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公开(公告)号:US20160202842A1
公开(公告)日:2016-07-14
申请号:US14911071
申请日:2014-08-08
Inventor: Eiichi URIU , Kenji HASEGAWA
IPC: G06F3/042
CPC classification number: G06F3/0421 , G02F1/13338 , G02F2001/133331 , G02F2202/28 , G06F3/041 , G06F3/0412 , G06F3/044 , G06F2203/04103 , G06F2203/04112
Abstract: A touch-sensor-equipped display device includes a touch sensor 10, a transparent substrate 1, an image-display body 2, an adhesive layer formed of a thermal adhesive film 5, and a resin layer 3. The touch sensor 10 includes a first conductive layer 12A composed of a plurality of first electric conductors 13A, a second conductive layer 12B composed of a plurality of second electric conductors 13B, and at least one support film 11. The plurality of first electric conductors 13A extend in a different direction from a direction in which the plurality of second electric conductor 13B extend. The thermal adhesive film 5 bonds the at least one support film 11 and the transparent substrate 1. The resin layer 3 is disposed between the touch sensor 10 and the image-display body 2 and is made of a photo-curable resin.
Abstract translation: 具有触摸传感器的显示装置包括触摸传感器10,透明基板1,图像显示体2,由热粘合膜5形成的粘合层和树脂层3.触摸传感器10包括第一 由多个第一电导体13A构成的导电层12A,由多个第二导电体13B构成的第二导电层12B和至少一个支撑膜11.多个第一导电体13A沿与 多个第二导电体13B延伸的方向。 热粘合膜5将至少一个支撑膜11和透明基板1接合。树脂层3设置在触摸传感器10和图像显示体2之间,并且由光固化树脂制成。
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12.发明公开公开(公告)号:US20230167671A1
公开(公告)日:2023-06-01
申请号:US17922937
申请日:2021-04-26
Inventor: Hiroyuki ABE , Eiichi URIU , Tasuku ISHIBASHI , Kazuya HASEGAWA , Masataka NONAKA , Takeshi SHIMIZU , Naoki KOSUGI
CPC classification number: E06B3/6612 , C03C27/06 , E06B3/6775 , C03C2201/06
Abstract: A glass panel unit includes: a first glass pane; a second glass pane facing the first glass pane; a frame member; an evacuated space; and a gas adsorbent. The frame member hermetically bonds the first glass pane and the second glass pane. The evacuated space is surrounded with the first glass pane, the second glass pane, and the frame member. The gas adsorbent is placed in the evacuated space. The gas adsorbent contains a getter material. The getter material contains a plurality of particles of a zeolite crystal. At least one particle accounting for a half or more of a total weight of the plurality of particles has a particle size equal to or greater than 200 nm. An activable temperature of the at least one particle is equal to or lower than 400° C.
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公开(公告)号:US20210381302A1
公开(公告)日:2021-12-09
申请号:US17283858
申请日:2019-08-27
Inventor: Kenji HASEGAWA , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE , Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: A glass panel unit includes: a first panel including a glass pane; a second panel including another glass pane; a sealing portion; an exhaust port; and a printed portion. The second panel is arranged to face the first panel. The sealing portion is formed in a frame shape and hermetically bonds respective peripheral edge portions of the first and second panels to create an evacuated, hermetically sealed space between the first panel and the second panel. The exhaust port is provided for one panel selected from the first and second panels. A port sealing member hermetically seals the exhaust port. The printed portion is provided for the other panel selected from the first and second panels. The printed portion is located in an area, facing the exhaust port, of one surface of the other panel. The one surface either faces toward, or faces away from, the hermetically sealed space.
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公开(公告)号:US20210270084A1
公开(公告)日:2021-09-02
申请号:US17258267
申请日:2019-06-19
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 an assembling step, a bonding step, a gas exhausting step, a sealing step, and an activating step. The bonding step includes melting a peripheral wall in a baking furnace at a first predetermined temperature to hermetically bond a first glass pane and a second glass pane together with the peripheral wall thus melted. The gas exhausting step includes exhausting a gas from an internal space through an exhaust port in the baking furnace to turn the internal space into a vacuum space. The sealing step includes locally heating to a temperature higher than a second predetermined temperature, and thereby melting, either a port sealing material or an exhaust pipe to seal the exhaust port and thereby obtain a work in progress. The activating step includes activating a gas adsorbent after the sealing step to obtain a glass panel unit.
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公开(公告)号:US20210238088A1
公开(公告)日:2021-08-05
申请号:US16625559
申请日:2018-06-19
Inventor: Hiroyuki ABE , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: A gas adsorption unit includes a getter, a package encapsulating the getter, and a low-melting member. The low-melting member is heated, and thereby melted, at a temperature lower than a melting point of the package to bond a connector including the low-melting member onto the package. Next, the low-melting member that has melted is cooled and cured. Then, thermal stress resulting from a difference in thermal expansion coefficient between the package and the connector is caused to the package connected to the connector, thereby breaking the package open.
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Patent Agency Ranking
公开(公告)号:US20210207427A1
公开(公告)日:2021-07-08
申请号:US17059009
申请日:2019-04-15
Inventor: Takeshi SHIMIZU , Masataka NONAKA , Haruhiko ISHIKAWA , Eiichi URIU , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE
Abstract: A glass panel unit manufacturing method includes a bonding step, an insertion step, an evacuation step, and a sealing step. The bonding step includes bonding a first substrate having an evacuation port and a second substrate together with a bonding material provided between the first substrate and the second substrate and having a frame shape to form an internal space. The insertion step includes inserting a sealing material into the evacuation port. The evacuation step includes evacuating the internal space through the exhaust passage. The sealing step includes deforming the sealing material by heating while an evacuated state in the internal space is maintained. In a state where the sealing material blocks ventilation between the evacuation port and the internal space, gas is supplied through the exhaust passage toward the evacuation port.
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17.发明申请公开(公告)号:US20200181013A1
公开(公告)日:2020-06-11
申请号:US16622211
申请日:2018-06-19
Inventor: Tasuku ISHIBASHI , Eiichi URIU , Kazuya HASEGAWA , Hiroyuki ABE , Masataka NONAKA , Takeshi SHIMIZU , Haruhiko ISHIKAWA
Abstract: The method for manufacturing the gas adsorption unit includes a preparation step, an activation step, and a sealing step. The preparation step is a step of wrapping a getter with a package material. The activation step is a step of heating the getter wrapped with the package material to activate the getter. The sealing step is a step of melting the package material by heating the package material so as to seal, with the package material, the getter activated in the activation step.
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公开(公告)号:US20200040644A1
公开(公告)日:2020-02-06
申请号:US16338422
申请日:2017-09-25
Inventor: Kazuya HASEGAWA , Masataka NONAKA , Hiroyuki ABE , Tasuku ISHIBASHI , Eiichi URIU
Abstract: A manufacturing method of a glass panel unit of the present invention includes a bonding step, a pressure reduction step, and a sealing step. In the bonding step, a first substrate and a second substrate are hermetically bonded together with a seal having a frame shape. In the pressure reduction step, a pressure in an inside space formed between the first substrate and the second substrate is reduced through an exhaust port. In the sealing step, sealant melted is dropped toward the exhaust port, thereby sealing the exhaust port with the sealant.
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公开(公告)号:US20190195003A1
公开(公告)日:2019-06-27
申请号:US16328484
申请日:2017-08-28
Inventor: Hiroyuki ABE , Eiichi URIU , Kazuya HASEGAWA , Masataka NONAKA , Tasuku ISHIBASHI
Abstract: A glass panel unit includes: a sealing member arranged between a first panel and a second panel, which are arranged to face each other with a predetermined gap left between themselves, to hermetically bond the first panel and the second panel together; and an internal space sealed heimetically with the first panel, the second panel, and the sealing member. The glass panel unit further includes a spacer arranged in the internal space so as to be in contact with the first panel and the second panel. The spacer includes a plurality of resin layers that are stacked one on top of another in a direction in which the first panel and the second panel face each other. At least any two of the plurality of resin layers have different elastic moduli.
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公开(公告)号:US20190084878A1
公开(公告)日:2019-03-21
申请号:US16084822
申请日:2017-03-27
Inventor: Masataka NONAKA , Eiichi URIU , Takeshi SHIMIZU , Haruhiko ISHIKAWA , Kazuya HASEGAWA , Tasuku ISHIBASHI , Hiroyuki ABE
IPC: C03C27/06
Abstract: A glass panel unit manufacturing method includes a bonding step, a pressure reducing step, and a sealing step. The bonding step includes bonding together a first substrate including a wired glass pane and a second substrate including a non-wired glass pane with a first sealant in a frame shape to create an inner space. The pressure reducing step includes producing a reduced pressure in the inner space through an exhaust port that the first substrate has. The sealing step includes irradiating the second sealant with an infrared ray externally incident through the second substrate to seal the exhaust port up with the second sealant that has melted.
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