会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • LOW CHROMATIC ABERRATION ROD LENS ARRAY, ITS UNIT AND IMAGE SCANNER EMPLOYING THEM
    • 低色差镜头阵列,其单元和使用它们的图像扫描仪
    • WO1998019185A1
    • 1998-05-07
    • PCT/JP1997003894
    • 1997-10-27
    • MITSUBISHI RAYON CO., LTD.TAHARA, YasuteruISHIMURA, TerutaUOZU, YoshihiroSUMI, Toshinori
    • MITSUBISHI RAYON CO., LTD.
    • G02B03/00
    • G02B3/005G02B3/0056G02B3/0087G02B13/0095H04N1/031H04N1/0311H04N1/0312H04N1/0315H04N1/482
    • A color image scanner comprising a three primary colors LED array (4) for illuminating a material (2) to be read, a monochromatic image sensor array (3), and a rod lens array (1) which is provided between the material (2) and the image sensor array (3). Three types of distributed refractive index rod lens (11, 12 and 13) constituting the rod lens array (1) have different operation wavelength bands and predetermined wavelengths in accordance with the type and have same lens length Z0 regardless of the type. The focus parameters of the types of the rod lenses are so set as to make the conjugate lengths TC of all the types at the predetermined wavelengths substantially equal to each other. In order to read a color image by using the rod lens array which is advantageous from the viewpoints of size reduction and brightness, the chromatic aberration of the rod lens array can be sufficiently reduced and the high resolution can be realized at a low cost.
    • 一种彩色图像扫描仪,包括用于照射待读取的材料(3)的三原色LED阵列(4),单色图像传感器阵列(3)和设置在材料(2)之间的材料(2) )和图像传感器阵列(3)。 构成棒状透镜阵列(1)的三种分布式折射率棒状透镜(11,12,13)根据类型具有不同的工作波长带和预定波长,并且具有相同的透镜长度Z0,而与类型无关。 棒状透镜的类型的聚焦参数被设定为使预定波长的所有类型的共轭长度TC基本相等。 为了通过使用从尺寸减小和亮度的观点来看是有利的棒状透镜阵列来读取彩色图像,可以充分降低棒状透镜阵列的色差,并且可以以低成本实现高分辨率。
    • 4. 发明申请
    • DISTRIBUTED REFRACTIVE INDEX OPTICAL FIBER AND METHOD OF MANUFACTURING THE SAME
    • 分布式折射率指数光纤及其制造方法
    • WO1997036196A1
    • 1997-10-02
    • PCT/JP1997001093
    • 1997-03-28
    • MITSUBISHI RAYON CO., LTD.YAMASHITA, TomoyoshiTAHARA, YasuteruNAKAMURA, Kazuki
    • MITSUBISHI RAYON CO., LTD.
    • G02B06/00
    • G02B6/02038B29D11/00682G02B6/03633
    • A distributed refractive index optical fiber having a multilayer structure of concentric layers made of (co)polymers selected from the group consisting of homopolymers HP1, HP2, ..., and HPn manufactured from two or more kinds of monomers M1, M2, ..., and Mn and having refractive indexes gradually lowering in this order, and one or more kinds of binary copolymer CP of these monomers. Mixed layers of mixtures of the (co)polymers of the adjacent layers are formed between the adjacent layers. The central portion of the optical fiber has the highest refractive index, and the refractive indexes of the optical fiber decreasing gradually toward the outer circumferential portion thereof. This optical fiber can be manufactured continuously by supplying (co)polymers to a concentric multilayer nozzle, and drawing the (co)polymer therefrom. The polymers mutually diffused among the layers.
    • 一种分布折射率光纤,其具有由选自由两种或多种单体M1,M2,...制成的均聚物HP1,HP2,...和HPn组成的组中的(共)聚合物制成的同心层的多层结构。 和Mn,并且折射率依次逐渐降低,以及这些单体的一种或多种二元共聚物CP。 在相邻层之间形成相邻层的(共)聚合物的混合层的混合层。 光纤的中心部折射率最高,光纤的折射率向外周部逐渐减小。 该光纤可以通过将(共)聚合物供应到同心多层喷嘴并从其中拉伸(共)聚合物而连续制造。 各层之间相互扩散的聚合物。
    • 5. 发明申请
    • SURFACE LIGHT SOURCE ELEMENT AND LIQUID CRYSTAL DISPLAY DEVICE, SIGN DEVICE AND TRAFFIC CONTROL SIGN DEVICE USING SAME
    • 表面光源元件和液晶显示装置,符号装置和使用相同的交通控制标志装置
    • WO1997028403A1
    • 1997-08-07
    • PCT/JP1997000237
    • 1997-01-31
    • MITSUBISHI RAYON CO., LTD.ODA, MasaharuCHIBA, IsseiHAYASHI, Yasuko
    • MITSUBISHI RAYON CO., LTD.
    • F21V08/00
    • G02B6/0036G02B6/0001G02B6/0038G02B6/0046G02B6/0053
    • A surface light source element comprises a light source (2), a light conductor (1), of which at least one side end surface facing the light source (2) serves as a light incident surface (11) and of which a surface substantially perpendicular to the light incident surface (11) serves as a light outgoing source (12), and a light declination sheet (3) provided on a light outgoing surface side of the light conductor (1), at least one of the light outgoing source (12) and the rear surface (13) of the light conductor (1) having a minute construction, of which an average inclination is 0.5 to 7.5 DEG . The light declination sheet (3) can be formed of a prism sheet having a multiplicity of prisms (31) formed in parallel to one another on at least one surface thereof. The minute construction can be defined by a multiplicity of rows of prisms which are constituted by a rough surface comprising a multiplicity of substantially spherical-shaped minute convex bodies and an inclined surface extending in parallel to the light incident surface (11) and having an average inclination of 0.5 to 7.5 DEG .
    • 表面光源元件包括光源(2),光导体(1),其中面向光源(2)的至少一个侧端表面用作光入射表面(11),并且其表面基本上 垂直于光入射表面(11)的光偏转片(12)用作光导体(1)的光出射表面侧上的光偏转片(3),至少一个光出射源 (12)和光导体(1)的后表面(13)具有微小的结构,其平均倾斜度为0.5至7.5度。 光偏角片(3)可以由具有在其至少一个表面上彼此平行形成的多个棱镜(31)的棱镜片形成。 微小结构可以由多个棱镜行限定,该列由粗糙表面构成,该粗糙表面包括多个基本上为球形的微小凸起体,以及与光入射表面(11)平行延伸的倾斜表面,平均 倾斜度为0.5〜7.5度。
    • 10. 发明申请
    • PROCESS FOR PRODUCING POWDERY THERMOPLASTIC COPOLYMER
    • 生产粉末热塑性共聚物的方法
    • WO1994005722A1
    • 1994-03-17
    • PCT/JP1993001221
    • 1993-08-31
    • MITSUBISHI RAYON CO., LTD.SUZUKI, FumioSATO, HarukiSUGIHARA, MasakiHATANO, Wataru
    • MITSUBISHI RAYON CO., LTD.
    • C08J03/12
    • C08F291/00C08F6/22C08J3/12C08J3/16C08J2321/02
    • A process for producing a powdery thermoplastic copolymer which comprises mixing 100 parts by weight of a coagulated slurry or powder of a thermoplastic polymer (A), which is prepared by emulsion polymerization and has a glass transition point (Tg) as defined by the following equation (1), with 0.1-10 parts by weight of a polymer (B) and/or an inorganic compound (C), compressing the polymer (A) in the temperature range from (Tg-30) to (Tg+50) C, and disintegrating the product of compression. In formula (1) Tg = W1 x Tg1 + W2 x Tg2 + ... + Wn x Tgn (wherein n is the number of the monomer species constituting the polymer (A); W1, W2 ... Wn are the weight fractions of the respective monomer species i (wherein i = 1, 2 ... n) in the polymer (A); and Tg1, Tg2 ... Tgn are the glass transition points of the respective homopolymers of each of the monomer species i). The invention process serves to improve the bulk specific gravity of a thermoplastic polymer remarkably as compared with the conventional processes.
    • 一种粉末状热塑性共聚物的制造方法,其特征在于,将100重量份凝聚的浆料或热塑性聚合物(A)的粉末混合,该热塑性聚合物(A)通过乳液聚合制备,并具有如下式所定义的玻璃化转变温度 (1)中加入0.1-10重量份聚合物(B)和/或无机化合物(C),在(Tg-30)至(Tg + 50)℃的温度范围内压缩聚合物(A) ,并分解压缩产品。 在式(1)中,Tg = W1×Tg1 + W2×Tg2 + ... + Wn×Tgn(其中n是构成聚合物(A)的单体种类的数量; W1,W2 ... Wn是重量分数 的聚合物(A)中各自的单体种类i(其中i = 1,2 ... n); Tg1,Tg2 ... Tgn是各单体种类i)各自的均聚物的玻璃化转变点, 。 与常规方法相比,本发明方法有效地提高了热塑性聚合物的体积比重。