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    • 15. 发明授权
    • Refractory/heat insulating panels
    • 耐火/隔热板
    • US5678369A
    • 1997-10-21
    • US290945
    • 1994-08-24
    • Takashi IshikawaHideki TakiguchiFumio TakahashiMinoru SaitohHiroaki KontaTakanobu NiizekiMasahiko SuzukiHiroyuki UmetsuYoshihiko KannoToshihide Kokubun
    • Takashi IshikawaHideki TakiguchiFumio TakahashiMinoru SaitohHiroaki KontaTakanobu NiizekiMasahiko SuzukiHiroyuki UmetsuYoshihiko KannoToshihide Kokubun
    • B32B5/18B32B27/42E04B1/80E04B1/94E04C2/292E04F13/08E04F13/12E04B2/58
    • B32B3/02B32B15/08B32B27/42B32B5/20E04B1/942E04C2/292E04F13/0826
    • Disclosed is a refractory/heat insulating panel used in buildings and structures which must have a refractory performance. In the refractory/heat insulating panel (801), the mechanical strength and the fireproofing performance at the joint portions, which are weak portions in the panel, are increased by integrally forming inorganic boards (831) in the male and female joint portions (832, 836), filling a light-weight aggregate in the core material located at the male and female joint portions at a high density, or making the density of the core material at the joint portions higher than that at the center of the panel. Further, a nonwoven fabric is inserted between a core material (829) and a surfacing material (802) and between the core material (829) and a backing material (822), the surfaces of the surfacing material and the backing material facing the core material are embossed, a layer of isocyanurate foam and/or a layer of polyurethane foam are provided in the core material, or a wooden reinforcing material or a pipe-shaped member is buried in the core material to improve the adhesion between the core material and the surfacing material and between the core material and the backing material, the strength of the entire panel, refractory performance, etc. These structures also increase the strength and the refractory performance of the joint portions.
    • PCT No.PCT / JP93 / 00804 Sec。 371日期:1994年8月24日 102(e)日期1994年8月24日PCT提交1993年6月15日PCT公布。 出版物WO94 / 15033 日期1994年4月7日公开是用于建筑物和结构中的耐火/隔热板,必须具有耐火性能。 在耐火材料/隔热板(801)中,通过在阳和阴接合部(832)中一体地形成无机基板(831),能够提高作为板的弱部的接合部的机械强度和耐火性能 ,836),以高密度填充位于阳接头部分和阴接头部分的芯材料中的轻质骨料,或使芯材在接合部分处的密度高于面板中心处的密度。 此外,无纺织物插入在芯材(829)和表面材料(802)之间以及芯材(829)和背衬材料(822)之间,表面材料和背衬材料的表面面向芯 材料被压花,在芯材中提供了一层异氰脲酸酯泡沫和/或一层聚氨酯泡沫,或者将木制增强材料或管状构件埋在芯材中,以改善芯材和 表面材料和芯材和背衬材料之间,整个面板的强度,耐火性能等。这些结构还增加了接合部分的强度和耐火性能。
    • 16. 发明授权
    • Progressive power lens
    • 渐进功率镜头
    • US5557348A
    • 1996-09-17
    • US266545
    • 1994-06-28
    • Toshiaki UmedaFumio Takahashi
    • Toshiaki UmedaFumio Takahashi
    • G02C7/02G02C7/06
    • G02C7/065G02C7/061
    • A progressive power lens of the present invention comprises, along a principal meridional curve, a portion for distance vision having a refracting power corresponding to a distant view, a portion for near vision having a refracting power corresponding to a near view and an intermediate portion, located between the portion for distance vision and the portion for near vision, for continuously connecting the refracting powers of the portion for distance vision and the portion for near vision. When an average refracting power (diopter) of a lens refracting surface at a center for distance vision is S.sub.0 and an additional power of said lens refracting surface is A.sub.D, from a center for distance vision to lateral side areas of the center for distance vision in a worn state, when a mean power (diopter) of each point of the lens refracting surface is S.sub.E and the difference between the mean power S.sub.E of each point of the lens refracting surface and the mean power S.sub.0 of the center for distance vision is .DELTA.S.sub.E (i.e., .DELTA.S.sub.E =S.sub.E -S.sub.0), the following condition holds:-0.50.ltoreq..DELTA.S.sub.E .ltoreq.A.sub.D /3.
    • 本发明的渐进式功率透镜沿着主子午线曲线包括具有对应于远视的折射力的远距离视觉部分,具有近视的折射力的部分和中间部分, 位于用于远视的部分和用于近视的部分之间,用于连续地连接用于远视的部分的折射力和用于近视的部分。 当用于远距离视觉的中心处的透镜折射面的平均屈光力(屈光度)为S0,并且所述透镜折射表面的附加功率为AD时,从用于距离视距的中心到距离视觉的中心侧面区域的中心 磨损状态,当透镜折射表面的每个点的平均光焦度(屈光度)为SE,并且透镜折射表面的每个点的平均光焦度SE和用于远视的中心的平均光焦度S0之差为ΔTA SE(即,DELTA SE = SE-S0),以下条件成立:-0.50
    • 17. 发明授权
    • Progressive multifocal lens
    • 渐进多焦点镜片
    • US5506630A
    • 1996-04-09
    • US249980
    • 1994-05-27
    • Yasunori UenoToshiaki UmedaFumio Takahashi
    • Yasunori UenoToshiaki UmedaFumio Takahashi
    • G02C7/06G02C7/02
    • G02C7/065G02C7/061
    • In a progressive multifocal lens of the present invention, the values of a curvature .rho.m of a refracting surface along the principal meridional curve and a curvature .rho.s of the refracting surface in a direction perpendicular to the principal meridional curve become maximum at approximately the center of a nearsight portion on the principal meridional curve, decrease toward the peripheral region of the nearsight portion along the principal meridional curve, are substantially different from each other at least from the lower portion of a farsight portion to approximately the center of a intermediate portion, are substantially equivalent from approximately the center of the intermediate portion to the lower portion of the intermediate portion, and are substantially different from each other from the lowest portion of the intermediate portion and the nearsight portion.
    • 在本发明的渐进多焦点透镜中,沿着主子午线曲线的折射面的曲率rho和折射面在与主子午线曲线垂直的方向上的曲率rho的值在大约中心处变得最大 在主子午线曲线上的近视部分沿着主子午线向近视部分的周边区域的减小至少从远视部分的下部到中间部分的中心彼此基本不同, 从中间部分的大致中心到中间部分的下部基本相等,并且从中间部分和近视部分的最低部分基本上彼此不同。
    • 20. 发明授权
    • Thermal transfer type printer
    • 热转印式打印机
    • US4795999A
    • 1989-01-03
    • US69822
    • 1987-07-06
    • Fumio TakahashiHiromitsu Ogita
    • Fumio TakahashiHiromitsu Ogita
    • B41J2/35B41J2/355B41J29/48H01C10/00
    • B41J2/355B41J29/48
    • A thermal transfer type printer consists of a thermal head, a platen roller, a printing control circuit, a reflection type photo sensor, a printing paper, and a transfer film on which thermal melting ink is painted. One of at least two kinds of printing papers is selectively used. The printing paper and the transfer film are lapped and pressurized between the thermal heat and the platen roller when the printing operation is performed. The intensity of light reflected by the printing paper varies in accordance with the kind of the printing paper which is actually used. The photo sensor emits the light to the printing paper and outputs a detection signal corresponding to the intensity of the light refleted by the printing paper. The printing control circuit changes the heating values of the heating elements within the thermal head based on the detection signal. Thus, the thermal head is heated to an optimum temperature in response to the kind of printing paper.
    • 热转印式打印机由热敏头,压纸辊,打印控制电路,反射型光传感器,打印纸以及涂敷热熔油墨的转印膜组成。 选择性地使用至少两种打印纸中的一种。 当执行打印操作时,打印纸和转印膜在热热和压纸辊之间被重叠和加压。 由打印纸反射的光的强度根据实际使用的打印纸的种类而变化。 光传感器将光发射到打印纸,并输出与由打印纸反光的光的强度对应的检测信号。 印刷控制电路基于检测信号改变热敏头内的加热元件的发热值。 因此,响应于打印纸的种类,将热敏头加热到最佳温度。