万吨水泥生产线回转窑驱动系统的改造

doi:10.19698/j.cnki.1001-6171.20233067

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摘要徐州中联万吨水泥熟料生产线?6m×90m回转窑原有驱动系统已无法满足企业降本增效、节能减排需求，在最大限度保持驱动系统安装尺寸不变的情况下，通过重新选型减速机，窑转速最大可达5r/min；通过对润滑油站优化设计，解决了减速机冷却润滑不足、油温高的问题；通过安装锁紧盘、调整扭力臂以及万向节联轴器等，解决了齿轮箱偏载振动大的问题。改造后的回转窑设备运行平稳，满足了系统提产提速的要求。

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	王科学
	纪良
	王明乾

关键词: 回转窑驱动系统减速机扭力臂

Abstract: The original drive system of ?6m×90m rotary kiln equipment of 10 000t/d cement production Line used in Xuzhou CUCC could no longer meet the requirement of company's cost reduction and efficiency demand, energy conservation and emission reduction. Based on this problem, the rotary kiln will have a maximum speed of 5r/min by reselecting the gearbox, while maximum keeping the installation size of drive system consistent. Through the optimization design of the lubricating oil station, the problems of insufficient cooling and lubrication of gearbox and high oil temperature can be solved. Furthermore, the problem of abnormal vibration under leaning load can be solved by readjusting shrink disc, torque arm and universal joint coupling. After solving above problems, the rotary kiln equipment runs stably and meets the requirements of system to increase production and speed.

Key words: rotary kiln drive system gearbox torque arm

收稿日期: 2022-11-18 出版日期: 2023-05-25 发布日期: 2023-05-26 整期出版日期: 2023-05-25

ZTFLH:

TQ172.622.29

引用本文:

王科学, 纪良, 王明乾. 万吨水泥生产线回转窑驱动系统的改造[J]. 水泥技术, 2023, 1(3): 67-70.
WANG Kexue, JI Liang, WANG Mingqian. Renovation of the Drive System of Rotary Kiln on 10 000t/d Cement Production Line. Cement Technology, 2023, 1(3): 67-70.

链接本文:

http://www.cemteck.com/CN/10.19698/j.cnki.1001-6171.20233067 或 http://www.cemteck.com/CN/Y2023/V1/I3/67

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[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 Xu, LI Liang. Investigation of New Medium Temperature Wear-resistant Alloy Steel[J]. Cement Technology, 2018, 1(1): 32 -34 .
[4]	MA Debao. Finite Element Analysis of Inverted Cone in Raw Meal Silo[J]. Cement Technology, 2018, 1(1): 35 -38 .
[5]	HAN Zhongqi. [J]. Cement Technology, 2018, 1(1): 38 -48 .
[6]	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 .
[7]	GUAN Laiqing, HE Yongxian. [J]. Cement Technology, 2018, 1(1): 54 -59 .
[8]	WEI Can, ZHANG Yuanyuan, AI Jun. Application of Cement Intelligent Control System in Overseas Projects[J]. Cement Technology, 2018, 1(1): 60 -64 .
[9]	JIN Shuang. [J]. Cement Technology, 2018, 1(1): 72 -73 .
[10]	ZHANG Jiangtao, LIU Baoliang. Processing of the Wet Materials of the Winter Cement Factory in the High Cold Region[J]. Cement Technology, 2018, 1(1): 74 -82 .

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