公开(公告)号：US09114417B2

公开(公告)日：2015-08-25

申请号：US12704788

申请日：2010-02-12

申请人： Takeshi Sakamoto ,  Kazuaki Takahashi

发明人： Takeshi Sakamoto ,  Kazuaki Takahashi

IPC分类号： B05B1/14 ,  B05C3/04 ,  B05C3/10 ,  B08B9/093

CPC分类号： B05C3/04 ,  B05C3/10 ,  B08B9/0933

摘要： A nozzle for forming a jet stream in a tank filled with a liquid, including a first injection hole for obliquely generating a first jet stream with respect to a bottom of the tank and a second injection hole for generating a second jet stream at an angle shallower than an angle at which the first jet stream is generated with respect to the bottom of the tank.

摘要翻译： 一种用于在填充有液体的罐中形成喷射流的喷嘴，包括用于相对于罐的底部倾斜产生第一喷射流的第一喷射孔和用于产生角度较浅的第二喷射流的第二喷射孔 比第一喷射流相对于罐的底部产生的角度大。

公开(公告)号：US08844544B2

公开(公告)日：2014-09-30

申请号：US12918560

申请日：2009-02-06

申请人： Kazuaki Takahashi ,  Takeshi Sakamoto

发明人： Kazuaki Takahashi ,  Takeshi Sakamoto

IPC分类号： B08B3/04 ,  B08B3/14 ,  B01D21/24 ,  C23G3/00 ,  B01D21/02 ,  B01D21/26 ,  B08B3/02

CPC分类号： B08B3/14 ,  B01D21/02 ,  B01D21/2416 ,  B01D21/245 ,  B01D21/2472 ,  B01D21/2488 ,  B01D21/267 ,  B01D2221/14 ,  B08B3/02 ,  C23G3/00

摘要： A device for filtering a processing liquid in a processing tank includes an opening for recovering a surface-layer processing liquid on a work-discharging side of the tank, a separating part for recovering an intermediate-layer processing liquid on a work-receiving side of the tank, a hopper for recovering a bottom-layer processing liquid on a bottom surface on the work-receiving side, a first processing liquid discharge nozzle on a bottom surface of the tank and which is oriented in an opposite direction to a work-conveying direction and toward the bottom surface, second processing liquid discharge nozzles on both side surfaces of the processing tank and which are oriented in an opposite direction to the work-conveying direction and toward a work, cyclone devices which filter the processing liquids recovered by the opening, the separating part, and the hopper, and which individually separate foreign material, a separating tank, and a screw conveyor.

摘要翻译： 用于对处理槽中的处理液进行过滤的装置包括用于回收罐的排出侧的表面层处理液的开口，在工作受理侧回收中间层处理液的分离部 所述罐，用于在所述受理侧的底面上回收底层处理液的料斗，在所述罐的底面上的第一处理液排出喷嘴，所述第一处理液排出喷嘴沿与工件输送相反的方向 方向并且朝向底面，处理槽的两个侧表面上的第二处理液体排出喷嘴并且沿着与工件输送方向相反的方向并且朝向工件定向;旋风装置，其对由开口回收的处理液体进行过滤 ，分离部分和料斗，并且单独分离异物，分离罐和螺旋输送机。

公开(公告)号：US08567315B2

公开(公告)日：2013-10-29

申请号：US12672857

申请日：2008-08-13

申请人： Kazuaki Takahashi ,  Hajime Moriwaki ,  Masakatsu Kaneyasu ,  Terumasa Takahashi ,  Hiroyuki Anzai ,  Hiroshi Kobayashi ,  Toshifumi Ono

发明人： Kazuaki Takahashi ,  Hajime Moriwaki ,  Masakatsu Kaneyasu ,  Terumasa Takahashi ,  Hiroyuki Anzai ,  Hiroshi Kobayashi ,  Toshifumi Ono

IPC分类号： B65H5/22 ,  B41C1/00

CPC分类号： B41C1/1083 ,  B65H3/0816 ,  B65H3/44 ,  B65H5/04 ,  B65H5/10 ,  B65H7/02 ,  B65H9/06 ,  B65H29/241 ,  B65H29/245 ,  B65H29/32 ,  B65H43/02 ,  B65H2301/44336 ,  B65H2404/725 ,  B65H2406/1132 ,  B65H2406/14 ,  B65H2406/34 ,  B65H2511/10 ,  B65H2511/232 ,  B65H2511/415 ,  B65H2511/51 ,  B65H2555/30 ,  B65H2701/1928 ,  B65H2220/01 ,  B65H2220/02 ,  B65H2220/03

摘要： To provide a plate supply and discharge device and a printing plate forming device which are capable of transferring plates and printing plates of various sizes and preventing the plates and printing plates from being damaged in the plate supply and discharge device (printing plate forming device). A plate supply and discharge unit (4) which supplies a plate (P1) to a drawing unit (3), receives a printing plate P2, which is obtained by drawing an image on the plate P1, from the drawing unit (3), and delivers it to a processor. The plate supply and discharge unit includes a plate supply table (41) for allowing the plate (P1) to float at atmospheric pressure, moves the plate (P1) in a state of being allowed to float at atmospheric pressure above the plate supply table (41), and supplies it to the drawing unit (3).

摘要翻译： 为了提供能够传送各种尺寸的板和印版的板供给和排出装置和印版形成装置，并且防止板和排版装置（印版成型装置）中的板和印版受损。 向平板（3）供给板（P1）的板供给和排出单元（4）从拉伸单元（3）接收通过在板P1上绘制图像而获得的印版P2， 并将其传送到处理器。 板供给单元包括用于使板（P1）在大气压下浮动的板供给台（41），使板（P1）在板供给台上方的大气压下被允许浮动的状态 41），并将其提供给绘图单元（3）。

公开(公告)号：US08135423B2

公开(公告)日：2012-03-13

申请号：US12095053

申请日：2006-11-10

申请人： Suguru Fujita ,  Kazuaki Takahashi ,  Akihiko Matsuoka

发明人： Suguru Fujita ,  Kazuaki Takahashi ,  Akihiko Matsuoka

IPC分类号： H04B7/00

CPC分类号： H04L7/0091 ,  G01S7/40 ,  G01S13/10 ,  G01S13/878 ,  G07B15/063 ,  H04L7/0033 ,  H04L27/02

摘要： A communication apparatus is provided in which only a terminal having a specific positional relationship can perform communication through a relatively simple arrangement. When initial setting is performed or communication is started, a timing calculator calculates a time difference corresponding to the difference between a path from a first antenna to a terminal and a path from a second antenna to the terminal, based on a transmission signal from the first antenna and a reflection signal provided by having the transmission signal reflected from the second antenna or a communication partner, i.e. the terminal, and returned back to the first antenna. Based on the time difference thus calculated, the timing calculator outputs a signal for regulating the transmission timing of transmission data from the first antenna to a variable delay unit. The variable delay unit delays transmission timing of the transmission data depending on the timing regulation signal and outputs the delayed transmission data to a modulator/demodulator.

摘要翻译： 提供一种通信装置，其中仅具有特定位置关系的终端可以通过相对简单的布置来执行通信。 当进行初始设定或开始通信时，定时计算器基于来自第一天线的发送信号，计算从第一天线到终端的路径与从第二天线到终端的路径之间的差对应的时间差 天线和通过具有从第二天线或通信对方（即终端）反射并且返回到第一天线的发射信号而提供的反射信号。 基于这样计算的时间差，定时计算器输出用于调节从第一天线到可变延迟单元的发送数据的发送定时的信号。 可变延迟单元根据定时调节信号延迟发送数据的发送定时，并将延迟的发送数据输出到调制器/解调器。

公开(公告)号：US07968970B2

公开(公告)日：2011-06-28

申请号：US12435744

申请日：2009-05-05

申请人： Kazuaki Takahashi

发明人： Kazuaki Takahashi

IPC分类号： H01L21/70

CPC分类号： H01L29/7322 ,  H01L21/743 ,  H01L29/10

摘要： A semiconductor device is presented, which includes a semiconductor substrate with a high concentration impurity of a first type conductivity and an epitaxial layer with a low concentration impurity provided on the semiconductor substrate, where a trench coupled to the semiconductor substrate is provided in the epitaxial layer with the low concentration impurity. And the semiconductor device further includes a high concentration impurity region of the first type conductivity having the same type conductivity as the type of the semiconductor substrate formed in at least the epitaxial layer with the low concentration impurity along an inner wall of the trench and coupled to the semiconductor substrate with the high concentration impurity of a first type conductivity, and contacts formed on the high concentration impurity region of the first type conductivity.

摘要翻译： 提出了一种半导体器件，其包括具有第一类型导电性的高浓度杂质的半导体衬底和设置在半导体衬底上的具有低浓度杂质的外延层，其中在外延层中提供耦合到半导体衬底的沟槽 具有低浓度杂质。 并且半导体器件还包括第一类型导电性的高浓度杂质区，其具有与至少外延层中形成的半导体衬底的类型相同的导电性，其中沟槽的内壁具有低浓度杂质，并且耦合到 具有第一类型电导率的高浓度杂质的半导体衬底和形成在第一类型电导率的高浓度杂质区上的触点。

公开(公告)号：US20110042207A1

公开(公告)日：2011-02-24

申请号：US12864157

申请日：2009-01-21

申请人： Kazuaki Takahashi ,  Shunsuke Watanabe

发明人： Kazuaki Takahashi ,  Shunsuke Watanabe

IPC分类号： C25D17/02

CPC分类号： B01F5/0206 ,  B01F15/00876 ,  B05C3/04 ,  B05C3/10 ,  C25D17/02 ,  C25D21/04 ,  C25D21/18

摘要： Problem to be SolvedTo provide a processing tank with a simple construction which enables fluidization and agitation of a processing liquid in order to reliably prevent settling of the processing liquid.SolutionAn electrodeposition tank 2 that pools and enables fluidization and agitation of an electrodeposition paint 1 into which a work W is to be immersed, the electrodeposition tank 2 including: a grooved part 7 having a plurality of concave and convex shapes formed along a work-conveying direction on a bottom surface 6 of the electrodeposition tank 2; an electrodeposition paint supply pipe 12 that circulates and supplies the electrodeposition paint 1 to the electrodeposition tank 2; a plurality of branch pipes 13 which are arranged on ridges 10b of the grooved part 7 and which branch off the electrodeposition paint supply pipe 12; and electrodeposition paint discharge nozzles 14 provided oriented upstream in the work-conveying direction at a section of the branch pipes 13 which opposes bottom parts 10a of the grooved part 7.

摘要翻译： 要解决的问题为了提供具有简单结构的处理罐，其能够使处理液体流化和搅拌，以便可靠地防止处理液体的沉降。 解决方案电沉积槽2，其沉积并使能够浸入工件W的电沉积涂料1的流化和搅拌，电沉积槽2包括：具有多个沿着工件形成的凹凸形状的凹槽部分7， 在电沉积槽2的底面6上的输送方向; 将电沉积涂料1循环并供给到电沉积槽2的电沉积涂料供给管12; 多个分支管13，其布置在开槽部分7的脊10b上，并从电沉积涂料供应管12分支; 以及在分支管13的与凹槽部分7的底部10a相对的部分处在工作输送方向上游设置的电沉积涂料排出喷嘴14。

公开(公告)号：US07881400B2

公开(公告)日：2011-02-01

申请号：US11914281

申请日：2006-05-08

申请人： Suguru Fujita ,  Masahiro Mimura ,  Kazuaki Takahashi ,  Yoshinori Kunieda ,  Noriyuki Ueki

发明人： Suguru Fujita ,  Masahiro Mimura ,  Kazuaki Takahashi ,  Yoshinori Kunieda ,  Noriyuki Ueki

IPC分类号： H04L27/00

CPC分类号： H04J3/0605 ,  H04B1/7183 ,  H04L25/4902

摘要： A pulse modulation type transmitter apparatus and a pulse modulation type receiver apparatus wherein both a fast synchronization establishment and a low power consumption of a synchronizing part can be achieved at the same time and wherein the data transmission/reception can be performed soon after a commencement of communication, and further a fast data transmission and a low power consumption can be achieved. A first template signal (1006), which is generated based on a separately transmitted RF frame synchronization signal (1005), is used to generate a frame synchronization signal (1009), and a second frame synchronization timing adjusting part (150) is used to synchronize the frame synchronization signal (1009) with a received RF data signal (1004). Then, a synchronization detection is performed, whereby a prompt pulse acquisition and a prompt pulse phase acquisition can be achieved. After the establishment of frame synchronization, a template switching part (142) is used to switch from the first template signal (1006) to a second template signal (1007) that has been already synchronized with the first template signal (1006). Then, a synchronization detection is performed, whereby the frame synchronization can be maintained.

摘要翻译： 一种脉冲调制型发送装置和脉冲调制型接收装置，其特征在于可以同时实现同步部分的快速同步建立和低功耗，其中数据发送/接收可以在开始后立即执行 通信，进一步实现快速数据传输和低功耗。 使用基于单独发送的RF帧同步信号（1005）生成的第一模板信号（1006）来生成帧同步信号（1009），并且使用第二帧同步定时调整部（150） 使帧同步信号（1009）与接收的RF数据信号（1004）同步。 然后，执行同步检测，从而可以实现提示脉冲获取和提示脉冲相位采集。 在帧同步建立之后，使用模板切换部分（142）从第一模板信号（1006）切换到已经与第一模板信号（1006）同步的第二模板信号（1007）。 然后，进行同步检测，由此能够维持帧同步。

公开(公告)号：US07664160B2

公开(公告)日：2010-02-16

申请号：US10580540

申请日：2005-10-11

申请人： Suguru Fujita ,  Kazuaki Takahashi ,  Masahiro Mimura

发明人： Suguru Fujita ,  Kazuaki Takahashi ,  Masahiro Mimura

IPC分类号： H03B1/00 ,  H03K7/04

CPC分类号： H04B1/7172 ,  H04L25/4902

摘要： A transmitting device includes a continuous pulse generating unit, modulating unit, and output unit. The continuous pulse generating unit continuously generates multiple impulse waveforms at arbitrary time intervals but shorter than the pulse string repetition cycle. The modulating unit modulates continuous pulses generated by the continuous pulse generating unit, using transmission data. The output unit outputs a modulated pulse modulated by the modulating unit. The receiving device includes a modulated pulse receiving unit that receives a modulated pulse transmitted from the above-mentioned transmitting device; and a demodulating unit that receives transmission data by demodulating a modulated pulse received by the modulated pulse receiving unit.

摘要翻译： 发送装置包括连续脉冲发生单元，调制单元和输出单元。 连续脉冲发生单元以任意的时间间隔连续产生多个脉冲波形，但短于脉冲串重复周期。 调制单元使用发送数据来调制由连续脉冲发生单元产生的连续脉冲。 输出单元输出由调制单元调制的调制脉冲。 接收装置包括：接收从上述发送装置发送的调制脉冲的调制脉冲接收单元; 以及解调单元，其通过解调由调制脉冲接收单元接收的调制脉冲来接收发送数据。

公开(公告)号：US20090262710A1

公开(公告)日：2009-10-22

申请号：US12439529

申请日：2007-09-03

申请人： Hiroshi Doi ,  Taisuke Matsumoto ,  Kazuaki Takahashi

发明人： Hiroshi Doi ,  Taisuke Matsumoto ,  Kazuaki Takahashi

IPC分类号： H04J3/06

CPC分类号： H04W56/001 ,  H04W84/18 ,  Y02D70/142 ,  Y02D70/144 ,  Y02D70/166 ,  Y02D70/22

摘要： Provided is a radio communication method capable of optimally using the wide-band communication enabled time while maintaining power saving in an ad hoc network. According to this method, in the ad hoc network using the wide-band communication and a narrow-band communication, transmission and output of the narrow-band synchronization tone signal and the resynchronization tone signal are controlled so that the reach radius of the narrow-band synchronization signal and the resynchronization tone signal exceeds the reach radius of the wide-band signal (milli-wave UWE signal). Thus, when radio communication devices pass by each other, super frame synchronization is completed before reaching the wide-band communication enabled range of the ad hoc network, thereby optimally using the wide-band communication-enabled time.

摘要翻译： 提供了能够在维持自组织网络中的省电的同时最佳地使用宽带通信使能时间的无线电通信方法。 根据该方法，在使用宽带通信和窄带通信的自组织网络中，控制窄带同步音信号和再同步信号的发送和输出， 频带同步信号和再同步信号超过宽带信号（毫波UWE信号）的到达半径。 因此，当无线电通信设备彼此通过时，在达到自组织网络的宽带通信使能范围之前完成超帧同步，从而最佳地使用具有宽带通信功能的时间。

公开(公告)号：US20090041169A1

公开(公告)日：2009-02-12

申请号：US11914281

申请日：2006-05-08

申请人： Suguru Fujita ,  Masahiro Mimura ,  Kazuaki Takahashi ,  Yoshinori Kunieda ,  Noriyuki Ueki

发明人： Suguru Fujita ,  Masahiro Mimura ,  Kazuaki Takahashi ,  Yoshinori Kunieda ,  Noriyuki Ueki

IPC分类号： H04L7/00

CPC分类号： H04J3/0605 ,  H04B1/7183 ,  H04L25/4902

摘要： A pulse modulation type transmitter apparatus and a pulse modulation type receiver apparatus wherein both a fast synchronization establishment and a low power consumption of a synchronizing part can be achieved at the same time and wherein the data transmission/reception can be performed soon after a commencement of communication, and further a fast data transmission and a low power consumption can be achieved. A first template signal (1006), which is generated based on a separately transmitted RF frame synchronization signal (1005), is used to generate a frame synchronization signal (1009), and a second frame synchronization timing adjusting part (150) is used to synchronize the frame synchronization signal (1009) with a received RF data signal (1004). Then, a synchronization detection is performed, whereby a prompt pulse acquisition and a prompt pulse phase acquisition can be achieved. After the establishment of frame synchronization, a template switching part (142) is used to switch from the first template signal (1006) to a second template signal (1007) that has been already synchronized with the first template signal (1006). Then, a synchronization detection is performed, whereby the frame synchronization can be maintained.

摘要翻译： 一种脉冲调制型发送装置和脉冲调制型接收装置，其特征在于可以同时实现同步部分的快速同步建立和低功耗，其中数据发送/接收可以在开始后立即执行 通信，进一步实现快速数据传输和低功耗。 使用基于单独发送的RF帧同步信号（1005）生成的第一模板信号（1006）来生成帧同步信号（1009），并且使用第二帧同步定时调整部（150） 使帧同步信号（1009）与接收的RF数据信号（1004）同步。 然后，执行同步检测，从而可以实现提示脉冲获取和提示脉冲相位采集。 在帧同步建立之后，使用模板切换部分（142）从第一模板信号（1006）切换到已经与第一模板信号（1006）同步的第二模板信号（1007）。 然后，进行同步检测，由此能够维持帧同步。