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
    • 1. 发明授权
    • Electronic impact sensor mounted on supporting member
    • 电子冲击传感器安装在支撑构件上
    • US06676156B2
    • 2004-01-13
    • US10201157
    • 2002-07-24
    • Akira SuzukiShinichi KiribayashiTadashi Ozaki
    • Akira SuzukiShinichi KiribayashiTadashi Ozaki
    • B60R2132
    • B60R21/01B60R2021/01006G01P1/023
    • A circuit board having an impact sensor element thereon is mounted on a depressed portion formed between a pair of thick portions of a supporting member. The supporting member includes a pair of protecting walls between which a connector leading out electrical signals from the circuit board is disposed. The supporting member is fixed to a support frame of a vehicle by screws or bolts inserted through the thick portions. The supporting member is formed with a resin material as a unitary body. Since the circuit board and the connector are mounted on the supporting member at positions protected by solid structures of the supporting member, they are prevented from being hit by vehicle parts falling apart when a collision occurs.
    • 其上具有冲击传感器元件的电路板安装在形成在支撑构件的一对较厚部分之间的凹陷部分上。 支撑构件包括一对保护壁,在该保护壁之间设置有引出电路板的电信号的连接器。 支撑构件通过插入穿过厚壁部分的螺钉或螺栓固定到车辆的支撑框架上。 支撑构件由树脂材料形成为一体。 由于电路板和连接器在支撑构件的固体结构保护的位置处安装在支撑构件上,所以当发生碰撞时,防止其被分离的车辆撞击。
    • 2. 发明授权
    • Device for detecting signal of sensing cells interconnected in a matrix
    • 用于检测在矩阵中互连的感测单元的信号的装置
    • US06694826B2
    • 2004-02-24
    • US09996945
    • 2001-11-30
    • Shinichi KiribayashiTadashi OzakiHiroshi Fujitsuka
    • Shinichi KiribayashiTadashi OzakiHiroshi Fujitsuka
    • G01L300
    • B60R21/01516B60N2/002G01G19/4142
    • A detecting device (1) is provided to detect signals from a sensing mat (2) including a plurality of sensing cells (R) electrically interconnected to each other in a matrix. Each sensing cell (R) is changeable in resistance with a change in a load to be applied. The detecting device (1) comprises a detecting circuit (Rp) and voltage applying means (5). The detecting circuit (Rp) detects a signal through a conversion of changes in the resistance to changes in voltage. When detecting a sensing cell (R11) connected to a specified line path (2a), the voltage applying means (5) applies a particular voltage to the remaining line paths (2a). The particular voltage is for example voltage of which potential is the same as a voltage detected from the selected sensing cell (R11). Applying the particular voltage prevents current from bypassing the other line paths irrelevant to the detection.
    • 一种检测装置(1),用于检测包括以矩阵彼此电互连的多个感测单元(R)的感测垫(2)的信号。 每个感测单元(R)随着要施加的负载的变化而可改变电阻。 检测装置(1)包括检测电路(Rp)和电压施加装置(5)。 检测电路(Rp)通过转换电压变化的电阻来检测信号。 当检测到连接到指定线路(2a)的感测单元(R11)时,电压施加装置(5)向剩余的线路(2a)施加特定的电压。 特定电压例如是其电位与从所选择的感测单元(R11)检测到的电压相同的电压。 应用特定电压可防止电流绕过与检测无关的其他线路。
    • 3. 发明授权
    • Air bag system
    • 气囊系统
    • US06206409B1
    • 2001-03-27
    • US09139761
    • 1998-08-25
    • Hirokazu KatoTadashi OzakiMinoru FujiokaMutsumasa Koujiya
    • Hirokazu KatoTadashi OzakiMinoru FujiokaMutsumasa Koujiya
    • B60R2126
    • B60R21/217B60R21/201B60R21/237B60R2021/161
    • An air bag system comprises an air bag having an opening through which gas is supplied. The air bag is folded in a predetermined polygonal shape and is then contained in a pad. An expansion restraining member is provided in the air bag system. The expansion restraining member temporarily holds a peripheral portion of the folded air bag so as to suppress rapid expansion thereof when the air bag is developed. Because the expansion of the peripheral portion is delayed by the expansion restraining member, it is possible to prevent the air bag from developing in the straight thin form toward a passenger. That is, the air bag can be developed in a round shape from its center portion when the gas is supplied into the air bag.
    • 气囊系统包括具有供给气体的开口的气囊。 将气囊折叠成预定的多边形,然后将其包含在垫中。 在气囊系统中设置有膨胀限制构件。 膨胀限制构件临时保持折叠气囊的周边部分,以便在气囊展开时抑制其快速膨胀。 由于周边部的膨胀被膨胀限制构件延迟,因此可以防止气囊朝向乘客呈直线状的形状。 也就是说,当气体供应到气囊中时,气囊可以从其中心部分呈圆形显影。
    • 6. 发明授权
    • Exhaust gas recirculation system for internal combustion engine
    • 内燃机排气再循环系统
    • US4196706A
    • 1980-04-08
    • US871936
    • 1978-01-24
    • Tokio KohamaHideki ObayashiTadashi OzakiHidetaka Nohira
    • Tokio KohamaHideki ObayashiTadashi OzakiHidetaka Nohira
    • F02M25/07F02M25/06
    • F02M26/56
    • In an exhaust gas recirculation system for an internal combustion engine of the type including an exhaust gas recirculation passage for communicating an exhaust tube with an intake tube downstream of a throttle valve disposed therein for recirculating part of exhaust gases from the exhaust tube into the intake tube, and a control valve for controlling the flow rate of exhaust gases flowing through the recirculation passage, there are provided negative pressure control means responsive to the negative intake pressure downstream of the throttle valve in the intake tube for generating a pressure signal the magnitude of which is in proportion to the load on the internal combustion engine, and a modulator responsive to the pressure in the recirculation passage upstream of the control valve for controlling the pressure signal, whereby the pressure signal which is controlled by the modulator operates the recirculation gas flow rate control valve in such a manner that the volume of exhaust gases to be recirculated may be in proportion to the load on the engine.
    • 在用于内燃机的废气再循环系统中,该排气再循环系统包括排气再循环通道,用于将排气管与设置在其中的节流阀下游的进气管连通,用于将废气的一部分从排气管再循环到进气管 以及用于控制流过再循环通道的废气流量的控制阀,提供负压控制装置,其响应于进气管中的节流阀下游的负进气压力,用于产生压力信号,其压力信号的大小 与内燃机上的负载成比例,以及响应于控制阀上游的再循环通道中的压力的​​调节器,用于控制压力信号,由调节器控制的压力信号操作再循环气体流量 控制阀的排气量 要重新循环可能与发动机上的负载成比例。