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公开(公告)号:EP2128650A1
公开(公告)日:2009-12-02
申请号:EP08710556.5
申请日:2008-01-18
摘要: A dosimeter housing includes: an upper case 10 and a lower case 20, housing a glass element 1 for measuring a radiation dose; and an upper filter 30 and a lower filter 40 provided in the upper case 10 and the lower case 20, and arranged to sandwich the glass element 1. The upper filter 30 is provided with a restriction portion for restricting the two filters from coming closer to each other. With such a configuration, the upper filter 30 and the lower filter 40 are restricted from coming closer to each other. Consequently, even when the upper filter 30 and the lower filter 40 are pushed toward each other by the external impact or the like, the glass element 1 can be prevented from being broken by pushing the upper filter 30 and the lower filter 40 to the glass element 1.
摘要翻译: 剂量计壳体包括:上壳体10和下壳体20,容纳用于测量辐射剂量的玻璃元件1; 以及设置在上壳体10和下壳体20中的上部过滤器30和下部过滤器40,并且布置成夹持玻璃元件1.上部过滤器30设置有限制部分,用于限制两个过滤器更接近 彼此。 通过这样的结构,上部过滤器30和下部过滤器40被限制成彼此靠近。 因此,即使通过外部冲击等将上部过滤器30和下部过滤器40向彼此推压,也可以通过将上部过滤器30和下部过滤器40推入玻璃来防止玻璃元件1破裂 元素1。
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公开(公告)号:EP1422648B1
公开(公告)日:2007-07-04
申请号:EP03024944.5
申请日:2003-10-29
发明人: Yasuda, Nakahiro Nat Inst of Radiological Science , Benton, Eric, Nat Inst of Radiological Sciences , Ishii, Hitoshi, c/o K.I. Technology Co., Ltd. , Takayama, Sumiko , Inagaki, Shinsuke , Kobayashi, Isao , Higashimata, Atsushi, Sanki Industry Co., Ltd. , Honma, Yoshihiro , Umeshima, Yosuke
CPC分类号: G06T1/0007 , G01N15/1468 , G06T2207/10056 , G06T2207/30024 , H04N13/236 , H04N13/271
摘要: ÄProblemÜ To promptly display the picture data of a plurality of layers of different sample depths on display means. and to display the predeterminedplanar region of a picture having a very large imaging region, easily and promptly at a plurality of spots merely by transmitting the conditions of small data quantities. ÄMeans for ResolutionÜ There are comprised means 653 for generating sample picture data of a plurality of layers of different sample depths from a sample 601 through electronic imaging devices 631 for the respective layers, and for storing the generated sample picture data, means for designating a planar region which is to be extracted from the respective sample picture data, means for extracting extraction picture data corresponding to the planar region, for the respective layers from the respective sample picture data upon receiving the designation of the planar region, and for storing the extraction picture data, and a picture processing apparatus 651 which displays the extracted pictures of the respective layers on display means 652 in an alternative way or simultaneously in a combination of two or more of them, on the basis of the respective extraction picture data of the respective layers. And A method and a system comprising the display layer setting step of setting a first condition which designates a single layer picture 42a to be displayed at a specified terminal 41, on the basis of picture data 42 that have been imaged for a plurality of respective layers of different sample depths from a sample; the display region setting step of setting a second condition which designates a predetermined planar region that is to be extracted from the layer picture 42a designated by the first condition; the first picture display step of displaying the predetermined planar region extracted from the layer picture 42a, at the specified terminal 41 in accordance with the first and second conditions; the condition transmission step of transmitting the first and second conditions to another terminal 52 ; and the second picture display step of displaying a predetermined correspondent planar region corresponding to the predetermined planar region, at the other terminal 51 in accordance with the first and second conditions that have been transmitted to the other terminal 51 and on the basis of correspondent picture data 52 that have been prestored at the other terminal 51 in correspondence with the picture data 42.
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公开(公告)号:EP1304906A3
公开(公告)日:2006-04-26
申请号:EP02023414.2
申请日:2002-10-18
申请人: SEIKO PRECISION INC.
发明人: Saito, Atsushi, c/o Seiko Precision Inc. , Naoi, Yasufumi, c/o Seiko Precision Inc. , Yoneda, Koji, c/o Seiko Precision Inc.
CPC分类号: H05B33/02 , B29C45/14811 , B29C45/14836 , B29C2045/0027 , B29C2045/14844 , B29K2715/006 , B29K2995/0036 , H05B33/10
摘要: The invention refers to a manufacturing method of an EL insert molding which can manufacture the EL element without damage while a temperature and a pressure of resin to be injected are maintained on an optimum forming condition, wherein a luminous portion 3A and a non-luminous portion 3B are provided in an EL element 3. The EL element 3 is inserted in a cavity 15 of an injection die, resin is injected into the cavity to manufacture the EL insert molding. In the cavity 15, a gate portion 18 is provided at a position opposite to the non-luminous portion 3B of the EL element 3. A decorative film 2 may be formed integrally in front of the EL element 3.
摘要翻译: 本发明涉及一种EL嵌件成型体的制造方法,其能够在不损坏的同时制造EL元件,同时将待注入的树脂的温度和压力保持在最佳成形条件下,其中发光部分3A和非发光部分 3B设置在EL元件3中。将EL元件3插入注射模具的空腔15中,将树脂注入空腔中以制造EL嵌件模制件。 在空腔15中,在与EL元件3的非发光部分3B相对的位置处设有栅极部分18.可以在EL元件3的前面一体地形成装饰膜2。
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4.发明公开
公开(公告)号:EP1422648A3
公开(公告)日:2004-08-18
申请号:EP03024944.5
申请日:2003-10-29
发明人: Yasuda, Nakahiro Nat Inst of Radiological Science , Benton, Eric, Nat Inst of Radiological Sciences , Ishii, Hitoshi, c/o K.I. Technology Co., Ltd. , Takayama, Sumiko , Inagaki, Shinsuke , Kobayashi, Isao , Higashimata, Atsushi, Sanki Industry Co., Ltd. , Honma, Yoshihiro , Umeshima, Yosuke
IPC分类号: G06F19/00
CPC分类号: G06T1/0007 , G01N15/1468 , G06T2207/10056 , G06T2207/30024 , H04N13/236 , H04N13/271
摘要: [Problem] To promptly display the picture data of a plurality of layers of different sample depths on display means. and to display the predeterminedplanar region of a picture having a very large imaging region, easily and promptly at a plurality of spots merely by transmitting the conditions of small data quantities. [Means for Resolution] There are comprised means 653 for generating sample picture data of a plurality of layers of different sample depths from a sample 601 through electronic imaging devices 631 for the respective layers, and for storing the generated sample picture data, means for designating a planar region which is to be extracted from the respective sample picture data, means for extracting extraction picture data corresponding to the planar region, for the respective layers from the respective sample picture data upon receiving the designation of the planar region, and for storing the extraction picture data, and a picture processing apparatus 651 which displays the extracted pictures of the respective layers on display means 652 in an alternative way or simultaneously in a combination of two or more of them, on the basis of the respective extraction picture data of the respective layers. And A method and a system comprising the display layer setting step of setting a first condition which designates a single layer picture 42a to be displayed at a specified terminal 41, on the basis of picture data 42 that have been imaged for a plurality of respective layers of different sample depths from a sample; the display region setting step of setting a second condition which designates a predetermined planar region that is to be extracted from the layer picture 42a designated by the first condition; the first picture display step of displaying the predetermined planar region extracted from the layer picture 42a, at the specified terminal 41 in accordance with the first and second conditions; the condition transmission step of transmitting the first and second conditions to another terminal 52 ; and the second picture display step of displaying a predetermined correspondent planar region corresponding to the predetermined planar region, at the other terminal 51 in accordance with the first and second conditions that have been transmitted to the other terminal 51 and on the basis of correspondent picture data 52 that have been prestored at the other terminal 51 in correspondence with the picture data 42.
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公开(公告)号:EP1353212A3
公开(公告)日:2004-01-28
申请号:EP03007318.3
申请日:2003-03-31
CPC分类号: G02B21/241 , G02B21/365
摘要: [Problem] In examinations of radiation incident amount, cellular tissue or the like, an apparatus microscope apparatus is provided which is capable of swiftly taking an image of a sample with clearness and a simple structure. [Solving means] Provided are a support base 6 supporting a sample 1, a microscope 3 for magnifying the sample, a line sensor 4 for taking an image of the magnified sample as a line image, and an image processing means 5 for preparing an image of the sample 1 from the line image taken by the line sensor 4. The support base 6 has a adjusting means 61 for adjusting a tilt thereof and a focal length of the microscope 3. Furthermore, the microscope has a focusing means having a light-projecting means. The focusing means provides a light projecting position C1, C2 in the vicinity of a range B on the sample and to be imaged by the line sensor. Furthermore, by using a two-dimensional CCD sensor 332 capable of taking an image of a two-dimensional spread, it is swiftly and easily set an in-sample imaging region.
摘要翻译: ÄProblemÜ在辐射入射量,细胞组织等的检查中,提供了一种能够以清晰和简单的结构快速取样的图像的装置显微镜装置。 提供了一种支撑样本1的支撑基座6,用于放大样本的显微镜3,用于拍摄放大样本的图像作为线图像的线传感器4,以及用于准备 来自线传感器4拍摄的线图像的样本1的图像。支撑基座6具有用于调整其倾斜度的调整装置61和显微镜3的焦距。此外,显微镜具有聚焦装置,其具有 投光装置。 聚焦装置提供样品上范围B附近的光投射位置C1,C2,并由线传感器成像。 此外,通过使用能够拍摄二维展开图像的二维CCD传感器332,可以迅速且容易地设置样本内成像区域。
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公开(公告)号:EP0915640B1
公开(公告)日:2003-01-08
申请号:EP98120119.7
申请日:1998-10-23
申请人: Seiko Precision Inc.
IPC分类号: H05B33/06
CPC分类号: H05B33/06
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公开(公告)号:EP0983861B1
公开(公告)日:2002-11-13
申请号:EP99115888.2
申请日:1999-08-12
申请人: SEIKO PRECISION INC.
发明人: Tanabe, Naoki , Tada, Satoru
CPC分类号: B41J3/4071 , B41J11/0035 , B41J11/005 , B41J11/48 , H01L2224/48091 , H01L2224/48247 , H01L2924/00014
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公开(公告)号:EP1069440B1
公开(公告)日:2002-05-29
申请号:EP00115140.6
申请日:2000-07-12
申请人: Seiko Precision Inc.
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公开(公告)号:EP1041360A2
公开(公告)日:2000-10-04
申请号:EP00106089.6
申请日:2000-03-30
申请人: SEIKO PRECISION INC.
IPC分类号: G01C3/10
CPC分类号: G01C3/10
摘要: There is disclosed a power-saving sensor system such as a distance measurement sensor making use of light projection type triangulation. The sensor system has a sensor means (DMM 2) and a CPU (102) for controlling the supply of electrical power to the sensor means, acquiring the output from the sensor means, and performing desired processing. The CPU turns on control signals (P 1 , P 2 , P 3 ) in response to a trigger signal (Tp) from a timer circuit (101), thus supplying electrical power to a distance measurement module of the sensor means. A distance measurement IC (201) within the module produces an emission signal in response to one of the control signals (P 3 ) being turned on. This activates the module to perform a distance measurement. The presence or absence of an object is determined from the detected distance value. According to the presence or absence, a transistor (Tr 2 ) is turned on or off. A signal indicating the distance or the presence or absence of an object is produced at a terminal (T 8 ). The CPU detects the end of light projection by making use of an inversion (Iri) of the emission signal. Immediately thereafter, an acquiring signal (P 4 ) is turned on to turn on a switch (SW 2 ). The module's output is acquired. Immediately after the end of the acquirement, the control signals (P 4 , P 2 , P 1 , and P 3 ) are turned off, cutting off the supply of power to the distance measurement module.
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