针对滤袋弹性圆环的弹力检测由人工经验评价和人工拆卸已检圆环劳动强度大等问题,设计了一种滤袋弹性圆环弹力检测与圆环拆卸一体化装置。首先测试了滤袋弹性圆环约束状态下受径向压力下的弹力和变形量,提出了滤袋弹性圆环弹力检测与圆...针对滤袋弹性圆环的弹力检测由人工经验评价和人工拆卸已检圆环劳动强度大等问题,设计了一种滤袋弹性圆环弹力检测与圆环拆卸一体化装置。首先测试了滤袋弹性圆环约束状态下受径向压力下的弹力和变形量,提出了滤袋弹性圆环弹力检测与圆环拆卸装置原理,其次开展结构设计和样机试制、组装、调试。用本研究开发的装置开展了滤袋弹性圆环弹力检测与圆环拆卸因素影响试验,结果表明拆卸机构的主气缸推压深度、拆卸气缸推压位置、拆卸气缸推力分别为90 mm、b、80 N时能够成功拆卸滤袋弹性圆环。To address issues such as the high labor intensity of manual evaluation and disassembly of the elastic rings used in dust filter bags, we designed elastic force detection and disassembly integration equipment for an elastic ring of the dust filter bag. First, we tested the elasticity and deformation of the elastic rings under radial pressure in a constrained state. We then proposed the working principle of the equipment for elasticity testing and ring disassembly. Subsequently, we conducted structural design, prototype fabrication, assembly, and debugging. Utilizing the equipment developed in this study, we performed experiments to investigate the factors affecting both the elasticity testing of the elastic rings and the disassembly process. The results indicated that the main cylinder’s push depth, push position, and push force of the disassembly cylinder, set at 90 mm, b, and 80 N, respectively, successfully enabled the disassembly of the dust filter bag’s elastic rings.展开更多
美国KIDZ ON THEGROW公司此次所携带的一款装有拆卸式驱动机构、取名为“RENNRAD”的小轮径自行车(德国GOURP RHODAKUZ公司打造),在美国“2004拉斯维加斯国际自行车展”的“新品展示台”上刚一露面,便就吸引了许多观众和自行车采购商...美国KIDZ ON THEGROW公司此次所携带的一款装有拆卸式驱动机构、取名为“RENNRAD”的小轮径自行车(德国GOURP RHODAKUZ公司打造),在美国“2004拉斯维加斯国际自行车展”的“新品展示台”上刚一露面,便就吸引了许多观众和自行车采购商的眼光,产生了极大的轰动效应。展开更多
文摘针对滤袋弹性圆环的弹力检测由人工经验评价和人工拆卸已检圆环劳动强度大等问题,设计了一种滤袋弹性圆环弹力检测与圆环拆卸一体化装置。首先测试了滤袋弹性圆环约束状态下受径向压力下的弹力和变形量,提出了滤袋弹性圆环弹力检测与圆环拆卸装置原理,其次开展结构设计和样机试制、组装、调试。用本研究开发的装置开展了滤袋弹性圆环弹力检测与圆环拆卸因素影响试验,结果表明拆卸机构的主气缸推压深度、拆卸气缸推压位置、拆卸气缸推力分别为90 mm、b、80 N时能够成功拆卸滤袋弹性圆环。To address issues such as the high labor intensity of manual evaluation and disassembly of the elastic rings used in dust filter bags, we designed elastic force detection and disassembly integration equipment for an elastic ring of the dust filter bag. First, we tested the elasticity and deformation of the elastic rings under radial pressure in a constrained state. We then proposed the working principle of the equipment for elasticity testing and ring disassembly. Subsequently, we conducted structural design, prototype fabrication, assembly, and debugging. Utilizing the equipment developed in this study, we performed experiments to investigate the factors affecting both the elasticity testing of the elastic rings and the disassembly process. The results indicated that the main cylinder’s push depth, push position, and push force of the disassembly cylinder, set at 90 mm, b, and 80 N, respectively, successfully enabled the disassembly of the dust filter bag’s elastic rings.