Page 92 - 《橡塑技术与装备》2021年11期(6月下半月橡胶)
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橡塑技术与装备(橡胶) CHINA RUBBER/PLASTICS TECHNOLOGY AND EQUIPMENT (RUBBER)
能分析将硬质塑料改装为 ASGC50-500 氯丁橡胶海
绵,其具有质轻、柔软、有弹性和成本低的性能,无
需硬质塑料做沟槽加工,买来通过截取尺寸可直接使
用,用于此作业环境非常合适,有效的解决了钢丝圈
损坏和夹取位置不好调节的现象。如图 9 所示。
图 7 防超越机构
图 9 接取装置优化图
2 结论
此次对钢丝圈缠绕机的整个联动线进行了优化和
改进,不但节省了备件成本,还提高了生产效率,节
约了原材料。从目前的使用情况来看,设备、生产和
图 8 顶端横档杆安装示意图
工艺都有了很大提高,说明改造是成功的,此设备与
规格很难把握夹取装置松紧的位置,此问题严重影响 同类设备相比,更适合我公司的发展需要。
工艺效果和操作难度。为解决以上问题,经过工艺性
Upgrade and optimization of wire coil winding production line
Wu Bo, Liu Jing, Gao Can
(Hangzhou Chaoyang Rubber Co. LTD., Hangzhou 310018, Zhejiang, China)
Abstract: The steel wire winding production line is used for winding radial tires with regular and flat
hexagonal cross-sections. The production line uses coiled steel wire as raw material, and completes the
necessary traveller part of the tire through processes such as opening, preheating, coating, cooling, storage,
tension control, and winding. The performance of the traveler winding equipment directly affects the output
and quality of tires. By analyzing and optimizing the mechanical structure and electrical system of the
traveler winding production line, the use performance of the equipment is greatly improved, the operation is
convenient, the maintenance cost is reduced, the energy is saved, and the production efficiency is improved.
Key words: wire coil winding production line; optimization; modification; design
(R-11)
·36· 第 47 卷 第 11 期
