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公开(公告)号:US20170274353A1
公开(公告)日:2017-09-28
申请号:US15507053
申请日:2015-09-30
Inventor: Tasuku ISHIBASHI , Eiichi URIU , Hiroyuki ABE , Kenji HASEGAWA
CPC classification number: B01J20/28023 , B01D53/02 , B01D53/0407 , B01D2253/108 , B01D2253/1122 , B01J20/02 , B01J20/0203 , B01J20/18 , B01J20/186 , B01J20/3204 , B01J20/3236 , B01J20/3238 , B01J20/3287 , B01J2220/42 , B32B17/06 , B32B2250/40 , B32B2260/021 , E06B3/00 , E06B3/6612 , Y02B80/24
Abstract: The gas adsorbent of one aspect according to the present invention includes is included in the glass panel unit. The gas adsorbent includes: a substrate made of fiber or a porous substance, of inorganic material; and a liquid containing a getter attached to the substrate.
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公开(公告)号:US20150068665A1
公开(公告)日:2015-03-12
申请号:US14546371
申请日:2014-11-18
Inventor: Hiroyuki ABE , Masataka NONAKA , Hideki YOSHIDA , Eiichi URIU , Kenji HASEGAWA
CPC classification number: E06B3/6775 , C03C27/06 , E06B3/6612 , E06B3/66304 , E06B2003/66338
Abstract: The objective is to propose a production method of multiple panes which can be simple and nevertheless produce a multiple pane in its finished state which does not include any undesired protrusion from an external surface of a glass panel. The production method includes: hermetically bonding, with a sealing member, peripheries of paired glass panels disposed facing each other at a predetermined distance to form a space to be hermetically enclosed between the glass panels; evacuating air from the space through an outlet to make the space be in a reduced pressure state; subsequently dividing the space by a region forming member disposed inside the space to form a partial region which do not include the outlet; and subsequently cutting out the partial regions by cutting the pair of glass panels.
Abstract translation: 目的是提出一种可以简单的多个窗格的生产方法,并且在其完成的状态下产生不包括来自玻璃面板的外表面的不期望的突起的多窗格。 该制造方法包括:以密封构件与预定距离相对地配置的成对的玻璃面的周边密封地结合,形成要被气密地封闭在玻璃面板之间的空间; 通过出口从空间排出空气,使空间处于减压状态; 随后将所述空间划分为设置在所述空间内的区域形成构件,以形成不包括所述出口的部分区域; 并随后通过切割该对玻璃板切出部分区域。
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63.发明申请公开(公告)号:US20220243527A1
公开(公告)日:2022-08-04
申请号:US17618533
申请日:2020-06-16
Inventor: Hiroyuki ABE , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: A method for manufacturing a glass panel unit includes a working step, an assembling step, a bonding step, and a gas exhausting step. The working step includes a getter material making step including obtaining a getter material containing a zeolite and a cerium compound. The assembling step includes preparing an assembly. The bonding step includes melting a peripheral wall to hermetically bond a first glass pane and a second glass pane. The gas exhausting step includes exhausting a gas from an internal space through an exhaust port to turn the internal space into a vacuum space.
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64.发明申请公开(公告)号:US20210178525A1
公开(公告)日:2021-06-17
申请号:US17052677
申请日:2019-05-16
Inventor: Masataka NONAKA , Eiichi URIU , Takeshi SHIMIZU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE , Haruhiko ISHIKAWA
Abstract: A pillar delivery method is a method for delivering a plurality of pillars onto a substrate, including a glass panel, to manufacture a glass panel unit. The pillar delivery method includes an irradiation step, a holding step, and a mounting step. The irradiation step includes setting, over a holder, a sheet for use to form pillars and irradiating the sheet with a laser beam to punch out the plurality of pillars. The holding step includes having the plurality of pillars, which have been punched out of the sheet, held by the holder. The mounting step includes picking up some or all of the plurality of pillars from the holder and mounting the pillars onto the substrate.
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公开(公告)号:US20210147291A1
公开(公告)日:2021-05-20
申请号:US17044480
申请日:2019-03-08
Inventor: Masataka NONAKA , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: A glass panel unit includes: a pair of glass panels arranged to face each other; and a frame member disposed between the pair of glass panels to hermetically bond the pair of glass panels together. The frame member includes: a body; and a reinforcing portion. The body has a frame shape and includes: a first part containing a first sealing material having a first softening point; and a second part containing a second sealing material having a second softening point that is higher than the first softening point. The reinforcing portion contains a third sealing material having a third softening point that is higher than the first softening point. The reinforcing portion is adjacent to the first part in a space surrounded with the pair of glass panels and the body.
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Patent Agency Ranking
公开(公告)号:US20210115729A1
公开(公告)日:2021-04-22
申请号:US17043555
申请日:2019-03-13
Inventor: Tasuku ISHIBASHI , Eiichi URIU , Kazuya HASEGAWA , Hiroyuki ABE , Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: A method for manufacturing a glass panel unit includes an adhesive disposing step, a glass composite generation step, an internal space forming step, an evacuation step, and an evacuated space forming step. The adhesive disposing step includes disposing a thermal adhesive on a second panel. The glass composite generation step includes generating a glass composite including a first panel, the second panel, and the thermal adhesive. The internal space forming step includes heating the glass composite to melt the thermal adhesive to form internal spaces (a first space and a second space). The evacuation step includes exhausting gas from the internal space to evacuate the internal space. The evacuated space forming step includes heating and applying force to part of a first portion or a second portion to deform the part to close an evacuation path to form an evacuated space hermetically closed.
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公开(公告)号:US20210095517A1
公开(公告)日:2021-04-01
申请号:US17043446
申请日:2019-03-22
Inventor: Eiichi URIU , Tasuku ISHIBASHI , Kazuya HASEGAWA , Hiroyuki ABE , Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: A work in progress includes: a pair of glass substrates arranged to face each other; a peripheral wall having a frame shape and disposed between the pair of glass substrates; a boundary wall; and an evacuation port. The boundary wall hermetically separates an internal space, surrounded with the pair of glass substrates and the peripheral wall, into an evacuation space, a buffer space, and a ventilation space. The evacuation port connects the ventilation space to an external environment. The evacuation space and the buffer space have a lower internal pressure than the ventilation space. A predetermined part, including the evacuation space but excluding parts covering the buffer space and the ventilation space, of the work in progress, forms the glass panel unit.
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68.发明申请公开(公告)号:US20210017805A1
公开(公告)日:2021-01-21
申请号:US17044519
申请日:2019-03-13
Inventor: Takeshi SHIMIZU , Masataka NONAKA , Haruhiko ISHIKAWA , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE
Abstract: A glass panel unit having an exhaust pipe not protruding from the glass panel unit and an evacuation port tightly sealed, a glass window. A glass panel unit includes a first panel, a second panel, a seal member having a frame shape, a pore sealing material, and a bonding portion. The seal member hermetically bonds a peripheral portion of the first panel and a peripheral portion of the second panel together such that a hermetically sealed space in an evacuated state is formed between the first panel and the second panel. The pore sealing material hermetically seals an evacuation port formed in one of the first panel and the second panel. The bonding portion is bonded to the first panel and the second panel at part of a peripheral portion of the evacuation port and to suppress the first panel and the second panel from separating from each other.
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公开(公告)号:US20200232725A1
公开(公告)日:2020-07-23
申请号:US16486466
申请日:2018-02-15
Inventor: Hiroyuki ABE
IPC: F28F13/00
Abstract: A thermal rectifier includes a first panel, a second panel, and a switching mechanism. The switching mechanism includes a first thermally conductive portion thermally connected to the first panel and a second thermally conductive portion thermally connected to the second panel. The switching mechanism switches, as at least one of the first thermally conductive portion or the second thermally conductive portion changes their shape or dimensions, from a heat radiation state to a heat insulation state, or vice versa. The heat radiation state is a state where the first thermally conductive portion and the second thermally conductive portion are thermally coupled together. The heat insulation state is a state where the first thermally conductive portion and the second thermally conductive portion are thermally isolated from each other.
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70.发明申请公开(公告)号:US20200087200A1
公开(公告)日:2020-03-19
申请号:US16617385
申请日:2018-05-16
Inventor: Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE
Abstract: A pillar mounting method includes an accommodation step, a mounting step, and a displacement step. The accommodation step is a step of accommodating a plurality of pillars in storage with the plurality of pillars being stacked on each other. The mounting step is a step of pushing one pillar of the plurality of pillars accommodated in the storage out of the storage and mounting the one pillar on a substrate including a glass pane. The displacement step is a step of changing a relative location between the substrate and the storage. The mounting step and the displacement step are alternately repeated to mount the plurality of pillars in a predetermined arrangement on the substrate such that the plurality of pillars are apart from each other.
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