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    • 1. 发明授权
    • Corrective tempering apparatus for rolling elements
    • 滚动元件矫正回火设备
    • US06248287B1
    • 2001-06-19
    • US09449676
    • 1999-11-30
    • Kiyoshi HirakawaAkitoshi MaedaHiroaki SugiyamaManabu Ohhori
    • Kiyoshi HirakawaAkitoshi MaedaHiroaki SugiyamaManabu Ohhori
    • C21D900
    • C21D1/30C21D1/26C21D1/40C21D1/42C21D1/673C21D9/40F16C33/30Y02P10/253Y10S148/906
    • In a corrective tempering method and apparatus for a rolling element in which the thermal deformation of the rolling element is corrected within an extremely short time by utilizing plasticity exhibited during a metallic structure transforming process brought about by low-temperature tempering of the rolling element made of steel, the hardened rolling element is heated and pressured to a maximum temperature within a range of from 250 to 500° C. by a heating device while set in correcting molds to correct the deformation of the rolling element at a degree of working within a range not exceeding an elastic deformation range of the rolling element at a room temperature. The rolling element can be heated also by an induction heating device in addition to a conduction heating device. A product whose inner/outer diameter correcting degree of deformation is 60% or more, dimension standardizing rate is 30% or more, surface roughness is less than Ra 0.2 &mgr;m, and surface hardness is HRC 56 or more can be obtained for a correction time within 6 minutes and an induction heating time within 30 seconds.
    • 在一种用于滚动元件的矫正回火方法和装置中,通过利用在通过低温回火引起的金属结构转化过程中所发生的塑性,在极短的时间内校正滚动元件的热变形, 通过加热装置将淬火的滚动元件加热并加压到250-500℃的最高温度,同时设置在校正模具中以在一定范围内的加工程度校正滚动元件的变形 在室温下不超过滚动体的弹性变形范围。 除了传导加热装置之外,滚动体也可以通过感应加热装置加热。 其外径矫正度的变形量为60%以上,尺寸标准化率为30%以上,表面粗糙度小于Ra0.2μm,并且可以获得表面硬度为HRC 56以上的校正时间 在6分钟内,感应加热时间在30秒以内。
    • 2. 发明授权
    • Corrective tempering method for rolling elements
    • 滚动元件矫正回火方法
    • US6093268A
    • 2000-07-25
    • US632418
    • 1996-04-24
    • Kiyoshi HirakawaAkitoshi MaedaHiroaki SugiyamaManabu Ohhori
    • Kiyoshi HirakawaAkitoshi MaedaHiroaki SugiyamaManabu Ohhori
    • C21D1/26C21D1/30C21D1/40C21D1/42C21D1/673C21D9/40C21D9/00
    • C21D1/30C21D1/26C21D1/42C21D9/40F16C33/30C21D1/40C21D1/673Y02P10/253Y10S148/906
    • In a corrective tempering method and apparatus for a rolling element in which the thermal deformation of the rolling element is corrected within an extremely short time by utilizing plasticity exhibited during a metallic structure transforming process brought about by low-temperature tempering of the rolling element made of steel, the hardened rolling element is heated and pressured to a maximum temperature within a range of from 250 to 500.degree. C. by a heating device while set in correcting molds to correct the deformation of the rolling element at a degree of working within a range not exceeding an elastic deformation range of the rolling element at a room temperature. The rolling element can be heated also by an induction heating device in addition to a conduction heating device. A product whose inner/outer diameter correcting degree of deformation is 60% or more, dimension standardizing rate is 30% or more, surface roughness is less than Ra 0.2 .mu.m, and surface hardness is HRC 56 or more can be obtained for a correction time within 6 minutes and an induction heating time within 30 seconds.
    • PCT No.PCT / JP95 / 01662 Sec。 371日期:1996年4月24日 102(e)日期1996年4月24日PCT提交1995年8月23日PCT公布。 公开号WO96 / 06194 日本特开1996年2月29日,日本特开2002-1259号公报所述的一种用于滚动元件的矫正回火方法和装置,其中通过利用由低温回火引起的金属结构变形过程中所呈现的可塑性,在极短的时间内对滚动元件的热变形进行校正 由钢制的滚动元件,通过加热装置将硬化的滚动元件加热并加压到250-500℃的最高温度,同时设置在校正模具中以校正滚动元件的变形程度 在不超过滚动体的弹性变形范围的范围内在室温下工作。 除了传导加热装置之外,滚动体也可以通过感应加热装置加热。 其内/外径矫正度为60%以上,尺寸标准化率为30%以上,表面粗糙度小于Ra0.2μm的产品,并且可以获得表面硬度为HRC 56以上的校正 时间在6分钟内,感应加热时间在30秒以内。
    • 3. 发明申请
    • PHOTOSENSOR AND DISPLAY DEVICE
    • 照相机和显示设备
    • US20120154354A1
    • 2012-06-21
    • US13391654
    • 2010-07-12
    • Sachio TsujinoYousuke NakagawaKazuhiro MaedaIchiroh ShirakiHiroaki SugiyamaNobuhiro Kuwabara
    • Sachio TsujinoYousuke NakagawaKazuhiro MaedaIchiroh ShirakiHiroaki SugiyamaNobuhiro Kuwabara
    • G09G5/02G01J1/46
    • H01L27/14643G06F3/0412G06F3/042H04N5/357
    • By reducing the potential drop of a storage node that occurs due to feedthrough, the capacitance of a storage capacitor is reduced and sensor sensitivity is improved. In a photosensor, the first terminal of a storage capacitor (C2) and the gate of a MOS transistor (M1), which outputs a signal in accordance with the potential of a storage node (N2), are connected to the storage node (N2). A forward biased pulse voltage is supplied to the anode of a first photodiode (DS) in a reset period, and a reverse biased voltage is supplied to the anode of the first photodiode in a storage period and a readout period. A reverse biased voltage is supplied to the anode of a second photodiode (DM) in all operation periods. A voltage that keeps the potential of the storage node lower than the threshold value of the MOS transistor (M1) is supplied to the second terminal of the storage capacitor in the reset period and the storage period, and a voltage that thrusts the potential of the storage node (N2) upward to the threshold value of the MOS transistor (M1) or higher is supplied to the second terminal of the storage capacitor in the readout period.
    • 通过减少由于馈通而发生的存储节点的潜在下降,存储电容器的电容降低并且传感器灵敏度得到改善。 在光电传感器中,根据存储节点(N2)的电位输出信号的存储电容器(C2)的第一端子和MOS晶体管(M1)的栅极连接到存储节点(N2 )。 在复位周期中将正向偏置脉冲电压提供给第一光电二极管(DS)的阳极,并且在存储周期和读出周期中向第一光电二极管的阳极提供反向偏置电压。 在所有操作周期中,向第二光电二极管(DM)的阳极提供反向偏置电压。 在复位期间和保存期间,保持存储节点的电位低于MOS晶体管(M1)的阈值的电压被提供给存储电容器的第二端子,并且将电压 存储节点(N2)向上升到MOS晶体管(M1)或更高的阈值,在读出期间提供给存储电容器的第二端。
    • 7. 发明授权
    • Automatic sorting apparatus
    • 自动分拣装置
    • US5887729A
    • 1999-03-30
    • US558690
    • 1995-11-14
    • Hiroaki Sugiyama
    • Hiroaki Sugiyama
    • B07C5/06B07B1/10B07B13/05
    • B07B1/10
    • The invention concerns an automatic sorting apparatus for sorting out pieces under process, such as fish and shellfish or industrial products, into different size groups. In the prior art automatic sorting apparatus, pieces under process are readily caught in sorting holes, making it difficult to obtain smooth sorting. The invention permits smooth sorting. An automatic sorting apparatus to this end includes an endless conveyor having sorting holes and capable of excursion, an inner receiver disposed inside the endless conveyor for receiving pieces under process falling from the sorting holes, and an outer receiver disposed outside and below a U-turn portion of the endless conveyor for receiving pieces under process falling off the U-turn portion. Another automatic sorting apparatus includes two or more endless conveyors having different excursion diameters and disposed one inside another at an interval. The sorting holes of each endless conveyor are smaller than those of the next outer endless conveyor. An inner receiver is disposed inside the innermost endless conveyor for receiving pieces under process falling through the sorting holes of that endless conveyor. An outer conveyor is disposed outside and below a U-turn portion of each endless conveyor for receiving pieces under process falling through the sorting holes of that endless conveyor.
    • 本发明涉及一种自动分选装置,用于将正在处理的碎片,例如鱼贝类或工业产品分类成不同尺寸的组。 在现有技术的自动分拣装置中,正在处理的片易于卡在分拣孔中,使得难以顺利分选。 本发明允许顺利分选。 为此,自动分拣装置包括具有分拣孔并能够偏移的环形输送机,设置在环形输送机内部的内部接收器,用于接收从分拣孔落下的处理件,以及设置在U形圈外侧和下方的外部接收器 环形输送机的一部分,用于接收处于从U形转弯部分落下的碎片。 另一种自动分拣装置包括具有不同漂移直径的两个或更多个环形输送机,并以间隔一个内置另一个。 每个环形输送机的分拣孔小于下一个外循环输送机的分拣孔。 内部接收器设置在最内环形输送机内部,用于接收正在落下的通过该环形输送机的分拣孔的碎片。 外部输送机设置在每个环形输送机的U形转弯部分的外侧和下方,用于接收在该环形输送机的分拣孔落下的处理件。
    • 10. 发明申请
    • DISPLAY DEVICE
    • 显示设备
    • US20110149174A1
    • 2011-06-23
    • US13061545
    • 2009-07-07
    • Kazuhiro MaedaIchiro ShirakiHiroaki Sugiyama
    • Kazuhiro MaedaIchiro ShirakiHiroaki Sugiyama
    • H04N5/66G09G5/00
    • G06F3/0412G02F2001/13312G09G3/3648G09G3/3688G09G2360/144G09G2360/148
    • A display device includes a photosensor (81) in a pixel region (1) of an active matrix substrate (100). The photosensor (81) includes a photodetection element, reset signal wiring that supplies a reset signal RS to the photosensor (81), readout signal wiring that supplies a readout signal RW to the photosensor (81), and a sensor switching element for reading out the potential of the storage node to output wiring as sensor circuit output, the potential of the storage node having changed in accordance with the amount of light received by the photodetection element in a sensing period, the sensing period being from when the reset signal is supplied until when the readout signal is supplied. The potential of wiring having a parasitic capacitance with the storage node is fixed to a predetermined potential V0 at least either one of immediately before the readout signal RW and immediately before the reset signal RS.
    • 显示装置包括在有源矩阵基板(100)的像素区域(1)中的光电传感器(81)。 光传感器(81)包括光检测元件,向光传感器(81)提供复位信号RS的复位信号布线,向光电传感器(81)提供读出信号RW的读出信号布线和用于读出的传感器开关元件 存储节点输出布线作为传感器电路输出的电位,存储节点的电位根据在感测周期中由光电检测元件接收的光量而改变,感测周期是从复位信号提供时 直到提供读出信号为止。 具有与存储节点的寄生电容的布线的电位在紧接在读出信号RW之前和紧接在复位信号RS之前的至少一个中固定到预定电位V0。