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    • 3. 发明申请
    • APPARATUS AND METHOD FOR OBTAINING POWER USAGE INFORMATION
    • 用于获取电力使用信息的装置和方法
    • US20170070793A1
    • 2017-03-09
    • US15115107
    • 2015-02-12
    • Bing Liu
    • Bing Liu
    • H04Q9/00
    • H04Q9/00F03D7/0284G08C19/12H04Q2209/10H04Q2209/30H04Q2209/60H04Q2209/823
    • The present invention relates to a device for acquiring electricity utilization information which comprises a data acquisition and processing circuit configured to detect an operation parameter about a coupleable power supply circuit; a non-isolated power supply configured to convert an AC power into a DC power to supply an appropriate operation voltage to the data acquisition and processing circuit; a data communication module configured to modulate the detected operation parameter onto a predetermined frequency, wherein the modulated operation parameter is transmitted with a predetermined data transmission rate, and the predetermined frequency is higher than the predetermined data transmission rate such that the transmitted operation parameter can be demodulated; and an isolation component configured to provide electrical isolation and signal transmission isolation to perform a coupling isolation for the modulated operation parameter. The device not only can achieve divided measurement of electricity utilization, but also has the advantage of smaller volume.
    • 本发明涉及一种用于获取电力利用信息的装置,包括:数据采集和处理电路,被配置为检测关于可耦合电源电路的操作参数; 非隔离电源,被配置为将AC电力转换成DC电力以向所述数据采集和处理电路提供适当的操作电压; 数据通信模块,被配置为将检测到的操作参数调制到预定频率上,其中以预定数据传输速率发送调制操作参数,并且预定频率高于预定数据传输速率,使得发送的操作参数可以是 解调; 以及隔离部件,被配置为提供电隔离和信号传输隔离以对调制的操作参数执行耦合隔离。 该装置不仅可以实现电力利用的分割测量,而且具有体积更小的优点。
    • 5. 发明授权
    • Cylinder head of small-sized general-purpose gasoline engine and gasoline engine having the same
    • 小型通用汽油发动机和汽油发动机的气缸盖相同
    • US08991355B2
    • 2015-03-31
    • US13496700
    • 2011-12-28
    • Yuming XieHongbo ChenBing LiuJu Lei
    • Yuming XieHongbo ChenBing LiuJu Lei
    • F01L1/18F02F1/24
    • F02F1/24F02F2001/245
    • The invention discloses a cylinder head of a small-sized general-purpose gasoline engine and a gasoline engine having the same. The cylinder head of the small-sized general-purpose gasoline engine comprises a cylinder head body (1), and an intake passage (9), an exhaust passage (5) and a sparking plug mounting hole (8) arranged on the cylinder head body (1); a combustion chamber surface (7), being a arched smooth curve, is formed at the inner side of the cylinder head body (1); the cylinder head body (1) is provided with an intake valve (11) corresponding to the intake passage (9) and an exhaust valve (4) corresponding to the exhaust passage (5); the intake valve (11) is inclined towards the intake passage (9) from the bottom part to the top part; the exhaust valve (4) is inclined towards the exhaust passage (5) from the bottom part to the top part; and the included angle between the axis of the intake valve (11) and the axis of the exhaust valve (4) is 24±5 degrees. In the invention, the parameters between the combustion chamber and the intake valve as well as the exhaust valve are inter-coordinated and matched, the operation efficiency of the gasoline engine is improved, the fuel is saved, and the discharge is reduced.
    • 本发明公开了一种小型通用汽油发动机的气缸盖和具有该气缸盖的汽油发动机。 小型通用汽油机的气缸盖包括气缸盖本体(1)和设置在气缸盖上的进气通道(9),排气通道(5)和火花塞安装孔(8) 身体(1); 在气缸盖主体(1)的内侧形成有作为拱形平滑曲线的燃烧室表面(7); 气缸盖本体(1)设有与进气通路(9)相对应的进气门(11)和对应于排气通道(5)的排气阀(4)。 所述进气阀(11)从所述底部朝向所述顶部朝向所述进气通路(9)倾斜; 所述排气阀(4)从所述底部朝向所述顶部朝向所述排气通路(5)倾斜; 并且进气门(11)的轴线与排气阀(4)的轴线之间的夹角为24±5度。 在本发明中,燃烧室与进气门以及排气阀之间的参数相互协调配合,提高了汽油发动机的运行效率,节约了燃料,降低了排放。
    • 8. 发明授权
    • Pulsed laser micro-deposition pattern formation
    • 脉冲激光微沉积图案形成
    • US08663754B2
    • 2014-03-04
    • US12400438
    • 2009-03-09
    • Bing LiuZhendong HuMakoto MurakamiJingzhou XuYong Che
    • Bing LiuZhendong HuMakoto MurakamiJingzhou XuYong Che
    • C23C14/28C08J7/04B05D5/06B05D5/12B23K26/00
    • C23C20/04B41M5/262B41M5/267B44F1/10C23C14/28C23C14/3435G02B26/101Y10T428/24802Y10T428/24917
    • A method of forming patterns on transparent substrates using a pulsed laser is disclosed. Various embodiments include an ultrashort pulsed laser, a substrate that is transparent to the laser wavelength, and a target plate. The laser beam is guided through the transparent substrate and focused on the target surface. The target material is ablated by the laser and is deposited on the opposite substrate surface. A pattern, for example a gray scale image, is formed by scanning the laser beam relative to the target. Variations of the laser beam scan speed and scan line density control the material deposition and change the optical properties of the deposited patterns, creating a visual effect of gray scale. In some embodiments patterns may be formed on a portion of a microelectronic device during a fabrication process. In some embodiments high repetition rate picoseconds and nanosecond sources are configured to produce the patterns.
    • 公开了使用脉冲激光在透明基板上形成图案的方法。 各种实施例包括超短脉冲激光器,对激光波长透明的衬底和靶板。 激光束被引导通过透明基板并聚焦在目标表面上。 目标材料被激光烧蚀并沉积在相对的基板表面上。 通过相对于目标扫描激光束来形成例如灰度图像的图案。 激光束扫描速度和扫描线密度的变化控制材料沉积并改变沉积图案的光学性质,产生灰度的视觉效果。 在一些实施例中,可以在制造过程期间在微电子器件的一部分上形成图案。 在一些实施例中,高重复率皮秒和纳秒源被配置为产生图案。
    • 10. 发明授权
    • Method for depositing crystalline titania nanoparticles and films
    • 沉积结晶二氧化钛纳米粒子和薄膜的方法
    • US08609205B2
    • 2013-12-17
    • US12497205
    • 2009-07-02
    • Zhendong HuYong CheBing Liu
    • Zhendong HuYong CheBing Liu
    • H05B7/00C23C14/14
    • C30B23/08C23C14/083C23C14/28C30B29/16
    • A one-step and room-temperature process for depositing nanoparticles or nanocomposite (nanoparticle-assembled) films of metal oxides such as crystalline titanium dioxide (TiO2) onto a substrate surface using ultrafast pulsed laser ablation of Titania or metal titanium target. The system includes a pulsed laser with a pulse duration ranging from a few femtoseconds to a few tens of picoseconds, an optical setup for processing the laser beam such that the beam is focused onto the target surface with an appropriate average energy density and an appropriate energy density distribution, and a vacuum chamber in which the target and the substrate are installed and background gases and their pressures are appropriately adjusted.
    • 使用二氧化钛或金属钛靶的超快速脉冲激光烧蚀将金属氧化物如结晶二氧化钛(TiO 2)的纳米颗粒或纳米复合材料(纳米颗粒组装的)膜沉积到基底表面上的一步和室温方法。 该系统包括脉冲激光,其脉冲持续时间范围从几飞秒到几十皮秒,用于处理激光束的光学设置,使得光束以适当的平均能量密度和适当的能量聚焦到目标表面上 密度分布,以及真空室,其中安装了目标物和基质,背景气体及其压力被适当调节。