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
    • 51. 发明专利
    • Optical product for projector and method of manufacturing optical product for projector
    • 投影仪的光学产品和投影仪制造光学产品的方法
    • JP2010039158A
    • 2010-02-18
    • JP2008201557
    • 2008-08-05
    • Epson Toyocom Corpエプソントヨコム株式会社
    • KAWASE AKIKO
    • G02B5/30G02F1/13G02F1/13363G03B21/00G03B21/14
    • PROBLEM TO BE SOLVED: To provide an optical product for bonding optical members to each other without causing any variation of wavefront aberration or entry of bubbles in a bonding layer, and to provide a method of manufacturing the optical product. SOLUTION: The optical product 6 is used for the projector and is provided with an optical compensation substrate 61 having an optical compensation function, a support substrate 62 for supporting the optical compensation substrate 61, and a bonding layer 63 for molecularly bonding the optical members. The bonding layer 63 is composed of a plasma polymerized film. As a result, the optical compensation substrate 61 and the support substrate 62 are molecularly bonded to dispense with an adhesive, thereby causing no variation in thickness of the bonded part and wavefront aberration while improving light resistance. Furthermore, the optical compensation substrate 61 and the support substrate 62 are molecularly bonded, so that high temperature processing is not required and the bonding is carried out in a short time. The optical compensation substrate 61 and the support substrate 62 are firmly bonded by forming the plasma polymerized film. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于将光学构件彼此结合的光学产品,而不会引起波面像差的任何变化或粘合层中气泡的进入,并提供制造光学产品的方法。

      解决方案:光学产品6用于投影仪,并且设置有具有光学补偿功能的光学补偿基板61,用于支撑光学补偿基板61的支撑基板62和用于分子结合 光学构件。 接合层63由等离子体聚合膜构成。 结果,光学补偿基板61和支撑基板62被分子结合以省去粘合剂,从而在改善耐光性的同时不会导致接合部分的厚度和波前像差的变化。 此外,光学补偿基板61和支撑基板62分子结合,使得不需要高温处理,并且在短时间内进行接合。 通过形成等离子体聚合膜,光学补偿基板61和支撑基板62牢固地接合。 版权所有(C)2010,JPO&INPIT

    • 52. 发明专利
    • Atomic oscillator
    • 原子振荡器
    • JP2010028794A
    • 2010-02-04
    • JP2009091829
    • 2009-04-06
    • Epson Toyocom Corpエプソントヨコム株式会社
    • CHINDO KOJIAOYAMA HIROSHI
    • H03L7/26
    • G04F5/145
    • PROBLEM TO BE SOLVED: To provide an atomic oscillator which can suppress degradation of heating efficiency of a gas cell and can be miniaturized.
      SOLUTION: In a gas cell 10, a sealed cavity T1 is formed by a cylindrical portion 1 and windows 2, 3 which respectively seal openings at both ends of the cylindrical portion 1, and a number of metal atoms obtained by evaporating an alkali metal are sealed in this cavity T1. On outer surfaces of the two windows 2, 3, a first heater 12 and a second heater 13 comprised of a transparent electrode film such as indium tin oxide ITO are respectively provided while being layered. First heater wiring 22 and second heater wiring 23 are pulled out of one end portion of the first heater 12 and the second heater 13. The first heater wiring 22 and the second heater wiring 23 are connected to a control circuit board including a temperature control circuit, and the first heater 12 and the second heater 13 are connected by third heater wiring 15.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种可以抑制气室的加热效率降低的原子振荡器,并且可以小型化。 解决方案:在气室10中,密封空腔T1由圆筒部分1和窗口2,3形成,分别密封圆筒部分1的两端的开口和通过蒸发一个 碱金属被密封在该腔T1中。 在两个窗口2,3的外表面上分别设置由诸如氧化铟锡ITO的透明电极膜构成的第一加热器12和第二加热器13。 第一加热器布线22和第二加热器布线23从第一加热器12和第二加热器13的一个端部拉出。第一加热器布线22和第二加热器布线23连接到包括温度控制电路 ,并且第一加热器12和第二加热器13通过第三加热器布线15连接。版权所有(C)2010,JPO&INPIT
    • 53. 发明专利
    • Pressure sensor
    • 压力传感器
    • JP2010025582A
    • 2010-02-04
    • JP2008184086
    • 2008-07-15
    • Epson Toyocom Corpエプソントヨコム株式会社
    • WATANABE JUNFUJISAKI MASANOBU
    • G01L9/08
    • PROBLEM TO BE SOLVED: To provide a high-accuracy pressure sensor capable of reducing a pressure error due to gravity.
      SOLUTION: The pressure sensor 10 has: diaphragms (a first diaphragm 14, a second diaphragm 16) which seal up openings 12a, 12b at both ends of a cylindrical housing 12; and a pressure-sensitive element 18 wherein a detection axis is set to a force detection direction and whose longitudinal both ends are connected to the diaphragms. The pressure sensor has reaction force generating sections (a first reaction force generating section 20, a second reaction force generating section 22), which are connected to the diaphragms and apply forces in the direction opposite to the gravity which the diaphragms receive to the diaphragms by the principle of a lever.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种能够减少由于重力引起的压力误差的高精度压力传感器。 解决方案:压力传感器10具有:在圆柱形壳体12的两端密封开口12a,12b的隔膜(第一隔膜14,第二隔膜16) 以及压敏元件18,其中检测轴被设置为力检测方向,并且其纵向两端连接到隔膜。 压力传感器具有反作用力产生部分(第一反作用力产生部分20,第二反作用力产生部分22),它们连接到隔膜,并且通过与隔膜接收到隔膜的重力相反的方向施加力 杠杆的原理。 版权所有(C)2010,JPO&INPIT
    • 54. 发明专利
    • Diaphragm for pressure sensor, and pressure sensor
    • 压力传感器压力传感器和压力传感器
    • JP2010019828A
    • 2010-01-28
    • JP2009027764
    • 2009-02-09
    • Epson Toyocom Corpエプソントヨコム株式会社
    • MOTOYAMA HISAO
    • G01L19/06
    • G01L13/025G01L9/0022G01L19/0046
    • PROBLEM TO BE SOLVED: To provide a diaphragm for a pressure sensor capable of suppressing a residual stress over a pressure-receiving surface after welding, and improving secular deterioration, and to provide a pressure sensor loaded therewith. SOLUTION: The diaphragm 32 for the pressure sensor 10 for sealing a base 22 has concentrically in a body: a center part (diaphragm body) 40 whose outer surface is deformed by receiving an external pressure, and whose inner surface transfers a force to a pressure-sensitive element 38 inside a housing 12; and a peripheral part (flange) 44 positioned outside the center part (diaphragm body) 40, and welded to an outer circumference of the base 22 formed on the housing 12. The diaphragm 32 includes a buffer part 42 in which a step is formed between the center part (diaphragm body) 40 and the peripheral part (flange) 44. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于压力传感器的隔膜,其能够抑制焊接后的受压面上的残余应力,并且改善长期劣化,并提供负载的压力传感器。 解决方案:用于密封基座22的压力传感器10的隔膜32同心地位于主体中:外表面通过接受外部压力而变形的中心部分(隔膜体)40,并且其内表面传递力 到壳体12内的压敏元件38; 以及位于中心部分(隔膜主体)40外侧的周边部分(凸缘)44,并且焊接到形成在壳体12上的基座22的外周。隔膜32包括缓冲部分42, 中心部分(隔膜体)40和周边部分(法兰)44。版权所有(C)2010,JPO&INPIT
    • 55. 发明专利
    • Pressure sensor
    • 压力传感器
    • JP2010019827A
    • 2010-01-28
    • JP2009027763
    • 2009-02-09
    • Epson Toyocom Corpエプソントヨコム株式会社
    • MOTOYAMA HISAO
    • G01L19/06G01L13/02
    • G01L9/0022G01L9/0008
    • PROBLEM TO BE SOLVED: To provide a miniaturizable pressure sensor having excellent sensitivity. SOLUTION: This pressure sensor has a housing 12; a diaphragm 32 sealing a base 22 of the housing 12, with one surface being a pressure receiving surface; and a pressure sensitive part using a direction for detecting a force as a detecting axis. One end of the pressure sensitive part is connected to a central area 40 of the other surface of the diaphragm 32, and the other end of the pressure sensitive part is connected to the housing 12, The detecting axis is approximately orthogonal to the pressure receiving surface. A circumference of a portion where the central area 40 and one end of the pressure sensitive part are in contact with each other is located inside a circumference of the central area 40. A thickness of the central area 40 is larger than a thickness of an area surrounding the central area 40. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供具有优异灵敏度的小型化压力传感器。 解决方案:该压力传感器具有壳体12; 密封壳体12的基部22的隔膜32,一个表面是压力接收表面; 以及使用检测力作为检测轴的方向的压敏部。 压敏部分的一端连接到隔膜32的另一个表面的中心区域40,压敏部分的另一端连接到壳体12上。检测轴大致垂直于压力接收表面 。 中心区域40和压敏部分的一端彼此接触的部分的周边位于中心区域40的圆周内。中心区域40的厚度大于区域的厚度 围绕中心区域40.版权所有(C)2010,JPO&INPIT
    • 56. 发明专利
    • Pressure sensor
    • 压力传感器
    • JP2010019826A
    • 2010-01-28
    • JP2009006884
    • 2009-01-15
    • Epson Toyocom Corpエプソントヨコム株式会社
    • MOTOYAMA HISAO
    • G01L9/00
    • G01L9/008G01L9/0033G01L13/023
    • PROBLEM TO BE SOLVED: To provide a highly-sensitive pressure sensor having heightened measurement accuracy of pressure detection, miniaturized by simplifying structure of a force transfer member without using oil as a pressure-receiving medium inside.
      SOLUTION: The first diaphragm 5 to be bent corresponding to a liquid pressure which is a measuring object is mounted on the tip part of the first pressure input port 2 of a housing 4, and the second diaphragm 6 to be bent corresponding to the atmospheric pressure is mounted on the tip part of the second pressure input port 3. A shaft 7 is mounted between the first diaphragm 5 and the second diaphragm. A movable member 9 is mounted on a prescribed position on the shaft 7. Each support part on both ends arranged in a force detection axis direction is connected to the movable member 9 and a fixed member 10 respectively and supported, to thereby fix a pressure-sensitive element 11. The pressure-sensitive element 11 is arranged so that its displacement direction is the same direction as a displacement direction of the shaft 7.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种高灵敏度的压力传感器,其具有提高的压力检测测量精度,通过简化压力传递部件的结构而不使用油作为压力接收介质,从而小型化。 解决方案:对应于作为测量对象的液体压力的第一膜片5被安装在壳体4的第一压力输入端口2的顶端部分上,并且第二膜片6被弯曲成对应于 大气压被安装在第二压力输入口3的尖端部分上。轴7安装在第一隔膜5和第二隔膜之间。 可动构件9安装在轴7上的规定位置。分别以力检测轴方向配置的两端的支撑部分分别连接到可动构件9和固定构件10,并被支撑, 压敏元件11被布置成使其位移方向与轴7的位移方向相同。7.版权所有(C)2010,JPO&INPIT
    • 57. 发明专利
    • Inertial sensor, inertial sensor device and its manufacturing method
    • 惯性传感器,惯性传感器及其制造方法
    • JP2010002427A
    • 2010-01-07
    • JP2009224160
    • 2009-09-29
    • Epson Toyocom Corpエプソントヨコム株式会社
    • MATSUNAGA MASATAKASATO KENJI
    • G01C19/56G01P9/04
    • PROBLEM TO BE SOLVED: To provide an inertial sensor for setting a detection axis at a predetermined angle without deteriorating the detection performance of a detection element. SOLUTION: Two or more leads providing electrical connections with a mounting substrate, a gyrosensor 10 of which installation angle is determined from the shape of a lead terminal 20 composed of the two or more leads and which includes a sensor responding to movements on the detection axis 70, and a mold which fixes the gyrosensor 10 and sets the angle between a line perpendicular to the underside 61 of a mold package and the detection axis 70 at a predetermined value, are included. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于将检测轴设置在预定角度的惯性传感器,而不会降低检测元件的检测性能。 解决方案:两个或多个引线提供与安装基板的电连接,陀螺传感器10的安装角度根据由两个或多个引线构成的引线端子20的形状确定,并且包括响应于运动的传感器 检测轴70,以及将陀螺传感器10固定并将垂直于模具封装的下侧61的线与检测轴70之间的角度设定为预定值的模具。 版权所有(C)2010,JPO&INPIT
    • 58. 发明专利
    • Piezoelectric device and manufacturing method therefor
    • 压电器件及其制造方法
    • JP2009303271A
    • 2009-12-24
    • JP2009224161
    • 2009-09-29
    • Epson Toyocom Corpエプソントヨコム株式会社
    • KAWAGUCHI YUICHIRO
    • H03H9/10H01L41/09H01L41/18H01L41/22H01L41/23H01L41/29H01L41/313H03H3/02H03H9/02H03H9/19
    • PROBLEM TO BE SOLVED: To provide a piezoelectric device which obtains full bonding strength of a piezoelectric vibrating piece without causing short circuiting, and to provide a manufacturing method therefor. SOLUTION: The piezoelectric vibrating piece 40 is formed into a plate-like shape having a rectangular or square external shape, and is provided with exciting electrodes 41 and 42 formed on both front and rear faces, respectively. A pair of lead-out electrodes 43 and 44 are provided to be formed separately from each other at one edge part, one being connected to each one of the exciting electrodes of the front and rear faces. where one lead-out electrode unconnected to the exciting electrode of the pair of lead-out electrodes is connected to one electrode pad 32 of a pair of electrode pads formed on the inner bottom face of a package, the lead-out electrode 44 connected to the exciting electrode formed on a corresponding facing plane is connected to the other electrode pad 33 of a pair of electrode pads, respectively, and the one electrode pad 32 is formed to be larger than the other electrode pad 33. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决方案:提供一种获得压电振动片的完全接合强度而不引起短路的压电装置,并提供其制造方法。 解决方案:压电振动片40形成为具有矩形或正方形外形的板状,并且分别具有形成在前表面和后表面上的激励电极41和42。 一对引出电极43和44设置成在一个边缘部分彼此分开地形成,一个引出电极43和44连接到前表面和后表面的每个激励电极。 其中未连接到一对引出电极的激励电极的一个引出电极连接到形成在封装的内底面上的一对电极焊盘的一个电极焊盘32,引出电极44连接到 形成在相应的面对平面上的激励电极分别连接到一对电极焊盘的另一个电极焊盘33,并且一个电极焊盘32形成为大于另一个电极焊盘33.版权所有( C)2010,JPO&INPIT
    • 59. 发明专利
    • Piezoelectric device and manufacturing method thereof
    • 压电器件及其制造方法
    • JP2009303097A
    • 2009-12-24
    • JP2008157537
    • 2008-06-17
    • Epson Toyocom Corpエプソントヨコム株式会社
    • TONEGAWA YUKIHIROUSUI TAKESHI
    • H03H3/04H01L41/083H01L41/09H01L41/18H01L41/22H01L41/23H01L41/253H01L41/313H03H9/19H03H9/215
    • PROBLEM TO BE SOLVED: To provide a piezoelectric device that includes a piezoelectric vibrating piece of which the frequency is precisely adjusted according to a frequency adjusting method which suppresses the influence of a change in environmental temperature, and the manufacturing method thereof. SOLUTION: The correction frequency data generating section 70 of a frequency adjusting device 50 estimates a temperature in the vicinity of a workpiece 20' at the time when measured frequency data are obtained by temperature change data of the temperature in the vicinity of the workpiece 20', stored in a storage section 71 beforehand, and actual ion beam radiation time data, calculates frequency data at a normal temperature by an arithmetic section 72 from the estimated temperature and temperature characteristic data of a piezoelectric vibrating piece stored in the storage section 71 beforehand and calculates a frequency correction amount in comparison with a target frequency at the normal temperature. Further, the temperature in the vicinity of the workpiece 20' at the time, when the frequency adjustment based on the frequency correction amount is finished, is estimated from the temperature change data and correction frequency data being the frequency correction amount at that temperature, are generated and transmitted to a control section 120. COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题:提供一种压电装置,其包括根据抑制环境温度变化的影响的频率调节方法精确地调节频率的压电振动片及其制造方法。 解决方案:频率调整装置50的校正频率数据生成部70估计在测量频率数据通过温度附近的温度变化数据获得的工件20'附近的温度 预先存储在存储部71中的工件20'和实际的离子束辐射时间数据,通过存储在存储部中的压电振动片的估计温度和温度特性数据由运算部72计算常温下的频率数据 71,并且在正常温度下与目标频率相比算出频率校正量。 此外,根据温度变化数据和作为该温度下的频率校正量的校正频率数据,估计当基于频率校正量的频率调整结束时工件20'附近的温度为 生成并发送到控制部分120.版权所有(C)2010,JPO&INPIT
    • 60. 发明专利
    • Liquid cell for terahertz spectroscopic analysis and method for manufacturing liquid cell for terahertz spectroscopic analysis
    • 用于TERAHERTZ光谱分析的液体细胞和用于制造TERAHERTZ光谱分析的液体细胞的方法
    • JP2009288046A
    • 2009-12-10
    • JP2008140498
    • 2008-05-29
    • Epson Toyocom Corpエプソントヨコム株式会社
    • YAMADA KOHEI
    • G01N21/05G01N21/01G01N21/35G01N21/3577G01N21/3586
    • PROBLEM TO BE SOLVED: To provide a liquid cell for terahertz spectroscopic analysis, for smoothly performing solution replacement and providing a high signal, and a method for manufacturing the liquid cell for terahertz spectroscopic analysis. SOLUTION: The liquid cell 1 includes two translucent substrates 2 and 3 transmitting terahertz pulse light, which are superposed and adhered together with a liquid flow passage 2A at the interface between the translucent substrates 2 and 3 to which a sample solution is injected. The liquid flow passage 2A is one flow passage formed on one side of the translucent substrate 2 and composed of a spiral passage part 2a formed in an area enclosing a light collecting area CA of terahertz pulse light, a liquid guide passage part 2b and an outflow passage part 2c, and the passage is connected to a liquid inlet port part 3a and an outflow port part 3b formed on one side of the translucent substrate 3. Microtubes 4 to be connected to a liquid chromatography or the like are attached to the liquid inlet port part 3a and the outflow port part 3b. The liquid cell 1 is used to measure time waveform of an oscillating electric field by use of a terahertz pulse spectroscopic measuring device by injecting the sample solution in the liquid flow passage 2A. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:为了提供用于太赫兹光谱分析的液体池,用于平滑地进行溶液置换和提供高信号,以及用于制造太赫兹光谱分析用液体池的方法。 解决方案:液晶盒1包括透射太赫兹脉冲光的两个半透明基板2和3,其在液体流路2A上叠加并粘附在透明基板2和3之间的界面处,其中注入样品溶液 。 液体流动通道2A是形成在透光性基板2的一侧的一个流路,由形成在包围太赫兹脉冲光的聚光区域CA的区域的螺旋形通道部分2a,液体引导通道部分2b和流出物 通道部分2c,并且通道连接到形成在透光基板3的一侧上的液体入口部分3a和流出口部分3b。与液相色谱法等连接的微管4附接到液体入口 端口部3a和流出口部3b。 液体池1用于通过将样品溶液注入液体流动通道2A中,通过使用太赫兹脉冲光谱测量装置来测量振荡电场的时间波形。 版权所有(C)2010,JPO&INPIT