外圆磨床驱动工作台的电液控制系统及液压缸设计含3张CAD图-独家+说明书
外圆磨床驱动工作台的电液控制系统及液压缸设计
摘要
液压技术作为一门新兴应用学科,虽然历史较短,发展的速度却非常惊人。液压设备能传递很大的力或力矩,单位功率重量轻,结构尺寸小;反应速度快、准、稳;易实现功率放大;易进行过载保护,制造成本较低。因此,世界各国均已广泛地应用在工程机械、机床工业、汽车工业等国防工业中。
本次设计的主要内容是外圆磨床驱动工作台的电液控制系统及液压缸设计。磨床工作台的运动是一种连续往复直线运动,它对调速、运动平稳性、换向精度、换向频率都有较高的要求,因广泛采用液压传动。磨床是一种精密加工机床,对液压系统有着较高的要求。磨床中的平面磨床为精加工机床,磨削力及变化量不大,工作台往复速度较高,调速范围较广。
在充分掌握液压技术的研究现状、发展趋势和外圆磨床结构、特点以及需要完成工作要求的基础上,对液压系统原理和电气控制原理进行了设计,对液压缸进行了相应的设计、计算和分析。通过上面的设计和分析达到了设计的目的的同时,还进一步夯实基矗
关键词:液压技术、外圆磨床、电液控制、液压缸、设计
ABSTRACT
Hydraulic tech
nology as a
n emergi
ng applicatio
n of discipli
ne, although a relatively short history, the speed of developme
nt is very alarmi
ng. Hydraulic equipme
nt ca
n deliver a large force or torque, light weight u
nit power, small structural dime
nsio
ns; reactio
n speed, accurate a
nd stable; easy to achieve power amplificatio
n; easy to overload protectio
n, low ma
nufacturi
ng costs. Therefore, the world have bee
n widely used i
n e
ngi
neeri
ng machi
nery, machi
ne tool i
ndustry, automotive i
ndustry a
nd other defe
nse i
ndustry. The mai
n co
nte
nts of desig
n is drive
n cyli
ndrical gri
nder table electro-hydraulic co
ntrol systems a
nd hydraulic cyli
nder desig
n. Be
nch gri
nder is a co
nti
nuous moveme
nt of reciprocati
ng li
near motio
n, its speed, smooth moveme
nt, precisio
n commutatio
n, commutatio
n freque
ncy have higher requireme
nts, due to widespread use of hydraulic tra
nsmissio
n. Gri
nder is a precisio
n machi
ne tools, hydraulic system has a higher dema
nd. The surface gri
nder gri
nder for fi
nishi
ng machi
nes, gri
ndi
ng force a
nd cha
nges i
n the amou
nt of small, high speed reciprocati
ng table, a wide speed ra
nge. O
n the basis of a full grasp of hydraulic tech
nology research status, tre
nds a
nd cyli
ndrical gri
ndi
ng machi
ne structure, characteristics a
nd requireme
nts
needed to complete the work o
n the pri
nciple of hydraulic a
nd electric co
ntrol pri
nciple of the system is desig
ned, the hydraulic cyli
nder for the correspo
ndi
ng desig
n, calculatio
n a
nd a
nalysis. Through the above a
nalysis of the desig
n a
nd achieve the purpose of the desig
n, while also further co
nsolidate the fou
ndatio
n. Keywords hydraulic tech
nology, cyli
ndrical gri
nder, electro-hydraulic co
ntrol, hydraulic cyli
nders, desig
n 目录 摘要I ABSTRACT II 绪论4 0.1外圆磨床的发展概述4 0.2外圆磨床的结构、分类及应用6 0.3液压系统的概述7 0.4外圆磨床液压系统发展潮流8 0.5课题设计的内容、目的及价值9 0.5.1课题研究的内容9 0.5.2课题研究的目的和价值9 第1章原始数据、工况及负载分析10 1.1原始数据的分析10 1.2负载分析10 1.3工况分析11 第2章液压系统原理的设计13 2.1液压系统类型的选择13 2.2液压系统动力源的选择13 2.3基本动作回路的设计14 2.3.1速度控制回路方案的设计14 2.3.2压力控制回路的设计15 2.3.3顺序动作方案的设计15 2.4液压系统原理图的总体设计15 2.5系统工作原理16 2.6液压元件动作表17 第3章工进液压缸的设计和计算18 3.1液压缸动作参数的确定18 3.2液压缸压力的确定18 3.3缸筒内径的确定18 3.4活塞杆的设计及直径d的确定19 3.5缸筒壁厚δ的确定20 3.6活塞的设计21 3.7活塞导向环的设计22 3.8密封装置的设计23 3.9缓冲装置的设计23 第4章快进液压缸的设计和计算24 4.1液压缸动作参数的确定24 4.2液压缸压力的确定24 4.3缸筒内径的确定24 4.4活塞杆的设计及直径d的确定24 4.5缸筒壁厚δ的确定25 4.6活塞的设计25 4.7活塞导向环的设计25 4.8密封装置的设计26 4.9缓冲装置的设计26 第5章液压元辅件计算、选择及验算27 5.1液压泵及电动机规格的确定27 5.2阀类元件及辅助元件的选择27 5.3管道尺寸的确定28 5.4油箱容积的确定29 5.5液压系统性能的验算29 5.5.1压力损失的验算及泵压力的调整29 5.5.2液压系统的发热和温升验算30 第6章电气控制回路的设计31 6.1电气控制原理31 6.2主电路分析31 6.3电动机控制电路分析31 6.4电器元件的选择33 结论34 致谢35 参考文献36
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nology as a
n emergi
ng applicatio
n of discipli
ne, although a relatively short history, the speed of developme
nt is very alarmi
ng. Hydraulic equipme
nt ca
n deliver a large force or torque, light weight u
nit power, small structural dime
nsio
ns; reactio
n speed, accurate a
nd stable; easy to achieve power amplificatio
n; easy to overload protectio
n, low ma
nufacturi
ng costs. Therefore, the world have bee
n widely used i
n e
ngi
neeri
ng machi
nery, machi
ne tool i
ndustry, automotive i
ndustry a
nd other defe
nse i
ndustry. The mai
n co
nte
nts of desig
n is drive
n cyli
ndrical gri
nder table electro-hydraulic co
ntrol systems a
nd hydraulic cyli
nder desig
n. Be
nch gri
nder is a co
nti
nuous moveme
nt of reciprocati
ng li
near motio
n, its speed, smooth moveme
nt, precisio
n commutatio
n, commutatio
n freque
ncy have higher requireme
nts, due to widespread use of hydraulic tra
nsmissio
n. Gri
nder is a precisio
n machi
ne tools, hydraulic system has a higher dema
nd. The surface gri
nder gri
nder for fi
nishi
ng machi
nes, gri
ndi
ng force a
nd cha
nges i
n the amou
nt of small, high speed reciprocati
ng table, a wide speed ra
nge. O
n the basis of a full grasp of hydraulic tech
nology research status, tre
nds a
nd cyli
ndrical gri
ndi
ng machi
ne structure, characteristics a
nd requireme
nts
needed to complete the work o
n the pri
nciple of hydraulic a
nd electric co
ntrol pri
nciple of the system is desig
ned, the hydraulic cyli
nder for the correspo
ndi
ng desig
n, calculatio
n a
nd a
nalysis. Through the above a
nalysis of the desig
n a
nd achieve the purpose of the desig
n, while also further co
nsolidate the fou
ndatio
n. Keywords hydraulic tech
nology, cyli
ndrical gri
nder, electro-hydraulic co
ntrol, hydraulic cyli
nders, desig
n 目录 摘要I ABSTRACT II 绪论4 0.1外圆磨床的发展概述4 0.2外圆磨床的结构、分类及应用6 0.3液压系统的概述7 0.4外圆磨床液压系统发展潮流8 0.5课题设计的内容、目的及价值9 0.5.1课题研究的内容9 0.5.2课题研究的目的和价值9 第1章原始数据、工况及负载分析10 1.1原始数据的分析10 1.2负载分析10 1.3工况分析11 第2章液压系统原理的设计13 2.1液压系统类型的选择13 2.2液压系统动力源的选择13 2.3基本动作回路的设计14 2.3.1速度控制回路方案的设计14 2.3.2压力控制回路的设计15 2.3.3顺序动作方案的设计15 2.4液压系统原理图的总体设计15 2.5系统工作原理16 2.6液压元件动作表17 第3章工进液压缸的设计和计算18 3.1液压缸动作参数的确定18 3.2液压缸压力的确定18 3.3缸筒内径的确定18 3.4活塞杆的设计及直径d的确定19 3.5缸筒壁厚δ的确定20 3.6活塞的设计21 3.7活塞导向环的设计22 3.8密封装置的设计23 3.9缓冲装置的设计23 第4章快进液压缸的设计和计算24 4.1液压缸动作参数的确定24 4.2液压缸压力的确定24 4.3缸筒内径的确定24 4.4活塞杆的设计及直径d的确定24 4.5缸筒壁厚δ的确定25 4.6活塞的设计25 4.7活塞导向环的设计25 4.8密封装置的设计26 4.9缓冲装置的设计26 第5章液压元辅件计算、选择及验算27 5.1液压泵及电动机规格的确定27 5.2阀类元件及辅助元件的选择27 5.3管道尺寸的确定28 5.4油箱容积的确定29 5.5液压系统性能的验算29 5.5.1压力损失的验算及泵压力的调整29 5.5.2液压系统的发热和温升验算30 第6章电气控制回路的设计31 6.1电气控制原理31 6.2主电路分析31 6.3电动机控制电路分析31 6.4电器元件的选择33 结论34 致谢35 参考文献36
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