基于3D打印技术的风能转换装置创新设计
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摘要
基于深海潜水泵机构原理,采用SolidWorks建模软件,创新性设计了风能转换装置。转换装置由24个叶片的叶轮、12个叶片的叶轮、6个叶片的叶轮和3个叶片的叶轮、阶梯轴以及动力装置外壳组成。同时,将3D数字创新设计与3D打印技术相结合,制作了风能转换装置模型,从模型看出风能转换装置装配合理。
Based on the principle of deep-sea submersible pump mechanism, the wind energy conversion device is innovatively designed using SolidWorks modeling software. The conversion device is composed of 24 blade impellers, 12 blade impellers, 6 blade impellers, 3 blade impellers, stepped shafts and the shell of the power plant. At the same time, the model of wind energy conversion device is made by combining 3D digital innovative design with 3D printing technology. It can be seen from the model that the assembly of wind energy conversion device is reasonable.
Based on the principle of deep-sea submersible pump mechanism, the wind energy conversion device is innovatively designed using SolidWorks modeling software. The conversion device is composed of 24 blade impellers, 12 blade impellers, 6 blade impellers, 3 blade impellers, stepped shafts and the shell of the power plant. At the same time, the model of wind energy conversion device is made by combining 3D digital innovative design with 3D printing technology. It can be seen from the model that the assembly of wind energy conversion device is reasonable.
引文
[1]徐艳飞.小型垂直轴风力机叶轮动力性能研究[D].三峡大学,2012.
[2]朱艳萍,杨志强,徐创.低比转速双吸泵叶轮的几何参数对外特性的影响[J].通用机械,2018(12):50-53.
[3]李兴华.机械设计课程设计[M].北京:清华大学出版社,2012.
[2]朱艳萍,杨志强,徐创.低比转速双吸泵叶轮的几何参数对外特性的影响[J].通用机械,2018(12):50-53.
[3]李兴华.机械设计课程设计[M].北京:清华大学出版社,2012.