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    • 8. 发明授权
    • Method for cutting to length a piece of tube from a tube
    • 从管中切割长度一根管的方法
    • US09089984B2
    • 2015-07-28
    • US13597731
    • 2012-08-29
    • Roger Schlitter
    • Roger Schlitter
    • B23P17/00B26D3/16B26D7/08B26F3/06
    • B32B38/0004B26D3/16B26D7/08B26F3/06B26F3/08B32B37/12B32B37/18B32B2597/00F16L11/04Y10T29/49817Y10T83/0405Y10T83/0596
    • A method for cutting to length a piece of tube having an inner tube and an outer tube sheathing, the piece of tube being detached with the aid of a cutting tool at a cutting site in a plane oriented transversely to the longitudinal extent of the tube. The tube sheathing is surrounded by a severable tube fixing element, which covers over the intended cutting site before the piece of tube is detached using the cutting tool at the cutting site, and the tube fixing element completely encloses the outer tube sheathing in the circumferential direction. The tube fixing element is fixed on the tube sheathing and/or the tube enclosed by the tube fixing element is severed with the cutting tool such that a relative displacement of the tube fixing element with respect to the tube sheathing or of the tube sheathing with respect to the inner tube is prevented.
    • 一种用于切割具有内管和外管护套的管件的长度的方法,所述管件借助于切割工具在切割部位处在垂直于管的纵向范围定向的平面中分离。 管套被可分割的管固定元件包围,该管固定元件在切割部位使用切割工具分离管之前覆盖预定的切割位置,并且管固定元件在圆周方向上完全包围外管护套 。 管固定元件固定在管套上,和/或由管固定元件封闭的管被切割工具切断,使得管固定元件相对于管护套或管的相对位移相对于 到内管被阻止。
    • 10. 发明授权
    • Method of splitting non-metallic materials
    • 分割非金属材料的方法
    • US5609284A
    • 1997-03-11
    • US355078
    • 1994-09-30
    • Vladimir S. Kondratenko
    • Vladimir S. Kondratenko
    • B26F3/16B23K26/00B23K26/073B23K26/40B26F3/00B26F3/06B28D1/00C03B33/02C03B33/09B23K15/00
    • B23K26/0736B23K26/40B26F3/00B26F3/06C03B33/091B23K2203/50Y02P40/57Y10T225/10Y10T225/12Y10T225/304Y10T225/321
    • A method of cutting non-metallic materials, specifically glass, resides in the heating of the material by an incident beam of radiation being effected to a temperature short of its softening point, with the rate of relative displacement of the beam and of the material, and the region of the heated zone which is locally cooled being selected to form a blind crack in the material. The method provides for increasing substantially the cutting speed and accuracy, and also for controlling the depth, shape and angle of the cut face formed by the crack. The method can be employed in the automotive industry for making glass windows and mirrors, in the electronics industry for making precision backings and substrates for LED indicator panels and masks, magnetic and optomagnetic disks, in watch-making for making protective glasses, in the aircraft and space industry for making structural optics components, in construction and architecture for dimensional pattern-cutting of glass, including its integration in the glass manufacturing technology, and also in other fields of production and technologies where precision of non-metallic materials are made.
    • 切割非金属材料,特别是玻璃的方法在于通过入射的辐射束进行材料的加热,其温度低于其软化点的温度,以及光束和材料的相对位移速率, 并且选择局部冷却的加热区域在材料中形成盲裂纹。 该方法大大提高了切割速度和精度,并且还用于控制由裂纹形成的切割面的深度,形状和角度。 该方法可用于制造玻璃窗和反射镜的汽车工业中,用于电子工业中用于制造精密背衬和用于LED指示板和掩模的基板,磁性和光磁盘,用于在飞机上制造防护眼镜的制表 制造结构光学部件的空间工业,玻璃的尺寸图案切割的建筑和结构,包括其在玻璃制造技术中的集成,以及其他制造非金属材料精度的生产和技术领域。