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    • 1. 发明授权
    • Method for producing dielectric layer for plasma display panel
    • 等离子体显示面板用电介质层的制造方法
    • US07946898B2
    • 2011-05-24
    • US12464440
    • 2009-05-12
    • Kazuto FukudaKenji DateYasuhiro Asaida
    • Kazuto FukudaKenji DateYasuhiro Asaida
    • H01J9/00
    • H01J9/02H01J11/12H01J11/38
    • A method for producing a plasma display panel, a formation of the front-sided dielectric layer comprising the steps of: (i) locally supplying a low-melting point frit material onto a predetermined region of the substrate having the electrode thereon to locally form a low-melting point frit material layer; (ii) heating the low-melting point frit material layer to form a local glass layer therefrom; (iii) supplying a dielectric material over the substrate, covering the electrode and the local glass layer therewith to form a dielectric material layer; and, (iv) heating the dielectric material layer to form a dielectric layer therefrom, wherein a softening temperature of the local glass layer is lower than and equal to a softening temperature of a sealing material to be used for a panel sealing by which the front panel is sealed with a rear panel.
    • 一种用于制造等离子体显示面板的方法,所述前侧电介质层的形成包括以下步骤:(i)将低熔点玻璃料材料局部供应到具有所述电极的所述基板的预定区域上,以局部形成 低熔点玻璃料材料层; (ii)加热低熔点玻璃料材料层从而形成局部玻璃层; (iii)在衬底上提供介电材料,用电介质材料层覆盖电极和局部玻璃层; 和(iv)加热电介质材料层以形成介电层,其中局部玻璃层的软化温度低于和等于用于面板密封的密封材料的软化温度,其中前面 面板用后面板密封。
    • 2. 发明申请
    • METHOD FOR PRODUCING PLASMA DISPLAY PANEL
    • 生产等离子显示面板的方法
    • US20090280714A1
    • 2009-11-12
    • US12464440
    • 2009-05-12
    • Kazuto FUKUDAKenji DateYasuhiro Asaida
    • Kazuto FUKUDAKenji DateYasuhiro Asaida
    • H01J9/20
    • H01J9/02H01J11/12H01J11/38
    • A method for producing a plasma display panel, a formation of the front-sided dielectric layer comprising the steps of: (i) locally supplying a low-melting point frit material onto a predetermined region of the substrate having the electrode thereon to locally form a low-melting point frit material layer; (ii) heating the low-melting point frit material layer to form a local glass layer therefrom; (iii) supplying a dielectric material over the substrate, covering the electrode and the local glass layer therewith to form a dielectric material layer; and, (iv) heating the dielectric material layer to form a dielectric layer therefrom, wherein a softening temperature of the local glass layer is lower than and equal to a softening temperature of a sealing material to be used for a panel sealing by which the front panel is sealed with a rear panel.
    • 一种用于制造等离子体显示面板的方法,所述前侧电介质层的形成包括以下步骤:(i)将低熔点玻璃料材料局部供应到具有所述电极的所述基板的预定区域上,以局部形成 低熔点玻璃料材料层; (ii)加热低熔点玻璃料材料层从而形成局部玻璃层; (iii)在衬底上提供介电材料,用电介质材料层覆盖电极和局部玻璃层; 和(iv)加热电介质材料层以形成介电层,其中局部玻璃层的软化温度低于和等于用于面板密封的密封材料的软化温度,其中前面 面板用后面板密封。
    • 3. 发明申请
    • BATTERY BLOCK
    • 电池块
    • US20130344376A1
    • 2013-12-26
    • US13695194
    • 2012-03-01
    • Yasuhiro AsaidaYukio NishikawaHideaki HamadaNaoto HosotaniDaisuke Kishii
    • Yasuhiro AsaidaYukio NishikawaHideaki HamadaNaoto HosotaniDaisuke Kishii
    • H01M2/02
    • H01M2/0242H01M2/0262H01M2/0267H01M2/1077H01M2/1094H01M10/6555
    • The present invention provides a battery block that accommodates unit cells having higher capacities, and, even in case of abnormal heat generation in the unit cell, does not cause abnormal heat generation in the neighboring unit cells, thereby preventing a chain reaction of degradations and abnormalities of the accommodated unit cells. The battery block of the present invention includes a battery case having a minimum thickness section satisfying the relationship “K2/K1≧K3−1”. K1 is the thermal conductance between the battery case and the unit cell. K2 is the thermal conductance of the minimum thickness section of the battery case between two neighboring holes for accommodating the respective unit cells. K3 is a ratio between the abnormal heat temperature of a reference cell and the ambient temperature causing abnormal heat generation in this cell.
    • 本发明提供了容纳具有较高容量的单电池的电池块,即使在单元电池中发生异常发热的情况下,也不会在相邻的单元电池中产生异常的发热,从而防止劣化和异常的链式反应 的容纳单元电池。 本发明的电池模块包括具有满足关系“K2 / K1> = K3-1”的最小厚度部分的电池盒。 K1是电池盒和单元电池之间的热导率。 K2是用于容纳各个单电池的两个相邻孔之间的电池壳体的最小厚度部分的热导率。 K3是参考电池的异常加热温度与引起该电池异常发热的环境温度之比。
    • 5. 发明授权
    • Battery block
    • 电池块
    • US09548477B2
    • 2017-01-17
    • US13695194
    • 2012-03-01
    • Yasuhiro AsaidaYukio NishikawaHideaki HamadaNaoto HosotaniDaisuke Kishii
    • Yasuhiro AsaidaYukio NishikawaHideaki HamadaNaoto HosotaniDaisuke Kishii
    • H01M2/02H01M2/10H01M10/6555
    • H01M2/0242H01M2/0262H01M2/0267H01M2/1077H01M2/1094H01M10/6555
    • The present invention provides a battery block that accommodates unit cells having higher capacities, and, even in case of abnormal heat generation in the unit cell, does not cause abnormal heat generation in the neighboring unit cells, thereby preventing a chain reaction of degradations and abnormalities of the accommodated unit cells. The battery block of the present invention includes a battery case having a minimum thickness section satisfying the relationship “K2/K1≧K3−1”. K1 is the thermal conductance between the battery case and the unit cell. K2 is the thermal conductance of the minimum thickness section of the battery case between two neighboring holes for accommodating the respective unit cells. K3 is a ratio between the abnormal heat temperature of a reference cell and the ambient temperature causing abnormal heat generation in this cell.
    • 本发明提供了容纳具有较高容量的单电池的电池块,即使在单元电池中发生异常发热的情况下,也不会在相邻的单元电池中产生异常的发热,从而防止劣化和异常的链式反应 的容纳单元电池。 本发明的电池组包括电池壳体,其具有满足关系“K2 /K1≥K3-1”的最小厚度部分。 K1是电池盒和单元电池之间的热导率。 K2是用于容纳各个单电池的两个相邻孔之间的电池壳体的最小厚度部分的热导率。 K3是参考电池的异常加热温度与引起该电池异常发热的环境温度之比。
    • 6. 发明申请
    • BATTERY PACK
    • 电池组
    • US20120263982A1
    • 2012-10-18
    • US13515672
    • 2011-11-17
    • Shunsuke YasuiHiroshi TakasakiDaisuke KishiiYasuhiro Asaida
    • Shunsuke YasuiHiroshi TakasakiDaisuke KishiiYasuhiro Asaida
    • H01M2/12
    • H01M2/1247H01M2/1252H01M10/058
    • A battery pack includes: a plurality of cells which are lithium ion secondary batteries; an exhaust passage section which is adjacent to the cells and allows a flow of gas generated from at least one of the cells; a case accommodating the plurality of cells and the exhaust passage section; and a gas release duct 42 which is attached to the case and through which the gas having flowed through the exhaust passage section is released outside, wherein the gas release duct is hermetically closed with a lid 51 which is made of a waterproof member and is arranged at an exit 44 or on a release path of the gas release duct, an opening member 61 configured to open the lid to open the gas release duct is further provided, and the opening member is operated by the gas generated from the cell.
    • 电池组包括:多个电池,其为锂离子二次电池; 排气通道部,其与所述细胞相邻并且允许从所述细胞中的至少一个细胞产生的气体流; 容纳所述多个电池和所述排气通路部的壳体; 以及气体释放管道42,其附接到壳体,并且已经流过排气通道部分的气体通过该气体释放管42被释放到外部,其中气体释放管道由用防水构件制成的盖51气密地关闭, 在出口44处或气体释放管道的释放路径上,还设置有打开盖以打开气体释放管道的开口构件61,并且开口构件由从电池产生的气体操作。
    • 9. 发明授权
    • Linear compressor with vibration canceling spring arrangement
    • 具有减震弹簧装置的线性压缩机
    • US06742998B2
    • 2004-06-01
    • US10198127
    • 2002-07-19
    • Sadao KawaharaNobuaki OgawaTeruyuki AkazawaYasuhiro AsaidaMasaru NagaikeHiroshi Hasegawa
    • Sadao KawaharaNobuaki OgawaTeruyuki AkazawaYasuhiro AsaidaMasaru NagaikeHiroshi Hasegawa
    • F04B1704
    • F04B35/045F04B39/127Y10S417/902
    • A linear compressor is provided in which a driving spring and an elastic supporting member for supporting a compressing mechanism portion are disposed such that a piston and the compressing mechanism portion move in opposite phases such that vibration of a hermetic vessel is canceled out. The linear compressor comprises a hermetic vessel having a compressing mechanism portion and a linear motor therein. The compressing mechanism portion includes a piston-side mechanism and a cylinder-side mechanism, the former includes the piston and the mechanism member which is movable together with the piston, the latter includes the cylinder and the stator which connects with the cylinder. The cylinder-side mechanism member is elastically supported at opposite ends in the hermetic vessel by a first elastic member, and a reciprocating force in the axial direction is given the piston-side mechanism by a second elastic member whose one end is supported by the hermetic vessel.
    • 提供了一种线性压缩机,其中驱动弹簧和用于支撑压缩机构部分的弹性支撑构件设置成使得活塞和压缩机构部分以相反的相位移动,使得密封容器的振动被抵消。 线性压缩机包括密封容器,其中具有压缩机构部分和线性电动机。 压缩机构部分包括活塞侧机构和气缸侧机构,前者包括活塞和可与活塞一起移动的机构构件,后者包括与气缸连接的气缸和定子。 气缸侧机构构件通过第一弹性构件弹性地支撑在密封容器中的相对端,并且通过第二弹性构件向轴向方向上的往复力赋予活塞侧机构,第二弹性构件的一端由气密 船只。