公开(公告)号：US09745406B2

公开(公告)日：2017-08-29

申请号：US13232447

申请日：2011-09-14

Applicant: Yutaka Watanabe ,  Atsushi Saito

Inventor： Yutaka Watanabe ,  Atsushi Saito

IPC: C08G18/48 ,  C08G18/10 ,  C08G18/75 ,  C08G18/76 ,  C08L33/04 ,  C08L43/04 ,  C08L75/08 ,  C09J143/04 ,  C08L33/14 ,  C08L75/04 ,  C08F220/14 ,  C08F220/18

CPC classification number: C08G18/4825 ,  C08F220/14 ,  C08F2220/1891 ,  C08G18/10 ,  C08G18/755 ,  C08G18/7621 ,  C08L33/04 ,  C08L33/14 ,  C08L43/04 ,  C08L75/04 ,  C08L75/08 ,  C08L2666/20 ,  C09J143/04 ,  C08G18/289 ,  C08G18/2865 ,  C08L2666/04 ,  C08F2220/1825 ,  C08F230/08 ,  C08F2220/1808 ,  C08F2220/1858 ,  C08F2220/1883

Abstract: Provided is a curable composition which realizes compatibility between curability and toughness, shows rapid curability and excellent storage stability, and does not require any tin catalyst. The curable composition comprises: (A) a vinyl-based resin obtained by causing a compound (I) represented by the following general formula (1) and a compound (II) represented by the following general formula (2) to react with each other; (B) a urethane-based resin obtained by causing a hydroxyl group-containing organic polymer, a polyisocyanate compound, a compound (III) represented by the following general formula (3), and an amine compound to react with one another; and (C) a curing catalyst.

公开(公告)号：US08701530B2

公开(公告)日：2014-04-22

申请号：US13055932

申请日：2009-07-16

Applicant: Hiroyuki Ochiai ,  Masaharu Yano ,  Kiyoshi Fujikake ,  Yoshio Takimoto ,  Yutaka Watanabe

Inventor： Hiroyuki Ochiai ,  Masaharu Yano ,  Kiyoshi Fujikake ,  Yoshio Takimoto ,  Yutaka Watanabe

IPC: B23B1/00

CPC classification number: B23B1/00 ,  B23B2215/64 ,  B23B2270/205

Abstract: A method is provided to cut a thin-walled member without causing chattering vibration, without using a chattering vibration preventing retainer, that performs the following: (A) preparing a material having much stock for obtaining a thin-walled material, (B) while rotating the material about a center axis, cutting the inner round surface of the material within a predetermined range by feeding a cutting tool relative to material by the desired distance from one end side to the other end side of the material along the center axis, (C) while rotating the material about the center axis, cutting the outer round surface of the material within a predetermined range by feeding the cutting tool relative to the material by the desired distance from the one end side to the other end side of the material along the center axis, and (D) alternately repeating (B) and (C) to finish cutting the material.

Abstract translation: 提供了一种方法来切割薄壁构件而不产生震动振动，而不使用振动防震保持器，其执行以下操作：（A）制备具有很多储备以获得薄壁材料的材料，（B）同时 使材料围绕中心轴线旋转，通过沿着中心轴线将相对于材料的切割工具相对于材料的一个端侧向另一端侧馈送期望的距离，将材料的内圆面切割在预定范围内（ C）当围绕中心轴线旋转材料时，通过将切割工具相对于材料沿材料的一端侧到另一端侧的期望距离进给，将材料的外圆表面切割在预定范围内 中心轴，（D）交替重复（B）和（C）切割材料。

公开(公告)号：US20130312616A1

公开(公告)日：2013-11-28

申请号：US13983839

申请日：2012-02-27

Applicant: Kazuhiro Shibamori ,  Yutaka Watanabe ,  Hidenobu Tsukada ,  Keiichiro Nakamura ,  Akira Kimura ,  Yuuki Gotou ,  Kouta Fujieda

Inventor： Kazuhiro Shibamori ,  Yutaka Watanabe ,  Hidenobu Tsukada ,  Keiichiro Nakamura ,  Akira Kimura ,  Yuuki Gotou ,  Kouta Fujieda

IPC: F01N3/023

CPC classification number: F01N3/023 ,  E02F9/2066 ,  E02F9/2095 ,  E02F9/2282 ,  E02F9/2285 ,  E02F9/2296 ,  E02F9/267 ,  F01N3/0253 ,  F01N3/035 ,  F01N11/00 ,  F01N2550/04 ,  F01N2590/08 ,  F02D41/029 ,  F02D2041/228 ,  F02D2200/0812 ,  F02D2200/604 ,  Y02T10/47

Abstract: An exhaust purification system for a working machine reliably issues filter regeneration warnings to the operator, prompting manual regeneration, so that damage to the DPF device can be avoided. When a PM estimate becomes higher than a given value, a screen displays a warning message prompting manual regeneration. If the warning message fails to prompt the operator to perform manual regeneration and reference time t1 has passed since the display of the warning message, a speaker outputs a first warning sound. When the operator notices the first warning sound and turns on a regeneration switch, regeneration control is started. If the operator fails to notice the first warning sound and reference time t2 passes, the speaker instead outputs a second warning sound louder than the first warning sound. When the operator notices the second warning sound and turns on the regeneration switch, regeneration control is started.

Abstract translation: 用于工作机器的排气净化系统可靠地向操作者发出过滤器再生警告，促进手动再生，从而可以避免对DPF装置的损坏。 当PM估计值高于给定值时，屏幕将显示提示手动更新的警告消息。 如果警告消息不能提示操作者进行手动再生，并且从警告消息的显示起经过了参考时间t1，则扬声器输出第一警告声。 当操作者注意到第一个警告声并打开再生开关时，开始再生控制。 如果操作者没有注意到第一警告声和参考时间t2经过，则扬声器反而输出比第一警告声更响亮的第二警告声。 当操作者注意到第二警告声并且接通再生开关时，开始再生控制。

公开(公告)号：US20130175964A1

公开(公告)日：2013-07-11

申请号：US13822768

申请日：2011-09-30

Applicant: Yutaka Watanabe

Inventor： Yutaka Watanabe

IPC: G01K13/00 ,  H02P29/00

CPC classification number: G01K13/00 ,  F04B35/04 ,  F04B39/06 ,  F04B49/103 ,  F04B2203/0209 ,  H02P29/68

Abstract: An electric compressor capable of following temperature changes of a power element even if a temperature measurement unit is disposed separately from the power element. In the electric compressor, the temperature measurement unit (34) measures the temperature of a substrate (36) on which the power element (31) is disposed. A rotational speed detection unit (35) detects the rotational speed of a motor. A control unit (33) estimates the temperature of the power element (31) on the basis of the rotational speed of the motor detected by the rotational speed detection unit (35) and the temperature measured by the temperature measurement unit (34).

Abstract translation: 即使温度测量单元与功率元件分开设置，也能够跟随功率元件的温度变化。 在电动压缩机中，温度测量单元（34）测量设置有功率元件（31）的基板（36）的温度。 转速检测单元（35）检测电动机的转速。 控制单元（33）基于由转速检测单元（35）检测的电动机的转速和由温度测量单元（34）测量的温度来估计功率元件（31）的温度。

公开(公告)号：US07685733B2

公开(公告)日：2010-03-30

申请号：US11566377

申请日：2006-12-04

Applicant: Hitoshi Ohmori ,  Yutaka Watanabe ,  Shinya Morita ,  Yoshihiro Uehara ,  Weimin Lin ,  Kazutoshi Katahira

Inventor： Hitoshi Ohmori ,  Yutaka Watanabe ,  Shinya Morita ,  Yoshihiro Uehara ,  Weimin Lin ,  Kazutoshi Katahira

IPC: G01B7/00

CPC classification number: G01B7/012 ,  G01B3/008 ,  G01B5/012 ,  G01B11/007

Abstract: There is disclosed a micro surface shape measurement probe including a probe shaft 4 having at a distant end thereof a probe member 2 for contacting an object 1 to be measured, a probe body 21 provided with support means for movably supporting the probe shaft 4 in a non-contact manner, a pressing device for pressing and moving the probe shaft 4 toward the object 1 to be measured, a piezoelectric sensor 8a incorporated in the probe body 21 so that a reactive force acts to a pressing force applied to the probe shaft by the pressing device, a load detecting device 8b to measure a load acting on the piezoelectric sensor, a control device 9 for adjusting the pressing force applied by the pressing device based on the load detected by the load detecting device, and a displacement amount measuring device for measuring a position of the probe member 2 in contact with the object 1 to be measured by the pressing force adjusted by the control device 9.

Abstract translation: 公开了一种微型表面形状测量探针，其包括探针轴4，探针轴4的远端具有用于接触被测量物体1的探针构件2，探针体21，其设置有用于将探针轴4可移动地支撑在一起的支撑装置 用于将探针轴4朝向要测量的物体1按压和移动的按压装置，结合在探针主体21中的压电传感器8a，使得反作用力作用于通过施加到探针轴的按压力 按压装置，用于测量作用在压电传感器上的负载的负载检测装置8b，用于基于由负载检测装置检测到的负载来调节由加压装置施加的按压力的控制装置9和位移量测量装置 用于通过由控制装置9调节的按压力来测量与被测量物体1接触的探针部件2的位置。

公开(公告)号：US20070126314A1

公开(公告)日：2007-06-07

申请号：US11566377

申请日：2006-12-04

Applicant: Hitoshi Ohmori ,  Yutaka Watanabe ,  Shinya Morita ,  Yoshihiro Uehara ,  Weimin Lin ,  Kazutoshi Katahira

Inventor： Hitoshi Ohmori ,  Yutaka Watanabe ,  Shinya Morita ,  Yoshihiro Uehara ,  Weimin Lin ,  Kazutoshi Katahira

IPC: H01L41/00

CPC classification number: G01B7/012 ,  G01B3/008 ,  G01B5/012 ,  G01B11/007

Abstract: There is disclosed a micro surface shape measurement probe including a probe shaft 4 having at a distant end thereof a probe member 2 for contacting an object 1 to be measured, a probe body 21 provided with support means for movably supporting the probe shaft 4 in a non-contact manner, a pressing device for pressing and moving the probe shaft 4 toward the object 1 to be measured, a piezoelectric sensor 8a incorporated in the probe body 21 so that a reactive force acts to a pressing force applied to the probe shaft by the pressing device, a load detecting device 8b to measure a load acting on the piezoelectric sensor, a control device 9 for adjusting the pressing force applied by the pressing device based on the load detected by the load detecting device, and a displacement amount measuring device for measuring a position of the probe member 2 in contact with the object 1 to be measured by the pressing force adjusted by the control device 9.

Abstract translation: 公开了一种微型表面形状测量探针，其包括探针轴4，探针轴4的远端具有用于接触被测量物体1的探针构件2，探针体21，其设置有用于将探针轴4可移动地支撑在一起的支撑装置 用于将探针轴4朝向待测量物体1按压并移动的按压装置，结合在探针体21中的压电传感器8，使得反作用力作用于施加到探针轴的压力 通过按压装置，用于测量作用在压电传感器上的负载的负载检测装置8b，用于基于由负载检测装置检测到的负载来调整由加压装置施加的按压力的控制装置9和位移量 测量装置，用于通过由控制装置9调节的按压力来测量与待测量物体1接触的探针构件2的位置。

公开(公告)号：US20050225346A1

公开(公告)日：2005-10-13

申请号：US11148386

申请日：2005-06-09

Applicant: Noboru Saito ,  Hiroyuki Takahashi ,  Noriyuki Igarashi ,  Keiichi Fukumoto ,  Hiroto Nakamura ,  Yutaka Watanabe ,  Kenichi Shimada

Inventor： Noboru Saito ,  Hiroyuki Takahashi ,  Noriyuki Igarashi ,  Keiichi Fukumoto ,  Hiroto Nakamura ,  Yutaka Watanabe ,  Kenichi Shimada

IPC: G01R31/26 ,  G01R1/04 ,  G01R31/00 ,  G01R31/01 ,  G01R31/02 ,  G01R31/28 ,  G01R31/303

CPC classification number: G01R31/01 ,  G01R1/0458 ,  G01R31/2806 ,  G01R31/2862 ,  G01R31/2863 ,  G01R31/2868 ,  G01R31/2877

Abstract: A device testing apparatus including a connection terminal to which an electronic device under test is detachably attached, a pusher for pushing the electronic device in the direction of the connection terminal so as to connect the electronic device to the connection terminal, and a cooling unit for cooling the electronic device. As the cooling unit, an element cooling the device using electricity is for example used. The cooling unit includes a cooling medium blower for blowing a cooling medium around the electronic device and heat exchange projections or depressions for raising the cooling efficiency by blowing a cooling medium. In the device testing apparatus, even if the electronic device generates heat on its own during testing, the electronic device is cooled through the pusher, connection terminals, or socket, so the effect of the heat generated by the electronic device is canceled out and the electronic device can be tested at the predetermined temperature as prescribed in the specification.

Abstract translation: 一种装置测试装置，包括可拆卸地安装有被测试的电子设备的连接端子，用于沿着连接端子的方向推动电子设备以将电子设备连接到连接端子的推动器，以及用于 冷却电子设备。 作为冷却单元，例如使用电力冷却装置的元件。 冷却单元包括用于吹送电子设备周围的冷却介质的冷却介质鼓风机和通过吹送冷却介质而提高冷却效率的热交换突起或凹部。 在设备测试装置中，即使电子设备在测试期间自身产生热量，电子设备通过推动器，连接端子或插座被冷却，因此电子设备产生的热量的影响被消除，并且 电子设备可以按照说明书中规定的预定温度进行测试。

公开(公告)号：US06947519B2

公开(公告)日：2005-09-20

申请号：US09951456

申请日：2001-09-14

Applicant: Kenji Itoga ,  Shunichi Uzawa ,  Yutaka Watanabe ,  Toyoki Kitayama

Inventor： Kenji Itoga ,  Shunichi Uzawa ,  Yutaka Watanabe ,  Toyoki Kitayama

IPC: G03F1/22 ,  G03F7/20 ,  G21K1/06 ,  G21K1/10 ,  G21K5/02 ,  G21K5/04 ,  H01L21/027 ,  H05H13/04 ,  G21K5/00

CPC classification number: G21K1/10 ,  G03F7/70008 ,  G03F7/70191 ,  G03F7/70941 ,  G21K1/06

Abstract: An X-ray exposure apparatus extracts exposure X-rays from light called synchrotron radiation from a synchrotron radiation source by an optical path including an X-ray mirror and performs exposure using the extracted X-rays. The X-ray mirror contains a material having an absorption edge in at least one of a wavelength range of less than 0.45 nm and a wavelength range exceeding 0.7 nm, thereby implementing exposure using the X-ray in the range of 0.45 nm to 0.7 nm. The X-ray mirror contains at least one material selected from the group consisting of iron, cobalt, nickel, copper, manganese, chromium, and their alloys, nitrides, carbides, and borides.

Abstract translation: X射线曝光装置通过包括X射线反射镜的光路从同步加速器辐射源的称为同步加速器辐射的光提取曝光X射线，并使用所提取的X射线进行曝光。 X射线镜含有在波长范围小于0.45nm，波长范围超过0.7nm的吸收边缘的材料，从而使用在0.45nm〜0.7nm的范围内的X射线进行曝光 。 X射线镜包含选自铁，钴，镍，铜，锰，铬及其合金，氮化物，碳化物和硼化物中的至少一种材料。

公开(公告)号：US06919734B2

公开(公告)日：2005-07-19

申请号：US10716613

申请日：2003-11-20

Applicant: Noboru Saito ,  Hiroyuki Takahashi ,  Noriyuki Igarashi ,  Keiichi Fukumoto ,  Hiroto Nakamura ,  Yutaka Watanabe ,  Kenichi Shimada

Inventor： Noboru Saito ,  Hiroyuki Takahashi ,  Noriyuki Igarashi ,  Keiichi Fukumoto ,  Hiroto Nakamura ,  Yutaka Watanabe ,  Kenichi Shimada

IPC: G01R31/26 ,  G01R1/04 ,  G01R31/00 ,  G01R31/01 ,  G01R31/02 ,  G01R31/28 ,  G01R31/303

CPC classification number: G01R31/01 ,  G01R1/0458 ,  G01R31/2806 ,  G01R31/2862 ,  G01R31/2863 ,  G01R31/2868 ,  G01R31/2877

Abstract: A device testing apparatus including a connection terminal to which an electronic device under test is detachably attached, a pusher for pushing the electronic device in the direction of the connection terminal so as to connect the electronic device to the connection terminal, and a cooling unit for cooling the electronic device. As the cooling unit, an element cooling the device using electricity is for example used. The cooling unit includes a cooling medium blower for blowing a cooling medium around the electronic device and heat exchange projections or depressions for raising the cooling efficiency by blowing a cooling medium. In the device testing apparatus, even if the electronic device generates heat on its own during testing, the electronic device is cooled through the pusher, connection terminals, or socket, so the effect of the heat generated by the electronic device is canceled out and the electronic device can be tested at the predetermined temperature as prescribed in the specification.

公开(公告)号：US20050096183A1

公开(公告)日：2005-05-05

申请号：US10504818

申请日：2003-10-10

Applicant: Yutaka Watanabe ,  Hiroshi Watanabe ,  Yasushi Tokuda

Inventor： Yutaka Watanabe ,  Hiroshi Watanabe ,  Yasushi Tokuda

IPC: B60K31/04 ,  B60T7/12 ,  B60T8/24 ,  B60K41/20

CPC classification number: B60T8/245 ,  B60K31/04 ,  B60T7/12 ,  B60T7/122 ,  B60T2201/04 ,  B60W2540/10 ,  B60W2540/12 ,  B60W2550/142 ,  Y10T477/80 ,  Y10T477/816

Abstract: The invention is intended to provide a downhill speed control system which employs a method of setting a target vehicle speed in advance, thereby improving controllability when a vehicle runs down a slope, and giving an operator improved operability in setting of the target vehicle speed. Brakes are controlled so that, when the vehicle runs down the slope, an actual vehicle speed is matched with a target speed set by a switch which can set the target speed by selectively or continuously changing plural preset speeds. Also, control constants for PID control are modified depending on settings of a downslope gradient setting switch and a load setting switch. When an acceleration computed from the actual vehicle speed is larger than a target acceleration, the strength of applied brake is increased.

Abstract translation: 本发明旨在提供一种采用预先设定目标车速的方法的下坡速度控制系统，从而提高了当车辆向下坡度时的可控性，并且提高了操作者在设定目标车速方面的可操作性。 制动器被控制，使得当车辆沿着斜坡行驶时，实际车辆速度与由开关设置的目标速度相匹配，该开关可以通过选择性地或连续地改变多个预设速度来设定目标速度。 此外，PID控制的控制常数根据下坡梯度设置开关和负载设置开关的设置进行修改。 当从实际车速计算的加速度大于目标加速度时，施加制动器的强度增加。