2t装、出料机的研制——旋转部件设计.rar
2t装、出料机的研制——旋转部件设计,论文标准word格式排版 25页 附轴承座装配图.dwg 旋转部件装配图.dwg 回转平板.dwg目录摘要 1引 言 4第一章装、出料机的整体论证 51.1锻造车间 51.2装、出料机旋转部件论证 6第二章装、出料机回转平台设计 92.1回转支承的选型 92.2回转支承的计算 92.3安装螺栓的强度校核 13第三章齿轮...
该文档为压缩文件,包含的文件列表如下:
内容介绍
原文档由会员 莎士比亚 发布
论文标准WORD格式排版 25页 附轴承座装配图.dwg 旋转部件装配图.dwg 回转平板.dwg
目 录
摘要 1
引 言 4
第一章 装、出料机的整体论证 5
1.1 锻造车间 5
1.2 装、出料机旋转部件论证 6
第二章 装、出料机回转平台设计 9
2.1 回转支承的选型 9
2.2 回转支承的计算 9
2.3 安装螺栓的强度校核 13
第三章 齿轮啮合传动的设计 14
3.1 齿轮外啮合设计 14
3.2 液压马达转矩计算 18
第四章 机械臂支座设计 19
4.1 机械臂支座选取直径计算 19
4.2 机械臂支座的安装 20
第五章 装、出料机电气原理设计 21
5.1 电气控制线路设计... 21
设计小结 23
致 谢 24
参考文献: 25
摘要 根据设计任务书中给出的技术参数,详细分析了装、出料机的旋转部件的原理和机构,参考悬臂式起重机和各种装卸机械旋转部件的原理并根据锻造车间的特点,通过方案论证以及设计计算最终完成设计任务。
装、出料机旋转部件的设计有:回转支承的选型计算、齿轮啮合传动的设计计算、机械臂支座的选用计算、电气控制设计等四部分。回转支承固定在y方向直线运动的小车上选用三排滚柱式回转支承(13)系列,型号为:外齿式132.32.1200.002;固定在台架上的液压马达控制一个小齿轮按行星轨迹绕回转支承运行,回转支承驱动台架360度旋转,转速3r/min;机械臂支座选用轴直径d=50mm的四螺柱滚动轴承座;部分用来控制油泵,大车行走、小车行走的电机电气控制。旋转部件重量2756kg.
本设计所遇到的难点有:回转支承选型计算和由于工作台旋转,而引起的控制线路的布线设计问题。经过查阅资料、认真计算最终采用结构牢固的三排滚柱式回转支承(13)系列;为使工作台旋转范围大于360度,在回转支承中间设计一个滑环机械,使来自大车、小车的电源线路通过滑环机械引入电气柜;控制线路也通过滑环机械到达小车和大车的驱动电机,为保证装、出料机的运行安全,在控制电路中还设计了大车、小车、旋转等部件运动的电气互锁电路。
经设计小组全体人员共同努力,精心设计,本设计达到了设计任务书的要求。
关键词:锻造 装、出料机 旋转部件 设计
Development of feed and exports material
machine with 2T——revolving part design
Abstract According to the design tasks are given in the technical parameters, a detailed analysis of feed and exports material machine revolving part of the principles and institutions, reference cantilever cranes and mechanical handling various components of the rotation principle and in accordance with the characteristics of forging workshop, demonstrated through the programme And the Design of the final design task.
Feed and exports material machine revolving part design are: Rotary supports the selection, the design of transmission gear meshing, bearing the selection, design, electrical control of four parts. Y slewing bearings in the direction of fixed line movement on the car of choice of three rows of rotating roller bearing (13) series, the model: the tooth-132.32.1200.002; bench fixed in the hydraulic motor control gear on a small planet trajectory Running around the rotary bearing, rotating drive platform supports 360-degree rotation, speed 3 r / min; manipulator supports optional d = 50mm diameter shaft of the four stud rolling; part used to control pumps, large carts walking, running the car Electric motor control. Rotating parts weight of 2756 kg.
The design of the difficulties encountered by: Rotating Bearing Selection calculation and due to table rotation, caused by the control circuit wiring design problems. after inspection, carefully calculated using the final structure of a solid three rows of rotating Roller Bearing (13) series for the rotation of more than 360 workstations, in the rotary bearing the middle of a slip ring mechanical design, from the large carts, vehicles of power lines through the introduction of electrical machinery slip ring counter; control line through the slip ring and large carts machinery arrived at the car driven motor, to ensure the equipment, materials to the safe operation of aircraft, also in the control circuit design of the large carts, vehicles, rotating movement of electrical components, such as interlocking circuit.
The joint efforts of all the staff of the design team, well-designed, the design of the tasks to the design requirements.
........
目 录
摘要 1
引 言 4
第一章 装、出料机的整体论证 5
1.1 锻造车间 5
1.2 装、出料机旋转部件论证 6
第二章 装、出料机回转平台设计 9
2.1 回转支承的选型 9
2.2 回转支承的计算 9
2.3 安装螺栓的强度校核 13
第三章 齿轮啮合传动的设计 14
3.1 齿轮外啮合设计 14
3.2 液压马达转矩计算 18
第四章 机械臂支座设计 19
4.1 机械臂支座选取直径计算 19
4.2 机械臂支座的安装 20
第五章 装、出料机电气原理设计 21
5.1 电气控制线路设计... 21
设计小结 23
致 谢 24
参考文献: 25
摘要 根据设计任务书中给出的技术参数,详细分析了装、出料机的旋转部件的原理和机构,参考悬臂式起重机和各种装卸机械旋转部件的原理并根据锻造车间的特点,通过方案论证以及设计计算最终完成设计任务。
装、出料机旋转部件的设计有:回转支承的选型计算、齿轮啮合传动的设计计算、机械臂支座的选用计算、电气控制设计等四部分。回转支承固定在y方向直线运动的小车上选用三排滚柱式回转支承(13)系列,型号为:外齿式132.32.1200.002;固定在台架上的液压马达控制一个小齿轮按行星轨迹绕回转支承运行,回转支承驱动台架360度旋转,转速3r/min;机械臂支座选用轴直径d=50mm的四螺柱滚动轴承座;部分用来控制油泵,大车行走、小车行走的电机电气控制。旋转部件重量2756kg.
本设计所遇到的难点有:回转支承选型计算和由于工作台旋转,而引起的控制线路的布线设计问题。经过查阅资料、认真计算最终采用结构牢固的三排滚柱式回转支承(13)系列;为使工作台旋转范围大于360度,在回转支承中间设计一个滑环机械,使来自大车、小车的电源线路通过滑环机械引入电气柜;控制线路也通过滑环机械到达小车和大车的驱动电机,为保证装、出料机的运行安全,在控制电路中还设计了大车、小车、旋转等部件运动的电气互锁电路。
经设计小组全体人员共同努力,精心设计,本设计达到了设计任务书的要求。
关键词:锻造 装、出料机 旋转部件 设计
Development of feed and exports material
machine with 2T——revolving part design
Abstract According to the design tasks are given in the technical parameters, a detailed analysis of feed and exports material machine revolving part of the principles and institutions, reference cantilever cranes and mechanical handling various components of the rotation principle and in accordance with the characteristics of forging workshop, demonstrated through the programme And the Design of the final design task.
Feed and exports material machine revolving part design are: Rotary supports the selection, the design of transmission gear meshing, bearing the selection, design, electrical control of four parts. Y slewing bearings in the direction of fixed line movement on the car of choice of three rows of rotating roller bearing (13) series, the model: the tooth-132.32.1200.002; bench fixed in the hydraulic motor control gear on a small planet trajectory Running around the rotary bearing, rotating drive platform supports 360-degree rotation, speed 3 r / min; manipulator supports optional d = 50mm diameter shaft of the four stud rolling; part used to control pumps, large carts walking, running the car Electric motor control. Rotating parts weight of 2756 kg.
The design of the difficulties encountered by: Rotating Bearing Selection calculation and due to table rotation, caused by the control circuit wiring design problems. after inspection, carefully calculated using the final structure of a solid three rows of rotating Roller Bearing (13) series for the rotation of more than 360 workstations, in the rotary bearing the middle of a slip ring mechanical design, from the large carts, vehicles of power lines through the introduction of electrical machinery slip ring counter; control line through the slip ring and large carts machinery arrived at the car driven motor, to ensure the equipment, materials to the safe operation of aircraft, also in the control circuit design of the large carts, vehicles, rotating movement of electrical components, such as interlocking circuit.
The joint efforts of all the staff of the design team, well-designed, the design of the tasks to the design requirements.
........