公开(公告)号：US09056407B2

公开(公告)日：2015-06-16

申请号：US13377025

申请日：2009-06-09

Applicant: Yousuke Hamachi ,  Shuichi Toriumi

Inventor： Yousuke Hamachi ,  Shuichi Toriumi

IPC: E06B3/673 ,  B29C47/02 ,  B29C47/08 ,  B29C47/00

CPC classification number: B29C47/026 ,  B29C47/003 ,  B29C47/0035 ,  B29C47/0866

Abstract: While a first coating gun 405 is being moved along a peripheral edge portion 100a of one surface of a multilayer glass panel 100 horizontally placed on a first worktable 20, the first coating gun 405 discharges a molding material to coat the peripheral edge portion 100a with the molding material over its entire length, molding a glazing gasket 110 thereon. An inverting mechanism 60 inverts the multilayer glass panel 100 with the molded glazing gasket 110 such that the other surface of the multilayer glass panel 100 faces upwardly. Then, a second coating gun 505 is moved along a peripheral edge portion 100b of the other surface of the multilayer glass panel 100, which is horizontally placed on a second worktable 30, and simultaneously discharges a molding material to coat the peripheral edge portion 100b with the molding material over its entire length, molding a glazing gasket 110 thereon.

Abstract translation: 当第一涂料枪405沿着水平放置在第一工作台20上的多层玻璃面板100的一个表面的周边部分100a移动时，第一涂布器405排出成型材料以将周边边缘部分100a涂覆 在其整个长度上成型材料，在其上模制玻璃衬垫110。 反转机构60使多层玻璃面板100与模制玻璃衬垫110反转，使得多层玻璃面板100的另一表面朝上。 然后，将第二涂料枪505沿水平放置在第二工作台30上的多层玻璃面板100的另一面的周缘部100b移动，同时排出成型材料以使周缘部100b以 模制材料在其整个长度上，在其上模制玻璃垫片110。

公开(公告)号：US08845841B2

公开(公告)日：2014-09-30

申请号：US14122782

申请日：2012-05-31

Applicant: Yohei Okamoto ,  Yugo Nagase ,  Yousuke Hamachi

Inventor： Yohei Okamoto ,  Yugo Nagase ,  Yousuke Hamachi

IPC: B29C47/06 ,  B29C47/30 ,  C09J5/06 ,  B29C47/02 ,  B29C47/00 ,  B29L31/26

CPC classification number: B29C47/30 ,  B29C47/0009 ,  B29C47/0064 ,  B29C47/026 ,  B29L2031/265 ,  C09J5/06 ,  C09J2400/143

Abstract: In a molding material installation method, an adhesive is separated into an upper side and a lower side from an application nozzle. The adhesive that has been separated on the lower side is applied to the surface of a multilayer glass panel. The adhesive that has been separated on the upper side is applied to a bottom surface of a glazing gasket molding material. The adhesive that has been separated on the upper side is placed on the adhesive that has been applied to the surface of the multilayer glass panel so that the glazing gasket molding material and the adhesive that has been separated on the upper side are applied to the adhesive that has been applied to the surface of the multilayer glass panel.

Abstract translation: 在成型材料安装方法中，粘合剂从施加喷嘴分离成上侧和下侧。 将已在下侧分离的粘合剂施加到多层玻璃面板的表面。 在上侧分离的粘合剂被施加到玻璃衬垫成型材料的底面。 已经在上侧分离的粘合剂被放置在已经施加到多层玻璃面的表面上的粘合剂上，使得将玻璃衬垫成型材料和在上侧被分离的粘合剂施加到粘合剂 已被应用于多层玻璃面板的表面。

公开(公告)号：US20120138212A1

公开(公告)日：2012-06-07

申请号：US13377089

申请日：2009-06-09

Applicant: Shuichi Toriumi ,  Yousuke Hamachi

Inventor： Shuichi Toriumi ,  Yousuke Hamachi

IPC: E06B3/24

CPC classification number: B29C47/026 ,  B29C47/0019 ,  B29C47/0021

Abstract: A molding material 22 from an extruding machine 33 is fed by a molding material feed pump 34 to a molding material discharge pump 32, which discharges the molding material from a coating gun 31 to a peripheral edge portion 21 a of a multilayer glass panel 21. The rate at which the molding material 22 is discharged from the coating gun 31 is adjusted by controlling the rotational speed of the molding material discharge pump 32 depending on the relative speed between the multilayer glass panel 21 and the coating gun 31. An amount of molding material 22, which is commensurate with the difference between the rates at which the molding material 22 is fed to and drawn into the molding material discharge pump 32, is circulated through a flexible circulation hose 39 to the extruding machine 33.

Abstract translation: 来自挤出机33的成型材料22由成型材料供给泵34供给到成型材料排出泵32，该成型材料排出泵32将成型材料从涂料喷枪31排出到多层玻璃面板21的周缘部21a。 通过根据多层玻璃面板21和涂料枪31之间的相对速度控制成型材料排出泵32的旋转速度来调节成型材料22从涂布枪31排出的速度。成型量 材料22与成型材料22被供给到模制材料排出泵32中并被吸入的速率之间的差异相当，通过柔性循环软管39循环到挤出机33。

公开(公告)号：US20120096899A1

公开(公告)日：2012-04-26

申请号：US13377025

申请日：2009-06-09

Applicant: Yousuke Hamachi ,  Shuichi Toriumi

Inventor： Yousuke Hamachi ,  Shuichi Toriumi

IPC: E06B3/673 ,  C03B23/20

CPC classification number: B29C47/026 ,  B29C47/003 ,  B29C47/0035 ,  B29C47/0866

Abstract: While a first coating gun 405 is being moved along a peripheral edge portion 100a of one surface of a multilayer glass panel 100 horizontally placed on a first worktable 20, the first coating gun 405 discharges a molding material to coat the peripheral edge portion 100a with the molding material over its entire length, molding a glazing gasket 110 thereon. An inverting mechanism 60 inverts the multilayer glass panel 100 with the molded glazing gasket 110 such that the other surface of the multilayer glass panel 100 faces upwardly. Then, a second coating gun 505 is moved along a peripheral edge portion 100b of the other surface of the multilayer glass panel 100, which is horizontally placed on a second worktable 30, and simultaneously discharges a molding material to coat the peripheral edge portion 100b with the molding material over its entire length, molding a glazing gasket 110 thereon.

Abstract translation: 当第一涂料枪405沿着水平放置在第一工作台20上的多层玻璃面板100的一个表面的周边部分100a移动时，第一涂布器405排出成型材料以将周边边缘部分100a涂覆 在其整个长度上成型材料，在其上模制玻璃衬垫110。 反转机构60使多层玻璃面板100与模制玻璃衬垫110反转，使得多层玻璃面板100的另一表面朝上。 然后，将第二涂料枪505沿水平放置在第二工作台30上的多层玻璃面板100的另一面的周缘部100b移动，同时排出成型材料以使周缘部100b以 模制材料在其整个长度上，在其上模制玻璃垫片110。

公开(公告)号：US20110214773A1

公开(公告)日：2011-09-08

申请号：US13062467

申请日：2009-09-02

Applicant: Yousuke Hamachi ,  Akira Onodera ,  Shuichi Toriumi

Inventor： Yousuke Hamachi ,  Akira Onodera ,  Shuichi Toriumi

IPC: F16L11/08 ,  B32B37/18

CPC classification number: F16L11/083 ,  B29C53/582 ,  B29C53/66 ,  B29C53/8016 ,  B29D23/001 ,  B29K2305/12 ,  B29L2009/003 ,  B29L2023/006

Abstract: A method of manufacturing a rubber hose reinforced by a plurality of helically arranged steel cords is provided. The rubber hose includes an inner tube, an outer tube, and a laminated reinforcing layer between the inner and outer tubes. The reinforcing layer is formed by laminating unit layers on each other. A composite strip material is formed by embedding a plurality of reinforcing steel cords in an unvulcanized rubber strip so as to extend in the longitudinal direction thereof. The strip material is wound around the inner tube and vulcanized. The unit layers are formed from the composite strip material having a single continuous form, and each layer is formed by alternately repeating a winding pass forming step for winding the composite strip material in a first direction and a winding pass forming step for winding the composite strip material in a second direction opposite the first direction.

Abstract translation: 提供一种制造由多根螺旋排列的钢丝绳加强的橡胶软管的方法。 橡胶软管包括内管，外管和内管和外管之间的层压增强层。 增强层通过将单元层彼此层叠而形成。 复合带材通过将多根钢丝帘线嵌入未硫化橡胶条而沿长边方向延伸而形成。 带状材料缠绕在内管上并硫化。 单元层由具有单一连续形式的复合带状材料形成，并且每个层通过交替地重复在第一方向上卷绕复合带材的卷绕成形步骤和用于卷绕复合带的卷绕通道形成步骤 材料在与第一方向相反的第二方向上。

公开(公告)号：US08453699B2

公开(公告)日：2013-06-04

申请号：US13377089

申请日：2009-06-09

Applicant: Shuichi Toriumi ,  Yousuke Hamachi

Inventor： Shuichi Toriumi ,  Yousuke Hamachi

IPC: B29C47/06

CPC classification number: B29C47/026 ,  B29C47/0019 ,  B29C47/0021

Abstract: A molding material 22 from an extruding machine 33 is fed by a molding material feed pump 34 to a molding material discharge pump 32, which discharges the molding material from a coating gun 31 to a peripheral edge portion 21a of a multilayer glass panel 21. The rate at which the molding material 22 is discharged from the coating gun 31 is adjusted by controlling the rotational speed of the molding material discharge pump 32 depending on the relative speed between the multilayer glass panel 21 and the coating gun 31. An amount of molding material 22, which is commensurate with the difference between the rates at which the molding material 22 is fed to and drawn into the molding material discharge pump 32, is circulated through a flexible circulation hose 39 to the extruding machine 33.

Abstract translation: 来自挤出机33的成型材料22由成型材料供给泵34供给到成型材料排出泵32，成型材料排出泵32将成型材料从涂料枪31排出到多层玻璃面板21的周缘部21a。 通过根据多层玻璃面板21和涂布枪31之间的相对速度控制成型材料排出泵32的旋转速度来调节成型材料22从涂料枪31排出的速度。成型材料的量 如图22所示，与成型材料22送入成型材料排出泵32的速度的差异相当，通过柔性循环软管39向挤出机33循环。