公开(公告)号：US06823695B2

公开(公告)日：2004-11-30

申请号：US10103144

申请日：2002-03-22

申请人： Satoshi Fukuyama ,  Hiroaki Fujii ,  Isao Matsuzuki ,  Hirotaka Masaki

发明人： Satoshi Fukuyama ,  Hiroaki Fujii ,  Isao Matsuzuki ,  Hirotaka Masaki

IPC分类号： C03B2300

CPC分类号： C03B35/00 ,  Y02P40/57 ,  Y10S425/808

摘要： An object of the present invention is to enable to use a common transfer machine for transferring performs to and for transferring products from a press-forming system for glass having a plurality of press units. The press-forming system for glass has a plurality of press units. A linear moving stage is arranged in the proximity of the press units. A transfer robot is mounted on the linear moving stage. A pallet changer is arranged in the proximity of an end of the linear moving stage. A tray presently in use is mounted on a first mount and a new tray on standby is mounted on a second mount on the pallet changer. The inner space of the tray is partitioned into sections so as to correspond to press units in number. In each section, a plurality of pockets is arranged for storing preforms or products one by one.

摘要翻译： 本发明的目的是能够使用用于将成品转移到用于从具有多个冲压单元的玻璃的压制成型系统转移产品的共同转印机。 玻璃的压制成型系统具有多个压制单元。 线性移动台布置在压力机单元附近。 传送机器人安装在线性移动台上。 托盘更换器布置在线性移动台的末端附近。 目前使用的托盘安装在第一安装件上，备用的新托盘安装在托盘交换器上的第二安装件上。 托盘的内部空间被划分为多个部分，以便对应于印刷机的数量。 在每个部分中，多个袋被设置成一个接一个地存储预制件或产品。

公开(公告)号：US5858051A

公开(公告)日：1999-01-12

申请号：US646966

申请日：1996-05-08

申请人： Yoshizo Komiyama ,  Isao Matsuzuki ,  Kazunori Urushibata ,  Toshihisa Kamano ,  Tetsuya Tanioka ,  Hirotaka Masaki

发明人： Yoshizo Komiyama ,  Isao Matsuzuki ,  Kazunori Urushibata ,  Toshihisa Kamano ,  Tetsuya Tanioka ,  Hirotaka Masaki

IPC分类号： C03B11/08 ,  C03B11/12 ,  C03B11/14 ,  C03B29/08 ,  C03B32/00 ,  G02B6/12 ,  G02B6/132 ,  G02B6/136 ,  G02B6/25 ,  C03B37/022

CPC分类号： G02B6/25 ,  C03B11/082 ,  C03B11/12 ,  C03B11/14 ,  C03B29/08 ,  C03B32/00 ,  G02B6/12 ,  G02B6/132 ,  G02B6/136 ,  C03B2215/406 ,  C03B2215/412 ,  C03B2215/44 ,  C03B2215/66 ,  G02B2006/12147 ,  G02B2006/1215

摘要： A method of manufacturing an optical waveguide comprises a first step of laminating, on one major surface of a first glass material, a second glass material to a desired thickness, the second glass material having optical characteristics different from those of the first glass material, a second step of forming the second glass material to have a desired circuit pattern, and a third step of laminating a third glass material having optical characteristics similar to those of the first glass material on an entire surface of the first glass material on which the circuit pattern is formed by the second glass material. In at least one of the first and third steps, the glass material to be laminated is laminated by coupling.

摘要翻译： 一种制造光波导的方法包括：在第一玻璃材料的一个主表面上层叠具有所需厚度的第二玻璃材料的第一步骤，具有与第一玻璃材料不同的光学特性的第二玻璃材料， 将第二玻璃材料形成为具有期望的电路图案的第二步骤，以及将具有与第一玻璃材料类似的光学特性的第三玻璃材料层叠在第一玻璃材料的整个表面上的第三步骤，在该第一玻璃材料的电路图案 由第二玻璃材料形成。 在第一和第三步骤中的至少一个步骤中，待层压的玻璃材料通过耦合层压。

公开(公告)号：US07325418B2

公开(公告)日：2008-02-05

申请号：US10434077

申请日：2003-05-09

申请人： Yasuo Yamamoto ,  Isao Matsuzuki ,  Hiroshi Murakoshi ,  Hirotaka Masaki

发明人： Yasuo Yamamoto ,  Isao Matsuzuki ,  Hiroshi Murakoshi ,  Hirotaka Masaki

IPC分类号： C03B35/04

CPC分类号： C03B35/00

摘要： The present invention is directed to reduce the total footprint of a press forming system for glass having a plurality of press units, and also to increase an actual availability of each press unit. A plurality of press units are arranged in two parallel rows and a first transfer robot is arranged at the center of the space between the two rows. In adjacent of the moving area of the first transfer robot, a palette changer is arranged. A tray in use is mounted on a first base of the palette changer and a stand-by tray before use is placed on a second base. Blanks and formed products are stored in the tray. Press units equipped with second transfer robots, respectively. In front of the press units, intermediate transfer points are respectively provided for temporarily storing a blank and a formed product.

摘要翻译： 本发明旨在减少具有多个冲压单元的玻璃冲压成形系统的总占地面积，并且还增加每个压制单元的实际可用性。 多个按压单元布置成两排平行，并且第一传送机器人布置在两排之间的空间的中心。 在第一传送机器人的移动区域的相邻处，布置有调色板更换器。 使用中的托盘安装在调色板更换器的第一基座上，并且在使用之前将备用托盘放置在第二基座上。 坯料和成型产品储存在托盘中。 分别配备第二传送机器人的新闻单位。 在印刷机前面分别设有中间转印点​​，用于临时存储坯料和成形品。

公开(公告)号：US5782946A

公开(公告)日：1998-07-21

申请号：US593920

申请日：1996-01-30

申请人： Yoshizo Komiyama ,  Tetsuya Tanioka ,  Toshihisa Kamano ,  Isao Matsuzuki ,  Hirotaka Masaki ,  Kazunori Urushibata

发明人： Yoshizo Komiyama ,  Tetsuya Tanioka ,  Toshihisa Kamano ,  Isao Matsuzuki ,  Hirotaka Masaki ,  Kazunori Urushibata

IPC分类号： C03B11/08 ,  C03B11/00

CPC分类号： C03B11/16 ,  C03B11/08 ,  Y02P40/57 ,  Y10S425/808

摘要： In press molding, a shaft (metal mold 13) is moved by positional or torque control to cause upper and lower molds to reach a set position slightly before a position where the upper and lower molds are set in a final mold closed state. As soon as the upper and lower molds reaches the set position, the control is switched to torque control using a small force which does not deform a glass material to perform feedback control. For this reason, when the cooling process is started, the mobile shaft is moved by the same amount as a contraction amount of the shaft, the actual position of the shaft is moved. However, a tight contact state between the molds and the glass material is kept without changing the thickness of the glass material, and positional control and torque control can be apparently performed at once. Thereafter, when temperature reaches an almost glass transition point, final pressing is performed. A position where the material is press-molded is exactly controlled by correcting an origin position of lower mold by closing the molds before press-molding. According to this method, a highly accurate optical element having thickness reproducibility can be obtained.

摘要翻译： 在压制成形中，通过位置或转矩控制来移动轴（金属模具13），使得上下模具稍微在上模和下模设置在最终模闭状态的位置之前到达设定位置。 一旦上模和下模达到设定位置，则使用不会使玻璃材料变形以执行反馈控制的小的力将控制切换到扭矩控制。 为此，当冷却过程开始时，移动轴以与轴的收缩量相同的量移动，轴的实际位置移动。 然而，保持模具和玻璃材料之间的紧密接触状态而不改变玻璃材料的厚度，并且可以一目了然地执行位置控制和扭矩控制。 此后，当温度达到几乎玻璃化转变点时，进行最终压制。 通过在压制成型之前关闭模具来校正下模的原点位置来精确地控制材料被压模的位置。 根据该方法，可以获得具有厚度再现性的高精度光学元件。

公开(公告)号：US5938807A

公开(公告)日：1999-08-17

申请号：US19497

申请日：1998-02-05

申请人： Yoshizo Komiyama ,  Tetsuya Tanioka ,  Toshihisa Kamano ,  Hirotaka Masaki

发明人： Yoshizo Komiyama ,  Tetsuya Tanioka ,  Toshihisa Kamano ,  Hirotaka Masaki

IPC分类号： C03B11/08 ,  C03B11/00 ,  C03B11/16

CPC分类号： C03B11/16 ,  C03B11/08 ,  Y02P40/57 ,  Y10S425/808

摘要： In press molding, a shaft (metal mold 13) is moved by positional or torque control to cause upper and lower molds to reach a set position slightly before a position where the upper and lower molds are set in a final mold closed state. As soon as the upper and lower molds reaches the set position, the control is switched to torque control using a small force which does not deform a glass material to perform feedback control. For this reason, when the cooling process is started, the mobile shaft is moved by the same amount as a contraction amount of the shaft, the actual position of the shaft is moved. However, a tight contact state between the molds and the glass material is kept without changing the thickness of the glass material, and positional control and torque control can be apparently performed at once. Thereafter, when temperature reaches an almost glass transition point, final pressing is performed. A position where the material is press-molded is exactly controlled by correcting an origin position of lower mold by closing the molds before press-molding. According to this method, a highly accurate optical element having thickness reproducibility can be obtained.

摘要翻译： 在压制成形中，通过位置或转矩控制来移动轴（金属模具13），使得上下模具稍微在上模和下模设置在最终模闭状态的位置之前到达设定位置。 一旦上模和下模达到设定位置，则使用不会使玻璃材料变形以执行反馈控制的小的力将控制切换到扭矩控制。 为此，当冷却过程开始时，移动轴以与轴的收缩量相同的量移动，轴的实际位置移动。 然而，保持模具和玻璃材料之间的紧密接触状态而不改变玻璃材料的厚度，并且可以一目了然地执行位置控制和扭矩控制。 此后，当温度达到几乎玻璃化转变点时，进行最终压制。 通过在压制成型之前关闭模具来校正下模的原点位置来精确地控制材料被压模的位置。 根据该方法，可以获得具有厚度再现性的高精度光学元件。