열풍의 흐름 방향 및 변경 방법을 개선한 후 코일 배치, 뜨거운 공기 흐름의 개선이 더 느려지기 전에, 이것은 상부 및 하부 표면적의 코일이 더 크기 때문입니다, 뜨거운 공기의 차단 효과가 더 분명합니다., 코일의 표면과 방향이 서로 수직이기 때문에, so hot blast theory on each plate stay longer, so the temperature of the hot air will decline, hot air in contact with the plate, the temperature will be lower than the previous temperature, thus more let the temperature differences between different coil increasing.In addition, due to the surface of the hot air leaving the coil, 그만큼 90 - degree shift will happen, this shift is largely theoretical, in most cases the wind of change is not 90 학위, so the wind will happen after a coil, 그건, when the vertical blowing hot air after a first coil of the wind, not as a vertical direction will happen some deviation, and with the upward mobility, hot wind deviation will be more and more big, so at the top of the furnace, the wind will be very confusion, may appear more than hot breeze blowing the same coil at the same time,And some coil and no hot wind to heat the situation.
이러한 단계의 수와 형태는 사전 노화 온도에 따라 다릅니다., the improved coil placement method can effectively increase the number of coils placed in the furnace, which can also greatly reduce the cost of coil heating.
summary
Through the above analysis, we can see clear that improvements in the annealing furnace coil placed way, 검사 티켓, effectively alleviate the same coil heating temperature nonuniformity, and also can effectively reduce the temperature difference between the different coil, the last is the laying methods can increase the number of coil is placed inside the furnace, reduce the cost of heating coil.