摘要:本课题所设计的多接头自动排序与上料机构的设计,目的是为了实现接插件的自动送料,消除积累误差,同时减少劳动力成本。在设计过程中,根据设计要求,主要是对分度台装夹接插件的机构以及挡板装置、插植线盒、旋转臂等部分机构确定整体构造,实现整个流水线的有序不间断地供料,并根据设计画出三文示意图。设计过程中,包括对振动盘、气缸、伺服电机、滚珠丝杠、电磁阀的等一系列零部件的选型和计算,确各部分尺寸,绘制出了总体装配图及各部件零件图。此台设备可以大大减少劳动力成本,提高生产效率,同时也减少了误差,简化了机构。这在实际生产中具有很好的推广效果和意义。36305 毕业论文关键词: 接插件;自动上料;分度盘;滚珠丝杠;伺服电机
The design of more joint automatic sorting and feeding mechanism
Abstract: the design of this project be automatic sorting and feeding mechanism in order to realize the aim, is automatic packing,eliminate accumulation error, while reducing the cost of labor. In the design process, according to the design requirements , mainly design on piding machine clamping connectors of the institutions and baffle device, insert box, rotatingarm and some agencies to determine the overall structure, realize the whole line feeding order constantly, and according to the design to draw 3 d map. In design process, including the vibration plate, cylinder, servo motor, ball screw, and a series of components selection and calculation of the electromagnetic valve, To determine the size, drawing out ofthe general assembly drawing and parts drawing. mainly design on the bench and workbench clamping device, ball screw choose, and can realize automatic feed of servo motors. Based on the design and research of these aspects, canreduce labor costs, reduce the error, also simplifies organization. This in practical production have very good promotion effect and meaning.
Keywords: Connectors;automatic feeding;index plate;ball screw;Servo motor
目录
1 绪论 1
1.1课题背景 1
1.1.1线束 1
1.1.2 线束生产工艺 1
1.2 线束生产设备现状 3
1.2.1线束生产设备国内发展现状 3
1.2.2 插植机国外的发展状况 5
1.3 全自动多线色送线压接插植机 7
2 机构设计理论简介及工艺分析 12
2.1原始数据 12
2.2技术要求 12
2.3 接插件上料机工艺流程 12
2.4 多接头自动排序与上料机构设计总体方案 12
3 机构的设计与选型 15
3.1自动排序与上料机 15
3.2上料机构设计 15
3.2.1压料气缸的选型计算 17
3.2.2 分度台的设计 18
3.2.3电磁铁的选型 18
3.2.4光电传感器 20
3.2.5电磁铁负载力计算 22
4分度盘的选型与计算 24
4.1 分度盘 24
4.1.1 分度盘的组成 24
4.1.2 分度盘种类 24
4.1.3 电动分度盘应用领域 24
4.1.4 电动分度盘特性 24
4.1.5 电动分度盘的优势 25
4.2电动分度盘选型计算 25
4.2.1机械机构参数 25
5 线盒的设计 29
5.1 线盒右板以及小盒子的设计 29
5.2直线滑轨选型计算 31
5.2.1直线导轨 (1)简介 31