公开(公告)号：US20050212909A1

公开(公告)日：2005-09-29

申请号：US10510954

申请日：2004-01-15

申请人： Nobuhiko Takehara ,  Hiroki Anzai ,  Katsumi Kishida

发明人： Nobuhiko Takehara ,  Hiroki Anzai ,  Katsumi Kishida

IPC分类号： H04N5/225 ,  H04N5/232 ,  H04N7/173 ,  H04N7/18 ,  H04N21/4223 ,  H04N21/442 ,  H04N21/637 ,  H04N21/6587 ,  H04W88/02 ,  H04W88/18 ,  H04W92/08

CPC分类号： H04N7/185 ,  H04N5/232 ,  H04N5/23238 ,  H04N7/181 ,  H04N21/21805 ,  H04N21/4223 ,  H04N21/6587

摘要： An omnidirectional camera performs image sensing of a panoramic object 6 surrounding it, and sends the video signal to an image capturing device 1, then the image capturing device 1 extracts a video signal of a partial object 61 and sends the extracted video signal to a camera-equipped portable terminal 3 carried in user's hand at a place distant from the omnidirectional camera 2 to display the image of the video signal on a display surface 32a of the portable terminal, and the user shoots a surrounding object 8 with the portable terminal 3 and sends the surrounding video signal to the device 1. When the shooting direction of the portable terminal 3 is turned as indicated by the broken line, the device 1 detects a change in the shooting direction of he portable terminal 3 from a difference between the surrounding video signals generated before and after the turning of the portable terminal, and extracts, from a panorama video signal, a video signal of a partial object 62 turned from the partial object 61 in correspondence to the difference and sends the extracted video signal to the portable terminal 3 to display the image of the video signal.

摘要翻译： 全向摄像机对其周围的全景物体6进行摄像，并将视频信号发送到图像拍摄装置1，然后，图像拍摄装置1提取部分对象61的视频信号，并将提取的视频信号发送到相机 在便携式终端的显示表面32a上将用户手中携带的装备便携式终端3放置在远离全方位摄像机2的位置，以将视频信号的图像显示在便携式终端3的显示表面32a上，并且用户拍摄周围物体8 并将周围的视频信号发送到设备1。 当便携式终端3的拍摄方向如虚线所示转动时，装置1根据在便携式终端3转动之前和之后产生的周围视频信号之间的差异检测便携式终端3的拍摄方向的变化 终端，并且从全景视频信号中提取对应于差异从部分对象61转动的部分对象62的视频信号，并将提取的视频信号发送到便携式终端3以显示视频信号的图像。

公开(公告)号：US08847130B2

公开(公告)日：2014-09-30

申请号：US13103153

申请日：2011-05-09

申请人： Norio Niwa ,  Ryousei Noda ,  Hiroki Anzai

发明人： Norio Niwa ,  Ryousei Noda ,  Hiroki Anzai

IPC分类号： H05B6/80 ,  H05B6/64 ,  H05B6/70 ,  H05B6/66 ,  H05B6/50 ,  B60H1/03 ,  B60H1/02 ,  B60H1/00 ,  B61D27/00 ,  F24F7/00 ,  F24D5/00

CPC分类号： H05B6/802 ,  Y10T137/6606

摘要： A heating unit can reduce the rate of power consumption for heating a vehicle, so that the running distance of the vehicle is increased and hence the battery charging cycle of the vehicle is prolonged. A heating unit of a vehicle heating system includes a casing made of a metal material capable of electromagnetically shielding microwaves, a support arranged in the hollow section of the casing, a plurality of microwave absorbing/heat emitting members arranged at the support and a microwave outputting unit arranged in the casing to output microwaves toward respective microwave absorbing/heat emitting members, blown air being heated by heat generated as a result of absorption of microwaves by the microwave absorbing/heat emitting members at the time for blown air to flow from the upstream side to the downstream side in the hollow sections of the microwave absorbing/heat emitting members.

摘要翻译： 加热单元可以降低用于加热车辆的功率消耗率，使得车辆的行驶距离增加，从而延长了车辆的电池充电周期。 车辆加热系统的加热单元包括由能够电磁屏蔽微波的金属材料制成的壳体，布置在壳体的中空部分中的支撑体，布置在支撑体处的多个微波吸收/发热构件和微波输出 单元布置在壳体中以朝向相应的微波吸收/发热构件输出微波，吹送空气由于吹扫空气从上游流动而被微波吸收/发热构件吸收的微波产生的热量加热 一侧到微波吸收/发热构件的中空部分中的下游侧。

公开(公告)号：US07385624B2

公开(公告)日：2008-06-10

申请号：US10510954

申请日：2004-01-15

申请人： Nobuhiko Takehara ,  Tomoki Watanabe ,  Hiroki Anzai ,  Katsumi Kishida

发明人： Nobuhiko Takehara ,  Tomoki Watanabe ,  Hiroki Anzai ,  Katsumi Kishida

IPC分类号： H04N7/00 ,  H04N7/18 ,  H04N5/232 ,  H04N11/00

CPC分类号： H04N7/185 ,  H04N5/232 ,  H04N5/23238 ,  H04N7/181 ,  H04N21/21805 ,  H04N21/4223 ,  H04N21/6587

摘要： An omnidirectional camera performs image sensing of a panoramic object 6 surrounding it, and sends the video signal to an image capturing device 1, then the image capturing device 1 extracts a video signal of a partial object 61 and sends the extracted video signal to a camera-equipped portable terminal 3 carried in user's hand at a place distant from the omnidirectional camera 2 to display the image of the video signal on a display surface 32a of the portable terminal, and the user shoots a surrounding object 8 with the portable terminal 3 and sends the surrounding video signal to the device 1. When the shooting direction of the portable terminal 3 is turned as indicated by the broken line, the device 1 detects a change in the shooting direction of he portable terminal 3 from a difference between the surrounding video signals generated before and after the turning of the portable terminal, and extracts, from a panorama video signal, a video signal of a partial object 62 turned from the partial object 61 in correspondence to the difference and sends the extracted video signal to the portable terminal 3 to display the image of the video signal.

摘要翻译： 全向摄像机对其周围的全景物体6进行摄像，并将视频信号发送到图像拍摄装置1，然后，图像拍摄装置1提取部分对象61的视频信号，并将提取的视频信号发送到相机 在便携式终端的显示表面32a上将用户手中携带的装备便携式终端3放置在远离全方位摄像机2的位置，以将视频信号的图像显示在便携式终端3的显示表面32a上，并且用户拍摄周围物体8 并将周围的视频信号发送到设备1。 当便携式终端3的拍摄方向如虚线所示转动时，装置1根据在便携式终端3转动之前和之后产生的周围视频信号之间的差异检测便携式终端3的拍摄方向的变化 终端，并且从全景视频信号中提取对应于差异从部分对象61转动的部分对象62的视频信号，并将提取的视频信号发送到便携式终端3以显示视频信号的图像。

公开(公告)号：US5399932A

公开(公告)日：1995-03-21

申请号：US53211

申请日：1993-04-28

申请人： Hiroki Anzai ,  Yukinobu Iguchi

发明人： Hiroki Anzai ,  Yukinobu Iguchi

IPC分类号： H01J29/48 ,  H01J29/50 ,  H01J29/51

CPC分类号： H01J29/503 ,  H01J2229/4872

摘要： An electron beam for a color CRT is equipped with three cathodes such that three electron beams may be emitted therefrom. Three grids are provided with beam passing holes for each of the three electron beams and are positioned in the path of the electron beams. The beam passing openings of the third grid are shifted from alignment with the beam passing openings of the first and second grid by a degree sufficient to focus the three beams appropriately relative to a central focal axis of the electron gun.

摘要翻译： 用于彩色CRT的电子束配备有三个阴极，使得可以从其中发射三个电子束。 三个栅格为三个电子束中的每一个设置有光束通过孔，并且位于电子束的路径中。 第三格栅的光束通过开口与第一和第二格栅的光束通过开口对准偏移一定程度，足以相对于电子枪的中心焦点适当地对准三个光束。

公开(公告)号：US5429540A

公开(公告)日：1995-07-04

申请号：US274700

申请日：1994-07-14

申请人： Hiroki Anzai ,  Masanori Ogiya

发明人： Hiroki Anzai ,  Masanori Ogiya

IPC分类号： H01J9/18

CPC分类号： H01J9/18 ,  H01J2209/185

摘要： In assembling an electron gun (10), parts (11 to 18) are placed on supports (21) on the support base (2). The angle of a supported G3 grid (15) can be adjusted by moving the side of the G3A grid (15A), because the support (21) for the G3 grid (15) holds only the rear of the G3B grid (15B). Accordingly, in the event the G3A grid (15A) and the G3B grid (15B) are welded together out of position, adjuster pins (5) can be inserted into the guide holes (61) of the G3A grid (15A) without being bent, thereby adjusting beam holes (62) of G3A grid (15A) to coincide with the beam holes (62) of other grids. Accordingly, the beading apparatus (1) allows the electron gun (10) to be manufactured with considerable precision.

摘要翻译： 在组装电子枪（10）时，将部件（11至18）放置在支撑基座（2）上的支撑件（21）上。 由于G3格栅（15）的支撑（21）仅保持G3B格栅（15B）的后部，因此可以通过移动G3A格栅（15A）的侧面来调节支撑的G3格栅（15）的角度。 因此，如果G3A格栅（15A）和G3B格栅（15B）被焊接在一起，调整销（5）可以不被弯曲地插入G3A格栅（15A）的导向孔（61）中 从而调节G3A格栅（15A）的光束孔（62）与其它格栅的光束孔（62）重合。 因此，卷边装置（1）允许以相当大的精度制造电子枪（10）。

公开(公告)号：US20120285949A1

公开(公告)日：2012-11-15

申请号：US13103153

申请日：2011-05-09

申请人： Norio NIWA ,  Ryousei Noda ,  Hiroki Anzai

发明人： Norio NIWA ,  Ryousei Noda ,  Hiroki Anzai

IPC分类号： H05B6/64

CPC分类号： H05B6/802 ,  Y10T137/6606

摘要： A heating unit can reduce the rate of power consumption rate for heating a vehicle, so that the running distance of the vehicle is increased and hence the battery charging cycle of the vehicle is prolonged. A heating unit of a vehicle heating system arranged in a blown air flow path for either internal air or external air to be blown into the inside of a vehicle in order to heat blown air includes a casing made of a metal material capable of electromagnetically shielding microwaves and arranged in the blown air flow path, the casing having a hollow section with an upstream side opening and a downstream side opening as viewed in the flow direction of blown air so as to allow blown air to flow in and out therethrough, a support arranged in the hollow section of the casing, a large number of microwave absorbing/heat emitting members arranged at the support at appropriate intervals, each having a hollow section with an upstream side opening and a downstream side opening at the opposite ends of the support as viewed in the air blowing direction and a microwave outputting means arranged in the casing to output microwaves toward respective microwave absorbing/heat emitting members, blown air being heated by heat generated as a result of absorption of microwaves by the microwave absorbing/heat emitting members at the time for blown air to flow from the upstream side to the downstream side in the hollow sections of the microwave absorbing/heat emitting members.

摘要翻译： 加热单元可以降低用于加热车辆的功率消耗率，使得车辆的行驶距离增加，从而延长了车辆的电池充电周期。 布置在用于内部空气或外部空气吹送到车辆内部以吹送空气的吹风空气流动路径中的车辆加热系统的加热单元包括由能够电磁屏蔽微波的金属材料制成的壳体 并且布置在吹送空气流动路径中，壳体具有中空部分，其具有沿吹风空气的流动方向观察的上游侧开口和下游侧开口，以允许吹送空气流入和流出，支撑件布置 在壳体的中空部分中，大量微波吸收/发热构件以适当的间隔布置在支撑件处，每个具有中空部分，其具有上游侧开口和在支撑件的相对端处的下游侧开口 在空气吹送方向和微波输出装置，布置在壳体中以朝向相应的微波吸收/发热构件输出微波，吹风空气 在微波吸收/发热部件的中空部分中，由吹扫空气从上游侧流向下游侧的微波吸收/发热部件吸收微波而产生的热量加热。