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西德轧钢机械制造厂,约瑟夫。弗罗林研究出了一种对于轧制难变形的金属如:钛青铜,不锈钢等有很大前途的新的轧制理论。1976年5月受托制造了这种摆线轧机的样机(12辊)。这种轧机能获得10:1~15:1的道次压缩比。它是根据摆线轧制原理进行工作的。轧机在轧制区,两个工作辊沿摆线轨迹运动:轧辊咬住坯料并压缩其厚度。在随后的精正区里,工作辊在互相平行的直线轨迹上运行。此时辊缝保持不变,因此产品厚度也不变。工作辊在上述两个区域里的纵向运动是通过曲柄传动装置带动一个能确保两个轧辊同步运动的十字头来实现的。通过液压驱动的夹持系统将轧坯送入辊缝。夹持系统也可纵向往复运动。因此送料均匀且可根据轧材
West German rolling mill manufacturing plant, Joseph. Florin has developed a new rolling theory that has great promise for rolling hard-to-deformable metals such as titanium bronze and stainless steel. May 1976 Focused on the prototype of this cycloid mill (12 rolls). The mill achieves a 10: 1 to 15: 1 pass compression ratio. It is based on cycloid rolling principle of work. In the rolling area of the rolling mill, the two work rolls move along the trochoidal trajectory: the rolls bite the blank and compress its thickness. In the subsequent finishing area, the work rolls run on parallel straight paths. At this time the roll gap remains unchanged, so the product thickness is not changed. The longitudinal movement of the work rolls in both of these areas is achieved by means of a crank drive which drives a crosshead which ensures the simultaneous movement of the two rolls. The blank is fed into the nip by a hydraulically driven clamping system. The clamping system can also reciprocate longitudinally. So feed evenly and according to the rolling material