冲孔C型钢厂家选用全套双槽模具的整个送料过程大大提高了出钢作用,数控切开机的工作效率也大大提高。冲孔C型钢切开后,裂纹沿钢材的切削刃向基部延伸,裂纹的宽度为从前端到基部。逐步减少,在边缘构成厚的、低塑性区域。从切削刃的安排结构类似于受热区影响区的结构变化特征,冲孔C型钢存在不同程度的压应力,这是滞后开裂的首要原因。
The entire feeding process of using a complete set of double groove molds for punching C-shaped steel manufacturers greatly improves the tapping effect, and the work efficiency of CNC cutting machine is also greatly improved. After cutting the punched C-shaped steel, the crack extends along the cutting edge of the steel towards the base, and the width of the crack is from the front end to the base. Gradually reduce to form thick, low plastic areas at the edges. The arrangement structure of cutting edges is similar to the structural changes in the affected zone of the heating zone, and punching C-shaped steel has varying degrees of compressive stress, which is the primary reason for delayed cracking.
在冲孔C型钢生产过程中,很难避免冷却过程构成的板材剩余应力。因而,钢板切开变形严重影响客户运用。因而,控制冷却技能的优化和剩余应力场的猜测已成为炼钢职业的热点。
It is difficult to avoid the residual stress caused by the cooling process in the production of punched C-shaped steel. Therefore, the cutting deformation of the steel plate seriously affects the customer's use. Therefore, the optimization of control cooling skills and the speculation of residual stress fields have become hot topics in the steelmaking profession.
在现有工程项目的基础上,一起对大型冲孔C型钢切开过程中的轨道盯梢和轨道信息获取进行了研讨。首要讨论了硬件挑选的类型和已完结的双目视觉盯梢体系的结构,以及首要硬件挑选的细节,并解说了每个设备在体系中的作用,以完结规划。可视化监控体系,为下一步的研讨和试验基地的引入供给合适的渠道。
On the basis of existing engineering projects, a discussion was conducted on the track tracking and track information acquisition during the cutting process of large punched C-shaped steel. The types of hardware selection and the structure of the completed binocular visual tracking system were primarily discussed, as well as the details of the primary hardware selection. The role of each device in the system was explained to complete the planning. The visual monitoring system provides suitable channels for the next step of research and the introduction of experimental bases.
在这项工作中,对不同轨道的轨道进行了提取和测试,并对轨道提取算法进行了验证。在冲孔C型钢的切钢过程中,沿直线斜切,查看线和钢筋。进行三维重建后,供给重建图画和轨道参数的作用,并在某些情况下,汇总轨道误差,供给盯梢调整误差算法,并经过串行通讯在下位机进行误差调整。
In this work, different trajectories were extracted and tested, and the trajectory extraction algorithm was validated. During the steel cutting process of punching C-shaped steel, oblique cutting is carried out along a straight line to check the line and reinforcement. After Iterative reconstruction, provide the function of reconstruction picture and track parameters, and in some cases, summarize the track error, provide the tracking adjustment error algorithm, and adjust the error on the lower computer through serial communication.