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
    • 1. 发明授权
    • Capillary electrophoresis apparatus
    • 毛细管电泳仪
    • US07883613B2
    • 2011-02-08
    • US11806889
    • 2007-06-05
    • Takashi GomiRyoji InabaMotohiro YamazakiHidenori NambaJin MatsumuraHiromi YamashitaSeiichi UgaiKazumichi Imai
    • Takashi GomiRyoji InabaMotohiro YamazakiHidenori NambaJin MatsumuraHiromi YamashitaSeiichi UgaiKazumichi Imai
    • G01N27/453
    • G01N27/44721
    • The present invention provides a capillary electrophoresis apparatus in which a capillary is easily attached to and detached from a migration medium filling unit without mixing impurities into the capillary. Mixture of impurities such as dust is also prevented when a capillary negative-electrode end is brought into contact with a sample stored in a vessel. Furthermore, temperature control is efficiently performed in the capillary. In the capillary electrophoresis apparatus, the whole of capillary array can be supported by grasping a grip portion by hand. A migration medium filling mechanism includes a slide mechanism which moves a polymer block with respect to a capillary head. The capillary electrophoresis apparatus includes a vessel in which a sample and a buffer can simultaneously be stored. Temperatures of the capillary and an irradiation and detection unit are controlled by a temperature control function provided in a thermostatic device.
    • 本发明提供了一种毛细管电泳装置,其中毛细管容易地连接到迁移介质填充单元并从迁移介质填充单元中分离而不将杂质混入毛细管中。 当毛细管负极端与存储在容器中的样品接触时,也可以防止诸如灰尘等杂质的混合物。 此外,在毛细管中有效地进行温度控制。 在毛细管电泳装置中,通过用手抓握把手部分可以支撑整个毛细管阵列。 迁移介质填充机构包括相对于毛细管头移动聚合物嵌段的滑动机构。 毛细管电泳装置包括可以同时存储样品和缓冲液的容器。 毛细管和照射和检测单元的温度由恒温装置中提供的温度控制功能控制。
    • 3. 发明授权
    • Integrated sensor
    • 集成传感器
    • US5756899A
    • 1998-05-26
    • US846936
    • 1997-04-30
    • Seiichi UgaiYasunori ShojiYasushi Shimizu
    • Seiichi UgaiYasunori ShojiYasushi Shimizu
    • G01F23/14G01D21/00G01D21/02G01F1/38G01F23/18G01L9/00G01L13/06G01L19/00G01L19/06G01N27/06G01N33/18G01L7/00
    • G01L9/0072G01F1/383G01F23/18G01L19/0092G01L19/0627G01N33/18
    • The first glass substrate having the first pressure admitting entrance for leading the pressure of fluid to be measured, is arranged at a side of a diaphragm of a pressure sensor, for measuring differential pressure. The second glass substrate is arranged at the side opposite to the first glass substrate, a spacer being sandwiched therebetween. The second pressure admitting entrance is formed at the second glass substrate, at the position opposite to the first presser admitting entrance of the first glass substrate. The first conductive film and the second conductive film are formed on two surfaces facing to each other, of the first and second glass substrates, respectively. By measuring the specific conductance and the dielectric constant of the object fluid between the two conductive films, these physical constants indicating the quality of the fluid, the quality of the fluid can be also detected. Thus, it becomes possible to realize and provide an integrated sensor capable of measuring the differential pressure (flow rate) and the quality of fluid by using one transmitter.
    • 具有用于引导要测量的流体的压力的第一加压入口的第一玻璃基板布置在用于测量压差的压力传感器的隔膜的一侧。 第二玻璃基板布置在与第一玻璃基板相对的一侧,夹在其间的间隔件。 第二加压入口形成在第二玻璃基板的与第一玻璃基板的第一加压件入口相对的位置处。 第一导电膜和第二导电膜分别形成在彼此面对的第一和第二玻璃基板的两个表面上。 通过测量两个导电膜之间的物体流体的比电导率和介电常数,这些物理常数表示流体的质量,也可以检测流体的质量。 因此,可以实现并提供能够通过使用一个发射器来测量差压(流量)和流体质量的集成传感器。
    • 5. 发明授权
    • Differential pressure transmitter
    • 差压变送器
    • US5012677A
    • 1991-05-07
    • US275580
    • 1988-11-23
    • Satoshi ShimadaYasushi ShimizuSeiichi Ugai
    • Satoshi ShimadaYasushi ShimizuSeiichi Ugai
    • G01L13/06G01L9/00G01L13/02G01L19/00
    • G01L19/147G01L13/025G01L19/0092G01L19/0645G01L19/148
    • A differential pressure transmitter is an improvement over the drawbacks of conventional apparatuses and provides a differential pressure transmitter which compensates for adverse effects of a static pressure by using a static pressure detecting piezoresistive gauge. The transmitter includes a highly sensitive static pressure sensor with high outputs, and a composite sensor with small crosstalk between the static pressure sensor and a differential pressure sensor. The differential pressure transmitter is constructed of semiconductor sensor substrate and a fixed mount on which the sensor substrate is securely mounted; whereby the differential pressure of a fluid is detected by utilizing the difference in Young's modulus between the sensor substrate and the mount. The sensor substrate is processed on one side or on both sides to make a part of the sensor substrate thinner than the surrounding parts and thereby cause a peak stress due to a static pressure load to occur at the thin part, and a change in resistance of a semiconductor piezoresistive gauge formed at that thin portion is detected.
    • 差压变送器是对常规设备的缺点的改进,并且提供了一种通过使用静压检测压阻式压力补偿静压的不利影响的差压变送器。 变送器包括具有高输出的高灵敏度静压传感器,以及静压传感器和压差传感器之间具有小串扰的复合传感器。 差压变送器由半导体传感器基板和传感器基板固定在其上的固定支架构成; 由此通过利用传感器基板和安装座之间的杨氏模量的差异来检测流体的压差。 传感器基板在一侧或两侧进行处理,使得传感器基板的一部分比周围部分薄,从而在薄部分产生由于静压力引起的峰值应力,并且电阻变化 检测在该薄部分处形成的半导体压阻计。
    • 6. 发明授权
    • Multi-functional sensor
    • 多功能传感器
    • US4986127A
    • 1991-01-22
    • US333246
    • 1989-04-05
    • Satoshi ShimadaSeiichi UgaiAkira SaseYasushi Shimizu
    • Satoshi ShimadaSeiichi UgaiAkira SaseYasushi Shimizu
    • G01L9/04G01F1/38G01K7/16G01L9/00G01L13/02G01L27/00H01L29/84
    • G01L19/147G01F1/383G01L13/026G01L19/003G01L19/0645G01L9/0054G01L9/045
    • Multi-functional sensor comprises a support base made from borosilicate, a diaphragm with a E-shaped section secured to the base, the diaphragm being made from single crystalline silicon, principal plane thereof being oriented to be a crystalline plane (110), a differential pressure sensor having p-doped piezoresistor elements formed in the principal plane of the diaphragm at a thin wall portion of the E-shaped sectional diaphragm, each element being arranged along a crystal axis , a static pressure sensor having p-doped piezoresistor elements formed in the principal plane at an outer peripheral thick wall portion of the E-shaped sectional diaphragm, each element being arranged along the crystal axis , and a temperature sensor having a p-doped piezoresistor element formed in the principal plane at the outer peripheral thick wall portion of the E-shaped sectional diaphragm, the element being arranged along the crystal axis . In the multi-functional sensor thus constructed, deviation of the output signal from the differential pressure sensor due to the influence of the temperature and static pressure can be removed easily to obtain the correct signal.
    • 多功能传感器包括由硼硅酸盐制成的支撑基座,具有固定到基部的E形截面的隔膜,隔膜由单晶硅制成,其主面被定向为晶面(110),差动 压电传感器,其具有在E形截面光阑的薄壁部分处形成在膜片的主平面中的p掺杂的压电电阻元件,每个元件沿着晶轴<111>布置,静压传感器具有p掺杂的压电电阻 在E形截面光阑的外周厚壁部分的主平面上形成的元件,每个元件沿着晶轴<111>布置,并且具有在主平面上形成的p掺杂的压电电阻元件的温度传感器 E形截面膜片的外周厚壁部分,该元件沿着晶轴<100>排列。 在这样构成的多功能传感器中,由于温度和静压的影响,输出信号与差压传感器的偏差可以容易地消除,从而获得正确的信号。