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    • 45. 发明申请
    • LIQUID CRYSTAL DIMMER
    • 液晶调光器
    • WO0060409A8
    • 2000-11-23
    • PCT/JP0001874
    • 2000-03-27
    • NIPPON SHEET GLASS CO LTDYANO YUICHI
    • YANO YUICHI
    • G02F1/139G02F1/141G02F1/1334
    • G02F1/13725
    • A liquid crystal dimmer in which transparent conductive films are provided on the mutually opposed faces of a pair of transparent substrates and a medium holding therein a liquid crystal material and a dichroic dye aligned according to the alignment of the liquid crystal material. The index of double refraction ( DELTA n) of the liquid crystal material is less than 0.15. The relationship between the absorptance (A//) along the major axis of the molocule of the dichroic dye and the absorptance (A ORTHOGONAL ) along the minor axis thereof is expressed by 1.0>/=[(A//-A ORTHOGONAL )/(A//+2A ORTHOGONAL )]>/=0.75. Another liquid crystal dimmer is disclosed in which the ratio (liquid crystal content) of the liquid crystal material to the medium is 50 wt.% or more, the ratio of concentration of the dichroic dye to that of the liquid crystal is 1 wt.% or more, and the distance between the transparent conductive films is in the range from 10 to 40 mu m.
    • 一种液晶调光器,其中透明导电膜被提供在一对透明基板的相互相对的面上,并且介质中保持液晶材料和根据液晶材料的排列而排列的二向色染料。 液晶材料的双折射率(Δn)小于0.15。 沿着二色性染料的分子的主体轴的吸收率(A //)与沿其短轴的吸收率(A正交分量)之间的关系由1.0 / = [(A∥-A正交)/ (A // + 2A ORTHOGONAL)]> / = 0.75。 公开了另一种液晶调光器,其中液晶材料与介质的比例(液晶含量)为50重量%或更多,二色性染料与液晶的浓度之比为1重量% 或更多,并且透明导电膜之间的距离在10至40μm的范围内。
    • 47. 发明申请
    • DOUBLE-GLAZING UNIT
    • 双重玻璃装置
    • WO1997036838A1
    • 1997-10-09
    • PCT/JP1997001065
    • 1997-03-27
    • NIPPON SHEET GLASS CO., LTD.KATO, HidemiMINAAI, Tetsuo
    • NIPPON SHEET GLASS CO., LTD.
    • C03C27/06
    • E06B3/6612E06B3/66304Y02A30/25Y02B80/24Y10T428/24182
    • A double-glazing unit comprising a multiplicity of spacers interposed between both sheet glasses with gaps closed tightly in a state of reduced pressure. Conventionally, both edge portions of both sheet glasses are spaced from each other by seal members, of which constraint force affects outermost spacers to make them hard to be acted on by the atmospheric pressure as compared with other spacers and put them in danger of moving between the sheet glasses. According to the invention, an outer edge spacing dimension (L1) between a seal member (4) and an outermost one of rows, in which spacers (2) are installed, is set to at least a base spacing dimension (L0) between the outermost row and a second row adjacent thereto, so that an extent, to which the atmospheric pressure is borne by the spacers of the outermost row at surfaces of the sheet glasses, is made larger than an extent, to which the atmospheric pressure is borne by the spacers of the other rows at surfaces of the sheet glasses, and forces, with which the spacers of the outermost row are clamped, can be adequately ensured to prevent the spacers of the outermost row from moving between the sheet glasses.
    • 一种双层玻璃单元,其包括多个间隔件,其夹在具有在减压状态下紧密封闭的间隙的两片玻璃板之间。 通常,两片玻璃的两个边缘部分都是通过密封件间隔开的,其中约束力影响最外隔离物,使其与其它间隔物相比难以被大气压作用,并使它们处于 片眼镜。 根据本发明,密封构件(4)和其中安装有间隔件(2)的行中最外面的一个之间的外边缘间隔尺寸(L1)被设置为至少在 最外面的行和与之相邻的第二行,使得在片状玻璃的表面处由最外面的行的间隔物承受大气压力的程度大于大气压力承受的程度 在玻璃板的表面的其他行的间隔物和最外面的行的间隔物被夹紧的力可以被充分地确保,以防止最外面的行的间隔物在片状眼镜之间移动。
    • 50. 发明申请
    • LAMINATED GLASS AND METHOD OF MANUFACTURING THE SAME
    • WO2018134608A1
    • 2018-07-26
    • PCT/GB2018/050157
    • 2018-01-19
    • PILKINGTON GROUP LIMITEDNIPPON SHEET GLASS CO., LTD.
    • MELLOR, Leigh FrancisCHAMBERLAIN, Mark AndrewSIDDONS, GrahamOGAWA, RyoheiCHIBA, KazukiOGAWA, Hisashi
    • B32B17/10
    • A laminated glass comprising an outer glass sheet having a first edge and a second edge opposing the first edge, an inner glass sheet arranged opposite the outer glass sheet and having substantially the same shape as the outer glass sheet, and an intermediate layer arranged between the outer glass sheet and the inner glass sheet; the intermediate layer having a heat-generating layer comprising a first busbar extending along an end portion on the first edge side, a second busbar extending along an end portion on the second edge side, and a plurality of heating wires arranged so as to connect the first busbar and the second busbar, and a sheet-like substrate (311) for supporting at least the plurality of heating wires among both busbars wherein the intermediate layer further comprises an adhesive layer (33) adjoining the heat-generating layer wherein a distance (Z1, Z2) from a centre of the heating wires in a thickness direction to a surface (S1, S2) of the outer glass sheet and a distance (Z3, Z4) from the centre of the heating wires in a thickness direction to a surface (S3, S4) of the inner glass sheet being different; and a distance (Z2) from the centre of the heating wires in the thickness direction to the inside surface (S2) of the outer glass sheet and a distance (Z3) from the centre of the heating wires in the thickness direction to the outside surface (S3) of the inner glass sheet being different wherein the thickness of the adhesive layer (33) or the thickness of the substrate (311) whichever having smaller thickness is not more than 400 micrometres.