[1]褚程国,李同明,王海峰,等.HFW生产线飞锯机辅助升降托辊调节设备的研制与应用[J].焊管,2020,43(1):57-59,64.[doi:10.19291/j.cnki.1001-3938.2020.01.011]
 CHU Chengguo,LI Tongming,WANG Haifeng,et al.Development and Application of HFW Production Line Flying Saw Assisted with Lifting Idler Adjusting Equipment[J].,2020,43(1):57-59,64.[doi:10.19291/j.cnki.1001-3938.2020.01.011]
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HFW生产线飞锯机辅助升降托辊
调节设备的研制与应用()
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《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
43
期数:
2020年第1期
页码:
57-59,64
栏目:
工艺与设备
出版日期:
2020-01-28

文章信息/Info

Title:
Development and Application of HFW Production Line Flying Saw Assisted with
 Lifting Idler Adjusting Equipment
文章编号:
10.19291/j.cnki.1001-3938.2020.01.011
作者:
褚程国李同明王海峰郝向利张新民
浙江金洲管道科技股份有限公司, 浙江 湖州 313000
Author(s):
CHU Chengguo LI Tongming WANG Haifeng HAO Xiangli ZHANG Xinmin
Zhejiang Kingland Pipeline and Technologies Co., Ltd., Huzhou 313000, Zhengjiang, China
关键词:
焊管HFW飞锯机夹刀托辊调节锯片损耗
Keywords:
welded pipehigh-frequency weldingflying sawclamp kniferoller adjustmentsaw blade wastage
分类号:
TG333.93
DOI:
10.19291/j.cnki.1001-3938.2020.01.011
文献标志码:
B
摘要:
针对HFW焊管生产线飞锯机在厚壁、大直径钢管生产中存在的锯片寿命短、电机过流保护停机及钢管切口面质量差等问题,根据现有生产线的飞锯机工作原理,设计了一套飞锯机辅助升降托辊调节设备。将该设备应用于规格Φ610 mm×20.6 mm、钢级X65MO海管项目钢管生产中,有效解决了原有飞锯机在锯切厚壁、大直径钢管时存在的问题,提高了产品成材率,降低了飞锯设备故障及生产成本。
Abstract:
In view of the problems existing in the production of HFW welded pipe production line,such as the short blade life,the over-current protection shutdown and the poor quality of the steel pipe incision,a set of the flying saw assisted with of lifting idler adjusting equipment in steel pipe production was designed according to the flying saw operating principle of the existing production line. The equipment is applied to the project of  X65MO Φ610 mm×20.6 mm sea pipe,which effectively solves the problems existing in the original flying saw when the thick wall and the large diameter steel pipe is sawed,improves the product yield,and reduces the failure of the flying saw equipment and reduces the production cost.

参考文献/References:

[1] 贾熙. HFW焊管生产线飞锯机支撑装置的设计应用[J]. 钢管,2016(4):38-41.
[2] 柴晓艳. 飞锯机随动系统的运动分析[J]. 重型机械,2008(1):16-21.
[3] 邵毅. Φ660 mm HFW生产线的工艺装备特点[J]. 钢管,2015,44(5):53-57.
[4] 阮诚中. 仿形铣切锯优化切割控制的控制方法研究[D]. 上海:同济大学,2005.
[5] 任星,张玉华,宋新环,等. 钢管仿形铣切飞锯机锯片的研究[J]. 重型机械,2016(1):33-38.
[6] 易朝亮. 新型数控仿形铣切锯的研究与开发[D]. 杭州:浙江大学机能学院,2008.
[7] 李凤辉,钟存福. 数控仿形飞锯在HFW生产线上的应用[J]. 江汉石油科技,2014(24):77.
[8] 张玉华,柴晓艳. 提高伺服飞锯机锯切精度的方法[J]. 焊管,2004,27(4):40-42.
[9] 张玉华,李云龙. 飞锯车的运动分析[J]. 天津理工大学学报,2008,24(5):22-26.
[10] 矫庆春,黄晓娟,任崇立,等. 大规格数控仿形旋铣飞锯机的技术与应用[J]. 焊管,2006(6):82-84.
[11] 胡娜,韩宝云. HFW焊管生产线飞锯机优化切割的算法研究[J]. 焊管,2013,36(4):30-34.
[12] 施佳琦,魏祖宽. 材料切割优化问题的特殊解法[J]. 计算机与现代,2010(3):18-22.
[13] 黄超. 钢管生产线的优化切割研究[D]. 上海:同济大学电子与信息工程学院,2007.
[14] 刘桂林. 钢管生产短尺合同和非定尺合同组批优化算法[J]. 宝钢技术,2007(2):31-33.
[15] 苏指南.仿形铣切飞锯的运动控制[D]. 天津:天津理工大学,2011.
[16] 郭继富,郑红艳,周玉燕,等. ERW钢管的数控仿形锯切技术概述[J]. 焊管,2006,29(2):33-35.

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备注/Memo

备注/Memo:
收稿日期:2019-04-12
作者简介:褚程国(1986—),男,大学本科,机械工程师,目前主要从事设备技改、设备管理等工作。
更新日期/Last Update: 2020-02-21