冶金自动化
冶金自動化
야금자동화
METALLURGICAL INDUSTRY AUTOMATION
2014年
6期
64-68
,共5页
步进梁加热炉%分段脉冲燃烧控制%烧嘴%PLC
步進樑加熱爐%分段脈遲燃燒控製%燒嘴%PLC
보진량가열로%분단맥충연소공제%소취%PLC
beam reheating furnace%segmental pulse combustion control%burner%PLC
针对步进梁加热炉热处理过程中出现的铜坯局部受热不均问题,对脉冲燃烧控制进行了改进。以往采用脉冲燃烧技术时,烧嘴大小火燃烧状态固定,最大火、最小火输出功率相差较大,导致加热过程工件局部受热强烈,影响热处理质量。分段式脉冲燃烧在原时序控制基础上,利用空气电动蝶阀的位置反馈,根据PLC控制输出的不同区间值设定不同的大小火燃烧状态,可保证炉内温度平稳上升,减少燃料消耗,提高热处理质量。控制过程通过自主研发的程序实现,节约硬件成本,调控灵活。实际运行效果表明系统性能稳定,控温精度高,很好地满足了工艺要求。
針對步進樑加熱爐熱處理過程中齣現的銅坯跼部受熱不均問題,對脈遲燃燒控製進行瞭改進。以往採用脈遲燃燒技術時,燒嘴大小火燃燒狀態固定,最大火、最小火輸齣功率相差較大,導緻加熱過程工件跼部受熱彊烈,影響熱處理質量。分段式脈遲燃燒在原時序控製基礎上,利用空氣電動蝶閥的位置反饋,根據PLC控製輸齣的不同區間值設定不同的大小火燃燒狀態,可保證爐內溫度平穩上升,減少燃料消耗,提高熱處理質量。控製過程通過自主研髮的程序實現,節約硬件成本,調控靈活。實際運行效果錶明繫統性能穩定,控溫精度高,很好地滿足瞭工藝要求。
침대보진량가열로열처리과정중출현적동배국부수열불균문제,대맥충연소공제진행료개진。이왕채용맥충연소기술시,소취대소화연소상태고정,최대화、최소화수출공솔상차교대,도치가열과정공건국부수열강렬,영향열처리질량。분단식맥충연소재원시서공제기출상,이용공기전동접벌적위치반궤,근거PLC공제수출적불동구간치설정불동적대소화연소상태,가보증로내온도평은상승,감소연료소모,제고열처리질량。공제과정통과자주연발적정서실현,절약경건성본,조공령활。실제운행효과표명계통성능은정,공온정도고,흔호지만족료공예요구。
According to the uneven heating problem for the copper billet in beam reheating furnace, the pulse combustion technology is improved. For the traditional combustion control,the burner states are constant and the difference in burner output power is big. This causes the billets local heating strongly and reduces the heat-treatment quality. Applying the segmental pulse combustion technology, the PLC output is divided into several segments. With the help of air electric butterfly valve,the big-gest and smallest burning states of the burners can be adjusted or settled in program according to PID output. This technology can make the temperature uniform and accurate. It can also reduce the fuel consumption and raise the heat treatment quality. The actual application shows that the furnace per-formance is stable and the temperature control accuracy is high. The maneuverability is flexible. The whole system meets the technological requirements perfectly.
