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    • 2. 发明授权
    • Drain separator in gas analyzer
    • 排气分离器在气体分析仪
    • US5355719A
    • 1994-10-18
    • US911325
    • 1992-07-10
    • Hiroji KohsakaTokihiro Tsukamoto
    • Hiroji KohsakaTokihiro Tsukamoto
    • B01D45/16G01N1/22G01N33/00G01N1/34B01D5/00
    • B01D45/16G01N1/2258G01N33/0011G01N2001/2267
    • A drain separator in a gas analyzer is provided to rapidly remove drain or condensate from a gas flow by creating a rotary motion in the gas flow prior to introducing it into a separating chamber. In an exemplary embodiment, separating chamber 2, formed as a downwardly divergent conical space, connects with gas-inlet passage 6 at its upper end and an exhaust gas-outlet passage 3 at the periphery of its base. A sample gas-outlet passage 8 is disposed within separating chamber 2 in a coaxially aligned, vertically spaced opposing relationship to gas-inlet passage 6. Rotation of the gas flow may be accomplished by a vane 7, disposed within gas-inlet passage 6. Upon introduction of the rotating gas flow into separating chamber 2, the pressure on the flow is reduced causing the drain to condense and become distributed about the circumference of the low pressure gas flow. A portion of the gas from the center of the low pressure gas flow containing little condensate then passes through sample gas-inlet passage 8 to a gas analyzer. At the same time the majority of the condensate and waste gas is removed from separating chamber 2 through exhaust gas-outlet passage 3.
    • 提供气体分析器中的排水分离器,以便在将气体流引入分离室之前通过在气流中产生旋转运动来快速地从气流中去除排出物或冷凝物。 在一个示例性实施例中,形成为向下扩散的锥形空间的分离室2在其上端处与气体入口通道6和在其底部的周边处的排气 - 出口通道3连接。 样品气体出口通道8以与气体入口通道6同轴对准的垂直间隔的相对关系设置在分离室2内。气流的旋转可以通过设置在气体入口通道6内的叶片7来实现。 当引入到分离室2中的旋转气流时,流量上的压力减小,使得排水管冷凝并分布在低压气体流的周围。 来自含有少量冷凝物的低压气体流的中心的一部分气体然后通过样品气体入口通道8进入气体分析器。 同时大多数冷凝物和废气通过废气 - 出口通道3从分离室2中排出。
    • 3. 发明授权
    • Multi-component analyzing apparatus
    • 多分量分析仪
    • US07071470B2
    • 2006-07-04
    • US10659436
    • 2003-09-11
    • Toshiyuki NomuraHiroji KohsakaKennosuke KojimaIchiro AsanoNaoyuki Matsumoto
    • Toshiyuki NomuraHiroji KohsakaKennosuke KojimaIchiro AsanoNaoyuki Matsumoto
    • G01N21/35
    • G01N21/3504
    • A multi-component analyzing apparatus in which infrared light is irradiated to a measuring-subject sample S which is constituted by either measuring-subject components whose sorts or quantities are limited or by a mixed article made of said measuring-subject components; intensity of infrared light having respective wavelength ranges which are fitted to infrared absorption spectra of the respective measuring-subject components among such infrared light penetrated through the measuring-subject sample S is measured by employing a plurality of detectors 4a to 4g corresponding thereto; and said multi-component analyzing apparatus is comprised of a calculation processing unit 6 for analyzing the infrared light intensity of the respective wavelength ranges so as to acquire concentration x1 to x7 of the respective measuring-subject components; wherein the calculation processing unit 6 is capable of executing an analyzing process program P for executing analysis operations of the concentration x1 to x7 of the respective measuring-subject components by solving simultaneous equations which are constituted by equations having mutual interference correction terms used to correct interference adverse influences occurred among the respective measuring-subject components.
    • 一种多组分分析装置,其中红外光照射到由测量对象部件或其数量受限制的测量对象样品S或由所述测量对象部件制成的混合物体; 通过使用与其对应的多个检测器4a〜4g来测量具有各自的波长范围的红外光的强度,该红外光适合于通过测量对象样品S穿透的红外光中的各测量对象成分的红外吸收光谱; 并且所述多分量分析装置包括:计算处理单元6,用于分析各个波长范围的红外光强度,以获得浓度x 1至x 7 的各个测量对象部件; 其中计算处理单元6能够执行分析处理程序P,用于通过求解各个测量对象分量来执行浓度x 1至x 7的分析操作 在相应的测量对象分量之间发生由用于校正干扰不利影响的相互干扰校正项的等式构成的联立方程。
    • 4. 发明授权
    • Sampling device for gas analyzers
    • 气体分析仪采样装置
    • US06058789A
    • 2000-05-09
    • US770806
    • 1996-12-20
    • Hiroji KohsakaSatoshi Ohtsuki
    • Hiroji KohsakaSatoshi Ohtsuki
    • G01N1/22G01N1/24
    • G01N1/2247G01N1/24G01N2001/2264G01N2001/244
    • A sampling device for a gas analyzer in which a constant-rate flow of diluted sample gas is sampled by a constant-volume sampling device. A gas inlet port of a sampling passage of the constant-volume sampling device is positioned in a throat portion of a main venturi tube, or slightly upstream or downstream of the throat portion. A cold trap is provided downstream of the sampling passage to collect and supply a portion of the sampled gas to be analyzed. A capillary is provided upstream of the cold trap so that a flow rate can be set by the differential upstream and downstream pressures. The velocity of the diluted sample gas in the throat portion of the main venturi tube is approximately Mach one, so that the sampling thereof is unaffected by pressure or flow-rate changes elsewhere in the system.
    • 一种用于气体分析器的采样装置,其中通过恒定体积采样装置对稀释样品气体的恒定速率流进行采样。 恒定体积取样装置的取样通道的气体入口位于主文丘里管的喉部,或稍微在喉部的上游或下游。 在采样通道的下游设有冷阱,以收集和供应待分析的一部分采样气体。 在冷阱的上游设置毛细管,以便可以通过上游和下游压差来设定流量。 主文丘里管喉部分中稀释的样品气体的速度约为马赫数1,因此其取样不受系统其他地方压力或流量变化的影响。
    • 5. 发明授权
    • Apparatus and method of controlling a robot to automatically simulate
driving of a motorcar
    • 控制机器人自动模拟汽车驾驶的装置和方法
    • US5396792A
    • 1995-03-14
    • US58416
    • 1993-05-07
    • Hiroji KohsakaShinji Noguchi
    • Hiroji KohsakaShinji Noguchi
    • G01M17/007G01M15/00G01M19/00
    • G01M17/0074
    • A method and apparatus for controlling a robot to simulate driving of a motor vehicle while the vehicle is actually on a chassis dynamometer includes provision for quickly, automatically, and accurately determining an accelerator gain factor to be used by the robot in actuating the accelerator of the motor vehicle to achieve predetermined vehicle speeds and accelerations. As a result, the simulated driving of the motor vehicle can be achieved so that the vehicle may be tested according to a predetermined travel pattern. To determine the accelerator gain, a proportional gain is determined on the basis of differences in incremental accelerator openings and resulting accelerations's while the motor vehicle is in a selected transmission gear. A product of the gain multiplied by a coefficient based on the various transmission ratios available is used as the accelerator gain dependent upon the particular transmission ratio selected during a test sequence.
    • 一种用于控制机器人来模拟机动车辆实际上在底盘测力计上的驾驶的方法和装置包括提供用于快速,自动和准确地确定加速器增益因子,以供机器人在启动加速器的加速器时使用 机动车辆实现预定的车速和加速度。 结果,可以实现机动车辆的模拟驾驶,使得可以根据预定行驶模式来测试车辆。 为了确定加速器增益,基于增量加速器开度的差异以及当机动车辆处于选定的变速档时产生的加速度来确定比例增益。 将增益乘以基于各种可用传输比的系数的乘积用作依赖于在测试序列期间选择的特定传输比的加速器增益。
    • 9. 发明授权
    • Driving recorder
    • 驾驶记录仪
    • US08285442B2
    • 2012-10-09
    • US11994103
    • 2006-06-26
    • Hiroji KohsakaKeiko Kohsaka, legal representativeMasatomo IshikuraAkihiro Hashimoto
    • Hiroji KohsakaMasatomo IshikuraAkihiro Hashimoto
    • G06F7/00
    • G07C5/085G07C5/008G07C5/0891
    • This invention intends to provide a vehicle-mounted driving recorder that can obtain necessary situation data only surely and accurately and that can contribute to effective use of a memory and to facilitation of an after-the-fact analysis of the situation data. The vehicle-mounted driving recorder comprises a situation data receiving section that receives situation data as being data indicating behavior, a surrounding situation and an operation situation of a vehicle and that temporarily stores the situation data in a temporary data storage section specified in a predetermined area of a memory, and a data administration section, in case that a plurality of contents indicated by the received situation data satisfy a previously specified given condition, that transfers a part or all of the situation data during a certain period before and after a time when the condition is satisfied from the temporary data storage section to the situation data storage section specified in a predetermined area of the memory.
    • 本发明旨在提供一种车载驾驶记录仪,其可以准确且准确地获得必要的情况数据,并且有助于有效地使用存储器并且促进对情况数据的事后分析。 车载驾驶记录仪包括状况数据接收部分,其接收情况数据作为指示车辆的行为,周围情况和操作情况的数据,并且将情况数据临时存储在在预定区域中指定的临时数据存储部分中 存储器和数据管理部分,在由接收到的情况数据指示的多个内容满足先前指定的给定条件的情况下,在一段时间之前和之后的某个时间段内传送部分或全部情况数据, 从临时数据存储部分到在存储器的预定区域中指定的情况数据存储部分满足条件。
    • 10. 发明授权
    • Remotely controlled power supply switching system
    • 遥控电源开关系统
    • US06522078B1
    • 2003-02-18
    • US09648728
    • 2000-08-25
    • Kazutaka OkamotoNoboru HayakawaHiroji Kohsaka
    • Kazutaka OkamotoNoboru HayakawaHiroji Kohsaka
    • H05B4136
    • H05B37/0272H05B37/0227Y10T307/766
    • A remote power switching system capable of detecting the emission of infrared thermal energy from a human body or other objects and automatically controlling a supply of power to electric equipment is provided. A controller unit having a switching unit capable of connecting to a source of power and controlling the output of power to a device that utilizes the power, incorporates a wireless receiver unit for receiving control signals to operate the switching unit. The controller unit can further include electronic prongs and electrical receptacles for providing a plug in connection for the device to be controlled. A remote controller that can be portable and of hand size has a first sensor unit for determining the presence of an object that intrudes within the predetermined zone. A transmitter unit can transmit a wireless signal when a control unit receives a signal from the first sensor unit. A second sensor unit can determine ambient light conditions which can also be considered by the control unit in determining the appropriateness of sending a wireless signal. Finally, control members can be used to delay the activation of the remote controller for a predetermined time period.
    • 提供一种能够检测来自人体或其他物体的红外热能的发射并自动控制向电气设备供电的远程电源开关系统。 具有能够连接到电源并将功率输出控制到利用电力的装置的控制器单元包括用于接收控制信号以操作开关单元的无线接收器单元。 控制器单元还可以包括电子插脚和电插座,用于为要控制的装置提供插头连接。 可携带和手工尺寸的遥控器具有用于确定入侵在预定区域内的物体的存在的第一传感器单元。 当控制单元接收到来自第一传感器单元的信号时,发射机单元可以发送无线信号。 第二传感器单元可以确定控制单元在确定发送无线信号的适当性时也可以考虑的环境光条件。 最后,控制构件可以用于延迟遥控器的激活达预定的时间段。