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1.发明申请Machine for Processing Printing Material and Method for Structuring the Printing Material 审中-公开印刷材料加工机和印刷材料结构方法公开(公告)号:US20090068340A1
公开(公告)日:2009-03-12
申请号:US12205203
申请日:2008-09-05
申请人: Gerd Junghans , Robert Singer
发明人: Gerd Junghans , Robert Singer
CPC分类号: H05K3/027 , B41F19/00 , B41F19/005 , H05K1/0393 , H05K3/02 , H05K3/12 , H05K2201/0329 , H05K2203/107 , H05K2203/1142 , H05K2203/1545
摘要: A machine for processing printing material has at least one processing unit in which a printing material is modified in terms of shape or by application of a printing ink onto its surface. The printing material includes a surface area which either carries an electrically conductive substance or to which an electrically conductive substance is applied by an application unit of the machine for processing printing material. The machine further has a laser treatment unit for structuring the electrically conductive substance located on the printing material by partial modification or removal of the electrically conductive substance by a focused laser beam. In a corresponding method of operating the machine, at least one focused laser beam structures the electrically conductive substance located on the printing material by partial modification or removal of the electrically conductive substance. Structures of less than 10 micrometers in size can be achieved.
摘要翻译: 用于处理印刷材料的机器具有至少一个处理单元,其中印刷材料在形状方面被改变或者通过在其表面上施加印刷油墨。 印刷材料包括表面区域,其带有导电物质,或者通过用于加工印刷材料的机器的涂布单元将导电物质施加到该表面区域。 该机器还具有激光处理单元,用于通过聚焦激光束部分改性或去除导电物质来构造位于印刷材料上的导电物质。 在操作机器的相应方法中,至少一个聚焦激光束通过部分改性或去除导电物质来结构位于印刷材料上的导电物质。 可以实现尺寸小于10微米的结构。
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公开(公告)号:US07456855B2
公开(公告)日:2008-11-25
申请号:US11396022
申请日:2006-03-31
申请人: Gerd Junghans , Claus Seibert
发明人: Gerd Junghans , Claus Seibert
CPC分类号: G03F7/2055 , B41C1/05 , B41C1/1033 , B41C1/1066 , B41C1/1075 , H04N1/06 , H04N1/0678
摘要: A method for image generation on a recording material reduces the nonlinear spacing error between individual beams. In the method for image generation on a recording material, in which, in order to produce recording points on the recording material, individual radiation sources are used which are disposed along a line on a carrier material and in which the individual radiation sources are driven in accordance with an image and the individual beams are imaged onto a radiation-sensitive layer of the recording material. The spacing of the recording points on the recording material is set by length changes in the direction of the line being produced thermally in the carrier material.
摘要翻译: 用于在记录材料上产生图像的方法减少了各个光束之间的非线性间隔误差。 在记录材料上的图像生成方法中,为了在记录材料上产生记录点,使用沿着载体材料上的线设置并且各个辐射源被驱动的各个辐射源 根据图像,并且各个光束被成像到记录材料的辐射敏感层上。 记录材料上的记录点的间距是通过在载体材料中热生产的线的方向上的长度变化而设定的。
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公开(公告)号:US20060219118A1
公开(公告)日:2006-10-05
申请号:US11396022
申请日:2006-03-31
申请人: Gerd Junghans , Claus Seibert
发明人: Gerd Junghans , Claus Seibert
IPC分类号: B41N3/00
CPC分类号: G03F7/2055 , B41C1/05 , B41C1/1033 , B41C1/1066 , B41C1/1075 , H04N1/06 , H04N1/0678
摘要: A method for image generation on a recording material reduces the nonlinear spacing error between individual beams. In the method for image generation on a recording material, in which, in order to produce recording points on the recording material, individual radiation sources are used which are disposed along a line on a carrier material and in which the individual radiation sources are driven in accordance with an image and the individual beams are imaged onto a radiation-sensitive layer of the recording material. The spacing of the recording points on the recording material is set by length changes in the direction of the line being produced thermally in the carrier material.
摘要翻译: 用于在记录材料上产生图像的方法减少了各个光束之间的非线性间隔误差。 在记录材料上的图像生成方法中,为了在记录材料上产生记录点,使用沿着载体材料上的线设置并且各个辐射源被驱动的各个辐射源 根据图像,并且各个光束被成像到记录材料的辐射敏感层上。 记录材料上的记录点的间距是通过在载体材料中热生产的线的方向上的长度变化而设定的。
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公开(公告)号:US08507046B2
公开(公告)日:2013-08-13
申请号:US13074365
申请日:2011-03-29
申请人: Michaela Agari , Bernard Beier , Gerald Erik Hauptmann , Gerd Junghans , Ralf Kissel , Andreas Rupprecht , Joachim Sonnenschein
发明人: Michaela Agari , Bernard Beier , Gerald Erik Hauptmann , Gerd Junghans , Ralf Kissel , Andreas Rupprecht , Joachim Sonnenschein
摘要: A method of creating a fluid layer in the micrometer range includes transferring a fluid between substrates and forming a fluid layer. A surface energy of a first substrate releasing the fluid is higher than a surface energy of a fluid on the first substrate to create a first fluid deposit on the first substrate. A surface energy of a second substrate accepting the fluid is lower than a surface energy of a fluid on the second substrate to create a second fluid deposit on the second substrate that is reduced as compared to the first fluid deposit. A surface energy of a third substrate accepting the fluid is higher than a surface energy of a fluid on the third substrate to create a substantially homogeneous third fluid deposit on the third substrate that forms the fluid layer.
摘要翻译: 在微米范围内产生流体层的方法包括在衬底之间转移流体并形成流体层。 释放流体的第一衬底的表面能高于第一衬底上的流体的表面能,以在第一衬底上产生第一流体沉积物。 接受流体的第二基板的表面能低于第二基板上的流体的表面能,以在第二基板上产生与第一流体沉积相比减少的第二流体沉积物。 接受流体的第三基板的表面能高于第三基板上的流体的表面能,以在第三基板上形成基本均匀的第三流体沉积物,形成流体层。
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公开(公告)号:US20110244143A1
公开(公告)日:2011-10-06
申请号:US13074365
申请日:2011-03-29
申请人: Michaela Agari , Bernard Beier , Gerald Erik Hauptmann , Gerd Junghans , Ralf Kissel , Andreas Rupprecht , Joachim Sonnenschein
发明人: Michaela Agari , Bernard Beier , Gerald Erik Hauptmann , Gerd Junghans , Ralf Kissel , Andreas Rupprecht , Joachim Sonnenschein
摘要: A method of creating a fluid layer in the micrometer range includes transferring a fluid between substrates and forming a fluid layer. A surface energy of a first substrate releasing the fluid is higher than a surface energy of a fluid on the first substrate to create a first fluid deposit on the first substrate. A surface energy of a second substrate accepting the fluid is lower than a surface energy of a fluid on the second substrate to create a second fluid deposit on the second substrate that is reduced as compared to the first fluid deposit, A surface energy of a third substrate accepting the fluid is higher than a surface energy of a fluid on the third substrate to create a substantially homogeneous third fluid deposit on the third substrate that forms the fluid layer.
摘要翻译: 在微米范围内产生流体层的方法包括在衬底之间转移流体并形成流体层。 释放流体的第一衬底的表面能高于第一衬底上的流体的表面能,以在第一衬底上产生第一流体沉积物。 接受流体的第二基板的表面能低于第二基板上的流体的表面能,以在第二基板上产生与第一流体沉积相比减少的第二流体沉积。第三基板的表面能 接受流体的基板高于第三基板上的流体的表面能,以在形成流体层的第三基板上产生基本均匀的第三流体沉积物。
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