公开(公告)号：US20090021101A1

公开(公告)日：2009-01-22

申请号：US12161850

申请日：2006-05-25

申请人： Shogo Okamoto ,  Shuichi Tamura ,  Masatoshi Tashima

发明人： Shogo Okamoto ,  Shuichi Tamura ,  Masatoshi Tashima

IPC分类号： H02K1/06 ,  B23K26/00

CPC分类号： H02K1/12 ,  H02K15/00 ,  Y10T29/49009

摘要： A marking (7) that indicates inherent information about a stator (2) is formed of recesses inscribed at a predetermined position on the outer circumferential surface of a laminated iron core (21) of the stator (2), by melting a magnetic thin plate by means of a laser beam. The marking (7) is formed of recesses in the outer circumferential surface of the laminated iron core (21), i.e., in the outer circumferential surface, at the laminated side of the magnetic thin plate, of the laminated iron core (21); therefore, friction or the like does not peel off the marking. The inherent information about a stator is information, such as information that in which place of which factory the stator has been manufactured, which is utilized for a product analysis in the case where, after being utilized as a product, the manufacturer obtains the stator.

摘要翻译： 表示定子（2）的固有信息的标记（7）由定子（2）的层叠铁心（21）的外周面上的规定位置上的凹部形成，通过熔融磁性薄板 通过激光束。 标记（7）由叠层铁芯（21）的外周面，层叠铁芯（21）的磁性薄板的层叠侧的外周面的凹部形成。 因此，摩擦等不会剥离标记。 关于定子的固有信息是信息，例如在作为产品用作制造商获得定子的情况下用于产品分析的哪个工厂定子被制造的位置的信息。

公开(公告)号：USD308677S

公开(公告)日：1990-06-19

申请号：US371576

申请日：1989-06-26

申请人： Shuichi Tamura

设计人： Shuichi Tamura

公开(公告)号：US4764786A

公开(公告)日：1988-08-16

申请号：US113340

申请日：1987-10-22

申请人： Shuichi Tamura ,  Yoshihiro Harunari

发明人： Shuichi Tamura ,  Yoshihiro Harunari

IPC分类号： G01S7/491 ,  G01S17/46 ,  G03B3/10 ,  G03B3/00

CPC分类号： G03B3/10 ,  G01S17/46 ,  G01S7/4912

摘要： A distance measuring device for a camera includes a first distance measuring arrangement adapted for measuring the distance of the middle part of a photographing field; a second distance measuring arrangement for measuring the distances of the middle and peripheral parts of the field; and a switch for selection between the first and second distance measuring arrangements.

摘要翻译： 照相机的距离测量装置包括适于测量拍摄场的中间部分的距离的第一距离测量装置; 用于测量场的中间部分和周边部分的距离的第二距离测量装置; 以及用于在第一和第二距离测量装置之间进行选择的开关。

公开(公告)号：USD283708S

公开(公告)日：1986-05-06

申请号：US580670

申请日：1984-02-16

申请人： Shuichi Tamura

设计人： Shuichi Tamura

公开(公告)号：USD279573S

公开(公告)日：1985-07-09

申请号：US503896

申请日：1983-06-13

申请人： Nobuhiro Agou ,  Shuichi Tamura

设计人： Nobuhiro Agou ,  Shuichi Tamura

公开(公告)号：US4350418A

公开(公告)日：1982-09-21

申请号：US74313

申请日：1979-09-11

申请人： Tetsuya Taguchi ,  Shuichi Tamura ,  Ryuji Tokuda ,  Masahiko Ogawa

发明人： Tetsuya Taguchi ,  Shuichi Tamura ,  Ryuji Tokuda ,  Masahiko Ogawa

IPC分类号： G02B7/32 ,  G03B17/40 ,  G03B13/18

CPC分类号： G03B17/40 ,  G02B7/32

摘要： The disclosed camera is provided with an automatic focus adjusting device for automatically adjusting the focus of an objective lens. A timer circuit, adapted to be actuated in synchronism with the automatic focusing device initiating focus adjustment of the objective lens, sets a predetermined time and inhibits the actuation of a shutter release device for the predetermined time. In a preferred embodiment, the shutter release actuation is controlled in accordance with the logic condition of a focus adjustment completion signal obtained from the automatic focus adjusting device and a time count completion signal produced when the predetermined time has elapsed. In another embodiment of the present invention, a battery voltage detecting circuit prevents shutter release when the voltage of the battery energizing the camera is below a predetermined level.

摘要翻译： 所公开的相机设置有用于自动调节物镜的焦点的自动聚焦调节装置。 定时器电路适于与自动聚焦装置同步地启动物镜的聚焦调整，设定预定时间并禁止快门释放装置的致动达预定时间。 在优选实施例中，根据从自动对焦调整装置获得的焦点调整完成信号的逻辑状态和当经过预定时间时产生的时间计数完成信号来控制快门释放致动。 在本发明的另一实施例中，电池电压检测电路防止当照相机通电的电池电压低于预定电平时快门释放。

公开(公告)号：US4291223A

公开(公告)日：1981-09-22

申请号：US13294

申请日：1979-02-21

申请人： Toshio Sakane ,  Tetsuya Taguchi ,  Masahiko Ogawa ,  Shuichi Tamura ,  Tokuichi Tsunekawa

发明人： Toshio Sakane ,  Tetsuya Taguchi ,  Masahiko Ogawa ,  Shuichi Tamura ,  Tokuichi Tsunekawa

IPC分类号： G01S17/46 ,  G02B7/32 ,  G03B3/10 ,  G01C3/08

CPC分类号： G02B7/32 ,  G01S17/46

摘要： A distance detecting device comprising radiation projecting means for projecting a radiation beam; radiation sensing means which is disposed away from the radiation projecting means with a given length and is arranged to receive a reflected radiation beam coming from an object whose distance is to be detected as the radiation beam is projected from the projecting means; and movable means for relatively varying the incident condition of the projected radiation beam onto the sensing means. The distance to the object is found either by the position of the movable means or by the amount of displacement thereof which occurs at a time point at which the sensing means optimally receive the reflected radiation beam coming from the object in the process of relatively varying the incident condition of the projected radiation beam onto the sensing means. In the incident condition varying process, the output signal of the sensing means and a delayed signal which is obtained by delaying the output signal a predetermined period of time are compared with each other to detect a time point at which the output signal of the sensing means has reached its peak level and, accordingly, to detect when the sensing means optimally receive the reflected radiation beam coming from the object.

摘要翻译： 一种距离检测装置，包括用于投影辐射束的辐射投射装置; 放射线检测装置，其以特定长度远离辐射投射装置设置，并被布置为当辐射束从突出装置突出时，接收来自待检测距离的物体的反射辐射束; 以及用于将投射的辐射束的入射状态相对变化到感测装置上的可移动装置。 通过可移动装置的位置或通过在相对变化的过程中感测装置最佳地接收来自物体的反射辐射束的时间点发生的距离来发现到物体的距离 投影辐射束到感测装置上的入射条件。 在入射条件变化处理中，将预定时间段的输出信号延迟获得的感测装置的输出信号和延迟信号进行比较，以检测感测装置的输出信号的时间点 已经达到其峰值水平，并因此检测感测装置何时最佳地接收来自物体的反射辐射束。

公开(公告)号：US4247187A

公开(公告)日：1981-01-27

申请号：US922647

申请日：1978-07-07

申请人： Shuichi Tamura

发明人： Shuichi Tamura

IPC分类号： G02B7/30 ,  G03B3/10

CPC分类号： G02B7/30

摘要： In the disclosed camera, when the object of principal photographic interest becomes so dim as to prevent satisfactory operation of the focus detecting device, or when the actual voltage of a battery falls below a satisfactory operating level for the device, a supplementary device can be rendered operative to control setting of a photo-taking lens independently of the focus detecting device. The camera can then be focused at an appropriate distance depending upon the size of diaphragm aperture, namely, in a pan-focus position.According to an embodiment of the invention, an exposure control apparatus in the camera is made associated with the aforesaid two devices to operate in response to the taking lens having been set. The supplementary system is disabled until needed.

摘要翻译： 在所公开的照相机中，当感兴趣的主体的对象变得如此暗淡以防止焦点检测装置的令人满意的操作时，或者当电池的实际电压降到装置的令人满意的操作水平以下时，可以提供辅助装置 可操作以独立于焦点检测装置来控制摄影镜头的设置。 然后可以根据隔膜孔径的尺寸，即在聚焦位置，将相机聚焦在适当的距离处。 根据本发明的实施例，照相机中的曝光控制装置与上述两个装置相关联，以响应于拍摄镜头被设定而进行操作。 补充系统禁用，直到需要。

公开(公告)号：US4135815A

公开(公告)日：1979-01-23

申请号：US865924

申请日：1977-12-30

申请人： Makoto Masunaga ,  Kazuya Hosoe ,  Tokuichi Tsunekawa ,  Shuichi Tamura ,  Hideo Yokota

发明人： Makoto Masunaga ,  Kazuya Hosoe ,  Tokuichi Tsunekawa ,  Shuichi Tamura ,  Hideo Yokota

IPC分类号： G01C3/06 ,  G01B11/00 ,  G01C3/00 ,  G02B7/30 ,  G02B7/32 ,  G03B13/36 ,  G01C3/08 ,  G03B7/08

CPC分类号： G02B7/305

摘要： A range finding device of a construction, in which, at the time of receiving first and second images of an object to be formed by a range finding optical system with a relative positional parallax corresponding to the object distance into first and second photoelectric light receiving elements, respectively, these images are shifted on the light receiving surfaces of the respective first and second light receiving elements by a vibrating optical device at a same cycle and same phase to thereby scan these first and second images by the first and second light receiving elements; image scanning signals on the first and second images to be obtained at this time are converted into digital values; thereafter, these values are stored in the first and second storing devices where the coincidence and non-coincidence of these digitalized image scanning signals are detected by means of a coincidence detecting device, while one of these image scanning signals are relatively shifted bit by bit with respect to other image scanning signals; and the shift bit quantitites required until the image scanning signals of the same bit numbers of these first and second images may become optimumly coincided, thereby finding out the object distance from the shift bit quantities at the time.

摘要翻译： 一种结构的测距装置，其中，在由具有对应于物体距离的相对位置视差的测距光学系统形成的第一和第二图像的第一和第二图像接收到第一和第二光电接收元件 这些图像分别通过振动光学装置在相同的周期和相位的相位在相应的第一和第二光接收元件的光接收表面上移位，从而由第一和第二光接收元件扫描这些第一和第二图像; 此时要获得的第一和第二图像上的图像扫描信号被转换成数字值; 此后，这些值被存储在第一和第二存储装置中，其中这些数字化图像扫描信号的一致性和不一致性通过重合检测装置被检测，而这些图像扫描信号中的一个被逐位相对移位 对其他图像扫描信号; 直到这些第一和第二图像的相同比特数的图像扫描信号可能最优地重合为止，从而找出与当时的移位比特量相对应的物体距离，所需要的移位比特数量。

公开(公告)号：US09893594B2

公开(公告)日：2018-02-13

申请号：US14417743

申请日：2012-09-12

申请人： Shinichiro Yoshida ,  Shuichi Tamura ,  Masaya Inoue ,  Akihiro Yamamura ,  Koichi Ojima ,  Shogo Okamoto ,  Yutaro Shirai

发明人： Shinichiro Yoshida ,  Shuichi Tamura ,  Masaya Inoue ,  Akihiro Yamamura ,  Koichi Ojima ,  Shogo Okamoto ,  Yutaro Shirai

IPC分类号： H02K3/34 ,  H02K15/08 ,  H02K9/22 ,  H02K3/52 ,  H02K3/32 ,  H02K15/00 ,  H02K15/06

CPC分类号： H02K9/22 ,  H02K3/325 ,  H02K3/345 ,  H02K3/522 ,  H02K15/0081 ,  H02K15/06 ,  H02K2213/03 ,  Y10T29/49012

摘要： Provided is an armature for a rotating electrical machine, which is capable of improving heat dissipation performance of an edgewise coil to enhance efficiency of the rotating electrical machine. The armature for a rotating electrical machine includes: a core including a yoke section and a tooth section that protrudes from the yoke section; an edgewise coil to be inserted onto the tooth section through intermediation of an insulating member, the edgewise coil being formed by winding a rectangular wire having a rectangular conductor cross-section through edgewise bending; and a heat transfer member filled into a gap between the tooth section and the edgewise coil. The armature has different gaps formed at two regions between the tooth section and a long side of the edgewise coil.