矿业工程
礦業工程
광업공정
MINING ENGINEERING
2014年
4期
39-41
,共3页
浓密机%驱动系统%优化改造
濃密機%驅動繫統%優化改造
농밀궤%구동계통%우화개조
thickener%drive system%optimization and modification
浓缩池尾矿工艺系统不同阶段得到3种不同粒度的尾矿,其中浮尾矿粒径较细占比重较大,给生产带来较多不利因素。通过分析使用的中心传动浓密机工况因素,并对浓密机驱动系统进行优化改造,在安全可靠条件下,提高了浓密机设备驱动能力。
濃縮池尾礦工藝繫統不同階段得到3種不同粒度的尾礦,其中浮尾礦粒徑較細佔比重較大,給生產帶來較多不利因素。通過分析使用的中心傳動濃密機工況因素,併對濃密機驅動繫統進行優化改造,在安全可靠條件下,提高瞭濃密機設備驅動能力。
농축지미광공예계통불동계단득도3충불동립도적미광,기중부미광립경교세점비중교대,급생산대래교다불리인소。통과분석사용적중심전동농밀궤공황인소,병대농밀궤구동계통진행우화개조,재안전가고조건하,제고료농밀궤설비구동능력。
In different stages of tailings process system of thickeners,three kinds of tailings in different particle sizes are obtained,among which floated tailings with a relative small particle size occupy a larger proportion, bringing more disadvantages to production.Through the analysis of working condition of the thickener with central drive,the drive system of thickener is optimized and modified.In the safe and reliable condition,the drive capacity of thickener can be improved.
