专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明授权

US5194959A Image forming apparatus for forming image corresponding to subject, by dividing optical image corresponding to the subject into plural adjacent optical image parts 失效
标题翻译：用于通过将与被摄体对应的光学图像分成多个相邻的光学图像部分来形成与被摄体对应的图像的图像形成装置
公开(公告)号：US5194959A
公开(公告)日：1993-03-16
申请号：US628860
申请日：1990-12-18
申请人： Yutaka Kaneko , Masanori Saitoh , Iwao Hamaguchi , Kazutake Uehira , Kazumi Komiya
发明人： Yutaka Kaneko , Masanori Saitoh , Iwao Hamaguchi , Kazutake Uehira , Kazumi Komiya
IPC分类号： G02B13/16 , G02B27/14 , H04N5/225 , H04N5/369
CPC分类号： G02B27/143 , G02B13/16 , G02B27/1066 , H04N3/1593
摘要： An image forming apparatus for forming an image corresponding to a subject is provided, which image forming apparatus includes a taking lens for making an optical image corresponding to the subject, and a dividing portion for dividing the optical image transmitted via said taking lens into several adjacent optical image parts. The image forming apparatus further includes several solid-state image sensors corresponding to the number of the optical image parts, each of said solid-state image sensors receiving a corresponding optical image part from among the several optical image parts from the dividing portion and outputting an image signal corresponding to the optical image part, the optical image parts received by said solid-state image sensors being adjacent to each other. Finally, the image forming apparatus includes an image forming portion, coupled to said solid-state image sensors, for forming an image part corresponding to the respective optical image part based on the image signal transmitted from one of said solid-state image sensors, and for composing each image part to form the image corresponding to the subject by arranging the image parts to be adjacent to each other like the optical image parts.
摘要翻译：提供了一种用于形成与被摄体对应的图像的图像形成装置，该图像形成装置包括用于制作与被摄体对应的光学图像的拍摄镜头，以及用于将经由所述拍摄镜头发送的光学图像分割成若干相邻光学图像部件。图像形成装置还包括对应于光学图像部分的数量的几个固态图像传感器，每个所述固态图像传感器从分割部分从几个光学图像部分中接收相应的光学图像部分，并输出对应于光学图像部分的图像信号，由所述固态图像传感器接收的光学图像部分彼此相邻。最后，图像形成装置包括图像形成部分，其连接到所述固态图像传感器，用于基于从所述固态图像传感器之一传送的图像信号形成对应于各个光学图像部分的图像部分;以及用于通过将诸如光学图像部分的彼此相邻的图像部分布置来构成每个图像部分以形成与被摄体对应的图像。

2. 发明授权

US08943786B2 Packaging and filling machine 有权
标题翻译：包装灌装机
公开(公告)号：US08943786B2
公开(公告)日：2015-02-03
申请号：US12991963
申请日：2009-05-05
申请人： Hidetoshi Konno , Yutaka Kaneko , Keiji Yano
发明人： Hidetoshi Konno , Yutaka Kaneko , Keiji Yano
IPC分类号： B65B3/30 , B65B61/28 , B29C65/02 , B29C65/74 , B29C65/00 , B65B9/12 , B65B9/20 , B65B9/22 , B65B51/30 , B65B57/14 , B29C53/48 , B29C65/08 , B29C65/18 , B29C35/04 , B29K305/02 , B29K711/12 , B29L9/00 , B65B61/24
CPC分类号： B65B61/28 , B29C53/48 , B29C65/02 , B29C65/08 , B29C65/10 , B29C65/18 , B29C65/7451 , B29C66/024 , B29C66/0242 , B29C66/1122 , B29C66/4312 , B29C66/71 , B29C66/723 , B29C66/72321 , B29C66/72328 , B29C66/72341 , B29C66/7373 , B29C66/81427 , B29C66/81431 , B29C66/83543 , B29C66/8491 , B29C66/92 , B29C66/9241 , B29C66/92921 , B29C2035/046 , B29C2793/009 , B29K2023/06 , B29K2305/02 , B29K2711/123 , B29K2995/0067 , B29L2009/00 , B29L2009/003 , B29L2031/7166 , B65B9/12 , B65B9/20 , B65B9/2035 , B65B9/22 , B65B51/30 , B65B57/145 , B65B61/24 , B29C65/00
摘要： A packaging and filling machine that is capable of easily preforming with the forming flaps by keeping the pressure of the filled liquid food in the tube at positive pressure, capable of preventing the pressure of the liquid food from dropping to negative pressure, even if the pressure of the liquid food decreases due to the change in the liquid food pressure, and capable of preventing outside atmosphere materials from invading into the tube.A pressure flange fixed on a periphery of the filling pipe absorbs fluctuation of the pressure of the liquid food in the tube below the pressure flange, and prevents the liquid food pressure from dropping to negative pressure to keep the pressure of the liquid food in the tube below the pressure flange at a positive pressure.
摘要翻译：一种包装和灌装机，其能够通过将填充的液体食品的压力保持在管中的正压力下容易地预成型，能够防止液体食物的压力下降至负压，即使压力的液体食物由于液体食物压力的变化而降低，并且能够防止外部大气物质侵入到管中。固定在填充管周边的压力凸缘吸收压力凸缘下方的管中的液体食物的压力波动，并且防止液体食物压力下降到负压，以将液体食物的压力保持在管中压力法兰正压下方。

3. 发明申请

US20120132801A1 METHOD AND AN APPARATUS OF AN INSPECTION SYSTEM USING AN ELECTRON BEAM 有权
标题翻译：使用电子束检测系统的方法和装置
公开(公告)号：US20120132801A1
公开(公告)日：2012-05-31
申请号：US13366874
申请日：2012-02-06
申请人： Yuko IWABUCHI , Hideo Todokoro , Hiroyoshi Mori , Mitsugu Sato , Yasutsugu Usami , Mikio Ichihashi , Satoru Fukuhara , Hiroyuki Shinada , Yutaka Kaneko , Katsuya Sugiyama , Atsuko Takafuji , Hiroshi Toyama
发明人： Yuko IWABUCHI , Hideo Todokoro , Hiroyoshi Mori , Mitsugu Sato , Yasutsugu Usami , Mikio Ichihashi , Satoru Fukuhara , Hiroyuki Shinada , Yutaka Kaneko , Katsuya Sugiyama , Atsuko Takafuji , Hiroshi Toyama
IPC分类号： H01J37/28
CPC分类号： H01J37/28 , G01N23/20 , G01N23/2251 , G03F7/7065 , G06T7/001 , G06T2207/10056 , G06T2207/30148 , H01J37/04 , H01J37/20 , H01J37/265 , H01J2237/04756 , H01J2237/20221 , H01J2237/2444 , H01J2237/24592 , H01J2237/2817 , H01J2237/31766
摘要： Problems encountered in the conventional inspection method and the conventional apparatus adopting the method are solved by the present invention using an electron beam by providing a novel inspection method and an inspection apparatus adopting the novel method which are capable of increasing the speed to scan a specimen such as a semiconductor wafer.The inspection novel method provided by the present invention comprises the steps of: generating an electron beam; converging the generated electron beam on a specimen by using an objective lens; scanning the specimen by using the converged electron beam; continuously moving the specimen during scanning; detecting charged particles emanating from the specimen at a location between the specimen and the objective lens and converting the detected charged particles into an electrical signal; storing picture information conveyed by the electrical signal; comparing a picture with another by using the stored picture information; and detecting a defect of the specimen.
摘要翻译：通过提供新颖的检查方法和采用这种新方法的检测装置，本发明通过使用电子束的本发明解决了常规检查方法中遇到的问题和采用该方法的传统装置，该方法能够提高扫描样本的速度作为半导体晶片。本发明提供的检验新颖方法包括以下步骤：产生电子束; 通过使用物镜将生成的电子束会聚在样品上; 使用会聚电子束扫描样品; 扫描期间连续移动样品; 检测在样本和物镜之间的位置处从样本发出的带电粒子，并将检测到的带电粒子转换成电信号; 存储由电信号传送的图像信息; 通过使用所存储的图像信息将图像与另一图像进行比较; 并检测样本的缺陷。

4. 发明授权

US08157183B2 Expansion valve, heat pump type refrigeration cycle apparatus, and air handling unit 有权
标题翻译：膨胀阀，热泵式制冷循环装置和空气处理单元
公开(公告)号：US08157183B2
公开(公告)日：2012-04-17
申请号：US12402134
申请日：2009-03-11
申请人： Takahito Hayashi , Hideki Sekiguchi , Yutaka Kaneko
发明人： Takahito Hayashi , Hideki Sekiguchi , Yutaka Kaneko
IPC分类号： F25B41/04 , F25B41/06
CPC分类号： F25B41/062 , F25B13/00 , F25B2341/0652 , Y02B30/72
摘要： A first expansion valve is provided in an outdoor unit, and a second expansion valve is provided in an indoor unit. A pipe line connects a first joint pipe of the first expansion valve and a second joint pipe of the second expansion valve. When a refrigerant flows in from the second joint pipe and flows out from the first joint pipe, the first and second expansion valves are in a full open state due to pressure of the refrigerant. When the refrigerant flows in from the first joint pipe and flows out from the second joint pipe, the first and second expansion valves are in semi-closed state (flow rate controlling state). In a cooling mode, the second expansion valve expands the refrigerant just before an indoor heat exchanger, and in a heating mode, the first expansion valve expands the refrigerant just before an outdoor heat exchanger. In both heating and cooling mode, a large amount of refrigerant flows through the pipe line to reduce pressure loss.
摘要翻译：第一膨胀阀设置在室外机中，第二膨胀阀设置在室内机。管路连接第一膨胀阀的第一接头管和第二膨胀阀的第二接头管。当制冷剂从第二关节管流入并从第一关节管流出时，第一和第二膨胀阀由于制冷剂的压力而处于全开状态。当制冷剂从第一关节管流入并从第二关节管流出时，第一和第二膨胀阀处于半闭合状态（流量控制状态）。在冷却模式中，第二膨胀阀刚好在室内热交换器之前膨胀制冷剂，并且在加热模式下，第一膨胀阀在室外热交换器之前膨胀制冷剂。在加热和冷却两种模式下，大量制冷剂流过管道，以减少压力损失。

5. 发明申请

US20090293520A1 EXPANSION VALVE, HEAT PUMP TYPE REFRIGERATION CYCLE APPARATUS, AND AIR HANDLING UNIT 有权
标题翻译：膨胀阀，热泵式制冷循环装置和空气处理装置
公开(公告)号：US20090293520A1
公开(公告)日：2009-12-03
申请号：US12402134
申请日：2009-03-11
申请人： Takahito Hayashi , Hideki Sekiguchi , Yutaka Kaneko
发明人： Takahito Hayashi , Hideki Sekiguchi , Yutaka Kaneko
IPC分类号： F25B41/04 , F25B13/00
CPC分类号： F25B41/062 , F25B13/00 , F25B2341/0652 , Y02B30/72
摘要： A first expansion valve is provided in an outdoor unit, and a second expansion valve is provided in an indoor unit. A pipe line connects a first joint pipe of the first expansion valve and a second joint pipe of the second expansion valve. When a refrigerant flows in from the second joint pipe and flows out from the first joint pipe, the first and second expansion valves are in a full open state due to pressure of the refrigerant. When the refrigerant flows in from the first joint pipe and flows out from the second joint pipe, the first and second expansion valves are in semi-closed state (flow rate controlling state). In a cooling mode, the second expansion valve expands the refrigerant just before an indoor heat exchanger, and in a heating mode, the first expansion valve expands the refrigerant just before an outdoor heat exchanger. In both heating and cooling mode, a large amount of refrigerant flows through the pipe line to reduce pressure loss.
摘要翻译：第一膨胀阀设置在室外机中，第二膨胀阀设置在室内机。管路连接第一膨胀阀的第一接头管和第二膨胀阀的第二接头管。当制冷剂从第二关节管流入并从第一关节管流出时，第一和第二膨胀阀由于制冷剂的压力而处于全开状态。当制冷剂从第一关节管流入并从第二关节管流出时，第一和第二膨胀阀处于半闭合状态（流量控制状态）。在冷却模式中，第二膨胀阀刚好在室内热交换器之前膨胀制冷剂，并且在加热模式下，第一膨胀阀在室外热交换器之前膨胀制冷剂。在加热和冷却两种模式下，大量制冷剂流过管道，以减少压力损失。

6. 发明授权

US07439506B2 Method and an apparatus of an inspection system using an electron beam 失效
标题翻译：使用电子束的检查系统的方法和装置
公开(公告)号：US07439506B2
公开(公告)日：2008-10-21
申请号：US11798239
申请日：2007-05-11
申请人： Yuko Iwabuchi , Hideo Todokoro , Hiroyoshi Mori , Mitsugu Sato , Yasutsugu Usami , Mikio Ichihashi , Satoru Fukuhara , Hiroyuki Shinada , Yutaka Kaneko , Katsuya Sugiyama , Atsuko Takafuji , Hiroshi Toyama
发明人： Yuko Iwabuchi , Hideo Todokoro , Hiroyoshi Mori , Mitsugu Sato , Yasutsugu Usami , Mikio Ichihashi , Satoru Fukuhara , Hiroyuki Shinada , Yutaka Kaneko , Katsuya Sugiyama , Atsuko Takafuji , Hiroshi Toyama
IPC分类号： H01J37/256 , H01J37/244
CPC分类号： H01J37/28 , G01N23/20 , G01N23/2251 , G03F7/7065 , G06T7/001 , G06T2207/10056 , G06T2207/30148 , H01J37/04 , H01J37/20 , H01J37/265 , H01J2237/04756 , H01J2237/20221 , H01J2237/2444 , H01J2237/24592 , H01J2237/2817 , H01J2237/31766
摘要： Problems encountered in the conventional inspection method and the conventional apparatus adopting the method are solved by the present invention using an electron beam by providing a novel inspection method and an inspection apparatus adopting the novel method which are capable of increasing the speed to scan a specimen such as a semiconductor wafer.The inspection novel method provided by the present invention comprises the steps of: generating an electron beam; converging the generated electron beam on a specimen by using an objective lens; scanning the specimen by using the converged electron beam; continuously moving the specimen during scanning; detecting charged particles emanating from the specimen at a location between the specimen and the objective lens and converting the detected charged particles into an electrical signal; storing picture information conveyed by the electrical signal; comparing a picture with another by using the stored picture information; and detecting a defect of the specimen.
摘要翻译：通过提供新颖的检查方法和采用这种新方法的检测装置，本发明通过使用电子束的本发明解决了常规检查方法中遇到的问题和采用该方法的传统装置，该方法能够提高扫描样本的速度作为半导体晶片。本发明提供的检验新颖方法包括以下步骤：产生电子束; 通过使用物镜将生成的电子束会聚在样品上; 使用会聚电子束扫描样品; 扫描期间连续移动样品; 检测在样本和物镜之间的位置处从样本发出的带电粒子，并将检测到的带电粒子转换成电信号; 存储由电信号传送的图像信息; 通过使用所存储的图像信息将图像与另一图像进行比较; 并检测样本的缺陷。

7. 发明授权

US07397031B2 Method of inspecting a circuit pattern and inspecting instrument 失效
标题翻译：检查电路图案和检查仪器的方法
公开(公告)号：US07397031B2
公开(公告)日：2008-07-08
申请号：US11452989
申请日：2006-06-15
申请人： Hiroyuki Shinada , Atsuko Takafuji , Takanori Ninomiya , Yuko Sasaki , Mari Nozoe , Hisaya Murakoshi , Taku Ninomiya , Yuji Kasai , Hiroshi Makino , Yutaka Kaneko , Kenji Tanimoto
发明人： Hiroyuki Shinada , Atsuko Takafuji , Takanori Ninomiya , Yuko Sasaki , Mari Nozoe , Hisaya Murakoshi , Taku Ninomiya , Yuji Kasai , Hiroshi Makino , Yutaka Kaneko , Kenji Tanimoto
IPC分类号： H01J37/28
CPC分类号： G01N23/225 , G01R31/307 , H01J37/28 , H01J2237/2817
摘要： An apparatus for inspecting a sample using a scanning electron microscope includes a sample stage, a first electron-optical system to scan an electron beam of a first beam current on the sample, a second electron-optical system to scan an electron beam of a second beam current smaller than the first beam current on the sample, a mechanism to move the sample stage, a detector provided in each of the first and second electron-optical systems to detect a secondary electron. The first electron-optical system is operable in a first mode and the second electron-optical system is operable in a second mode with higher resolution than that of the first mode. In the first mode, the sample is observed while the sample stage is moved continuously, and in the second mode, the sample is observed by detecting a secondary electron using the detector while the sample stage is held stationary.
摘要翻译：使用扫描电子显微镜检查样品的装置包括样品台，用于扫描样品上的第一束电流的电子束的第一电子 - 光学系统，用于扫描第二电子束的电子束的第二电子 - 光学系统光束电流小于样品上的第一光束电流，移动样品台的机构，设置在每个第一和第二电子光学系统中的检测二次电子的检测器。第一电子 - 光学系统可在第一模式中操作，并且第二电子 - 光学系统可以以比第一模式更高的分辨率在第二模式中操作。在第一模式中，在样品台连续移动时观察样品，在第二模式中，通过在样品台保持静止时使用检测器检测二次电子来观察样品。

8. 发明授权

US06518548B2 Substrate temperature control system and method for controlling temperature of substrate 失效
公开(公告)号：US06518548B2
公开(公告)日：2003-02-11
申请号：US10084378
申请日：2002-02-28
申请人： Masakazu Sugaya , Fumio Murai , Yutaka Kaneko , Masafumi Kanetomo , Shigeki Hirasawa , Tomoji Watanabe , Tatuharu Yamamoto , Katsuhiro Kuroda
发明人： Masakazu Sugaya , Fumio Murai , Yutaka Kaneko , Masafumi Kanetomo , Shigeki Hirasawa , Tomoji Watanabe , Tatuharu Yamamoto , Katsuhiro Kuroda
IPC分类号： H05B368
CPC分类号： H01L21/67103 , H01L21/67248
摘要： So as to provide a substrate temperature control system capable of unifying the temperature of the substrate and capable of shortening the temperature elevation time (temperature lowering time), the substrate temperature control system is equipped with a temperature control plate (heating or cooling plate) having a plurality of projections on the surface and serving to set the temperature of the substrate, and a chuck mechanism to fix the substrate in contact to a plurality of the projections by chucking the substrate toward the direction of the temperature control plate.

9. 发明授权

US06430491B1 Speed ratio control system of continuously variable transmission 有权
标题翻译：无级变速器变速比控制系统
公开(公告)号：US06430491B1
公开(公告)日：2002-08-06
申请号：US09622023
申请日：2000-08-11
申请人： Kazutaka Adachi , Yutaka Kaneko , Hiroyuki Ashizawa
发明人： Kazutaka Adachi , Yutaka Kaneko , Hiroyuki Ashizawa
IPC分类号： F16H6102
CPC分类号： F16H61/66254 , F16H61/66259 , Y10T477/6242
摘要： A control unit of a continuously variable transmission computes a speed ratio command value based on a final target ratio, a time constant representing a predetermined dynamic characteristic and a time constant representing an estimated dynamic characteristic of the transmission so that a real speed ratio approaches the final target ratio according to a running state under the predetermined dynamic characteristic. A transient target ratio is computed based on the final target ratio and time constant representing the predetermined dynamic characteristic, a correction amount of the speed ratio command value is computed based on the difference between the transient target ratio and real speed ratio, and the transmission is controlled based on the speed ratio command value after correction by this correction amount. In this way, the difference between the transient target ratio and real speed ratio is reduced and a desired speed ratio response is obtained even when the operation of a speed ratio mechanism is limited and the real speed ratio has shifted from the transient target ratio.
摘要翻译：无级变速器的控制单元基于最终目标比率计算速比指令值，表示预定动态特性的时间常数和表示变速器的估计动态特性的时间常数，使得实际速比接近最终目标比例根据预定动态特性下的运行状态。基于表示预定动态特性的最终目标比和时间常数来计算瞬时目标比，基于瞬时目标比和实际速比之间的差来计算速比指令值的校正量，并且传输是基于通过该校正量校正后的速比指令值进行控制。以这种方式，即使当速比机构的操作受限并且实际速比已经从瞬时目标比率偏移时，瞬态目标比和实际速比之间的差减小并且获得期望的速比响应。

10. 发明授权

US5992455A Dual-stream filling valve 有权
标题翻译：双流灌装阀
公开(公告)号：US5992455A
公开(公告)日：1999-11-30
申请号：US165461
申请日：1998-10-02
申请人： Adam Koller , Sven-Arne Andersson , Bengt Andersson , Yutaka Kaneko
发明人： Adam Koller , Sven-Arne Andersson , Bengt Andersson , Yutaka Kaneko
IPC分类号： B65B3/32 , B65B37/06 , B65B39/00 , B67C3/04 , B67C3/20 , B67C3/28 , F16K11/22 , F16K21/00 , B67D5/54 , B67D5/00
CPC分类号： B65B37/06 , B65B3/326 , B65B39/00 , B65B39/004 , B67C3/04 , B67C3/208 , B65B2039/009 , Y10T137/87684 , Y10T137/87692
摘要： A dual-stream filling system is used in a packaging machine to introduce at least two flowable materials into a plastic bottle. The dual-stream filling system defines a material flow path therethrough. The system includes a primary filling tube having an inlet end and a discharge end and defining a primary filling tube internal flow region. A secondary filling tube has an inlet end and an outlet end and defines a secondary filling tube internal flow region. The secondary filling tube is positioned at least in part within the primary filling tube internal flow region, penetrating the primary filling tube through the first opening. The dual-stream fill system includes a valve plug that includes a portion that is movable relative to the secondary filling tube between an opened state wherein flow communication is established between the internal flow regions of the primary and secondary filling tubes and a closed state wherein flow communication is terminated between the internal flow regions of the primary and secondary filling tubes. An actuator is provided for moving the valve plug portion between the opened and closed positions. The actuator is disposed fully external of the secondary filling tube flow region.
摘要翻译：在包装机中使用双流灌装系统将至少两种可流动材料引入塑料瓶中。双流填充系统限定了通过其中的材料流动路径。该系统包括具有入口端和排出端并限定主填充管内部流动区域的主填充管。辅助填充管具有入口端和出口端，并且限定了第二填充管内部流动区域。第二填充管至少部分地位于主填充管内部流动区域内，穿过第一开口穿过主填充管。双流填充系统包括阀塞，该阀塞包括可在第二填充管的内部流动区域之间建立流动连通的打开状态之间相对于辅助填充管可移动的部分，以及关闭状态，其中流动在第一和第二填充管的内部流动区域之间终止连通。提供致动器用于在打开位置和关闭位置之间移动阀塞部分。致动器设置在第二填充管流动区域的完全外部。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式