会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 13. 发明申请
    • Fluorescent object and method for manufacturing the same
    • 荧光体及其制造方法
    • US20080171483A1
    • 2008-07-17
    • US11896655
    • 2007-09-05
    • Takeshi SugaTomonori SatoNobuyuki SudaYukichi Hanayama
    • Takeshi SugaTomonori SatoNobuyuki SudaYukichi Hanayama
    • H01J9/00
    • C08J3/203C08J2327/18
    • An inexpensive fluorescent object is provided which may be used, for example, as a test object for color adjustment of a fluorescent endoscope system. The fluorescent object generates fluorescence while minimizing the generation of ‘noise’ at undesired wavelengths, and is made using a plastic that substantially does not deteriorate upon exposure to U.V. and visible radiation. A method of producing the fluorescent object is disclosed, namely, a plastic powder (such as PTFE) and an inorganic fluorescent powder (such as Mn-doped ZnS) are blended so as to form a mixture of these components, and the mixture is then molded by applying pressure to the mixture. An important feature of the invention is that heat is not added during any phase in the production of the fluorescent object, thereby preventing the inorganic fluorescent powder from being denatured when producing the fluorescent object.
    • 提供了一种廉价的荧光物体,其可以用作例如荧光内窥镜系统的颜色调整的测试对象。 荧光物体产生荧光,同时最小化不需要的波长的“噪声”的产生,并且使用在暴露于紫外线时几乎不劣化的塑料制成。 和可见辐射。 公开了制造荧光物体的方法,即,将塑料粉末(如PTFE)和无机荧光粉末(如Mn掺杂的ZnS)混合以形成这些组分的混合物,然后混合物 通过向混合物施加压力而模制。 本发明的一个重要特征是在荧光体的生产中的任何阶段不加热,从而防止无机荧光粉在制造荧光物体时变性。
    • 14. 发明授权
    • Servo controller
    • 伺服控制器
    • US06943522B2
    • 2005-09-13
    • US10775253
    • 2004-02-11
    • Kotaro NagaokaTomonori SatoHidetoshi IkedaTeiji Takahashi
    • Kotaro NagaokaTomonori SatoHidetoshi IkedaTeiji Takahashi
    • G05B11/36G05B19/19G05D3/12H02P29/00
    • G05B19/19G05B2219/41151G05B2219/41426G05B2219/41428
    • A servo controller includes a mechanical characteristic compensation unit for attenuating components having predetermined frequencies and corresponding to characteristics of a machine, which are included in a position instruction signal corrected by a finite impulse response (FIR) filter, and computing feed-forward signals respectively associated with position, speed, and torque of the machine, and a feedback compensation unit for driving the machine according to the feed-forward signals. Therefore, the servo controller can reduce vibrations that originate from the characteristics of the machine. In addition, because the FIR filter can easily make the response path with respect to a symmetrical instructed path, become symmetrical, when the machine is made to travel between two positions along the same path, the two response paths of the round trip match each other, so machined surfaces having no irregularities can be provided when performing reciprocating machining.
    • 伺服控制器包括用于衰减具有预定频率并对应于机器特性的分量的机械特征补偿单元,其包括在由有限脉冲响应(FIR)滤波器校正的位置指令信号中,并且计算分别相关联的前馈信号 具有机器的位置,速度和扭矩,以及用于根据前馈信号驱动机器的反馈补偿单元。 因此,伺服控制器可以减少源自机器特性的振动。 另外,由于FIR滤波器能够容易地使相对于对称指令路径的响应路径成为对称的,所以当机器沿同一路径在两个位置之间行进时,往返的两个响应路径彼此匹配 因此,进行往复加工时,可以提供没有凹凸的加工面。
    • 16. 发明授权
    • Apparatus and method for performing wireless communciation access stations via a mobile terminal
    • 通过移动终端在无线接入站之间执行无线通信的装置和方法
    • US09100798B2
    • 2015-08-04
    • US13346121
    • 2012-01-09
    • Tomonori Sato
    • Tomonori Sato
    • H04W4/06H04L29/08H04W88/04H04W88/08
    • H04W4/06H04L67/28H04L67/2842H04W88/04H04W88/08
    • A packet is transferred between first and second wireless access stations via a memory of at least one mobile terminal. The first wireless access station is provided with source information to be provided for one or more users, and the second wireless access station acquire the source information from the first wireless access station by performing a predetermined procedure of packet transfer between the first and second wireless access stations via the memory of the at least one mobile terminal when the at least one mobile terminal moves between coverage areas of the first and second wireless access stations. The second wireless access station performs a predetermined data processing on the acquired source information, and provides the one or more users with the source information on which the predetermined data processing has been performed.
    • 分组经由至少一个移动终端的存储器在第一和第二无线接入站之间传送。 为第一无线接入站提供要为一个或多个用户提供的源信息,并且第二无线接入站通过执行第一和第二无线接入之间的分组传送的预定过程从第一无线接入站获取源信息 当至少一个移动终端在第一和第二无线接入站的覆盖区域之间移动时,经由至少一个移动终端的存储器。 第二无线接入站对所获取的源信息执行预定的数据处理,并且向一个或多个用户提供已经执行了预定数据处理的源信息。
    • 17. 发明申请
    • NUMERICAL CONTROL APPARATUS
    • 数控装置
    • US20150205284A1
    • 2015-07-23
    • US14408665
    • 2012-07-26
    • Daisuke FujinoYukihiro IuchiKenji OkumaTomonori Sato
    • Daisuke FujinoYukihiro IuchiKenji OkumaTomonori Sato
    • G05B19/19
    • G05B19/19G05B19/4103
    • A numerical control apparatus includes: a program input unit that reads a tool distal end position and a tool posture and generates designated position sequences of the linear axis and designated position sequences of the rotation axis; a distal-end-position-curve generating unit that generates a tool distal end position curve concerning the tool distal end position; a tool-posture-curve generating unit that generates a tool posture curve concerning the tool posture associated with movements of the tool distal end position; an interpolation calculating unit that calculates an interpolation point of the tool distal end position, calculates an interpolation point of the tool posture, and calculates an interpolation point of a machine position of the linear axis; and an interpolation output unit that moves the linear axis to the calculated interpolation point of the machine position and moves the rotation axis to the calculated interpolation point of the tool posture.
    • 数字控制装置包括:程序输入单元,其读取刀具远端位置和刀具姿势,并生成线性轴的指定位置序列和旋转轴的指定位置序列; 远端位置曲线生成单元,其生成关于所述刀具前端位置的刀具前端位置曲线; 工具姿势曲线生成单元,其生成与所述工具前端位置的移动有关的所述工具姿势的工具姿势曲线; 计算刀具前端位置的插补点的插补计算单元,计算刀具姿势的插补点,并计算线性轴的机械位置的插补点; 以及内插输出单元,其将线性轴移动到计算出的机器位置的插补点,并将旋转轴移动到计算出的刀具姿势的插补点。
    • 18. 发明申请
    • NUMERICAL CONTROL DEVICE
    • 数控装置
    • US20150081084A1
    • 2015-03-19
    • US14384205
    • 2012-06-05
    • Kenji NishiwakiShuichi ArataTomonori Sato
    • Kenji NishiwakiShuichi ArataTomonori Sato
    • G05B19/402G05B19/416
    • G05B19/402B23G1/16G05B19/416G05B2219/43006G05B2219/45216G05B2219/50225
    • In order to enable tapping to be performed precisely and with an appropriate machining time irrespective of the diameter of a tapping tool, a configuration of the present invention includes: a program analysis unit (12) that analyzes a loaded machining program and extracts thread-related information in tapping; a gradient determination unit (14) that determines acceleration regarding movement velocity of the main spindle or the feed shaft on the basis of the thread-related information obtained by the program analysis unit (12); and an interpolation and acceleration/deceleration processing unit (13) that generates a movement command for the main spindle and the feed shaft using the acceleration determined by the gradient determination unit (14). In addition, the gradient determination unit (14) varies the acceleration during acceleration/deceleration of the main spindle or the feed shaft in accordance with the diameter of a tapping tool.
    • 为了能够精确地执行攻丝并且与适当的加工时间无关,而与攻丝工具的直径无关,本发明的结构包括:程序分析单元(12),其分析加载的加工程序并提取线程相关 攻丝信息; 梯度确定单元,根据由程序分析单元获得的线程相关信息确定关于主轴或进给轴的移动速度的加速度; 以及内插和加速/减速处理单元,其使用由所述梯度确定单元(14)确定的加速度来生成所述主轴和所述进给轴的移动指令。 此外,梯度判定部14根据攻丝工具的直径来改变主轴或进给轴的加减速时的加速度。
    • 19. 发明申请
    • AUTOMATIC PROGRAMMING APPARATUS AND CONTROL COMMAND GENERATING METHOD
    • 自动编程设备和控制命令生成方法
    • US20140031970A1
    • 2014-01-30
    • US14110848
    • 2011-06-23
    • Susumu MatsubaraKenji IriguchiDaisuke FujinoTomonori Sato
    • Susumu MatsubaraKenji IriguchiDaisuke FujinoTomonori Sato
    • G05B11/01
    • G05B11/01G05B19/40931G05B2219/36336G05B2219/36337Y02P90/265
    • To generate a control command for performing machining while reducing useless machining as much as possible, in an automatic programming apparatus, a machining-process-data generating/editing unit generates machining shapes (second machining shapes) for each of machining processes from each of an externally-input plurality of machining shapes (first machining shapes), a tool/machining order/tool direction editing unit 4 receives an input of execution order of the machining processes, a machining-process adjusting unit deforms, concerning a plurality of machining shapes having a same tool direction among the second machining shapes, one machining shape among the plurality of machining shapes such that machining can be executed in the input execution order (step S1722), deletes, from another machining shape that overlaps the one machining shape because of the deformation of the one machining shape, a portion of the overlap (step S1724), and generates a third machining shape, and a control-command generating unit generates, based on the third machining shape and the input execution order, a control command for causing a machine tool to operate.
    • 为了生成用于进行加工的控制命令,尽可能地减少无用的加工,在自动编程装置中,加工过程数据生成/编辑单元从每个加工处理数据生成/编辑单元生成用于每个加工过程的加工形状(第二加工形状) 外部输入多个加工形状(第一加工形状),刀具/加工顺序/刀具方向编辑单元4接收加工处理的执行顺序的输入,加工处理调整单元对于具有 在第二加工形状中具有相同的刀具方向,可以从输入执行次序中执行加工的多个加工形状中的一个加工形状(步骤S1722)从与一个加工形状重叠的另一加工形状中删除,因为 一个加工形状的变形,重叠的一部分(步骤S1724),并且产生第三加工形状和控制 l命令生成单元基于第三加工形状和输入执行顺序生成用于使机床工作的控制命令。
    • 20. 发明申请
    • FIXING APPARATUS
    • 固定装置
    • US20120308253A1
    • 2012-12-06
    • US13484850
    • 2012-05-31
    • Munehito KurataDaizo FukuzawaNoriaki SatoKuniaki KasugaTomonori SatoMahito Yoshioka
    • Munehito KurataDaizo FukuzawaNoriaki SatoKuniaki KasugaTomonori SatoMahito Yoshioka
    • G03G15/20
    • G03G15/2042
    • A fixing apparatus includes: two rotatable members, for forming a nip, including a region where an outer diameter is increased from a longitudinal central portion toward a longitudinal end portion; a heater; and a controller for controlling a heat generation distribution of the heater. The controller is capable of controlling the heater so that the heat generation distribution of the heater is such that a heat generation amount at the longitudinal end portion is larger than that at the longitudinal central portion in a period from start of the heater until the recording material reaches the nip. A ratio of the heat generation amount at the longitudinal end portion to that at the longitudinal central portion is larger when a cumulative amount of use of the fixing apparatus is larger than a predetermined amount than when the cumulative amount of use is smaller than the predetermined amount.
    • 定影装置包括:用于形成辊隙的两个可旋转构件,包括外径从纵向中心部分朝向纵向端部部分增加的区域; 加热器 以及用于控制加热器的发热分布的控制器。 控制器能够控制加热器,使得加热器的发热分布使得在从加热器开始到记录材料的时间段期间,纵向端部处的发热量大于纵向中心部分处的发热量 到达nip 当累积使用量小于预定量时,当定影装置的累积使用量大于预定量时,纵向端部处的发热量与纵向中心部分处的发热量的比率较大 。