合式充气机,以及储存在发电机壳体内的气体发生剂的量,其在其纵向端部具有至少一个端口。 在发电机壳内,气体发生器保留在多孔套筒内。 该套筒与无孔发生器壳体向内隔开,从而在套筒和发电机壳体之间形成自由流动区域。 由气体发生器产生的膨胀气体将因此径向向外流过套筒,然后被转动以纵向流向发生器壳体中的端口。 提供自由流动面积减小了发生套筒上的压降,从而导致较少的炉渣被迫穿过套筒被夹带在所产生的气体流中。 此外,强制产生的气体流动以排出发电机壳体的方向的变化导致从所产生的气体流中移除附加量的炉渣。 这导致具有减少的固体排放的混合式充气机。 第二个实施例采用直接来自气体发生器的纵向流动,其具有通向发电机壳体上的径向端口的自由流动区域。