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
    • 2. 发明申请
    • PHOTOMULTIPLIER TUBE
    • 光电管
    • US20100213838A1
    • 2010-08-26
    • US12710714
    • 2010-02-23
    • Hiroyuki SUGIYAMAHideki ShimoiTsuyoshi KodamaHitoshi KishitaYasuyuki KohnoKeisuke Inoue
    • Hiroyuki SUGIYAMAHideki ShimoiTsuyoshi KodamaHitoshi KishitaYasuyuki KohnoKeisuke Inoue
    • H01J43/18
    • H01J43/243
    • Electrons are prevented from being made incident onto an insulation part between dynodes to improve a withstand voltage. The photomultiplier tube 1 is provided with a casing having a glass substrate 40 on which a main surface 40a made with an insulating material is formed, dynodes 31 constituted with a 1st stage to an Nth stage (N denotes an integer of 2 or more) which are arrayed so as to be spaced away sequentially from a first end side to a second end side on the main surface 40a, a photocathode 22 which is installed on the first end side so as to be spaced away from the 1st stage dynode 31a to emit photoelectrons, and an anode part 32 which is installed on the second end side so as to be spaced away from the Nth stage dynode 31j, taking out multiplied electrons as a signal, in which a groove 44, the surface of which is made with an insulating material, is formed between two adjacent dynodes 31 on the main surface 40a of the glass substrate 40, and the 1st stage to the Nth stage dynodes 31 are fixed on raised parts 45 adjacent to the grooves 44 on the glass substrate 40.
    • 防止电子入射到倍增极之间的绝缘部分上以提高耐受电压。 光电倍增管1设置有具有玻璃基板40的壳体,在其上形成有由绝缘材料制成的主表面40a,由第一级至第N级构成的倍增电极31(N表示2以上的整数), 排列成从主表面40a上的第一端侧到第二端侧依次间隔开,光电阴极22安装在第一端侧,以便与第一级倍增极31a间隔开以发射 光电子和阳极部件32,其安装在第二端侧以与第N级倍增电极31j隔开,取出乘以的电子作为信号,其中凹槽44的表面由 绝缘材料形成在玻璃基板40的主表面40a上的两个相邻的倍增极31之间,第一级至第N级倍增电极31固定在与玻璃基板40上的凹槽44相邻的凸起部分45上。
    • 3. 发明授权
    • Photomultiplier tube
    • 光电倍增管
    • US08115386B2
    • 2012-02-14
    • US12709682
    • 2010-02-22
    • Hideki ShimoiHitoshi KishitaTsuyoshi KodamaHiroyuki Kyushima
    • Hideki ShimoiHitoshi KishitaTsuyoshi KodamaHiroyuki Kyushima
    • H01J43/18
    • H01J43/243
    • Electrons are prevented from being made incident onto an insulation part of a casing between dynodes to improve a withstand voltage. The photomultiplier tube 1 is a photomultiplier tube which is provided with substrates 20, 40 arranged so as to oppose each other, with the respective opposing surfaces 20a, 40a made with an insulating material, a substrate 30 constituting a casing together with the substrates 20, 40, dynodes 31a to 31j arrayed on an opposing surface 40a on the substrate 40 so as to be spaced away sequentially from a first end side to a second end side, a photocathode 22 installed so as to be spaced away from the dynode 31a to the first end side, and an anode part 32 installed so as to be spaced away from the dynode 31j to the second end side, in which the opposing surface 20a of the substrate 20 is formed so as to cover the dynodes 31a to 31j, and a plurality of conductive layers 21a to 21j set equal in potential to dynodes 31a to 31j which are electrically independent from each other are installed at sites opposing individually the dynodes 31a to 31j on the opposing surface 20a.
    • 防止电子入射到倍增极之间的壳体的绝缘部分上以提高耐受电压。 光电倍增管1是光电倍增管,其配置有彼此相对配置的基板20,40,由绝缘材料制成的相应的相对表面20a,40a,与基板20一起构成壳体的基板30, 如图40所示,倍增极31a至31j排列在基板40上的相对表面40a上,以便从第一端侧至第二端侧依次间隔开,安装成与倍增极31a间隔开的光电阴极22 第一端侧和阳极部32,其被安装成与倍增极31j间隔开至第二端侧,其中形成基板20的相对表面20a以覆盖倍增极31a至31j,并且 在彼此电独立的倍增极31a至31j的电位相等的多个导电层21a至21j安装在相对表面20a上的与倍增极31a至31j单独的位置处。
    • 4. 发明申请
    • PHOTOMULTIPLIER TUBE
    • 光电管
    • US20100213837A1
    • 2010-08-26
    • US12709682
    • 2010-02-22
    • Hideki SHIMOIHitoshi KishitaTsuyoshi KodamaHiroyuki Kyushima
    • Hideki SHIMOIHitoshi KishitaTsuyoshi KodamaHiroyuki Kyushima
    • H01J43/18
    • H01J43/243
    • Electrons are prevented from being made incident onto an insulation part of a casing between dynodes to improve a withstand voltage. The photomultiplier tube 1 is a photomultiplier tube which is provided with substrates 20, 40 arranged so as to oppose each other, with the respective opposing surfaces 20a, 40a made with an insulating material, a substrate 30 constituting a casing together with the substrates 20, 40, dynodes 31a to 31j arrayed on an opposing surface 40a on the substrate 40 so as to be spaced away sequentially from a first end side to a second end side, a photocathode 22 installed so as to be spaced away from the dynode 31a to the first end side, and an anode part 32 installed so as to be spaced away from the dynode 31j to the second end side, in which the opposing surface 20a of the substrate 20 is formed so as to cover the dynodes 31a to 31j, and a plurality of conductive layers 21a to 21j set equal in potential to dynodes 31a to 31j which are electrically independent from each other are installed at sites opposing individually the dynodes 31a to 31j on the opposing surface 20a.
    • 防止电子入射到倍增极之间的壳体的绝缘部分上以提高耐受电压。 光电倍增管1是光电倍增管,其配置有彼此相对配置的基板20,40,由绝缘材料制成的相应的相对表面20a,40a,与基板20一起构成壳体的基板30, 如图40所示,倍增极31a至31j排列在基板40上的相对表面40a上,以便从第一端侧至第二端侧依次间隔开,安装成与倍增极31a间隔开的光电阴极22 第一端侧和阳极部32,其被安装成与倍增极31j间隔开至第二端侧,其中形成基板20的相对表面20a以覆盖倍增极31a至31j,并且 在彼此电独立的倍增极31a至31j的电位相等的多个导电层21a至21j安装在相对表面20a上的与倍增极31a至31j单独的位置处。
    • 5. 发明授权
    • Photomultiplier
    • 光电倍增管
    • US08330364B2
    • 2012-12-11
    • US12388961
    • 2009-02-19
    • Takayuki OhmuraHiroyuki KyushimaHideki ShimoiTsuyoshi Kodama
    • Takayuki OhmuraHiroyuki KyushimaHideki ShimoiTsuyoshi Kodama
    • H01J43/18
    • H01J43/26H01J43/28
    • The present invention relates to a photomultiplier that realizes a significant improvement of response time characteristics by a structure enabling mass production. The photomultiplier comprises a sealed container, and, in the sealed container, a photocathode, an electron multiplier section, and an anode are respectively disposed. The electron multiplier section includes multiple stages of dynode units, and each of the multiple stages of dynode units is fixed with one end of the associated dynode pin while being electrically connected thereto. In particular, the dynode pin, whose one ends are fixed to the multiple stages of dynode units, are held within an effective region of the electron multiplier section contributing to secondary electron multiplication, when the electron multiplier section is viewed from the photocathode side. By this configuration, a focusing distance from the photocathode to a first stage dynode unit can be shortened effectively and the effective region of the electron multiplier section can be enlarged to effectively reduce variations in transit time of photoelectrons propagating from the photocathode to the first stage dynode unit.
    • 本发明涉及光电倍增器,其通过能够批量生产的结构实现响应时间特性的显着改善。 光电倍增管包括密封容器,并且在密封容器中分别设置有光电阴极,电子倍增器部分和阳极。 电子倍增器部分包括多级倍增电极单元,并且多级倍增电极单元中的每一级在相关联的倍增极引脚的一端被电连接的同时被固定。 特别地,当从光电阴极侧观察电子倍增器部分时,其一端固定到倍增电极单元的多级的倍增极销被保持在有助于二次电子倍增的电子倍增器部分的有效区域内。 通过这种结构,可以有效地缩短从光电阴极到第一级倍增电极单元的聚焦距离,并且可以扩大电子倍增器部分的有效区域,从而有效地减少从光电阴极传播到第一级倍增电极的光电子的通过时间的变化 单元。
    • 6. 发明申请
    • PHOTOMULTIPLIER
    • 照相机
    • US20090212699A1
    • 2009-08-27
    • US12388961
    • 2009-02-19
    • Takayuki OhmuraHiroyuki KyushimaHideki ShimoiTsuyoshi Kodama
    • Takayuki OhmuraHiroyuki KyushimaHideki ShimoiTsuyoshi Kodama
    • H01J43/18
    • H01J43/26H01J43/28
    • The present invention relates to a photomultiplier that realizes a significant improvement of response time characteristics by a structure enabling mass production. The photomultiplier comprises a sealed container, and, in the sealed container, a photocathode, an electron multiplier section, and an anode are respectively disposed. The electron multiplier section includes multiple stages of dynode units, and each of the multiple stages of dynode units is fixed with one end of the associated dynode pin while being electrically connected thereto. In particular, the dynode pin, whose one ends are fixed to the multiple stages of dynode units, are held within an effective region of the electron multiplier section contributing to secondary electron multiplication, when the electron multiplier section is viewed from the photocathode side. By this configuration, a focusing distance from the photocathode to a first stage dynode unit can be shortened effectively and the effective region of the electron multiplier section can be enlarged to effectively reduce variations in transit time of photoelectrons propagating from the photocathode to the first stage dynode unit.
    • 本发明涉及光电倍增器,其通过能够批量生产的结构实现响应时间特性的显着改善。 光电倍增管包括密封容器,并且在密封容器中分别设置光电阴极,电子倍增器部分和阳极。 电子倍增器部分包括多级倍增电极单元,并且多级倍增电极单元中的每一级在相关联的倍增极引脚的一端被电连接的同时被固定。 特别地,当从光电阴极侧观察电子倍增器部分时,其一端固定到倍增电极单元的多级的倍增极引脚被保持在有助于二次电子倍增的电子倍增器部分的有效区域内。 通过这种结构,可以有效地缩短从光电阴极到第一级倍增电极单元的聚焦距离,并且可以扩大电子倍增器部分的有效区域,从而有效地减少从光电阴极传播到第一级倍增电极的光电子的通过时间的变化 单元。
    • 7. 发明申请
    • SEALING DEVICE AND MEDICINE PACKAGING APPARATUS
    • 密封装置和药物包装装置
    • US20110126489A1
    • 2011-06-02
    • US13055351
    • 2009-07-21
    • Tsuyoshi Kodama
    • Tsuyoshi Kodama
    • B65B51/10
    • B65B59/04B29C65/18B29C65/305B29C65/7437B29C66/1122B29C66/3452B29C66/4312B29C66/4322B29C66/8221B29C66/82265B29C66/8227B29C66/8286B29C66/83413B29C66/83513B29C66/876B65B5/103B65B9/06B65B9/067B65B51/16B65B51/306B65B61/007
    • A sealing device and a medicine packaging apparatus that includes the sealing device, wherein an engaging mechanism for coupling frames has good operability and the frames can firmly engage each other. The sealing device (10) can couple roller frames (20a, 20b) by an engaging mechanism (40) to integrate the roller frames. The engaging mechanism (40) has an engager (45) and a receptor (46) formed of a recess or the like. The engager includes a manipulation lever (50) and an engaging lever (51). The engager (45) is provided in the roller frame (20a), while the receptor (46) is provided in the roller frame (20b). When the manipulation lever (50) is pushed and pivoted toward the roller frame (20b), the engaging mechanism (40) can integrate the roller frames (20a, 20b). When the manipulation lever (50) is pulled and pivoted toward a front portion, the engaging mechanism can release the engagement caused by the engaging mechanism (40) to allow the roller frames (20a, 20b) to be separable from each other.
    • 一种包括密封装置的密封装置和药物包装装置,其中用于联接框架的接合机构具有良好的可操作性,并且框架可以牢固地彼此接合。 密封装置(10)可以通过接合机构(40)联接滚子框架(20a,20b)以使滚子框架整合。 接合机构(40)具有由凹部等形成的接合体(45)和接收器(46)。 接合器包括操纵杆(50)和接合杆(51)。 接合器(45)设置在滚子框架(20a)中,而接收器(46)设置在滚子框架(20b)中。 当操纵杆(50)被推动并朝向滚轮架(20b)枢转时,接合机构(40)可以将滚子框架(20a,20b)整合。 当操纵杆(50)被拉动并朝向前部枢转时,接合机构可以释放由接合机构(40)引起的接合,从而允许辊框架(20a,20b)彼此分离。
    • 9. 发明申请
    • Tablet packing apparatus
    • 平板电脑包装机
    • US20060124660A1
    • 2006-06-15
    • US11347379
    • 2006-02-06
    • Shoji YuyamaHiroyuki YuyamaTsuyoshi KodamaHidenori Murakami
    • Shoji YuyamaHiroyuki YuyamaTsuyoshi KodamaHidenori Murakami
    • B65G59/00
    • B65G1/133B65B5/103G07F17/0092
    • A tablet packing apparatus in which there is no risk that next tablets will be mixed into tablets previously discharged. The packing apparatus includes a plurality of feeder vessels (36) containing the tablets, a plurality of mounting bases (32) on which respective feeder vessels 36 are mounted, and a tablet reserving member (200) disposed below the mounting base 32 and reserving the tablets fed from the feeder vessels (36) and a shutter (203,300) which is movable to open and close the lower opening of the tablet reserving member (200). The apparatus further comprises a LED (201) which is turned on when the tablets are fed to the tablet reserving member (200) and a sensor (206, 301a, 301b) for detecting opening or closing operation of the shutter (203), whereby when the sensor (206, 301a, 301b) detects the opening operation of the shutter (203,300), the LED (201) is turned off.
    • 一种片剂包装设备,其中不存在下一个片剂将被混合成先前放出的片剂的风险。 包装设备包括多个容纳片剂的供料容器(36),多个安装基座(32),各个进料容器36安装在该安装基座上,以及设置在安装基座32下方的片剂储存件(200) 从饲养容器(36)供给的片剂和可移动以打开和关闭片剂储存构件(200)的下部开口的活门(203,300)。 该装置还包括一个LED(201),当将片剂送入片剂储存部件(200)时,LED(201)和用于检测快门(203)的打开或关闭操作的传感器(206,301a,301b) 由此当传感器(206,301a,301b)检测到快门(203,300)的打开操作时,LED(201)被关闭。
    • 10. 发明申请
    • Semiconductor memory device and timing control method
    • 半导体存储器件和定时控制方法
    • US20050207239A1
    • 2005-09-22
    • US10943000
    • 2004-09-17
    • Tsuyoshi Kodama
    • Tsuyoshi Kodama
    • G11C11/413G11C7/00G11C7/22G11C11/4063
    • G11C7/227G11C7/22
    • A semiconductor memory device for suitably controlling the timing for accessing data in a memory cell. The semiconductor memory device includes a memory cell. A bit line, connected to the memory cell, is used to access data stored in the memory cell. A first path for generating a first timing signal includes a dummy cell for storing data. A dummy bit line, connected to the dummy cell, is used to access the data stored in the dummy cell. A second path for generating a second timing signal has a delay characteristic differing from that of the first path. A control circuit controls the timing for accessing the data stored in the memory cells using one of the first timing signal and the second timing signal.
    • 一种用于适当地控制用于访问存储器单元中的数据的定时的半导体存储器件。 半导体存储器件包括存储单元。 连接到存储单元的位线用于访问存储在存储单元中的数据。 用于产生第一定时信号的第一路径包括用于存储数据的虚拟单元。 连接到虚拟单元的虚拟位线用于访问存储在虚拟单元中的数据。 用于产生第二定时信号的第二路径具有与第一路径不同的延迟特性。 控制电路使用第一定时信号和第二定时信号之一来控制存储在存储单元中的数据的定时。