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    • 1. 发明授权
    • Ultra-miniature electro-mechanical safety and arming device
    • 超小型机电安全和布防装置
    • US08276515B1
    • 2012-10-02
    • US12434093
    • 2009-05-01
    • Charles H. RobinsonRobert H. WoodMark R. GelakThinh Q. HoangGabriel L. Smith
    • Charles H. RobinsonRobert H. WoodMark R. GelakThinh Q. HoangGabriel L. Smith
    • F42C15/26F42C15/196
    • F42C15/005F42C15/22F42C15/24F42C15/26F42C15/30F42C15/34
    • A ultra-miniature, electro-mechanical, MEMS type safe and arming (S&A) device for medium- or large-artillery rounds, including, three sequenced S&A interlocks: a setback slider, which is positioned partially within and partially extending from an arming slider, such that, upon firing acceleration, the setback slider will compress into a channel within the arming slider (unlocking the 1st interlock); freeing the arming slider to move toward its arming position under urging of the round's spin; a stop and release mechanism formed by a flexible latch arm which impacts upon a safety catch located within the frame in which the arming slider is mounted, such that the arming slider is stopped until a release command signal is initiated by the fuze circuit, triggering a spot charge which generates an expanding gas wave that flexes the latch arm from contact with the safety catch (unlocking the 2nd interlock), thereby freeing the arming slider to continue its motion into an arming position (unlocking the 3rd interlock) and aligning the parts of the firetrain within the device, such that upon signal from the fuze circuit an output charge from the device will ignite the acceptor charge within the round.
    • 一种用于中型或大型炮弹的超小型,机电式,MEMS型安全和布防(S&A)装置,包括三个顺序的S&A互锁:一个挫折滑块,其位于部分位于部分延伸的布置滑块 ,使得在点火加速时,挫折滑块将压缩到布防滑块内的通道中(解锁第一联锁); 在轮的旋转的推动下释放装备滑块移动到其武装位置; 一个由弹性锁臂构成的止挡和释放机构,该弹簧锁臂撞击位于安装有所述布防滑块的框架内的安全锁扣,使得所述布防滑块停止,直到由引信电路启动释放命令信号,触发一个 点火电荷产生膨胀的气体波,其使闩锁臂与安全锁扣(解锁第二互锁)弯曲,从而释放布防滑块以继续运动进入布防位置(解锁第三互锁)并对准 装置内的消防车,使得在来自引信电路的信号上,来自装置的输出电荷将点燃该轮内的受体电荷。
    • 3. 发明申请
    • APPARATUS AND METHOD FOR SUSPENSION WICKING OF NANOPARTICLES INTO MICROCHANNELS
    • 纳米颗粒悬浮液浸入微通道的装置和方法
    • US20120266770A1
    • 2012-10-25
    • US13474933
    • 2012-05-18
    • Gabriel L. SmithSarah Bedair
    • Gabriel L. SmithSarah Bedair
    • F42B3/13C06C9/00F42C15/34B05D5/00B82Y30/00B82Y40/00
    • H05K1/16B82Y30/00H05K3/1258H05K2201/0257H05K2201/086H05K2201/09909H05K2203/105
    • A method of forming a device on a substrate comprising creating a depository and at least one attached capillary; the depository being of millimeter scale; providing a liquid containing particles in the range 1 nanometer to 1 millimeter; depositing into the depository the liquid containing particles which flows into at least one capillary by capillary action; evaporating the liquid such that the particles form an agglomerate beginning at the end of the at least one capillary with a substantially uniform distribution of the particles within the agglomerate; which is used to form a device. A microelectronic integrated circuit device comprising a substrate; a depository coupled to said substrate, the depository being formed by at least one wall adjacent to the substrate; at least one capillary channel coupled to at least one depository that is formed by walls adapted to be filled with a liquid (by capillary action) comprising nanoparticles.
    • 一种在衬底上形成器件的方法,包括形成存储器和至少一个连接的毛细管; 存储器为毫米级; 提供含有1纳米至1毫米范围内的颗粒的液体; 通过毛细管作用将含有流入至少一个毛细管的含有液体的液体沉积到储存器中; 蒸发液体,使得颗粒形成从至少一个毛细管的末端开始的附聚物,其中颗粒在附聚物内具有基本均匀的分布; 用于形成设备。 一种微电子集成电路器件,包括衬底; 耦合到所述衬底的沉积物,所述沉积物由与所述衬底相邻的至少一个壁形成; 至少一个毛细管通道,其耦合到至少一个储存器,所述至少一个储存器由适于填充有包含纳米颗粒的液体(通过毛细管作用)的壁形成。
    • 5. 发明授权
    • Mems vertical to horizontal motion translation device
    • Mems垂直于水平运动翻译装置
    • US06308631B1
    • 2001-10-30
    • US09620128
    • 2000-07-20
    • Gabriel L. SmithLawrence Fan
    • Gabriel L. SmithLawrence Fan
    • F42L1534
    • B81B3/0051B81B2201/037B81B2201/038B81B2203/051
    • A micromechanical device that takes a vertical force to a micro substrate that results into a vertical motion and translates that vertical motion into horizontal motion. A pit is etched onto a micro substrate where the walls of the pit meet the floor of the pit at less than a 90° angle. A vertical force is applied to a structure to push it along the angled wall of the pit and as the structure reaches the bottom of the pit the vertical motion is translated into horizontal motion. By attaching a spring or similar mechanism to the structure, one can store the horizontal momentum for later use by latching the structure in some way before the spring can pull the structure back into its original position.
    • 微机械装置对微型基板施加垂直的力,导致垂直运动并将该垂直运动转换成水平运动。 将凹坑蚀刻到微基板上,其中凹坑的壁以小于90°的角度与凹坑的地板相遇。 一个垂直的力被施加到一个结构上,以推动它沿坑的角度的壁,当结构到达坑的底部,垂直运动被转换成水平运动。 通过将弹簧或类似的机构附接到结构,可以在弹簧能够将结构拉回到其初始位置之前以某种方式通过闩锁结构来存储水平动量用于以后的使用。
    • 7. 发明授权
    • MEMS inertial shock bandpass filter
    • MEMS惯性冲击带通滤波器
    • US07559238B1
    • 2009-07-14
    • US11444816
    • 2006-05-26
    • Gabriel L. SmithDaniel J. Jean
    • Gabriel L. SmithDaniel J. Jean
    • G01P15/135
    • G01P15/0891G01P1/127G01P15/135G01P2015/0814H01H1/0036H01H35/145
    • An inertial shock bandpass filter for detecting a shock event between first and second acceleration levels. The inertial shock bandpass filter includes a primary inertial element and at least one secondary inertial element supported by respective spring arrangements. The inertial elements include complementary engageable gripping surfaces, which engage in response to an acceleration above the second acceleration level to prevent movement of the primary inertial element and prevent latch engagement. The primary inertial element will, in response to an acceleration between the first and second acceleration levels, engage the latch. An acceleration level below the first acceleration level is insufficient to cause either an engagement of the gripping surfaces or a latching of the primary inertial element.
    • 惯性冲击带通滤波器,用于检测第一和第二加速度水平之间的冲击事件。 惯性冲击带通滤波器包括主要惯性元件和由相应的弹簧装置支撑的至少一个辅助惯性元件。 惯性元件包括互补的可接合的抓握表面,其响应于高于第二加速度水平的加速度啮合以防止主惯性元件的移动并防止闩锁接合。 响应于第一和第二加速度水平之间的加速度,主惯性元件将接合闩锁。 低于第一加速度级别的加速度级别不足以引起抓握表面的接合或主惯性元件的锁定。
    • 10. 发明授权
    • Apparatus and method for suspension wicking of nanoparticles into microchannels
    • 将纳米颗粒悬浮芯吸到微通道中的装置和方法
    • US08728409B2
    • 2014-05-20
    • US13474933
    • 2012-05-18
    • Gabriel L. SmithSarah Salah Bedair
    • Gabriel L. SmithSarah Salah Bedair
    • G01N15/06
    • H05K1/16B82Y30/00H05K3/1258H05K2201/0257H05K2201/086H05K2201/09909H05K2203/105
    • A method of forming a device on a substrate comprising creating a depository and at least one attached capillary; the depository being of millimeter scale; providing a liquid containing particles in the range 1 nanometer to 1 millimeter; depositing into the depository the liquid containing particles which flows into at least one capillary by capillary action; evaporating the liquid such that the particles form an agglomerate beginning at the end of the at least one capillary with a substantially uniform distribution of the particles within the agglomerate; which is used to form a device. A microelectronic integrated circuit device comprising a substrate; a depository coupled to said substrate, the depository being formed by at least one wall adjacent to the substrate; at least one capillary channel coupled to at least one depository that is formed by walls adapted to be filled with a liquid (by capillary action) comprising nanoparticles.
    • 一种在衬底上形成器件的方法,包括形成存储器和至少一个连接的毛细管; 存储器为毫米级; 提供含有1纳米至1毫米范围内的颗粒的液体; 通过毛细管作用将含有流入至少一个毛细管的含有液体的液体沉积到储存器中; 蒸发液体,使得颗粒形成从至少一个毛细管的末端开始的附聚物,其中颗粒在附聚物内具有基本均匀的分布; 用于形成设备。 一种微电子集成电路器件,包括衬底; 耦合到所述衬底的沉积物,所述沉积物由与所述衬底相邻的至少一个壁形成; 至少一个毛细管通道,其耦合到至少一个储存器,所述至少一个储存器由适于填充有包含纳米颗粒的液体(通过毛细管作用)的壁形成。