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. 发明授权
    • Method and apparatus for visualizing phase object
    • 用于可视化相位对象的方法和装置
    • US09041788B2
    • 2015-05-26
    • US13221581
    • 2011-08-30
    • Hiroshi Ishiwata
    • Hiroshi Ishiwata
    • H04N7/18G02B21/36
    • G02B21/367
    • A visualization apparatus includes a light source, an illumination optical system configured to guide light from the light source to an observation target object, an image forming optical system configured to form an optical image of the observation target object on an image plane, an image pickup element arranged on the image plane, a calculation device configured to calculate a plurality of first electronic images of the observation target object obtained from the image pickup element to generate a second electronic image, and an oblique illumination control section configured to control an illumination direction of oblique illumination provided by the illumination optical system. The plurality of first electronic images include first electronic images of the observation target object illuminated from different illumination directions by the oblique illumination control section.
    • 一种可视化装置,包括光源,被配置为将来自光源的光引导到观察对象物体的照明光学系统,被构造成在像面上形成观察对象物的光学图像的图像形成用光学系统, 所述计算装置被配置为计算从所述图像拾取元件获得的所述观察对象物体的多个第一电子图像,以生成第二电子图像;以及倾斜照明控制部,被配置为控制所述第一电子图像的照明方向 由照明光学系统提供的倾斜照明。 多个第一电子图像包括通过倾斜照明控制部分从不同照明方向照射的观察对象物体的第一电子图像。
    • 4. 发明授权
    • Detection apparatus having an object gradient detection
    • 具有物体梯度检测的检测装置
    • US06369375B1
    • 2002-04-09
    • US09400433
    • 1999-09-21
    • Hiroshi Ishiwata
    • Hiroshi Ishiwata
    • H01L2700
    • G01B11/2441G01B11/0608G01B11/303G02B21/0004G02B21/367
    • A detection apparatus includes a differential interference microscope having a light source, an illumination optical system for splitting light from the light source into two polarized components, which are introduced onto an observation object and an imaging optical system for forming an image of the observation object; a device for changing the amount of retardation between the two polarized components; a device for photographing the image of the observation object; and a device for performing a calculation on the image captured by this photographing device. In the detection apparatus, amounts of retardation between the two polarized components are detected to form two differential interference images relative to the observation object in which the amounts of retardation between the polarized components are equal, but signs are different. Image information is extracted from these two differential interference images and thereby the profile of the observation object can be detected.
    • 检测装置包括具有光源的差分干涉显微镜,将来自光源的光分为两个偏振分量的照明光学系统,其被引入到观察对象上,以及用于形成观察对象的图像的成像光学系统; 用于改变两个极化分量之间的延迟量的装置; 用于拍摄观察对象的图像的装置; 以及用于对由该拍摄装置拍摄的图像执行计算的装置。 在检测装置中,检测两个极化分量之间的延迟量,以形成相对于观察对象的两个差分干涉图像,其中极化分量之间的延迟量相等,但符号不同。 从这两个差分干涉图像中提取图像信息,从而可以检测观察对象的轮廓。
    • 5. 发明授权
    • Microscope apparatus
    • 显微镜装置
    • US5969855A
    • 1999-10-19
    • US729410
    • 1996-10-11
    • Hiroshi IshiwataToyohiko YatagaiMasahide Itoh
    • Hiroshi IshiwataToyohiko YatagaiMasahide Itoh
    • G02B21/14G02B21/36G02B21/06
    • G02B21/367G02B21/14
    • A microscope apparatus that has an electronic image pickup device arranged on an image surface of an imaging optical system, a component for separating light from a light source into two portions, a device for changing a phase difference between the two portions of light, a device for storing information on the images picked up by the image pickup device, and information processor for processing the information of images. The images are picked up by the electronic image pickup device as the phase difference is changed, and the information on the images is multiplied by a periodic function, as a weight function, which is given the phase difference as variable, and a resultant product is integrated so that a differential interference microscope apparatus capable of accurately obtaining a phase distribution of the object or a phase-contrast microscope apparatus capable of effectively enhancing a resolving power without lowering an image contrast is obtained.
    • 一种具有配置在摄像光学系统的图像表面上的电子摄像装置的显微镜装置,将光源从光源分离成两部分的部件,用于改变两部分光之间的相位差的装置, 用于存储由图像拾取装置拾取的图像的信息,以及用于处理图像信息的信息处理器。 当相位差改变时,由电子摄像装置拾取图像,并将关于图像的信息乘以周期函数作为加权函数,其给出相位差作为可变,并且得到的乘积为 可以获得能够精确地获得物体的相位分布的微分干涉显微镜装置,或能够有效地提高分辨能力而不降低图像对比度的相位差显微镜装置。
    • 6. 发明授权
    • Spill control apparatus for fuel injection system
    • 燃油喷射系统溢油控制装置
    • US5915360A
    • 1999-06-29
    • US52677
    • 1998-04-01
    • Hiroshi IshiwataJun MatsubaraKenichi KuboNoriyuki AbeKatsuhiro Shimokoshikimachi
    • Hiroshi IshiwataJun MatsubaraKenichi KuboNoriyuki AbeKatsuhiro Shimokoshikimachi
    • F02D1/02F02M41/12F02M41/14F02M37/04
    • F02M41/1411
    • In a spill control apparatus for a fuel injection system in which a sleeve is externally fitted to a rotor, and the position of the sleeve relative to the rotor is used to adjust the communication timing between a port on the rotor and a port on the sleeve, the port formed at the rotor is constituted of a first indented portion formed over a specific angle of rotation and a second indented portion formed to achieve specific spill characteristics. The second indented portion is formed continuous to the front end of the first indented portion in the direction of rotation and the contour of the second indented portion is continuous to the contour of the first indented portion which is constituted of oblique sides which extend toward the front relative to the direction of rotation. The length of the rotor port in the axial direction may be set smaller than the length of the port formed on the sleeve in the axial direction. Thus, it is possible to inhibit the entry of dust particles into the area between the rotor and the sleeve, reducing the incidence of scarring induced on the sliding contact surfaces of the rotor and sleeve, and preventing the seizure of the rotor and the sleeve.
    • 在用于燃料喷射系统的溢流控制装置中,其中套筒外部装配到转子上,并且套筒相对于转子的位置用于调节转子上的端口与套筒上的端口之间的连通定时 形成在转子上的端口由形成在特定旋转角度上的第一凹口部分和形成为实现特定溢出特性的第二凹入部分构成。 第二缩进部分在旋转方向上与第一凹入部分的前端连续地形成,并且第二凹入部分的轮廓与第一凹槽部分的轮廓连续,该第一缩进部分由朝向前方延伸的斜边构成 相对于旋转方向。 转子端口在轴向上的长度可以被设定为小于在轴向上形成在套筒上的端口的长度。 因此,可以抑制灰尘颗粒进入转子和套筒之间的区域,减少在转子和套筒的滑动接触表面上引起的疤痕的发生,并且防止转子和套筒的卡住。
    • 7. 发明授权
    • Distributor type fuel injection pump
    • 分配器型燃油喷射泵
    • US5642715A
    • 1997-07-01
    • US623955
    • 1996-03-29
    • Toru YamakawaKen'ichi KuboHiroshi IshiwataJun Matsubara
    • Toru YamakawaKen'ichi KuboHiroshi IshiwataJun Matsubara
    • F02M41/12F02M41/14F02M45/06F02M41/00
    • F02M41/1411F02M45/06
    • Inflow/outflow ports are provided in either one of a distribution member for distributing compressed fuel or a control sleeve which is externally fitted around the distribution member. Each of the ports includes a slit extending therefrom. At the other one of the distribution member and the control sleeve, an intake-cutoff hole that communicates sequentially with the inflow/outflow ports and a pilot port which communicates with the slits during part of the force feed period are provided. Since the fuel flows out through the slits during part of the force feed period, pilot injection can be more easily achieved prior to the main injection during low speed rotation and fuel is less likely to be diverted through the slits due to the constricting effect during high speed rotation so that only the main injection is performed. As a result, a distributor type fuel injection pump which achieves pilot injection in the idling range and in the no-load range, and cancels the pilot injection in the full-load range is provided.
    • 在分配压缩燃料的分配构件或分配构件外部安装的控制套筒中的任一个中设置有流入/流出端口。 每个端口包括从其延伸的狭缝。 在分配构件和控制套筒的另一个处,设置有与流入口和流出口顺序连通的进气切断孔,以及在部分加力期间与狭缝连通的先导口。 由于在部分力供给期间燃料通过狭缝流出,因此在低速旋转期间的主喷射之前可以更容易地实现先导喷射,并且由于高压期间的收缩效应,燃料不太可能转移通过狭缝 速度旋转,从而仅进行主喷射。 结果,提供一种分配式燃料喷射泵,其在怠速范围和空载范围内实现先导喷射,并且在满载范围内抵消先导喷射。
    • 10. 发明申请
    • METHOD AND APPARATUS FOR VISUALIZING PHASE OBJECT
    • 用于可视化相位对象的方法和装置
    • US20120057013A1
    • 2012-03-08
    • US13221581
    • 2011-08-30
    • Hiroshi Ishiwata
    • Hiroshi Ishiwata
    • H04N7/18
    • G02B21/367
    • A visualization apparatus includes a light source, an illumination optical system configured to guide light from the light source to an observation target object, an image forming optical system configured to form an optical image of the observation target object on an image plane, an image pickup element arranged on the image plane, a calculation device configured to calculate a plurality of first electronic images of the observation target object obtained from the image pickup element to generate a second electronic image, and an oblique illumination control section configured to control an illumination direction of oblique illumination provided by the illumination optical system. The plurality of first electronic images include first electronic images of the observation target object illuminated from different illumination directions by the oblique illumination control section.
    • 一种可视化装置,包括光源,被配置为将来自光源的光引导到观察对象物体的照明光学系统,被构造成在像面上形成观察对象物的光学图像的图像形成用光学系统, 所述计算装置被配置为计算从所述图像拾取元件获得的所述观察对象物体的多个第一电子图像,以生成第二电子图像;以及倾斜照明控制部,被配置为控制所述第一电子图像的照明方向 由照明光学系统提供的倾斜照明。 多个第一电子图像包括通过倾斜照明控制部分从不同照明方向照射的观察对象物体的第一电子图像。