辊压机轴承座加工工艺优化改进

doi:10.19698/j.cnki.1001-6171.20226042

摘要
相关文章
推荐阅读
Metrics

下载:

PDF (5600KB)
输出: BibTeX | EndNote (RIS)

摘要在传统加工工艺基础上，通过改进优化辊压机轴承座粗车和精车加工工序，减少了工件吊装翻转找正次数，提升了轴承座的加工效率，缩短了轴承座的制作周期，降低了能源消耗和频繁吊装翻转工件带来的安全风险。与传统加工工艺相比，改进后的轴承座加工工艺制作效率提高了13%。

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	（）
	作者相关文章
	孙井刚

关键词: 辊压机轴承座加工工艺铣削

Abstract:

On the basis of the traditional processing technology, the roller press bearing pedestal has been improved and optimized by the rough turning and fine turning processing procedures. It has reduced the number of workpiece hoisting, overturning and alignment, improved the processing efficiency of the bearing pedestal, shortened the production cycle of the bearing pedestal, and reduced the energy consumption and the safety risks caused by hoisting and overturning. Compared with the traditional processing technology, the manufacturing efficiency of the optimized and improved processing technology of bearing seat is increased by 13%.

Key words: roller press bearing pedestal processing technology milling

收稿日期: 2022-03-25 修回日期: 2022-11-25 出版日期: 2022-11-25 发布日期: 2022-11-25 整期出版日期: 2022-11-25

ZTFLH:	TQ172.639

引用本文:

孙井刚. 辊压机轴承座加工工艺优化改进[J]. 水泥技术, 2022, 1(6): 42-46.
SUN Jinggang. Optimization and Improvement of the Processing Technology of the Roller Press Bearing Pedestal. Cement Technology, 2022, 1(6): 42-46.

链接本文:

http://www.cemteck.com/CN/10.19698/j.cnki.1001-6171.20226042 或 http://www.cemteck.com/CN/Y2022/V1/I6/42

[1]	郑磊. 变频器输出异常引起风机振动停机的故障分析[J]. 水泥技术, 2022, 1(6): 47-50.
[2]	李洪生, 沙印秋, 王娜, 于君, 何毛. 水泥辊压机联合粉磨系统的升级改造[J]. 水泥技术, 2022, 1(4): 39-46.
[3]	董治收. 振动时效技术在辊压机轴承座制造中的应用[J]. 水泥技术, 2022, 1(1): 53-56.
[4]	石国平, 秦中华, 王明治, 柴星腾, 李铭哲. 大规格生料辊压机终粉磨系统的工业应用[J]. 水泥技术, 2021, 1(5): 15-20.
[5]	段文虎, 刘章名. 生料辊压机终粉磨系统智能控制方案的优化[J]. 水泥技术, 2021, 1(5): 51-54.
[6]	张松立. 生料粉磨系统的节能改造[J]. 水泥技术, 2021, 1(4): 50-53.
[7]	秦学恒. RP1712辊压机断螺栓故障分析及处置[J]. 水泥技术, 2021, 1(4): 73-79.
[8]	沈锡荣, 顾云涛. 双曲线进料装置在辊压机系统循环负荷精准控制中的应用 [J]. 水泥技术, 2021, 1(2): 33-36.
[9]	邢愚, 戴建盛, 楼美善. 降低水泥粉磨电耗的改造实践 [J]. 水泥技术, 2021, 1(2): 97-99.
[10]	韩仲琦, 马占海. 料床粉磨与颗粒学[J]. 水泥技术, 2020, 1(6): 75-80.
[11]	黄贺. 三维图像识别成形技术在辊压机辊面监测上的应用 [J]. 水泥技术, 2020, 1(5): 71-73.
[12]	何毛, 李洪生, 马健, 王小峰, 杜鑫. 水泥辊压机终粉磨系统的工业化应用[J]. 水泥技术, 2020, 1(2): 17-20.
[13]	石国平, 罗占仁, 王明治, 李洪, 柴星腾. 生料辊压机终粉磨系统技术研究及应用[J]. 水泥技术, 2020, 1(1): 17-22.
[14]	贲道春, 仲跻松, 李金峰, 周文华. 托轮轴承座中心高度差配对与测量方法探讨 [J]. 水泥技术, 2019, 1(6): 50-56.
[15]	满高鹏, 王军梅, 于远友, 范刚, 肖胜星. 水泥辊压机联合粉磨系统的优化改造[J]. 水泥技术, 2019, 1(6): 35-37.

[1]	. Review and Prospect of Engineering Practice of Waste Disposal in Cement Kiln in China[J]. Cement Technology, 2018, 1(1): 17 -21 .
[2]	DI Dongren, TAO Congxi, CHAI Xingteng. Revision of Cement Energy Consumption Standards and Energy Saving Technology(Ⅰ)[J]. Cement Technology, 2018, 1(1): 22 -26 .
[3]	LIU Yonggang, GAO Hongwei, XIAO Guiqing. Design Method of Road Structure Using Lean Concrete Base[J]. Cement Technology, 2018, 1(1): 27 -31 .
[4]	LIU Xu, LI Liang. Investigation of New Medium Temperature Wear-resistant Alloy Steel[J]. Cement Technology, 2018, 1(1): 32 -34 .
[5]	MA Debao. Finite Element Analysis of Inverted Cone in Raw Meal Silo[J]. Cement Technology, 2018, 1(1): 35 -38 .
[6]	HAN Zhongqi. [J]. Cement Technology, 2018, 1(1): 38 -48 .
[7]	XIE Jianzhong, LIAN Xuewen. Analysis and Solution of Segregation of the Kiln Ash in Continuous Raw Meal Homogenization Silo#br#[J]. Cement Technology, 2018, 1(1): 49 -53 .
[8]	GUAN Laiqing, HE Yongxian. [J]. Cement Technology, 2018, 1(1): 54 -59 .
[9]	WEI Can, ZHANG Yuanyuan, AI Jun. Application of Cement Intelligent Control System in Overseas Projects[J]. Cement Technology, 2018, 1(1): 60 -64 .
[10]	JIN Shuang. [J]. Cement Technology, 2018, 1(1): 72 -73 .

Viewed

Full text

Abstract

Cited

Shared

Discussed