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1. 发明申请

US20080223691A1 Article conveying device 有权
标题翻译：物品输送装置
公开(公告)号：US20080223691A1
公开(公告)日：2008-09-18
申请号：US12070506
申请日：2008-02-19
申请人： Tokuo Nishi , Koji Kaya , Tatsuhiro Nakada , Hideki Nishikawa , Takashi Shimomura
发明人： Tokuo Nishi , Koji Kaya , Tatsuhiro Nakada , Hideki Nishikawa , Takashi Shimomura
IPC分类号： B65G47/86
CPC分类号： B65G47/847 , B65G29/00 , B65G2201/0247
摘要： An upstream side wheel Ha including grippers B which do not perform opening and closing operations for themselves, and a downstream side wheel Hb including grippers A each having an opening and closing mechanism are included, and in a delivery position in which both the wheels are adjacent to each other, a plastic bottle 1 is delivered from the gripper B to the gripper A. Here, if the upstream side wheel or the downstream side wheel abnormally stops, control means controls retreating means C provided at the downstream side wheel to switch the grippers A to a retreat state from a use state to make an opening degree of a first and second grip members 23 and 24 of each of the grippers A larger than an opening degree of both the grip members in the use state. Thereby, interference of the plastic bottles gripped by the upstream side grippers and the first and second grip members can be prevented. Even if one of the wheels abnormally stops, the other wheel can be continuously operated without increasing the equipment in size.
摘要翻译：包括不对其自身进行打开和关闭操作的夹持器B的上游侧轮Ha和包括具有打开和关闭机构的夹持器A的下游侧轮Hb，并且在两个车轮相邻的送出位置相反，塑料瓶1从夹具B被输送到夹具A.这里，如果上游侧轮或下游侧轮异常停止，则控制装置控制设置在下游侧轮的后退装置C，以将夹具从使用状态到退回状态，以使每个夹持器A的第一和第二夹持构件23和24的开度大于使用状态下两个夹持构件的开度。由此，可以防止由上游侧夹持器和第一和第二夹持构件夹持的塑料瓶的干扰。即使其中一个车轮异常停止，另一个车轮可以连续运行，而不会增加设备的大小。

2. 发明授权

US07681713B2 Article conveying device 有权
标题翻译：物品输送装置
公开(公告)号：US07681713B2
公开(公告)日：2010-03-23
申请号：US12070506
申请日：2008-02-19
申请人： Tokuo Nishi , Koji Kaya , Tatsuhiro Nakada , Hideki Nishikawa , Takashi Shimomura
发明人： Tokuo Nishi , Koji Kaya , Tatsuhiro Nakada , Hideki Nishikawa , Takashi Shimomura
IPC分类号： B65G47/86
CPC分类号： B65G47/847 , B65G29/00 , B65G2201/0247
摘要： An upstream side wheel includes grippers B which do not perform opening and closing operations for themselves, and a downstream side wheel includes grippers A each having an opening and closing mechanism, and in a delivery position in which both the wheels are adjacent to each other, a plastic bottle 1 is delivered from the gripper B to the gripper A. Here, if the upstream side wheel or the downstream side wheel abnormally stops, the grippers A are switched from a use state to a retreat state. Thereby, interference between plastic bottles gripped by the upstream side grippers and the grippers of the downstream side wheel is avoided. Even if one of the wheels abnormally stops, the other wheel can be continuously operated without increasing the equipment in size.
摘要翻译：上游侧轮包括不对其自身进行打开和关闭操作的夹持器B，并且下游侧轮包括具有打开和关闭机构的夹持器A，并且在两个轮彼此相邻的传送位置中，将塑料瓶1从夹具B输送到夹具A.这里，如果上游侧轮或下游侧轮异常停止，则把持器A从使用状态切换到后退状态。由此，避免了由上游侧夹持器和下游侧轮的夹持器夹持的塑料瓶之间的干扰。即使其中一个车轮异常停止，另一个车轮可以连续运行，而不会增加设备的大小。

3. 发明申请

US20120230671A1 COMMUNICATION DATA TRANSMISSION EQUIPMENT, A COMMUNICATION DATA TRANSMISSION SYSTEM, A COMMUNICATION DATA TRANSMISSION METHOD AND A COMMUNICATION DATA TRANSMISSION PROGRAM 有权
标题翻译：通信数据传输设备，通信数据传输系统，通信数据传输方法和通信数据传输程序
公开(公告)号：US20120230671A1
公开(公告)日：2012-09-13
申请号：US13497422
申请日：2010-09-21
申请人： Tatsuhiro Nakada , Yohei Hasegawa
发明人： Tatsuhiro Nakada , Yohei Hasegawa
IPC分类号： H04B10/08 , H04B10/12
CPC分类号： H04L47/365 , H04B10/0793 , H04J14/02 , H04L1/1825 , H04L1/187 , H04L1/203 , H04L2001/0097
摘要： Even in a network system including a transmission line of which dominant cause of delay is a transmission line delay, controlling communication speed of the network system as a whole efficiently and suppressing the delay is made possible.A communication data transmission equipment which performs sending and receiving of data with opposite transmission equipment connected via a long-distance optical fiber circuit, includes a data sending and receiving unit which, after sending a connection establishment request to the opposite transmission equipment, sends data before arrival of an acknowledgement reply, a circuit state monitoring unit which estimates data loss occurrence probability from data loss occurrence state in sending and receiving of data with the opposite transmission equipment or acquires data loss occurrence probability which the opposite transmission equipment estimated and a unit performing controls which, until the data loss occurrence probability exceeds a predetermined value, do not restrict a data size per each sending of data, and in case the data loss occurrence probability exceeds the predetermined value, reduce the data size per each sending of data according to an increase of the data loss occurrence probability.
摘要翻译：即使在包括延迟的主要原因是传输线延迟的传输线的网络系统中，也可以有效地控制网络系统的通信速度并抑制延迟。一种通过长距离光纤电路连接的相对传输设备执行数据发送和接收的通信数据传输设备，包括数据发送和接收单元，在向相对的传输设备发送连接建立请求之后，发送数据之前确认回复的到来，电路状态监视单元，其用相对的发送设备发送和接收数据时的数据丢失发生状态来估计数据丢失发生概率，或者获取相反的传输设备估计的数据丢失发生概率，以及执行控制的单元其中，直到数据丢失发生概率超过预定值时，不限制每次发送数据的数据大小，并且在数据丢失发生概率超过预定值的情况下，根据每个数据发送数据减少数据大小数据丢失增加发生 nce概率

4. 发明申请

US20080118244A1 Resilient packet ring (RPR) network system, RPR node device, redundancy method for the same, program and computer-readable medium 审中-公开
标题翻译：弹性分组环（RPR）网络系统，RPR节点设备，相同的冗余方法，程序和计算机可读介质
公开(公告)号：US20080118244A1
公开(公告)日：2008-05-22
申请号：US11984044
申请日：2007-11-13
申请人： Tatsuhiro Nakada
发明人： Tatsuhiro Nakada
IPC分类号： H04B10/20 , H04J14/00
CPC分类号： H04J3/14 , H04L12/66
摘要： An RPR network system provides redundancy to the RPR function, at occurrence of failure in an RPR node device, to communicate with RPR node devices other than the failed device on an RPR ring and redundancy to an ethernet (registered trademark) port function to communicate a MAC frame via ports. The system includes a plurality of node devices connected on a link to each other in which two adjacent RPR node devices, i.e., first and second node devices, cooperatively operate as one virtual RPR node device. The first node device is set as a master device to communicate as the virtual RPR node device with other RPR node devices and the second node device is set as a slave device not to communicate as the virtual RPR node device with other RPR node devices, the master and slave devices being replaceable by each other. Either one of ports belonging respectively to the master and slave devices is capable of outputting data therefrom.
摘要翻译： RPR网络系统在RPR节点设备发生故障时，为RPR功能提供冗余，与RPR环上的故障设备以外的RPR节点设备进行通信，并通过以太网（注册商标）端口功能进行通信通过端口的MAC帧。该系统包括连接在彼此的链路上的多个节点设备，其中两个相邻的RPR节点设备，即第一和第二节点设备协作地作为一个虚拟RPR节点设备进行操作。第一节点设备被设置为作为虚拟RPR节点设备与其他RPR节点设备通信的主设备，并且第二节点设备被设置为从属设备不与其他RPR节点设备作为虚拟RPR节点设备进行通信，主设备和从设备可以互相替换。分别属于主设备和从设备的端口之一能够从其输出数据。

5. 发明授权

US07020116B1 Method and apparatus of data transmission 失效
标题翻译：数据传输的方法和装置
公开(公告)号：US07020116B1
公开(公告)日：2006-03-28
申请号：US09672880
申请日：2000-09-29
申请人： Tatsuhiro Nakada
发明人： Tatsuhiro Nakada
IPC分类号： H04Q7/24
CPC分类号： H04L27/2662 , H04L27/2656 , H04L27/2657 , H04L27/2675 , H04L27/2676
摘要： A data transmission apparatus employing an orthogonal frequency division multiplex system. A receiver included therein analyzes a cross-correlation value sequence signal (CT) which has been acquired from the arithmetic operation of the correlation between a received signal and a predetermined symbol signal to detect an effective correlation peak in which the inter-symbol interference becomes minimum, and on the basis of the effective correlation peak thus detected, carries out the processing of synchronizing a reception sampling clock, and the control for the frame timing and the symbol timing of the receiver.
摘要翻译：一种使用正交频分复用系统的数据传输装置。其中包括的接收器分析了从接收信号和预定符号信号之间的相关性的算术运算获得的互相关值序列信号（CT），以检测符号间干扰变为最小的有效相关峰值，并且基于如此检测的有效相关峰值，执行使接收采样时钟同步的处理以及接收机的帧定时和符号定时的控制。

6. 发明申请

US20050094739A1 Method and detecting carrier shift amount in digital transmission signal, method of correcting carrier shift amount, and receiver employing these methods 失效
标题翻译：方法和检测数字传输信号中的载波移位量，校正载波移位量的方法，以及采用这些方法的接收机
公开(公告)号：US20050094739A1
公开(公告)日：2005-05-05
申请号：US10941964
申请日：2004-09-16
申请人： Hiroyuki Takesue , Tatsuhiro Nakada , Nobuo Tsukamoto
发明人： Hiroyuki Takesue , Tatsuhiro Nakada , Nobuo Tsukamoto
IPC分类号： H04K1/10 , H04L27/26
CPC分类号： H04L27/2657 , H04L27/2675
摘要： A TMCC carrier is demodulated from a received OFDM signal having a TMCC carrier. A relative carrier position of the demodulated TMCC carrier is detected. A carrier shift amount is detected from the detected relative carrier position of the TMCC carrier and a normal TMCC carrier position. The received OFDM signal is corrected for the carrier frequency shift based on the detected carrier shift amount.
摘要翻译：从具有TMCC载波的接收的OFDM信号中解调TMCC载波。检测解调的TMCC载波的相对载波位置。从检测到的TMCC载波的相对载波位置和正常的TMCC载波位置检测载波移位量。基于检测到的载波移位量，对载波频移校正接收到的OFDM信号。

7. 发明授权

US08761605B2 Communication data transmission equipment, a communication data transmission system, a communication data transmission method and a communication data transmission program 有权
标题翻译：通信数据传输设备，通信数据传输系统，通信数据传输方法和通信数据传输程序
公开(公告)号：US08761605B2
公开(公告)日：2014-06-24
申请号：US13497422
申请日：2010-09-21
申请人： Tatsuhiro Nakada , Yohei Hasegawa
发明人： Tatsuhiro Nakada , Yohei Hasegawa
IPC分类号： H04B17/00 , H04B10/00
CPC分类号： H04L47/365 , H04B10/0793 , H04J14/02 , H04L1/1825 , H04L1/187 , H04L1/203 , H04L2001/0097
摘要： Even in a network system including a transmission line of which dominant cause of delay is a transmission line delay, controlling communication speed of the network system as a whole efficiently and suppressing the delay is made possible.A communication data transmission equipment which performs sending and receiving of data with opposite transmission equipment connected via a long-distance optical fiber circuit, includes a data sending and receiving unit which, after sending a connection establishment request to the opposite transmission equipment, sends data before arrival of an acknowledgement reply, a circuit state monitoring unit which estimates data loss occurrence probability from data loss occurrence state in sending and receiving of data with the opposite transmission equipment or acquires data loss occurrence probability which the opposite transmission equipment estimated and a unit performing controls which, until the data loss occurrence probability exceeds a predetermined value, do not restrict a data size per each sending of data, and in case the data loss occurrence probability exceeds the predetermined value, reduce the data size per each sending of data according to an increase of the data loss occurrence probability.
摘要翻译：即使在包括延迟的主要原因是传输线延迟的传输线的网络系统中，也可以有效地控制网络系统的通信速度并抑制延迟。一种通过长距离光纤电路连接的相对传输设备执行数据发送和接收的通信数据传输设备，包括数据发送和接收单元，在向相对的传输设备发送连接建立请求之后，发送数据之前确认回复的到来，电路状态监视单元，其用相对的发送设备发送和接收数据时的数据丢失发生状态来估计数据丢失发生概率，或者获取相反的传输设备估计的数据丢失发生概率，以及执行控制的单元在数据丢失发生概率超过预定值的情况下，不限制每次发送数据的数据大小，并且在数据丢失发生概率超过预定值的情况下，根据每个发送数据减少数据大小数据丢失增加发生 nce概率

8. 发明授权

US06813326B1 Data transmission system, data transmission communication station, and data transmission method 失效
标题翻译：数据传输系统，数据传输通信站和数据传输方式
公开(公告)号：US06813326B1
公开(公告)日：2004-11-02
申请号：US09394276
申请日：1999-09-10
申请人： Atsushi Miyashita , Toshiyuki Akiyama , Seiichi Sano , Hisao Koda , Itsuo Ishida , Hiroyuki Takesue , Tatsuhiro Nakada , Nobuo Tsukamoto
发明人： Atsushi Miyashita , Toshiyuki Akiyama , Seiichi Sano , Hisao Koda , Itsuo Ishida , Hiroyuki Takesue , Tatsuhiro Nakada , Nobuo Tsukamoto
IPC分类号： H04L704
CPC分类号： H04H20/44 , H04H20/28 , H04L5/06
摘要： A data transmission system for transmitting data from a transmitter to a receiver located away therefrom. The transmitter includes circuitry for transmitting together a main signal having a carrier modulated with main data to be transmitted and as well as a sub-signal to be used in frequency conversion and generated by modulating a carrier of a predetermined frequency out of a frequency band of the main signal. The receiver includes circuitry for receiving a receive signal from the transmitter and extracting the sub-signal therefrom and also includes circuitry for generating a signal to be used as a reference at the time of converting the receive signal to a signal having a predetermined frequency on the basis of the extracted sub-signal.
摘要翻译：一种数据传输系统，用于将数据从发射机发射到远离其的接收机。发射机包括用于将具有被发送的主数据调制的载波的主信号和用于频率转换的子信号一起发送的电路，并且通过调制来自频率的频带中的预定频率的载波主要信号。接收机包括用于从发射机接收接收信号并从其中提取子信号的电路，还包括用于产生在将接收信号转换成具有预定频率的信号时用作参考的信号的电路，提取的子信号的基础。

9. 发明授权

US06513643B2 Resin vessel conveying system 有权
标题翻译：树脂容器输送系统
公开(公告)号：US06513643B2
公开(公告)日：2003-02-04
申请号：US10013249
申请日：2001-12-10
申请人： Tatsuhiro Nakada
发明人： Tatsuhiro Nakada
IPC分类号： B65G4724
CPC分类号： B65G47/847 , B07C5/122 , B07C5/362 , B65G2201/0244
摘要： Resin vessels 10 are conveyed on a air conveyor 2 while they are supported at a point below a flange 10b, and are conveyed into a drier 8 which is disposed within a sterile chamber 14 through an inlet wheel 24. The drier carries resilient grippers 11 including a pair of arms which are urged toward each other by a spring to hold a vessel sandwiched therebetween. A vessel is dried up while it is rotatively conveyed as gripped by the resilient grippers, and is then returned to the air conveyor 2 through an outlet wheel 26. A reject wheel 28 is disposed upstream of the outlet wheel and includes unlockable grippers 130 which grips the vessel at a point above the flange for taking out the vessel from the drier. A reject arm 46 is disposed downstream of the reject wheel and is movable into and from a conveying path of vessels within the drier. The reject arm causes a vessel which the reject wheel failed to grasp to be dropped onto a discharge chute 30. This allows a resin vessel 10 which has been deformed under heat as a result of a machine stop over an increased length of time to be rejected positively.
摘要翻译：树脂容器10在空气输送机2上被输送，同时它们被支撑在法兰10b的下方，并通过入口轮24被输送到设置在无菌室14内的干燥器8.干燥器承载弹性夹持器11，包括一对臂，其通过弹簧相互推压以夹持夹在其间的容器。当容器被弹性夹持器旋转地转动时，其被干燥，然后通过出口轮26返回到空气输送器2.排出轮28设置在出口轮的上游，并且包括可解锁的夹具130，其夹紧该容器在法兰上方的一个点处，用于从干燥器中取出容器。拒收臂46设置在拒收轮的下游，并且能够移动到干燥器内的容器的输送路径中。拒收臂使得排出轮不能抓住的容器落在排放槽30上。这允许由于机器停止而在加热时变形的树脂容器10在增加的时间长度上被拒绝积极地

10. 发明授权

US06652199B2 Vessel conveying system 有权
标题翻译：船舶输送系统
公开(公告)号：US06652199B2
公开(公告)日：2003-11-25
申请号：US10125335
申请日：2002-04-18
申请人： Kazuo Miyazaki , Norimi Kawanami , Takao Katayama , Masahito Yamamoto , Tatsuhiro Nakada
发明人： Kazuo Miyazaki , Norimi Kawanami , Takao Katayama , Masahito Yamamoto , Tatsuhiro Nakada
IPC分类号： B65G5124
CPC分类号： B65B55/027 , B08B9/42 , B65G29/00 , B65G47/847 , B65G2201/0244 , Y10S198/95
摘要： A vessel conveying system includes a dryer disposed within a first sterile chamber. If a vessel stays within the dryer for a prolonged length of time, it will be deformed under heat. Accordingly, the vessel is removed by a reject wheel and dropped onto a discharge chute disposed below. A downstream portion of the discharge chute is surrounded by a second sterile chamber, which is separate from the first mentioned sterile chamber, A glove mounted on the wall of the second chamber enables access to the discharge chute while maintaining the chute in a sterile condition. A door is mounted on the wall of the second chamber, and the rejected vessel is discharged through the door. The sterile chambers are disposed within a processing chamber. The pressure within the first chamber is controlled to be higher than the pressure (atmospheric pressure) within the processing chamber and the pressure within the second chamber is controlled to be lower than the atmospheric pressure. As a consequence, a vessel rejected by the reject wheel can be removed without destroying an internal ambience of the sterile chamber surrounds the reject wheel.
摘要翻译：容器输送系统包括设置在第一无菌室内的干燥器。如果容器在干燥器内长时间停留，则会在加热下变形。因此，通过排污轮除去容器并落到下面布置的卸料槽中。排出槽的下游部分由与第一个提及的无菌室分开的第二无菌室包围。安装在第二室的壁上的手套能够进入卸料槽，同时将滑槽保持在无菌状态。门安装在第二室的壁上，被排出的容器通过门排出。无菌室设置在处理室内。将第一室内的压力控制为高于处理室内的压力（大气压），将第二室内的压力控制为低于大气压。因此，可以移除由拒收轮排出的容器，而不会破坏围绕排污轮的无菌室的内部环境。

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