公开(公告)号：US20110133352A1

公开(公告)日：2011-06-09

申请号：US12995366

申请日：2009-05-28

申请人： Noriaki Taguchi ,  Hidetaka Shimizu

发明人： Noriaki Taguchi ,  Hidetaka Shimizu

IPC分类号： B29C33/40

CPC分类号： C03B23/0026 ,  B29D11/00009 ,  C03B29/06 ,  Y02P40/57

摘要： The present invention relates to a method of manufacturing a lens casting mold by introducing a forming mold, with a forming surface on which a glass material being formed is positioned, into a continuous heating furnace and conducting thermal treatment while conveying the forming mold in the furnace to form an upper surface of the glass material being formed into a shape of a molding surface for forming a lens optical surface. The method of manufacturing a lens casting mold of the present invention comprises rotating the forming mold to a right and/or to a left relative to a direction of conveyance of the forming mold in a region within the continuous heating furnace where a temperature of the upper surface of the glass material being formed is equal to or greater than a glass transition temperature of the glass.

摘要翻译： 本发明涉及一种制造透镜铸造模具的方法，该方法通过将成形模具和成型表面（其上形成有玻璃材料的位置）引入连续加热炉中并在将成型模具输送到炉子中进行热处理 以形成玻璃材料的上表面，其形成为用于形成透镜光学表面的成型表面的形状。 制造本发明的透镜铸造模具的方法包括：在连续加热炉内的区域内，相对于成型模具的输送方向将成形模具向右侧和/或左侧旋转，其中上部 正在形成的玻璃材料的表面等于或大于玻璃的玻璃化转变温度。

公开(公告)号：US20110304064A1

公开(公告)日：2011-12-15

申请号：US12677699

申请日：2008-11-25

申请人： Noriaki Taguchi ,  Shigeru Takizawa ,  Hidetaka Shimizu

发明人： Noriaki Taguchi ,  Shigeru Takizawa ,  Hidetaka Shimizu

IPC分类号： B29C33/38

CPC分类号： C03B23/0026 ,  B29L2011/0016 ,  B29L2031/757 ,  C03B29/06

摘要： The present invention relates to a method of manufacturing a lens casting mold by introducing a forming mold, with a forming surface on which is positioned a glass material being formed, into a continuous heating furnace and conducting thermal treatment while conveying the forming mold to form an upper surface of the glass material being formed into a shape of a molding surface for forming a surface comprising a progressive surface. The method of manufacturing a lens casting mold of the present invention comprises controlling a temperature of the continuous heating furnace so that the continuous heating furnace comprises a temperature rising region having a temperature distribution such that the temperature rises in a conveyance direction of the forming mold; utilizing a forming mold having a curvature distribution on the forming surface as the forming mold; and conveying the forming mold in the temperature rising region so that a portion with the largest curvature on the forming surface is comprised in a portion on a side of the conveyance direction as divided in two by an imaginary line, the imaginary line running orthogonally to the conveyance direction of the forming mold and passing through a geometric center of the forming surface.

摘要翻译： 本发明涉及一种制造透镜铸造模具的方法，该方法通过将成形模具（其上形成有玻璃材料的成形表面）引入连续加热炉中并在输送成形模具的同时进行热处理， 玻璃材料的上表面被形成为用于形成包括渐进表面的表面的成型表面的形状。 制造本发明的透镜铸造模具的方法包括控制连续加热炉的温度，使得连续加热炉包括具有温度分布的升温区域，使得温度在成形模具的输送方向上升高; 利用在成形表面上具有曲率分布的成型模具作为成形模具; 并且在升温区域中输送成型模具，使得在成形表面上具有最大曲率的部分被包括在沿着输送方向的一侧的部分中，被分成两条虚线，假想线垂直于 成形模具的输送方向并穿过成形表面的几何中心。

公开(公告)号：US5680867A

公开(公告)日：1997-10-28

申请号：US347428

申请日：1995-02-13

申请人： Hideaki Shimazu ,  Hidetaka Shimizu ,  Noriyuki Yamaguchi ,  Masaru Komatsu

发明人： Hideaki Shimazu ,  Hidetaka Shimizu ,  Noriyuki Yamaguchi ,  Masaru Komatsu

IPC分类号： A61B5/022 ,  G06F17/00 ,  A61B5/00

CPC分类号： A61B5/022 ,  A61B5/02116 ,  A61B5/02225 ,  A61B5/7264

摘要： In an electronic blood pressure measurement device which is arranged to extract pulse waves from the measured cuff pressure, a pulse wave pattern is generated from the pulse wave amplitude and pulse wave interval data and this pulse wave pattern is compared with reference patterns to classify the pattern in order to accurately obtain biological information other than the blood pressure. Blood pressure amplitudes PA(i) are computed from the measured cuff pressures C(i) and a pulse wave pattern is generated (35) on the basis of this pulse wave amplitude data and this pulse wave pattern is classified into a plurality of reference patterns (37) according to reference patterns or reference values (36). Here, the reference patterns or reference values are set as hemodynamic references based on dynamic characteristics of the blood vessel or cardiac output characteristics. The pulse wave pattern is normalized as necessary to extract only the shape factors of the pattern, is displayed as a measured pattern corresponding to a reference pattern and is compared with the reference patterns in terms of shape. Also, besides the shape factors, the absolute values of pulse wave amplitudes and systolic pressures are used as references for pattern classification.

摘要翻译： PCT No.PCT / JP94 / 00545 Sec。 371日期1995年2月13日 102（e）1995年2月13日PCT PCT 1994年4月1日PCT公布。 WO94 / 22363 PCT出版物 日期1994年10月13日在从测量的袖带压力中提取脉搏波的电子血压测量装置中，从脉搏波幅度和脉搏波间隔数据产生脉搏波图，并将该脉搏波图与参考 为了准确地获得血压以外的生物信息，对模式进行分类。 根据测量的袖带压C（i）计算出血压幅度PA（i），并且基于该脉搏波幅数据生成脉搏波图案（35），并且将该脉搏波图案分类为多个参考图案 （37）根据参考图形或参考值（36）。 这里，基于血管的动态特性或心输出特性将参考图案或参考值设定为血液动力学参考。 根据需要对脉波图案进行归一化，仅提取图案的形状因子，作为与参考图案对应的测量图案显示，并根据形状与参考图案进行比较。 此外，除了形状因子外，脉搏波幅度和收缩压的绝对值也被用作模式分类的参考。