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    • 1. 发明授权
    • Roof mounted light transmitting frame
    • 屋顶安装透光框架
    • US5531049A
    • 1996-07-02
    • US208249
    • 1994-03-09
    • Takashi HiraiYoshio Kaneko
    • Takashi HiraiYoshio Kaneko
    • E04D13/15E04D3/366E04D3/40E04D13/18F24J2/04E04B7/18
    • F24J2/5207F24J2/045F24J2/4614F24J2/4636F24J2/5211F24J2/5264H02S20/23Y02B10/12Y02B10/20Y02E10/44Y02E10/47
    • A roof mounted light transmitting frame has a pair of longitudinal sash members. A light-transmitting sheet support sash member is mounted obliquely along the inner surface of each longitudinal sash member such that the distance between its front end and the lower edge of the longitudinal sash member is larger than the distance between its rear end and the lower edge of the longitudinal sash member. A lower horizontal sash member with a vertical support member is mounted between front ends of the light-transmitting sheet support sash members. An upper horizontal sash member is mounted between rear ends of the light-transmitting sheet support sash members. A light-transmitting sheet is mounted between the light-transmitting sheet support sash members, and the upper and lower horizontal sash members. A recess is longitudinally formed on the lower horizontal sash member to receive an upper horizontal sash member of the next frame.
    • 屋顶安装的透光框架具有一对纵向窗框构件。 透光片支撑框架构件沿着每个纵向窗框构件的内表面倾斜地安装,使得其纵向窗框构件的前端和下边缘之间的距离大于其后端和下边缘之间的距离 的纵向窗扇构件。 具有垂直支撑构件的下部水平窗框构件安装在透光片支承窗扇构件的前端之间。 上部水平窗框构件安装在透光片支承窗扇构件的后端之间。 透光片材安装在透光片材支承框架构件和上部和下部水平窗框构件之间。 在下部水平窗框构件上纵向地形成凹部以容纳下一个框架的上部水平窗框构件。
    • 2. 发明授权
    • Roof
    • 屋顶
    • US5406936A
    • 1995-04-18
    • US598633
    • 1990-10-19
    • Takashi HiraiYoshio Kaneko
    • Takashi HiraiYoshio Kaneko
    • E04D13/15E04D3/366E04D3/40E04D13/18F24J2/04F24J2/42
    • F24J2/5207F24J2/045F24J2/4614F24J2/4636F24J2/5211F24J2/5264H02S20/23Y02B10/12Y02B10/20Y02E10/44Y02E10/47
    • A roof mounted solar collector structure has cross-pieces arranged at regular intervals parallel to the eaves line on overlying roof members which enclose a part of the roof structure. Connecting members are mounted orthogonally on the cross-pieces at regular intervals. Solar energy collection members are laid between the connecting members. Support members are mounted at peripheral edges of an enclosed part of the roof to cover upper side and outside surfaces of the crosspieces. A lower end of each support member contacts an upper side of the overlying roof members. Receiving portions formed at outside lower ends of the connecting members are in close proximity to side edges of the enclosed part of the roof and receive one of the support members.
    • PCT No.PCT / JP90 / 00223 Sec。 371 1990年10月19日第 102(e)1990年10月19日PCT PCT 1990年2月23日提交PCT公布。 第WO90 / 12177号公报 日期1990年10月18日。屋顶安装的太阳能收集器结构具有平行于屋顶构件的屋檐线的规则间隔布置的横向构件,其包围屋顶结构的一部分。 连接构件以规则的间隔正交地安装在横梁上。 太阳能收集构件放置在连接构件之间。 支撑构件安装在屋顶的封闭部分的周边边缘以覆盖挡板的上侧和外侧表面。 每个支撑构件的下端接触上覆屋顶构件的上侧。 形成在连接构件的外侧下端的接收部分靠近屋顶的封闭部分的侧边缘并且接收支撑构件中的一个。
    • 3. 发明授权
    • Roof
    • 屋顶
    • US5121583A
    • 1992-06-16
    • US425280
    • 1989-10-23
    • Takashi HiraiYoshio Kaneko
    • Takashi HiraiYoshio Kaneko
    • E04D13/18F24J2/04
    • F24J2/526F24J2/045F24J2/4636F24J2/5207F24J2/5211F24J2/5245F24J2/5264F24J2002/5215F24J2002/5281Y02B10/20Y02E10/44Y02E10/47
    • A roof structure suitable for use with solar energy collection elements has a wide lower width-adjusting section defined at a lateral lower portion of each of a number of connecting members disposed at predetermined intervals, while a wide intermediate width-adjusting section is defined at an intermediate portion of the side of the connecting member. The lower portion of the side edge of a lighting frame serving as a roofing member is inserted into the intermediate width-adjusting section, and the side edge of a water proof sheet is laid below the lighting frame to be received inside the lower width-adjusting section. When the total width of the roofing member is greater than the backing width of the roof, the side edge of the lighting frame and that of the waterproof sheet are located in positions close to the center of the connecting member. On the other hand, when the total width of the roofing member is smaller than the backing width of the roof, the side edge of the lighting frame and that of the waterproof sheet are located in positions close to the outer side of the connecting member.
    • 适合与太阳能收集元件一起使用的屋顶结构具有宽度较小的宽度调节部分,其限定在以预定间隔设置的多个连接构件中的每一个的侧下部,而宽中间宽度调节部分限定在 连接构件侧面的中间部分。 用作屋顶构件的照明框架的侧边缘的下部插入到中间宽度调节部分中,并且防水片的侧边缘被放置在照明框架下面以被接收在下部宽度调节 部分。 当屋顶构件的总宽度大于屋顶的背衬宽度时,照明框架的侧边缘和防水片材的侧边缘位于靠近连接构件中心的位置。 另一方面,当屋顶构件的总宽度小于屋顶的背衬宽度时,照明框架的侧边缘和防水片材的侧边缘位于靠近连接构件的外侧的位置。
    • 4. 发明授权
    • Agitation device, melting apparatus and melting method
    • 搅拌装置,熔化装置和熔化方法
    • US08599899B2
    • 2013-12-03
    • US13126309
    • 2009-10-27
    • Shinichi KoriyamaTakashi Hirai
    • Shinichi KoriyamaTakashi Hirai
    • F27D27/00F27D3/00G21C7/00
    • B22D1/00B22D46/00C22B9/003C22B21/0084C22B21/0092F27B3/10F27B3/205F27D27/00Y02P10/218Y02P10/253
    • An agitation device, a melting apparatus, and a melting method for improving melting efficiency of molten metal without contaminating the same. The agitation device is provided with a traveling magnetic field generating unit which is disposed outside a charging tank for storing molten metal and generates, inside the charging tank, a magnetic field that travels downward along the rear sidewall of the charging tank. A flow of the molten metal that rotates longitudinally about an axis approximately parallel to the surface of the molten metal is produced in the molten metal. By charging aluminum cutting chips into the molten metal in which the flow is produced, the aluminum cutting chips move with a downward flow of the molten metal, and are immersed in the molten metal. As a result, melting of the aluminum cutting chips can be accelerated.
    • 搅拌装置,熔融装置和熔融方法,用于提高熔融金属的熔化效率而不污染熔融金属。 搅拌装置设置有行进磁场产生单元,其设置在用于储存熔融金属的充电槽的外部,并且在充电箱内部产生沿着充电箱的后侧向下行进的磁场。 在熔融金属中产生熔融金属沿着大致平行于熔融金属表面的轴线纵向旋转的流动。 通过将铝切割屑装入到产生流动的熔融金属中,铝切割芯片随着熔融金属的向下流动而移动,并且浸入熔融金属中。 结果,可以加速铝切割屑的熔化。
    • 5. 发明授权
    • Molding machine and molding method
    • 成型机及成型方法
    • US07186106B2
    • 2007-03-06
    • US10782761
    • 2004-02-23
    • Tsukasa KatoHidenori UebayashiTakashi HiraiYoshiki MatsuuraHiroaki Furuya
    • Tsukasa KatoHidenori UebayashiTakashi HiraiYoshiki MatsuuraHiroaki Furuya
    • B29C33/22
    • B22D17/26B29C45/6714B29C45/6728
    • In a molding machine, a fixed platen which supports a fixed die is disposed on one end of a base plate. A movable platen which supports a movable die and a supporting mount which supports each one end portion of the four tie bars are mounted on slide units. The movable platen and the supporting mount are advanced so as to close the die, a tip portion of each tie bar is locked to the fixed platen by a lock mechanism, and a die clamping cylinder provided on the movable platen is actuated to generate a clamping force so as to execute molding. After that, the lock mechanism executes an unlocking operation so as to cause the movable platen and the supporting mount to retreat to a die open position. Furthermore, an attaching and detaching mechanism releases the die clamping cylinder so as to cause only the supporting mount to significantly retreat from the movable platen, and thus the four tie bars are completely evacuated from the fixed die and the movable die.
    • 在成形机中,支撑固定模的固定压板设置在基板的一端。 支撑可移动模具的可动压板和支撑四个连接杆的每一个端部的支撑安装件安装在滑动单元上。 可移动的压板和支撑安装件被推进以关闭模具,每个连杆的尖端部分通过锁定机构锁定到固定的压板上,并且设置在可动压板上的模具夹紧缸被致动以产生夹紧 强制执行成型。 此后,锁定机构执行解锁操作,以使可动压板和支撑底座退回模具打开位置。 此外,安装和拆卸机构释放模具夹紧筒,从而仅使支撑安装件从可动压板显着退回,因此四个连接杆从固定模具和可动模具完全抽空。
    • 7. 发明授权
    • Optical encoder
    • 光学编码器
    • US08829421B2
    • 2014-09-09
    • US14000736
    • 2011-11-30
    • Takuya NoguchiHajime NakajimaTakeshi MushaYoshinao TateiTakashi Hirai
    • Takuya NoguchiHajime NakajimaTakeshi MushaYoshinao TateiTakashi Hirai
    • G01D5/34G01D5/347
    • G01D5/3473G01D5/34784
    • An optical encoder includes: an optical scale having periodical optical patterns and can be relatively and angularly displaced; a projector for irradiating the optical scale with light; a light receiver for receiving light from the optical scale; and a calculator for calculating an absolute rotation angle θ of the optical scale in accordance with a signal from the light receiver. The optical patterns include a plurality of light shielding portions and a plurality of light transmitting portions, each of the portions being located alternately. When a pitch of an n-th light shielding portion in a predetermined circumferential direction is denoted by Pn and a width of the n-th light shielding portion is denoted by Wn, a transmissivity T(θn) corresponding to an angle θn of the n-th light shielding portion and the pitch Pn of the light shielding portion satisfy predetermined equations, and the width Wn of the light shielding portion in the optical pattern varies in accordance with a function of the pitch Pn of the light shielding portion.
    • 光学编码器包括:具有周期性光学图案并且可以相对且角度位移的光学秤; 用于用光照射光标的投影仪; 用于接收来自光学刻度尺的光的光接收器; 和用于计算绝对旋转角度的计算器; 根据来自光接收器的信号。 光学图案包括多个遮光部分和多个透光部分,每个部分交替设置。 当以Pn表示第n个遮光部分的预定圆周方向的间距,并将第n个遮光部分的宽度表示为Wn时,对应于角度θ的透射率T(& t; n) 第n个遮光部分的n和遮光部分的间距Pn满足预定的方程式,并且光学图案中的遮光部分的宽度Wn根据遮光部分的间距Pn的函数而变化 。
    • 8. 发明授权
    • Intrusion-object detection system, method of detecting intrusion-object and method of detecting malfunction
    • 入侵物体检测系统,入侵物体检测方法及故障检测方法
    • US07994912B2
    • 2011-08-09
    • US12160380
    • 2006-01-12
    • Kenji InomataTakashi HiraiSyuji AizawaNoriyuki Miyake
    • Kenji InomataTakashi HiraiSyuji AizawaNoriyuki Miyake
    • G08B13/18
    • G08B29/26G08B13/2497
    • A method determining a malfunction when a reception signal fluctuates at a receiver owing to malfunctions occurring on a leaky cable and its related devices. The method determines, among range bins correlating the reception signal with a distance from a feed end of a radio-wave radiation unit and a radio-wave reception unit, based on a correlation between a time-delay from a transmission time of a transmission signal until a reception time of the reception signal and a transmission path distance of the reception signal in the radio-wave radiation unit and the radio-wave reception unit, when, comparing the reception signal with the transmission signal with respect to the range bin corresponding to a far end, a level of amplitude reduction in the reception signal exceeds a predetermined ratio, that a malfunction is present in either the radio-wave radiation unit or radio-wave reception unit.
    • 由于泄漏电缆及其相关设备发生故障,当接收信号波动时,确定故障的方法。 该方法基于从发送信号的发送时间的时间延迟之间的相关性确定在接收信号与来自无线电波辐射单元和无线电波接收单元的馈送端的距离之间相关联的范围单元中 直到接收信号的接收时间和无线电波辐射单元和无线电波接收单元中的接收信号的传输路径距离,当将接收信号与传输信号相对于对应于 在远端,接收信号的幅度降低程度超过规定的比例,在无线电波辐射单元或无线电波接收单元中存在故障。
    • 10. 发明申请
    • RESIDUAL MAGNETIC FLUX DETERMINING APPARATUS
    • 残余磁通测定装置
    • US20100013470A1
    • 2010-01-21
    • US12094677
    • 2006-01-31
    • Hiroyuki TsutadaTakashi HiraiHaruhiko KohyamaKenji Kamei
    • Hiroyuki TsutadaTakashi HiraiHaruhiko KohyamaKenji Kamei
    • G01R33/02
    • G01R33/14
    • A residual magnetic flux measurement apparatus measures residual magnetic fluxes by using a transformer-voltage measurement means for measuring transformer voltages; a voltage delay means for delaying the measured signals; a DC-voltage-component calculation means for calculating DC voltage components from the latest transformer-voltage signals for a predetermined time period based on calculation-control signals; a voltage integration means for calculating voltage-integration signals by performing voltage integration of signals obtained after separating the DC voltage components from present transformer-voltage signals; a magnetic-flux DC-component calculation means for calculating magnetic-flux DC-components from the latest voltage-integration signals for a predetermined time period based on the calculation-control signals; a magnetic flux calculation means for obtaining magnetic flux signals in which the magnetic-flux DC-components are separated from present voltage-integration signals; and a control means for obtaining residual magnetic fluxes based on contact signals, an interruption mode, the transformer-voltage signals, and the magnetic flux signals.
    • 剩余磁通测量装置通过使用用于测量变压器电压的变压器电压测量装置来测量剩余磁通量; 用于延迟所测量的信号的电压延迟装置; 直流电压分量计算装置,用于基于计算控制信号计算来自最近的变压器电压信号的预定时间段的直流电压分量; 电压积分装置,用于通过对从现有变压器电压信号中分离出直流电压分量之后获得的信号进行电压积分来计算电压积分信号; 磁通量DC分量计算装置,用于根据计算控制信号,从最新的电压积分信号计算预定时间段的磁通量DC分量; 用于获得磁通量DC分量与当前的电压积分信号分离的磁通量信号的磁通量计算装置; 以及用于基于接触信号,中断模式,变压器电压信号和磁通量信号获得剩余磁通量的控制装置。