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    • 32. 发明授权
    • Gas sensor materials and methods for preparation thereof
    • 气体传感器材料及其制备方法
    • US08691609B1
    • 2014-04-08
    • US13250849
    • 2011-09-30
    • Peter SmithJane BlakeLeon CavanaghRaymond Speer
    • Peter SmithJane BlakeLeon CavanaghRaymond Speer
    • H01L21/66G01N27/414
    • G01N27/4141G01N27/125G01N27/127G01N27/414
    • Gas sensor materials and methods are disclosed for preparing and using the same to produce gas sensor structures. Also disclosed are gas sensor structures and systems that employ these disclosed materials. A gas sense-enhancing metal such as platinum may be added to a gas sensitive metal oxide material in a manner that more highly disperses the added platinum than conventional methods so as to more effectively utilize the platinum at a lower concentration, thus achieving a more cost effective solution. An ink vehicle may also be used for deposition of a gas sensitive material (e.g. on the surface of integrated circuit) that is formulated to allow “burn-out” of ink vehicle components at relatively low temperatures as compared to conventional ink vehicles.
    • 公开了用于制备和使用气体传感器材料和方法来生产气体传感器结构的气体传感器材料和方法。 还公开了采用这些公开的材料的气体传感器结构和系统。 可以将气体感官增强金属如铂添加到气体敏感性金属氧化物材料中,使得铂比常规方法更高分散,以便更有效地利用较低浓度的铂,从而实现更多的成本 有效的解决方案。 油墨载体也可以用于沉积气体敏感材料(例如在集成电路的表面上),其被配制为允许与常规油墨载体相比在相对低的温度下“油漆”油墨载体组分。
    • 33. 发明授权
    • Hinge
    • 合页
    • US08635743B2
    • 2014-01-28
    • US13225715
    • 2011-09-06
    • Peter SmithChris Wilkinson
    • Peter SmithChris Wilkinson
    • E05D11/00B62B7/06B62B7/00
    • F16C11/045B62B7/08B62B9/005B62B2205/00F16C2326/20Y10T16/5408Y10T16/551Y10T16/554
    • Disclosed is a hinge for a buggy, stroller, etc. for infants. The hinge includes a first hinge member and a second hinge member. Hinge member includes a first hinge end and a connecting end to connect to a first structural member of an infant support apparatus along a first axis. The second hinge member includes a hinge end and a connecting end to connect to structural member of the infant support apparatus along a second axis. The hinge members are pivotal about an axis between a bent condition wherein the first and second longitudinal axes are non-aligned and a straight condition wherein the first and second longitudinal axes are generally aligned. The hinge ends are configured such that the amount of the profiles which overlap prevent the formation of a finger trap.
    • 公开了婴儿车,童车等的铰链。 铰链包括第一铰链构件和第二铰链构件。 铰链构件包括第一铰链端和连接端,以沿着第一轴线连接到婴儿支撑装置的第一结构构件。 第二铰链构件包括铰链端和连接端,以沿着第二轴线连接到婴儿支撑装置的结构构件。 铰链构件围绕轴线枢转,在弯曲状态之间,其中第一和第二纵向轴线不对准,并且直线状态,其中第一和第二纵向轴线大致对准。 铰链端构造成使得重叠的轮廓的数量防止形成手指陷阱。
    • 35. 发明申请
    • HINGE
    • 合页
    • US20120060326A1
    • 2012-03-15
    • US13225715
    • 2011-09-06
    • Peter SmithChris Wilkinson
    • Peter SmithChris Wilkinson
    • E05D11/10E05D11/06E05D5/12
    • F16C11/045B62B7/08B62B9/005B62B2205/00F16C2326/20Y10T16/5408Y10T16/551Y10T16/554
    • Disclosed is a hinge for a buggy, stroller, etc. for infants. The hinge 10 includes a first hinge member 12 and a second hinge member 14. Hinge member 12 includes a first hinge end 16 and a connecting end 18 to connect to a first structural member 20 of an infant support apparatus along a first axis L1. The second hinge member 14 includes a hinge end 22 and a connecting end 24 to connect to structural member 26 of the infant support apparatus along a second axis L2. Hinge members 12, 14 are pivotal about axis T1 between a bent condition wherein the first and second longitudinal axes L1, L2 are non-aligned and a straight condition wherein the first and second longitudinal axes are generally aligned. The hinge ends are configured such that the amount of the profiles which overlap prevent the formation of a finger trap.
    • 公开了婴儿车,童车等的铰链。 铰链10包括第一铰链构件12和第二铰链构件14.铰链构件12包括第一铰链端部16和连接端部18,以沿着第一轴线L1连接到婴儿支撑设备的第一结构构件20。 第二铰链构件14包括铰链端22和连接端24,以沿着第二轴线L2连接到婴儿支撑装置的结构构件26。 铰接构件12,14在第一和第二纵向轴线L1,L2不对齐的弯曲状态和第一和第二纵向轴线大致对准的直线状态之间围绕轴线T1枢转。 铰链端构造成使得重叠的轮廓的数量防止形成手指陷阱。
    • 37. 发明授权
    • System for changing the attitude of linear underwater sensor arrays via neutrally buoyant fluid transfer
    • 通过中性浮力流体传递改变线性水下传感器阵列的姿态的系统
    • US08047154B1
    • 2011-11-01
    • US12506313
    • 2009-07-21
    • James BuescherV. Keyko McDonaldPeter SullivanBrian J. GrangerDavid A. BultmanPeter SmithAaron Bratten
    • James BuescherV. Keyko McDonaldPeter SullivanBrian J. GrangerDavid A. BultmanPeter SmithAaron Bratten
    • B63G8/14
    • B63G8/14B63G8/42
    • The attitude of a submerged array of sensing elements can be changed using a fixed quantity of transferable ballast fluid having density different than water. In one embodiment, a non-rigid array of sensor elements is equipped with two expandable reservoirs connected between a flexible conduit which allows the ballast fluid to be transferred back and forth. Pumping fluid between the two reservoirs causes one reservoir to expand while the other contracts. Due to the density difference between the pumped fluid and water, the difference in volume between the two expandable reservoirs causes a shift in the center of buoyancy of the array system. The center of buoyancy in this way becomes offset from the center of gravity of the array system, causing a shift in the attitude of the array. The array can be trimmed, using positively or negatively buoyant static elements, to achieve a specific orientation for given volume ratios between the two expandable reservoirs, and so by controlling the volume ratio, multiple orientations can be selected.
    • 可以使用固定量的具有不同于水的密度的可转移压载流体来改变浸没的感测元件阵列的姿态。 在一个实施例中,传感器元件的非刚性阵列装备有连接在柔性导管之间的两个可扩展的储存器,其允许压载流体来回传递。 两个水库之间的泵送液体导致一个水库膨胀,而另一个储层膨胀。 由于泵送流体和水之间的密度差异,两个可膨胀储层之间的体积差异导致阵列系统浮力中心的偏移。 以这种方式浮力的中心偏离阵列系统的重心,导致阵列姿态的变化。 可以使用正或负浮力静态元件来修整阵列,以实现两个可扩展储存器之间的给定体积比的特定取向,因此通过控制体积比,可以选择多个取向。
    • 40. 发明申请
    • Method of Measuring a Target Gas at Low Concentration
    • 低浓度目标气体测量方法
    • US20090126454A1
    • 2009-05-21
    • US11954523
    • 2007-12-12
    • Keith PrattPeter Smith
    • Keith PrattPeter Smith
    • G01N37/00G01N33/00
    • G01N33/0006G01N33/0059
    • A method for determining the concentration of a target gas in an environment which utilises a metal oxide gas sensor having a sensitivity to a background stimulus present in the environment, said sensitivity being variable according to the concentration of the target gas, comprises the following steps: (1) calibrating the sensitivity of the first sensor to the background stimulus as a function of the concentration of the target gas; (2) determining a change in the sensitivity of the first sensor to the background stimulus in the environment, caused by the presence of the target gas in the environment; and (3) using the change in sensitivity to the background stimulus determined in step (2) and the step of calibrating the sensitivity of the first sensor in step (1) to determine the concentration of the target gas in the environment.
    • 一种利用对环境中存在的背景刺激具有敏感性的金属氧化物气体传感器的环境中的目标气体浓度的测定方法,所述灵敏度根据目标气体的浓度而变化,包括以下步骤: (1)根据目标气体的浓度校正第一传感器对背景刺激的灵敏度; (2)确定由环境中目标气体的存在引起的环境中第一传感器对背景刺激的灵敏度的变化; 和(3)使用在步骤(2)中确定的背景刺激的灵敏度变化和在步骤(1)中校准第一传感器的灵敏度以确定环境中目标气体的浓度的步骤。