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    • 4. 发明授权
    • Laser machining method and laser machining apparatus
    • 激光加工方法和激光加工设备
    • US07205501B2
    • 2007-04-17
    • US10927185
    • 2004-08-27
    • Kunio AraiKazuhisa IshiiHiroaki Ashizawa
    • Kunio AraiKazuhisa IshiiHiroaki Ashizawa
    • B23K26/38
    • H05K3/0038B23K26/04B23K26/0622B23K26/384B23K2101/42B23K2103/12
    • A laser machining method and a laser machining apparatus superior in hole position accuracy and hole quality. An outgoing beam outputted as short pulses is shaped by a pulse shaping unit so as to form a #1 branch beam. The #1 branch beam is supplied to a portion to be machined, so as to machine the portion. In this case, the #1 branch beam may be controlled to synchronize with the outgoing beam. When a piece to be machined is made from a metal material and at least one of an organic material and an inorganic material, the metal material is machined with a laser beam shaped to have a pulse width not shorter than 100 ns, and at least one of the organic material and the inorganic material is machined with a laser beam shaped to have a pulse width shorter than 100 ns.
    • 激光加工方法和激光加工装置,其孔位精度和孔质量优异。 作为短脉冲输出的输出光束通过脉冲整形单元成形,从而形成#1分支光束。 将#1分支光束供给到要加工的部分,以便加工该部分。 在这种情况下,可以控制#1分支光束与输出光束同步。 当要被加工的零件由金属材料和有机材料和无机材料中的至少一种制成时,金属材料被加工成具有不小于100ns的脉冲宽度的激光束,并且至少一个 的有机材料和无机材料用激光束加工成具有短于100ns的脉冲宽度。
    • 6. 发明授权
    • Apparatus for laser processing with a mechanical cutter
    • 用机械切割机进行激光加工的设备
    • US6043453A
    • 2000-03-28
    • US41005
    • 1998-03-12
    • Kunio Arai
    • Kunio Arai
    • B23K26/02B23K26/06B23K26/067B23K26/073B23K26/28H01L21/48B23K26/00
    • B23K26/0738B23K26/037B23K26/066B23K26/067B23K26/28H01L21/4803H01L21/4864H05K2203/0228H05K2203/056
    • The apparatus is for spot-facing for exposing an inner-layer conductor embedded in an insulator of a printed circuit board. The spot-facing removes the entire insulator by a mechanical cutter, except a remaining part thereof, to a position just above the inner-layer conductor. The remaining part of the insulator is smaller in thickness than the insulator removed by the mechanical cutter. Then, the remaining part of the insulator is removed by scanning the part with a laser beam to expose the inner-layer conductor. The laser beam is in a slender (elongated) shape almost perpendicular to the scanning direction of the laser beam and has an almost uniform energy density along the slender shape. Cutter processing is sufficient to be done before the inner-layer conductor, and there is no fear of damaging the inner-layer conductor. Moreover, it is easy to control thermal influence on the portion of the circuit board to be processed by the laser beam, because the energy density of the laser beam is almost uniform. Therefore, the product yield according to the processing is improved.
    • 该装置用于曝光嵌入在印刷电路板的绝缘体中的内层导体的面对。 点对面通过机械切割器将除了其余部分之外的整个绝缘体移除到刚好在内层导体上方的位置。 绝缘体的剩余部分的厚度小于由机械切割器去除的绝缘体。 然后,通过用激光束扫描该部分来去除绝缘体的剩余部分以暴露内层导体。 激光束呈细长(细长)的形状,几乎垂直于激光束的扫描方向,沿着细长形状具有几乎均匀的能量密度。 切割机处理足以在内层导体之前进行,并且不用担心损坏内层导体。 此外,由于激光束的能量密度几乎均匀,因此易于控制由激光束处理的电路板的部分的热影响。 因此,根据加工的产品产量提高。
    • 10. 发明申请
    • Laser machining method and laser machining apparatus
    • 激光加工方法和激光加工设备
    • US20070075059A1
    • 2007-04-05
    • US11525154
    • 2006-09-22
    • Kunio Arai
    • Kunio Arai
    • B23K26/38B23K26/06
    • B23K26/067B23K26/389
    • There is provided a laser machining method and a laser machining apparatus whose machining accuracy and quality excel without lowering machining efficiency. One hole is machined by a split beam that is a first pulsed laser beam and another split beam that is a second pulsed laser beam whose irradiation position is determined based on irradiation position of the first laser beam. In this case, the machining quality may be improved by machining the circular hole by equalizing circling directions and angular velocity of the split beams. A beam splitter splits a laser beam outputted out of one laser oscillator into the split beams and AOMs can time-share them.
    • 提供了一种激光加工方法和激光加工装置,其加工精度和质量优异,而不降低加工效率。 一个孔由作为第一脉冲激光束的分束和另一个分割光束加工,该分束是第二脉冲激光束,其照射位置是基于第一激光束的照射位置确定的。 在这种情况下,通过使分割光束的旋转方向和角速度相等来加工圆形孔,可以提高加工质量。 分束器将从一个激光振荡器输出的激光束分成分束,并且AOM可以分时分配。