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    • 2. 发明授权
    • Heating controlling device, heating device, image forming device, program storage medium, and method
    • 加热控制装置,加热装置,图像形成装置,程序存储介质和方法
    • US08676076B2
    • 2014-03-18
    • US12792310
    • 2010-06-02
    • Takashi OhhashiTakanori Sasaki
    • Takashi OhhashiTakanori Sasaki
    • G03G15/20
    • G03G15/2039G03G2215/2032
    • There is provided a heating controlling device having: a receiving section receiving heating instructions for plural heaters; and a controller that, when the receiving section receives a heating instruction to heat another heater while two or more heaters other than the heater for which the heating instruction is received are heating, stops heating of the heaters that are heating, after a first predetermined time period elapses from the control to stop heating, starts heating of the heater for which the heating instruction is received, and each time a number of second predetermined time periods elapses from the control to start heating, restarts heating, on the basis of predetermined priority rankings, of the heaters that were controlled to stop heating.
    • 提供了一种加热控制装置,具有:接收部,其接收多个加热器的加热指令; 以及控制器,当所述接收部接收到加热指令以加热另一个加热器时,除了接收到所述加热指令的加热器之外的两个或更多个加热器加热的情况下,在第一预定时间之后停止加热的加热器的加热 从控制到停止加热的时间段,开始接收加热指令的加热器的加热,并且每次经过从控制开始加热的第二预定时间段的数量,基于预定的优先级排序重新启动加热 ,被控制停止加热的加热器。
    • 3. 发明申请
    • OXYGEN SENSOR AND OXYGEN SENSOR CONTROL DEVICE
    • 氧传感器和氧传感器控制装置
    • US20130276431A1
    • 2013-10-24
    • US13993734
    • 2010-12-24
    • Keiichiro AokiTakanori SasakiGo Hayashita
    • Keiichiro AokiTakanori SasakiGo Hayashita
    • F01N11/00
    • F01N11/007F02D41/123F02D41/1454F02D41/1476F02D2041/2051G01N27/407
    • In this invention, an EMF oxygen sensor is subjected to an activation process applying unidirectional voltage between an atmosphere electrode and an exhaust electrode thereof. A control device controlling the oxygen sensor in which a voltage was applied with the atmosphere electrode being positive, additionally applies unidirectional voltage between the electrodes to make the atmosphere electrode positive, for example, when the oxygen sensor was used under an environment in which the air-fuel ratio of the internal combustion engine was rich relative to the theoretical air-fuel ratio. Conversely, A control device controlling the oxygen sensor in which a voltage was applied to make the atmosphere electrode negative, additionally applies unidirectional voltage between the electrodes to make the atmosphere electrode negative, for example, when the oxygen sensor was used under an environment in which the air-fuel ratio was lean relative to the theoretical air-fuel ratio.
    • 在本发明中,EMF氧传感器在气氛电极和排气电极之间进行施加单向电压的激活处理。 控制在气氛电极中施加电压的氧传感器的控制装置为正,另外在电极之间施加单向电压,使得气氛电极为正,例如当氧气传感器在空气中的环境下使用时 内燃机的燃料比相对于理论空燃比是丰富的。 相反,控制其中施加电压以使气氛电极为负的氧传感器的控制装置另外在电极之间施加单向电压,以使气氛电极为负值,例如当氧传感器在其中 空燃比相当于理论空燃比。
    • 4. 发明授权
    • Gas concentration detection apparatus
    • 气体浓度检测装置
    • US08402812B2
    • 2013-03-26
    • US12451647
    • 2008-12-24
    • Takanori Sasaki
    • Takanori Sasaki
    • G01N7/00
    • G01N27/419F02D41/06F02D41/123G01N27/4067
    • It is an object of the present invention to provide a gas concentration detection apparatus that is capable of forming an accurate activity judgment when a gas concentration detection cell begins to detect gas concentration with high accuracy. When warm-up begins at time t0 in a NOx concentration detection apparatus that achieves NOx concentration detection with a NOx sensor cell after excess oxygen is discharged by an oxygen pump cell, a NOx sensor cell output begins to rise at time t1. Subsequently, at time t2, an oxygen pump cell output begins to rise. An inflection point appearing in the NOx sensor cell output is then located. At time t5 at which the inflection point appears, an activity judgment about the NOx sensor cell is formed.
    • 本发明的目的是提供一种气体浓度检测装置,其能够在气体浓度检测单元开始高精度地检测气体浓度时形成准确的活动判定。 当在氧浓度检测装置中的时间t0开始预热时,在通过氧气泵电池排出了过量的氧气之后,通过NOx传感器单元实现NOx浓度检测,在时刻t1,NOx传感器单元的输出开始上升。 随后,在时间t2,氧气泵电池输出开始上升。 然后定位出现在NOx传感器单元输出中的拐点。 在出现拐点的时间t5,形成关于NOx传感器单元的活动判断。
    • 5. 发明申请
    • ABNORMALITY DIAGNOSTIC APPARATUS FOR GAS SENSOR
    • 气体传感器异常诊断装置
    • US20130062200A1
    • 2013-03-14
    • US13638987
    • 2010-06-23
    • Takanori Sasaki
    • Takanori Sasaki
    • G01N27/41
    • G01N27/4175
    • An abnormality diagnostic apparatus for a gas sensor includes a NOx sensor includes a main pump cell, an auxiliary pump cell, and a detection cell. The apparatus diagnoses at least one of the detection cell, the main pump cell, and the auxiliary pump cell for an abnormality, based on at least one of a rising characteristic of a NOx output of the detection cell immediately after a start of detection of the NOx output, its peak value, and its subsequent falling characteristic. An abnormality of the detection cell is determined if a speed with which the NOx output rises is small; an abnormality of at least one of the main pump cell and the auxiliary pump cell is determined if a speed with which the NOx output falls is small; and an abnormality of the detection cell is determined if the peak value of the NOx output is small.
    • 用于气体传感器的异常诊断装置包括:NOx传感器,包括主泵电池,辅助泵电池和检测单元。 该装置基于检测单元的开始后的检测单元的NOx输出的上升特性中的至少一个来诊断用于异常的检测单元,主泵单元和辅助泵单元中的至少一个 NOx输出,其峰值及其随后的下降特性。 如果NOx输出上升的速度小,则确定检测单元的异常; 如果NOx输出下降的速度小,则确定主泵电池和辅助泵电池中的至少一个的异常; 并且如果NOx输出的峰值小,则确定检测单元的异常。
    • 6. 发明授权
    • Optimum shape design method and design system
    • 最佳形状设计方法和设计系统
    • US07477955B2
    • 2009-01-13
    • US10565759
    • 2004-05-25
    • Takanori SasakiToshiharu YamamotoYoshihito Fukasawa
    • Takanori SasakiToshiharu YamamotoYoshihito Fukasawa
    • G06F17/50G06F19/00
    • B65D81/053B65D81/058B65D81/107G06F17/50G06F2217/38
    • An object of the present invention enables provision of an optimum shape design method in which an optimum shape of a cushioning material used in cushioning packaging can easily and adequately be designed, and an optimum shape design system in which the optimum shape design method is used. In a configuration of the optimum shape design system is characterized by providing an optimizing control unit 2a. The optimizing control unit 2a detects a correlation among CAD data M of a cushioning material 4 defined by a CAD unit 2b, a mechanical response amount detected by a mechanical response amount calculation unit 2c, manufacturing decision information detected by a manufacturing decision detection unit 2d, and manufacturing cost information detected by a cost calculation unit 2e. Then, the optimizing control unit 2a updates the CAD data M of the cushioning material 4 until an optimum shape of the cushioning material 4 is detected based on the correlation. In the optimum shape, the mechanical response amount satisfies design conditions of the cushioning material 4, the cushioning material 4 is producible, and a minimum manufacturing cost is obtained. Then, the optimizing control unit 2a updates the correlation based on the changed CAD data M, and the optimizing control unit 2a detects the optimum shape of the cushioning material 4 based on the updated correlation.
    • 本发明的目的是提供一种最佳形状设计方法,其中可以容易且适当地设计用于缓冲包装的缓冲材料的最佳形状,以及使用最佳形状设计方法的最佳形状设计系统。 在最佳形状设计系统的结构中,其特征在于提供优化控制单元2a。 优化控制单元2a检测由CAD单元2b限定的缓冲材料4的CAD数据M,由机械响应量计算单元2c检测到的机械响应量,由制造判定检测单元2d检测的制造判定信息之间的相关性, 以及由成本计算单元2e检测的制造成本信息。 然后,优化控制单元2a更新缓冲材料4的CAD数据M,直到基于相关性检测缓冲材料4的最佳形状。 在最佳形状中,机械响应量满足缓冲材料4的设计条件,缓冲材料4可生产,并且获得最小的制造成本。 然后,优化控制单元2a基于改变的CAD数据M更新相关性,并且优化控制单元2a基于更新的相关性来检测缓冲材料4的最佳形状。
    • 7. 发明申请
    • Optimum Shape Design Method and Design System
    • 最佳形状设计方法与设计系统
    • US20070293967A1
    • 2007-12-20
    • US10565759
    • 2004-05-25
    • Takanori SasakiToshiharu YamamotoYoshihito Fukasawa
    • Takanori SasakiToshiharu YamamotoYoshihito Fukasawa
    • G06F17/50G06F19/00
    • B65D81/053B65D81/058B65D81/107G06F17/50G06F2217/38
    • An object of the present invention enables provision of an optimum shape design method in which an optimum shape of a cushioning material used in cushioning packaging can easily and adequately be designed, and an optimum shape design system in which the optimum shape design method is used. In a configuration of the optimum shape design system is characterized by providing an optimizing control unit 2a. The optimizing control unit 2a detects a correlation among CAD data M of a cushioning material 4 defined by a CAD unit 2b, a mechanical response amount detected by a mechanical response amount calculation unit 2c, manufacturing decision information detected by a manufacturing decision detection unit 2d, and manufacturing cost information detected by a cost calculation unit 2e. Then, the optimizing control unit 2a updates the CAD data M of the cushioning material 4 until an optimum shape of the cushioning material 4 is detected based on the correlation. In the optimum shape, the mechanical response amount satisfies design conditions of the cushioning material 4, the cushioning material 4 is producible, and a minimum manufacturing cost is obtained. Then, the optimizing control unit 2a updates the correlation based on the changed CAD data M, and the optimizing control unit 2a detects the optimum shape of the cushioning material 4 based on the updated correlation.
    • 本发明的目的是提供一种最佳形状设计方法,其中可以容易且适当地设计用于缓冲包装的缓冲材料的最佳形状,以及使用最佳形状设计方法的最佳形状设计系统。 在最佳形状设计系统的配置中,其特征在于提供优化控制单元2a。 优化控制单元2a检测由CAD单元2b限定的缓冲材料4的CAD数据M与由机械响应量计算单元2c检测到的机械响应量之间的相关性,由制造决策检测检测到的制造决策信息 单元2d和由成本计算单元2 e检测的制造成本信息。 然后,优化控制单元2更新缓冲材料4的CAD数据M,直到基于相关性检测到缓冲材料4的最佳形状。 在最佳形状中,机械响应量满足缓冲材料4的设计条件,缓冲材料4可生产,并且获得最小的制造成本。 然后,优化控制单元2a基于改变的CAD数据M更新相关性,并且优化控制单元2a基于更新的相关性来检测缓冲材料4的最佳形状。
    • 8. 发明授权
    • Polishing apparatus and method of manufacturing a semiconductor device using the same
    • 抛光装置及其制造方法
    • US06213852B1
    • 2001-04-10
    • US09350920
    • 1999-07-12
    • Kazuyuki FujiiTakanori SasakiMahito SawadaKouichiro Tsutahara
    • Kazuyuki FujiiTakanori SasakiMahito SawadaKouichiro Tsutahara
    • B24B2900
    • B24B37/04B24B57/02
    • A method of manufacturing a semiconductor device using a polishing apparatus is provided. A top ring holding a wafer is arranged on a pad. A polishing chemical liquid supply line for supplying a polishing chemical liquid is arranged above the pad in a direction ahead of rotation with respect to the top ring. Around the center of rotation of the pad, a partition plate having a columnar side surface is arranged. Above the pad on a side which goes away from the top ring when the pad is rotated, a polishing chemical liquid draining mechanism is arranged extending continuously from the partition plate to the outer periphery of the pad. Accordingly, a polishing apparatus is obtained by which the amount of polishing of the surface to be polished of the semiconductor substrate is stabilized and generation of microscratches on the surface to be polished can be suppressed.
    • 提供了使用抛光装置制造半导体器件的方法。 保持晶片的顶环布置在垫上。 用于供给研磨用化学液的研磨用药液供给配线相对于上述环设置在相对于上述旋转方向的方向上。 围绕垫的旋转中心,布置有具有柱状侧表面的隔板。 在衬垫旋转时离开顶环的一侧的衬垫上方,抛光化学液排放机构被布置成从隔板连续延伸到衬垫的外周。 因此,可以获得能够稳定半导体基板的被研磨面的研磨量并且能够抑制待研磨面的微细化的研磨装置。