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    • 1. 发明专利
    • High voltage generator
    • 高压发电机
    • JP2013042580A
    • 2013-02-28
    • JP2011176659
    • 2011-08-12
    • Futex Co Ltdフューテックス株式会社Onizuka Glass:Kk株式会社鬼塚硝子
    • FUKUDA YASUNARIKUMANO MITSUAKINAKAMURA TOMONOBU
    • H02M7/10
    • PROBLEM TO BE SOLVED: To provide a high voltage generator which does not cause electric discharge even when formed in a small size.SOLUTION: A high voltage generator 1 has: a high voltage generation part 11 formed by connecting multiple electronic components (a capacitor C, a diode D) and generating high voltage; a container 2 housing the high voltage generation part 11; and a silicon rubber 17 which is a discharge prevention material and fills the container 2 so as to cover the high voltage generation part 11. The container 2 is made of glass and is seamlessly formed as a single body. Since no gap is formed inside a wall of the glass container 2, even if the size of the container 2 is reduced, electric discharge does not occur in the high voltage generation part 11.
    • 要解决的问题:提供即使形成小尺寸也不引起放电的高压发生器。 解决方案:高电压发生器1具有:通过连接多个电子部件(电容器C,二极管D)和产生高电压而形成的高电压产生部分11; 容纳高压发生部11的容器2; 以及作为防放电材料的硅橡胶17,填充容器2以覆盖高压产生部11.容器2由玻璃制成,并且作为单体无缝地形成。 由于在玻璃容器2的壁内没有间隙形成,所以即使容器2的尺寸减小,高电压产生部11也不会发生放电。(C)2013,JPO&INPIT
    • 3. 发明专利
    • X-ray generating device and static eliminator
    • X射线发生装置和静态消除器
    • JP2011181276A
    • 2011-09-15
    • JP2010043131
    • 2010-02-26
    • Futex Co LtdOnizuka Glass:KkTakasago Thermal Eng Co Ltdフューテックス株式会社株式会社鬼塚硝子高砂熱学工業株式会社
    • INABA HITOSHIONIZUKA YOSHIHIRONAKAMURA TOMONOBUSADATSUKA ATSUOFUKUDA YASUNARIKUMANO MITSUAKI
    • H01J35/06H01J35/00
    • PROBLEM TO BE SOLVED: To provide a technology capable of improving life of a field emission type X-ray generator as compared with a conventional one.
      SOLUTION: The X-ray generating device is provided with an X-ray tube including an electron emission part as a cold cathode emitting electrons, a target as a counter electrode generating X rays as electrons emitted from the electron emission part are irradiated, and a transmission window connected with the target and emitting X rays generated at the target outside. It is further provided with a power source part for impressing a predetermined voltage on the X-ray tube, a current detecting part for detecting a current value of the current flowing in the X-ray tube, and a control part for controlling the power source part based on the current value detected by the current detecting part so as to restrain deterioration of the emission capacity of the electrons of the electron emission part.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:与现有技术相比,提供能够提高场发射型X射线发生器寿命的技术。 解决方案:X射线产生装置设置有包括作为发射电子的冷阴极的电子发射部分的X射线管,作为从电子发射部分发射的电子产生X射线的靶对象被照射 以及与目标物连接的发射窗口,并且在目标外部产生X射线。 还设置有用于在X射线管上施加预定电压的电源部分,用于检测在X射线管中流动的电流的电流值的电流检测部分,以及用于控制电源的控制部分 基于由电流检测部检测到的电流值来抑制电子发射部的电子的发射容量的劣化。 版权所有(C)2011,JPO&INPIT
    • 4. 发明专利
    • Field emission type x ray generator
    • 场发射型X射线发生器
    • JP2013114964A
    • 2013-06-10
    • JP2011261523
    • 2011-11-30
    • Takasago Thermal Eng Co Ltd高砂熱学工業株式会社Onizuka Glass:Kk株式会社鬼塚硝子
    • INABA HITOSHIONIZUKA YOSHIHIRONAKAMURA TOMONOBUSADATSUKA ATSUOKOIKE TAKAHISA
    • H01J35/16H01J35/06H01J35/08
    • PROBLEM TO BE SOLVED: To prevent discharge between a glass tube housing a cold cathode element and a housing located at the outer side of the glass tube thereby extending lives of the cold cathode element and the X ray generator compared to conventional X ray generators and realizing the stable operations in the X ray generator using the field emission type cold cathode element.SOLUTION: A housing 2 is grounded. A cold cathode element 5, which is subject to a voltage applied from a direct current power source 7 to discharge electrons, is housed in a glass tube 4, and a lower end part 4a of the glass tube 4 is supported by an insulation material 3 in the housing 2. A target 8 and a window part 9 discharging X rays generated by the target 8 to the exterior part are provided at the upper end part side of the glass tube 4. A peripheral part 4b of the lower end part 4a in the glass tube 4 is covered by the insulation material 3 and a surface of the insulation material 3 is covered by a grounded conductor.
    • 要解决的问题:为了防止容纳冷阴极元件的玻璃管和位于玻璃管外侧的壳体之间的放电,从而延长了与常规X射线相比的冷阴极元件和X射线发生器的寿命 使用场发射型冷阴极元件实现在X射线发生器中的稳定操作。

      解决方案:外壳2接地。 受到来自直流电源7施加的电压进行放电的冷阴极元件5容纳在玻璃管4中,玻璃管4的下端部4a被绝缘材料3支撑 在玻璃管4的上端部侧设置有将目标物8产生的X射线向外部排出的靶8和窗口部分9.下端部4a的周边部4b 玻璃管4被绝缘材料3覆盖,绝缘材料3的表面被接地导体覆盖。 版权所有(C)2013,JPO&INPIT

    • 5. 发明专利
    • Method of manufacturing field emission electron source
    • 制造场发射电子源的方法
    • JP2010198970A
    • 2010-09-09
    • JP2009044098
    • 2009-02-26
    • Onizuka Glass:KkStanley Electric Co Ltdスタンレー電気株式会社株式会社鬼塚硝子
    • MATSUMOTO TAKAHIROONIZUKA YOSHIHIRONAKAMURA TOMONOBUSADATSUKA ATSUO
    • H01J9/02
    • PROBLEM TO BE SOLVED: To provide a method of manufacturing a field emission electron source having an acicular structure on the surface. SOLUTION: The field emission electron source 1 is manufactured by plasma-treating a field emission electron source material 4 consisting of a graphite interlayer compound equipped with heavy metal atoms intercalated between layers. The field emission electron source 1 is manufactured by supporting a field emission electron source material 4 made of a graphite single body with a material holder 6 consisting of a graphite interlayer compound equipped with heavy metal atoms intercalated between layers, and subjecting it to plasma treatment. The heavy metal may be one or more heavy metal selected from antimony, copper, nickel, cobalt, iron, platinum, titanium, vanadium, chromium, manganese, yttrium, niobium, molybdenum, palladium, silver, gold, tin, tungsten, and rhenium. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种在表面上制造具有针状结构的场致发射电子源的方法。 解决方案:场致发射电子源1通过等离子体处理由层间夹有重金属原子的石墨层间化合物构成的场致发射电子源材料4来制造。 场致发射电子源1通过由石墨单体构成的场致发射电子源材料4与由层间夹有重金属原子的石墨层间化合物构成的材料保持体6进行支撑而进行等离子体处理而制造。 重金属可以是选自锑,铜,镍,钴,铁,铂,钛,钒,铬,锰,钇,铌,钼,钯,银,金,锡,钨和铼中的一种或多种重金属。 。 版权所有(C)2010,JPO&INPIT
    • 8. 发明专利
    • Cold cathode device, and method of manufacturing the same
    • 冷阴极设备及其制造方法
    • JP2012164597A
    • 2012-08-30
    • JP2011025873
    • 2011-02-09
    • Onizuka Glass:Kk株式会社鬼塚硝子
    • NAKAMURA TOMONOBUONIZUKA YOSHIHIROSADATSUKA ATSUOKOIKE TAKAHISA
    • H01J1/304H01J9/02H01J9/385H01J9/39H01J37/073
    • H01J1/3044H01J9/025
    • PROBLEM TO BE SOLVED: To provide a cold cathode device arranged so that the temperature of a cold cathode can be increased to remove an adsorbed gas from the cold cathode at the time of evacuating a container for the purpose of increasing the degree of vacuum in a vacuum container of the cold cathode device.SOLUTION: A cold cathode device 1 comprises: a cold cathode 3 operable to emit electrons in response to application of a voltage; a filament 4 operable to heat the cold cathode 3; a conductive supporting shaft 6 operable to support the cold cathode 3; a glass tube 2 serving as a vacuum container in which the cold cathode 3, the heater 4, and the supporting shaft 6 are closed; heater terminals 7a and 7b led out of the glass tube 2, and connected to the filament 4; and a supporting member terminal 7c led out of the glass tube 2, and connected to the supporting shaft 6. The heater terminals 7a and 7b, and the supporting member terminal 7c are electrically independent of one another, and a desired voltage can be applied to the terminals independently and precisely.
    • 要解决的问题:提供一种冷阴极器件,其布置成使得可以增加冷阴极的温度以在抽空容器时从冷阴极除去吸附的气体,以增加其浓度 在冷阴极装置的真空容器中真空。 解决方案:冷阴极器件1包括:冷阴极3,其可操作以响应于施加电压而发射电子; 可操作以加热冷阴极3的灯丝4; 可操作以支撑冷阴极3的导电支撑轴6; 用作冷阴极3,加热器4和支撑轴6的真空容器的玻璃管2; 从玻璃管2引出的加热器端子7a和7b连接到灯丝4; 以及从玻璃管2引出的支撑构件端子7c,并且与支撑轴6连接。加热器端子7a和7b以及支撑构件端子7c彼此电独立,并且可以将期望的电压施加到 终端独立精确。 版权所有(C)2012,JPO&INPIT
    • 10. 发明专利
    • X-ray inspection device and x-ray generation device
    • X射线检测装置和X射线发生装置
    • JP2013174483A
    • 2013-09-05
    • JP2012038337
    • 2012-02-24
    • Onizuka Glass:Kk株式会社鬼塚硝子
    • NAKAMURA TOMONOBUONIZUKA YOSHIHIRO
    • G01N23/04
    • PROBLEM TO BE SOLVED: To provide an X-ray inspection device 1 which can form an electricity removal area Q2 in an area different from an inspection area Q1, is easily manufactured, is small-sized, can be manufactured at low cost and has low operation cost.SOLUTION: An X-ray inspection device 1 inspects an object to be inspected S by using an X-ray. The X-ray inspection device 1 has an X-ray source 8 for generating an X-ray, an inspection area Q1 in which the object to be inspected S receiving inspection is placed, an electricity removal area Q2 being an area in which an object (object to be inspected S) to be subjected to electricity removal is placed and being different from the inspection area Q1, a first X-ray emission outlet (opening 14a) for leading the X-ray outputted from the X-ray source 8 to the inspection area Q1, and a second X-ray emission outlet (opening 14b) being an X-ray emission outlet for leading the X-ray outputted from the X-ray source 8 to the electricity removal area Q2 and provided at a position different from the first X-ray emission outlet (opening 14a).
    • 要解决的问题:为了提供能够在与检查区域Q1不同的区域形成除电区域Q2的X射线检查装置1,容易制造,尺寸小,可以以低成本制造并且具有低 操作费用。解决方案:X射线检查装置1使用X光检查检查对象S。 X射线检查装置1具有用于产生X射线的X射线源8,检查对象S接收检查的检查区域Q1,作为被检查体 (检查对象S)被放置并且与检查区域Q1不同,第一X射线发射出口(开口14a),用于将从X射线源8输出的X射线引导到 检查区域Q1和作为X射线排出口的第二X射线出射口(开口部14b),用于将从X射线源8输出的X射线导向除电区域Q2,并设置在不同的位置 从第一X射线发射出口(开口14a)开始。