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
    • 81. 发明授权
    • Theft preventive device
    • 防盗装置
    • US07091834B2
    • 2006-08-15
    • US10474421
    • 2002-04-12
    • Shinichi Tanaka
    • Shinichi Tanaka
    • B60R25/02B60R25/10
    • B60R25/014B60R25/018B60R25/021B60R25/1004B60R25/102B60R2325/205G08B15/00
    • An antitheft device is provided, whereby a person who attempts to commit a theft of a vehicle can be captured, having an improved crime prevention performance to thefts of vehicles, electrical equipment mounted on vehicles, money and articles left inside vehicles and the like. The antitheft device includes an expansible body system to expand an expansible body for blocking the motion of an intruder in a prescribed space inside a vehicle, which emits a substance to be a base of foaming polystyrene inside the vehicle and applies steam to the substance so that the foaming polystyrene blocks the motion of an intruder, when the presence of the intruder inside the vehicle is detected.
    • 提供一种防盗装置,由此可以捕获试图盗窃车辆的人员,其具有改进的犯罪预防性能,对车辆盗窃,安装在车辆上的电气设备,留在车辆内的钱和物品等等。 防盗装置包括可扩展的主体系统,用于扩展可膨胀的主体,用于阻挡入口在车辆内的规定空间内的运动,该物体将作为发泡聚苯乙烯基底的物质发射到车辆内部,并向物质施加蒸汽,使得 发现聚苯乙烯阻止入侵者在车内存在的情况下的运动。
    • 82. 发明申请
    • Scanning microscope and laser microscope
    • 扫描显微镜和激光显微镜
    • US20060033918A1
    • 2006-02-16
    • US11200170
    • 2005-08-10
    • Yoshinori KuroiwaShinichi Tanaka
    • Yoshinori KuroiwaShinichi Tanaka
    • G01N21/25
    • G01N21/6458G01N2201/10G02B21/008
    • A scanning microscope includes: a light source; an optical system that irradiates light from the light source onto a sample while two-dimensionally scanning the light, and collects light from the sample; a photo-detector that receives the light from the sample which has been collected by the optical system, and converts the light thus received into a brightness signal; an integrating circuit that integrates the brightness signal from the photo-detector for each pixel; and an image forming circuit that forms an image of the sample based upon the brightness signal of each pixel integrated by the integrating circuit. And the integrating circuit includes a plurality of integrators for integrating the brightness signal from the photo-detector and an adder for adding output signals from the plurality of integrators, and integrates the brightness signal while sequentially switching the plurality of integrators for each of a plurality of periods obtained by dividing a period corresponding to a pixel.
    • 扫描显微镜包括:光源; 将来自光源的光照射到样品上的光学系统,同时二维地扫描光,并从样品中收集光; 光检测器,其接收由所述光学系统收集的来自所述样品的光,并将由此接收的光转换为亮度信号; 积分电路,对来自每个像素的光检测器的亮度信号进行积分; 以及图像形成电路,其基于由积分电路积分的每个像素的亮度信号,形成样本的图像。 并且积分电路包括用于积分来自光电检测器的亮度信号的多个积分器和用于相加来自多个积分器的输出信号的加法器,并且对亮度信号进行积分,同时对多个积分器中的每一个依次切换多个积分器 通过对与像素对应的周期进行划分而获得的周期。
    • 83. 发明申请
    • Process for producing trans-1,4-cyclohexanedicarboxylic acid
    • 反式-1,4-环己烷二羧酸的制备方法
    • US20050014973A1
    • 2005-01-20
    • US10831156
    • 2004-04-26
    • Koetsu EndouHirofumi NakamuraShinichi Tanaka
    • Koetsu EndouHirofumi NakamuraShinichi Tanaka
    • C07C51/353C07C51/363C07C61/24
    • C07C51/353C07C51/363C07C2601/14C07C61/09
    • A subject for the invention is to obtain trans-1,4-cyclohexanedicarboxylic acid (t-CHDA) in a high concentration by efficiently isomerizing cis-1,4-cyclohexanedicarboxylic acid (c-CHDA) by a simple method. The invention provides: (1) a process for producing t-CHDA which comprises heating crude CHDA to 180° C. or higher in an inert atmosphere and causing the t-CHDA formed by isomerization to precipitate in the molten c-CHDA while holding the crude CHDA at a temperature in the range of not lower than 180° C. and less than the melting point of t-CHDA; (2) a process for producing t-CHDA, wherein crude CHDA which is powdery or granular is heat-treated at a temperature of not lower than the melting point of c-CHDA and lower than the melting point of t-CHDA to thereby isomerize the cis isomer to the trans isomer while maintaining the powdery or granular state; (3) a process for producing t-CHDA, wherein crude CHDA is held at a temperature of not lower than the melting point of c-CHDA and lower than the melting point of t-CHDA in an inert atmosphere while maintaining flowing to thereby obtain powdery or granular t-CHDA; and (4) a process for purifying crude CHDA in which crude CHDA obtained through the step of hydrogenating TPA or the like is heated in an atmosphere of an inert gas to volatilize and remove impurities.
    • 本发明的目的是通过简单的方法有效地使顺式-1,4-环己烷二羧酸(c-CHDA)异构化,以高浓度获得反式-1,4-环己烷二羧酸(t-CHDA)。 本发明提供:(1)一种生产t-CHDA的方法,其包括在惰性气氛中将粗CHDA加热至180℃或更高,并使通过异构化形成的t-CHDA在熔融的c-CHDA中沉淀,同时保持 原料CHDA在不低于180℃且小于t-CHDA的熔点的温度范围内; (2)生产t-CHDA的方法,其中将粉末状或粒状的粗CHDA在不低于c-CHDA的熔点并低于t-CHDA的熔点的温度下进行热处理,从而异构化 顺式异构体反式异构体,同时保持粉状或颗粒状态; (3)生产t-CHDA的方法,其中将粗CHDA保持在不低于c-CHDA的熔点并低于在惰性气氛中的t-CHDA的熔点的温度,同时保持流动,从而获得 粉状或颗粒状t-CHDA; (4)一种纯化粗制CHDA的方法,其中通过氢化TPA等步骤得到的粗CHDA在惰性气体气氛中加热,挥发除去杂质。